KR102452262B1 - Dependent Poisoning System for Earthquake Tsunami Prevention - Google Patents

Abstract

The present invention relates to a tsunami disaster prevention buoyancy poisoning device, and more specifically, the tsunami tsunami flotation poisoning device is equipped with a floating dock for small, medium, and large offshore hydroelectric power plants, so that the upper part of the sea level is 40m high on land. In order to prevent casualties and casualties before and after the tsunami, a rope net and safety tube formed in layers for lifesaving are installed around the bottom of the floating dock deck and the beach. A playground, an apartment building, and a building are provided to form a living ground, and a rope and safety tube are provided on the cable car (256) and the deck deck to prevent casualties inside the body (1) of the tsunami disaster prevention device. A pumping operation device and an electric power production and manufacturing device included in the tsunami damage prevention device connected to the construction machinery crane, the conveyor and the electronic control control device on the upper part of the floating dock deck deck Safety control management of electrical equipment and electronic control control device for construction machinery transportation device and power transmission device for power transmission Electronic control control device for construction machine control device and lifesaving cable car It is equipped with Awa screw adjustment devices to adjust the height of the apartment building to a height of 40 m above sea level on the hull of the apartment building, etc. It relates to a buoyancy-reading device for tsunami disaster prevention that rescues lifesaving and distressed ships by installing safety tubes and preventing great damage and property damage on the shore.
It will be composed for the purpose of providing the global village with a flotation reading device for tsunami disaster prevention that saves lives and rescues ships in distress.
On the other hand, according to the present invention, according to the long-term weather forecast provided by the artificial satellite, a safety pulley and a wire rope are provided in a lifeboat connected to the upper part of the sea level at a height of 40m without any reason, such as a coastal beach, so that a number of lifesaving and It will constitute the provision of a flotation reading device for tsunami disaster prevention to the global village to rescue ships in distress.
In addition, the hydroelectric power plant is formed at the top of the sea level at a height of 40 m, and a tsunami disaster prevention buoyancy-reading device that rescues multiple lives and ships in distress is constructed in the global village.

Description

Dependent Poisoning System for Earthquake Tsunami Prevention

The present invention relates to a tsunami disaster prevention buoyancy poisoning device, and more particularly, the tsunami tsunami prevention buoyancy reading device is equipped with a floating dock for small, medium, and large offshore hydroelectric power plants, so that the upper part of the sea level is 40m high on land. In order to prevent casualties and casualties before and after the tsunami, a rope net and safety tube formed in layers for lifesaving are installed around the bottom of the floating dock deck and the beach. A playground, an apartment building, and a building are provided to form a living ground, and a rope and safety tube are provided on the cable car (256) and the deck deck to prevent casualties inside the body (1) of the tsunami disaster prevention device. A pumping operation device and an electric power production and manufacturing device included in the tsunami damage prevention device connected to the construction machinery crane, the conveyor and the electronic control control device on the upper part of the floating dock deck deck Safety control management of electrical equipment and electronic control control device for construction machinery transportation device and power transmission device for power transmission Electronic control control device for construction machine control device and lifesaving cable car It is equipped with Awa screw adjustment devices to adjust the height of the apartment building to a height of 40 m above sea level on the hull of the apartment building, etc. It relates to a lifesaving system constructed to install safety tubes and to prevent great damage and property damage on the shoreline, and to a tsunami disaster prevention flotation reading device that rescues a ship in distress.

The floating fish tank for tsunami disaster prevention that rescues ordinary life-saving and distressed ships is equipped with the floating dock for small, medium, and large offshore hydroelectric power plants. In order to prevent casualties and casualties before and after the tsunami, a rope net and safety tube formed in layers for lifesaving are installed around the bottom of the floating dock deck and the beach. A playground, an apartment building, and a building are provided to form a living ground, and a rope and safety tube are provided on the cable car (256) and the deck deck to prevent casualties inside the body (1) of the tsunami disaster prevention device. In order to construct a floating fish tank to rescue life and rescue ships in distress, a rope net and safety tube are installed to prevent casualties in the area 40m below sea level before and after a tsunami, and to prevent great damage and property damage on the shore. It composes a flotation reading device for tsunami disaster prevention that rescues lifesaving and distressed ships. First, I will explain tsunami. A phenomenon in which waves are formed on the water surface due to sudden tectonic fluctuations such as earthquakes or volcanic eruptions that occur under the sea is called a tsunami or tsunami. , seismic waves, storm waves, etc., but seismic waves generated by earthquakes are dangerous. In the event of a tsunami, if it overlaps with a typhoon, the sediments in the sea are pushed to the depths of the inland, causing a lot of damage to life and property. It is different from a simple tsunami that comes only with the power of a typhoon.

In the inland rivers and coastal areas of the global village, safety from natural disasters is weak, so the need to install a tsunami buoyancy anti-seismic system suitable for tsunami tsunami prevention is urgently needed. As the research continued with the design and experiment of the tsunami, much effort was made to find the design process for the tsunami disaster prevention flotation reading device that rescues lifesaving and distressed ships.

A tsunami or tsunami is a phenomenon in which waves are formed on the water surface due to sudden tectonic fluctuations such as earthquakes or volcanic eruptions that occur under the sea.

일반사항으로는 도저의 규격 표시는 자중(t o n 또는 k g)으로 표시 즉 자체중량으로 표시하며 도저의 경제적인 작업거리는 10100m이며 별도로 2대의 도저로 삽 맞대기작업시 거리는 100m 이내로 하면서 도저의 3대 작업은 아래의 표와 같으며,

도저의 동력전달순서에 있어서 아래의 표와 같고,

도저의 작업량 산출에 있어 아래의 표와 같이 설명한다.
1) 시간당 작업량 :

단, q : 토공 판 용량(m³) f : 토 량 환산계수
E : 작업효율() C _m : 1회 사이클시간(m i n)
블레이드 (토공 판)용량 :

여기서. Q : 블레이드 용량(m³)
B : 블레이드 폭(m)
H : 블레이드 높이(m)

1회 사이클시간

(단. L : 작업거리(m). V ₁ : 전진속도(m i n). V ₂ : 후진속도(m/m i n). t : 기어변환시간(m i n)
견인력의 상세한 설명은 다음과 같다.

여기서,( : 마찰계수)
(W : 차량 중량(k g))
견인마력(H)

단,

도 24 내지 도 64에 도시한 바와 같이,종래의 지진해일피해방지장치(811)에 포함하는 선체위치이동 펌핑가동장치는 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치를 구성하며 도저의 분류에 있어서는 아래의 표와 같이 설명한다.
주행장치에 의한 분류(=접지 압 을 고려한 분류)에는 아래의 표와 같이 무한궤도식이 사용되는 크롤러형도저(855a)와 휠형도저(855b)로 분리한다.

무한궤도식(Crawler type)은 접지면적이 넓고, 접지 압력이 적어 나쁜 지형에서도 강력한 굴착능력을 가지며, 등판능력이 좋다. 습지용 트래슈를 사용하면 접지압이 낮아서 습지작업에 아주 적합하며, 트랙이 잠길 수 있는 깊이까지는 수중 작업이 용이하다.
타이어식(Wheel type : 차륜식)은 접지면적이 크고, 접지 압력이 커서 습지, 사지에의 작업이 불가능하지만 무한궤도식보다는 기동성,이동성이 양호하며 평탄지면이나 포장도로에서 작업하기에 효과적이다.
작업장치에 의한 분류에 있어서는 스트레이트도저(855c)와 틸트도저(855d)에 앵글도저(855e)로 분리하는데,스트레이트도저는 통상적으로 도저라 하며 삽을 변경할 수 없으며, 삽날(배토판)의 상부를 10씩 경사지게 조작하며 직선 절토, 송토 작업에 사용 블레이드(Blade)의 상하 작동에 유압실린더를 이용하여 자체중량으로 강력한 힘을 내어 굴착하는 기계인데 피치 조정으로 전후방 10씩 삽의 변화 각을 주어 굴토력을 조정할 수 있다.
앵글 도저(855e)는,삽날이 길고 낮으며, 삽날의 위치를 좌우로 필요한 각도만큼 변경하여 사용 틸트 도저(855d)와 스트레이트 도저(855c)의 역할을 할 수 있으며, 신설 도로 작업시 산허리를 깎아 한쪽으로 배토하는데 적합하고,위 그림의 용도에 있어서 경사지 배토 작업, 절토 작업, 제설작업, 측면 매몰작업, 도랑 매립작업, 파이프 매설작업, 굳은 땅 측면 자르기 작업에 사용되며 틸트 도저는,삽날의 각도를 수평면을 기준으로 하여 좌우로 각각 15cm 정도 경사를 지어 작업할 수 있으면서 동시에 언 땅, 굳은 땅, 옆 도랑 굴착, 바위 돌 굴리기, V형 배수로작업에 사용하며, 수해조절을 극복 조정할 수 있게 지진해일피해방지장치(811)에 포함하는 선체위치이동 펌핑가동장치는 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치로 구성되어있다.
도 24 내지 도 64에 도시한 바와 같이,종래의 지진해일피해방지장치(811)에 포함하는 선체위치이동 펌핑 가동장치의 지진해일방재용 부양식독장치를 구성하는 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치는,
도 24 내지 도 64에 도시한 바와 같이,부수장치에 의한 분류에는,
레이크도저와 힌지도저(855f)에 트리도저(855g)와 하이드릭리퍼(855i)에 푸시도저와 티나도저에 U도저로 세분화 되어 있으면서 레이크도저(855h)는,삽날 대신에 레이크 형의 쇠고랑 모양 부수장치를 부착한 도저이며 용도는 농지개간 및 도로공사 시 암석 골라내기, 잡목이나 나무뿌리 뽑기,댐건설 공사 시 큰돌 운반에 적합. 굳은땅 파헤치기에 사용된다.
지진해일피해방지장치(811)에 포함하는 선체위치이동 펌핑가동장치 트리도저(855g)는, 개간, 정지작업에 적합하고,힌지도저(855f)는 제토, 제설작업,토사 운반에 적합하며,하이드릭리퍼(855i)에는 지반이 단단하고 견고하여 굴착이 곤란한 경우 사용되었으며 불도저의 토공판으로 굴착이 곤란한 경우나 발파가 곤란한 암석 또는 옥석류의 제거, 아스팔트 포장 파괴에 사용한다.
푸시도저는 스크레이퍼 작업시 견인력을 주기 위해 스크레이퍼를 뒤에서 밀어주는 역할을 하면서 터나도저는 저압의 고무타이어식도저로 무한궤도식보다 고속이고, 운반토량의 증가가 가능하다. 또한 이동이 쉽고 포장에 해를 주지 않는 것이 장점이다.
U도저는 블레이드가 U형으로 되어 있기 때문에 옆으로 넘치는 것이 적어 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의선체위치이동 펌핑 가동장치는 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치에 구성된다.
도 24 내지 도 64에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 지진해일피해방지장치(811)에 포함하는 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 인명구조와 조난선박을 구조하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절을 구성하는 굴삭기(856)와 연결구조를 갖춘 유압탱크(819)에 플런저펌프(148)의 사축식 플런저펌프(148b)와 레이디얼 플런저펌프(148c) 건설기계 연결구조물로 구성하고,상기 유압탱크(819)는,열판(819a)과 유면계(819b)에 드레인(819c)과 탱크밑판(819d)에 격판(819e)과 석션스트레이너(819f)에 위판패킹(819g)과 흡입구패킹(819h)에 흡입구뚜껑(819i)과 탱크위판(819j)에 에어 블리저 겸 주유구(819k)과 탱크각판(819l)에 청소창 패킹(819m)들로 유량과 기체의 흐름을 조절하는 방재기계들로 구비되어 유압모터(820)와 유압펌프(821)로 연결하여 지진해일피해방지장치(811)에 포함하는 선체위치이동 펌핑 가동장치는 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치로 구성되어있다.
상기 플런저펌프(148)의 사축식 플런저펌프(148b)와 레이디얼 플런저펌프(148c)는,플런저(피스톤)의 왕복운동에 의하여 펌핑작용을 하는 펌프로서 고압펌프에 적합하다. 플런저펌프(148)는 플런저의 왕복운동방향과 구동회전방향과의 상대관계에 따라 액셜형(axial type)과 레이디얼형(radial type)으로 크게 나누어진다. 이러한 유형의 펌프 또는 모우터를 로우터리(rotaty) 펌프(337)라고도 말한다. 크랭크식 피스톤 펌프는 피스톤의 운동으로 분류하면 일종의 레이디얼형으로 생각할 수 있으나 구조상 다른 펌프와 상당한 차이가 있으므로 하나의 독립된 형식으로 분류해서 생각한다.
로우터리형 펌프(337)는 왕복운동 부분의 질량이 극히 작던가, 또는 전혀 왕복운동 부분이 없으므로 고속운전(보통 3000∼4000rmp, 큰 것은 15,000rpm 이상)이 가능하다. 그러므로 비교적 소형으로 고압 고성능의 펌프가 얻어진다. 다수의 플런저를 갖는 펌프를 고속 운전하므로 송출유의 맥동이 극히 적고, 진동도 적기 때문에 비교적 원활한 운전이 가능하다. 또한 기구상 가변용량형이 쉽게 얻어질 수 있다.
플런저의 지름이 비교적 작고, 행정도 작으며 공작정도도 얻기 쉬우므로 높은 용적효율의 펌프를 얻을 수 있다. 그러므로 현재 시판되고 있는 플런저 펌프는 송출압력 700∼350kg_f/cm², 송출량 10∼50ℓ/min, 효율 80∼90％의 것이 보통이다.
크랭크식의 피스톤 펌프는 종래에는 저속대형의 것이 많았으나 근래에는 고속회전, 고압, 소 송출량의 것이 개발되어 소형, 고효율, 구조가 간단한 특징 때문에 일반 산업용 및 특수용도로 널리 사용되고 있으며 액셜형 플런저 펌프(148a)에 있어서,상기 펌프 구조와 특징에는,
플런저가 축심을 중심으로 하는 원주상에 축심과 평행하게 배열된 실린더 블록에 삽입되어, 축심과 구동축과의 경각 혹은 사판 등의 기구에 의하여 왕복운동을 해서 펌핑작용을 하는 펌프로서 사축식(bent axis pump)과 사판식(swash plate pump)으로 크게 나눈다.
사판식 액셜 피스톤 펌프의 단면과 구조도를 도시한 것으로 실린더 블록은 구동축과 스플라인(spline)으로 결합되어 있으며 구동축의 회전에 따라 실린더 내의 피스톤이 사판과 함께 회전하게 되며 사판식은,
사축식에 비하여 구조가 간단하고 부품수가 적기 때문에 소형 경량이며 가격이 저렴하고 구조상 회전중량이 축 주위에 집중되어 있으므로 고속회전에 적합하여 설치면적이 좁은 건설차량이나 하역 운반기계 등에 많이 사용되고 있다.
도 24 내지 도 64에 도시한 바와 같이,상기 불도저(855)들은 지진해일피해방지장치(811)에 포함하는 선체위치이동 펌핑 가동장치는
해양수력발전소 부양식독(593,594,595)의 선체 위치를 이동 조절과 분해 조립을 하기 위해 구성하는 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량과 기체의 흐름을 조절하는 지진해일피해방지장치(811)에 포함하는 건설기계의 도저의 동력전달장치 부품들로 구성하는 부양식독 선체위치 이동설비 조절장치의 구성에는,
불도저의 부속장치의 토공장치를 대체하여 부속장치를 부착하여 작업할 수 있으며,
도저의 동력전달장치(855j)구성에는,
캠기타장치용 흡입펌프(855k)와 기관(855l)에 냉각계통(855m)과 최종기어장치(855n)에 기동륜의 스프로킷(855o)과 유동륜의 아이들러(855p)에 조항 클러치(855q) 건설기계의 도저의 동력전달장치 부품들로 구비된 선체위치이동 건설기계조절부의 건설기계들로 구성하는 부양식독(593,594,595)의 선체 도크 선체갑판 상단부(SDU) 위치에서 지진해일피해방지를 극복 조정할 수 있게 구성되어있다.
도 24 내지 도 64에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 쓰나미피해방지장치(811)에 포함하는 선체위치이동 펌핑 가동장치는 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 건설기계 연결구조물을 구성하며.지진해일방재용 부양식독장치로 구성하는 건설기계의 개요에 있어서는,불도저보다 운반거리가 크며 일명 캐리올이라고 칭하며,대량토공 작업을 하기 위한 기계로서 굴착, 적재, 운반, 부설, 다짐 등의 5가지 작업을 일괄하여 연속 작업이 가능하므로 건설기계의 도저의 동력전달장치 부품들로 구비된 지진해일피해방지장치(811)에 포함하는 선체위치이동장치는 건설기계들로 구비해 부양식독(593,594,595)의 선체 도크 선체갑판 상단부(SDU) 위치에서 쓰나미방재를 극복 조정할 수 있게 구성되어있다.
모터그레이더(862)의 각부명칭의 개요에 있어서는,머플러(862a)와 기관플라이휠(862b)에 냉각팬(862c)과 전후전달러치(862d)에 트랜스러치(862e)와 고정기어식변속기(862f)에 주차브레이크(862g)와 차등기어(862h)에 기어감속기(862i)와 디스크브레이크(862j)에 탠텀드라이브(862k)들로 구비된 모터그레이더(862)는, 해양수력발전소 부양식독(593,594,595)의 선체 위치를 이동 조절과 분해 조립을 하기 위해 구성하는 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 부양식독(593,594,595) 결합구조로 구비된 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치의 건설기계들로 구비해 부양식독(593,594,595)의 선체 도크 선체갑판 상단부(SDU) 위치에서 쓰나미방재를 극복 조정할 수 있게 구성되어있다.
모터 스크레이퍼는 차량식 트랙터와 스크레이터를 조합하여 자주 능력을 갖게 한 것으로 자신이 동력을 갖추고 있다는 것이 다르므로용도 및 규격에 대하여,용도에 있어서는 많은 토량을 굴착과 굴삭에 운반할 수 있으며 무른 토사나 토괴로 구성된 평탄한 지형의 지표면을 얇게 깍는작업. 토사.절토.적재.운반.성토작업을 할 수 있으며 주용도는 토사운반작업으로 밀어서는 운반하지 못한다.
규격에 있어서,볼의 평적(적재) 용량을 m³으로 표시하며 동력전달순서는 아래 표와 같이 설명한다.

스크레이퍼(859)의 분류에 있어서 상세한 설명을 아래의 표와 같이 설명한다.
[견인식 스크레이퍼(859a)와 동력식 스크레이퍼(859b) 비교]

상기와 같은 스크레이퍼(859)로 분류하는 견인식 스크레이퍼(859a)와 동력식 스크레이퍼(859b)들로 구비된 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치의 건설기계들로 구비해 부양식독(593,594,595)의 선체 도크 선체갑판 상단부(SDU) 위치에서 지진해일방재를 극복 조정할 수 있게 구성되어있다.
지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 크롤러형 도저(855a)와 휠형 도저(855b)에 굴삭기(856)와 스키머(856f)에 파일드라이버(882)와 스크레이퍼(859)의 주요 구성부분 및 역할에 대하여,볼은,토사(812)를 운반하는 용기로서 스크레이퍼(859)의 중심부를 이루며 진행방향의 아래 면에 삽날(Cutting edge)을 붙여 전진하면서 조작장치로 볼을 굴삭면에 자중으로 밀어 굴삭, 적재한다.
건설기계의 도저의 동력전달장치 부품들로 구비된 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치의 건설기계들로 부양식독(593,594,595)의 선체 도크 선체갑판 상단부(SDU) 위치에서 지진해일피해방지를 극복 조정하도록 구성되어있다.
에이프런(859c)에는,볼의 전면에 설치하며 볼의 토사(812)가 흘러내리지 않도록 하는 역할을 마련하며,적재 및 사토시에는 위로 올리게 해양수력발전소 부양식독(593,594,595)의 선체 위치를 이동 조절과 분해 조립을 하기 위해 구성하는 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치 본체(1) 내부로 유량의 흐름을 조절 구성하며 에어프런(859c)과 이젝트(859d)에 볼(859e)과 커팅테지(859f)의 분해 조립의 결합 구조로 건설기계 도저의 동력전달장치 부품들로 구비된 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 건설기계로 구비해 부양식독(593,594,595)의 선체 도크선체갑판 상단부(SDU) 위치에서 지진해일방재를 극복 조정하도록 구성되어있다.
이젝터(Ejector;859d)에는,일명 테일 게이트라 하며 볼의 뒷면에 위치하고 볼 내의 토사를 밀어내는 역할 및 토사를 적재할 수 있도록 넓은 공간을 만드는 일을 한다.
요크(Yoke)에 있어서는,볼(859e)과 트랙터를 결합해 주는 부재이다.

스크레이퍼의 작업량(피견인식 스크레이퍼)은,

여기서, Q : 볼 1회 흙 운반 적재량
f : 토 량 환산계수
E : 스 크 레 이 퍼 의 작업효율
C _m : 사이클시간으로 분류한다.
그레이더(862l)는 토목공사에 사용하는 것으로 주로 정지작업을 하며 균토판(삽날:블레이드)을 장치하여 지표를 긁어 땅을 고르는 장비이며 토공 기계의 대패라 불리우는 장비로서 지면을 매끈하게 다듬어 끝맺음을 할 때 사용하는 장비로 용도 및 규격에 있어서는,용도와 성능 표시는 삽날(블레이드)의 길이로 표시하며 아래의 표와 같이 설명한다.

동력전달순서에 대해 아래의 표와 같이 설명한다.

모터그레이더(862)의 주차 브레이크는 변속기어의 하부축을 잡아주며 외부 수축식이다.
동력전달순서에 대해 아래의 표와 같이 설명한다.

블레이드의 추진각도와 절삭각도에 있어 아래의 표와 같이 추진각도는,그레이더 중심선과 블레이드가 이루는 각으로 단단한 땅에는 작게, 정지작업 시에는 70°내지 90°정도로 작업을 마련하며 절삭각도는,절삭 지면에 대하여 블레이드 절삭 날이 기울어져 있는 각도이며 절삭작업시에는 작게. 정지작업시에는 크게 잡는데,그레이더와 배토판과의 각도를 조절하여 흙을 옆으로 밀어낼 때 45°와 60°정도로 하고 끝마무리에서는 90°정도로 한다.

블레이드 용량에 대해 아래의 표와 같이 설명한다.

단. Q : 블레이드 용량(m³)
B : 블레이드 폭(m)
H : 블레이드 높이(m)
조향장치의 최소 회전반경

(단. L : 축 거리. : 킹 핀. : 외 측 바퀴 각 )
차등기구가 없는 이유
작업성질상 직진성을 좋게 하여 다듬질 정밀도를 높이고, 능률을 올리기 위함이며,해양수력발전소 부양식독(593,594,595)의 선체 위치를 이동 조절과 분해 조립을 하기 위해 구성하는 모터그레이더(862)는 지진해일방재용 부양식독장치 본체(1) 내부로 결합구조로 구성되어있다.
해양수력발전소 부양식독(593,594,595)의 선체 위치를 이동 조절과 분해 조립을 하기 위해 구성하는 지진해일방재용 부양식독장치 본체(1) 내부로 유량의 흐름을 조절 구성하며 에어프런(859c)과 이젝트(859d)에 볼(859e)과 커팅테지(859f)의 분해 조립의 결합 구조로 건설기계의 도저의 동력전달장치 부품들로 구비된 지진해일피해방지부(811)의 선체위치이동 펌핑 가동부는 건설기계들로 구비해 부양식독(593,594,595)의 선체 도크선체갑판 상단부(SDU) 위치에서 인명구조와 조난선박을 구조하는 지진해일방재를 극복 조정할 수 있게 구성되어있다.
지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절을 구성하는 리퍼와 루터(856g)에 익스턴트케이블(861b)과 기중기의 6개 전부장치(861p)와 드레그 크레인(887) 건설기계 연결구조물로 구성하며,해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구비되어 인명구조와 조난선박을 구조하는 지진해일방재를 극복 조정하도록 구성되어있다.
셔블계 굴착기는 가장 오래전부터 사용한 적재기계로서 굴착기계로 사용하는 것 외에 프런트 어태치먼트(Front attachment)를 설치하여 많은 작업을 할 수 있는 다목적기계이다.
셔블 또는 크레인을 기본형으로 하고, 각종 부속장치의 교환에 의하여 여러 가지 굴삭 작업과 크레인 작업을 하는 기계로서 상부회전체는 360° 선회가 가능하며 주요 3대 구성요소의 굴삭기(856) 구조에 대하여 다음과 같이 설명한다.

굴삭기(856)의 외부구조와 굴삭기(856)의 분류에는,주행장치에 따른 분류에 의하면 크롤러형과 휠형에 트럭탑재형으로 분리하는데 크롤러형은,견인력이 크고 협소한 장소에서의 작업이 용이하며, 습지, 사지, 활지의 운행이 용이하고 안정성이 아주 좋으며 포장도로 운행이 곤란하고 주행속도가 3.2 km/hr로 느리며,다음의 휠형은 포장도로와 교량 등의 운행이 좋고 작업장의 이동이 용이한 형식으로 주행속도는 40 km/hr 정도이고 작업능률은 크롤러형보다 30% 내지 35% 높으며,그리고 트럭 탑재형은 주행속도가 60 km/hr정도로 기동성은 좋으나 작업능률이 저조하다.
조작방법에 따른 분류에는, 수동식과 유압식에 공기식과 전기식으로 분리하며 크기에 의한 분류에 있어서는 소형과 중형에 대형으로 분리하면서 소형은 철도, 트레일러의 수송에 임하여 둥글게 적재할 수 있는 일측의 한계로서 기체 중량 20t 이하의 것을 말하며 바켓 용량 0.6 m³ 이하의 셔블 과 중형은 바켓 용량 3 m³ 크레인 조상능력 10 t 정도까지이며 대형은 중형 이상의 기체 중량의 것이 된다.
굴삭기(856)의 성능 표시 방법은 백호(856a), 파워셔블(856b), 드래그라인(856c),클램셸(856e) 버킷(Bucket)의 용량(m)으로 표시하고 어스드릴(856d)은 굴착구경으로 표시하며 파일드라이버(882)는 해머의 중량으로 표시되고 크레인(861)은 최대권상 하중을(ton)으로 표시하며,그리고 셔블(856b), 백호(856a), 드래그라인(856c), 클램셸(856e)의 작업량 산정식은 아래와 같다.
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해양발전소 몸체 상단에 구성하는 건설용 위치조절 구성을 보여주는 해양수력발전소 부양식독(593,594,595)의 선체 위치를 이동 조절과 분해 조립을 하기 위해 구성하는 지진해일방재용 부양식독장치 본체(1) 내부로 유량의 흐름을 조절하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치들로 구비해 건설기계의 백호(856a) 분배투입장치 구성에는, 분배투입장치 백호(Back hoe;856a)는, 작업 위치 보다 낮은 굴착에 쓰이고 하천, 건축의 기초 굴착에 사용되며 도랑파기 기계보다 낮은 쪽을 굴삭 하면서 기계보다 높은 곳에 있는 운반장비에 적재가 가능하며 주로 좁은 위치를 굴삭 하며 상기 백호(856a)는 대형산불 예방용 방재 및 방제 배관라인 설치공사에 적합하면서 동시에 파워 셔블(Power shovel)은 원형으로 작업위치보다 높은 굴착에 적합하며 산. 절벽 굴착에 쓰인다.

유압 셔블의 특징(기계 로프 식과 비교시)에 의하면,첫째는 구조가 간단하며 둘째는 프론트의 교환과 주행이 쉽고 세 째 로 보수 및 운전조작이 간편하며 끝으로 모든 면에서 기계 로프식 보다 우수하다는 것이었다.
드래그 라인(Drag line;856c)의 긁어 파기에는 먼저 작업반경이 크며 수중굴착에도 용이하다는 것이었으며 다음은 지면보다 낮은 곳을 넓게 굴삭 하는데 사용되었고 그 다음에는 하천의 사리채취에도 사용되며 끝으로 단단하게 다져진 토질이나 자갈 채취에는 적합하지 않다는 것이었다.
어스 드릴(Earth drill;856d)은 무 소음으로 대구경의 깊은 구멍을 굴착하여 현장 박기 조정에 사용된다는 것이고 교각겸용 지주탱크(590)와 지주탱크 상단의 바지선 선체(591)에 지주탱크 하단의 바지선 선체(592) 교각 설치에 적합하며 다음의 크레인(Crane)은 중량물의 하역, 높은 건축공사에 쓰이며 버킷 대신 훅(Hook)을 장치하고, 중량물을 들어올리는 기계이며 파일드라이버(Pile driver;882)는 항타용 기구로서 콘크리트 말뚝이나 시트파일을 박는데 쓰이며 기둥 박기로 교각 설치용에 적합하면서 클램셸(Clamshell;856e)은 수중 굴착, 폭발작업 등 일정장소의 굴착에 적합한 조개장치인 것이었고 지반 밑의 좁은 장소에서 깊게 수직 굴삭에 사용되는 것이며 해저 망간단괴(909) 재취용에 적합하면서 자갈, 모래, 흙을 굴삭하여 덤프트럭에 적재하는데 많이 사용하는데 단단한 지반의 굴삭에는 적합하지 않다는 것이며 끝으로 트렌처는 도랑을 파기 위하여 사용하는 기계로 적합하다는 것이다.
굴삭기의 작업범위로는 최대 굴삭 깊이는 버킷 투스의 선단을 최저위치로 내린 경우 지표면에서 버킷 투스의 선단까지의 길이로서 최대 굴삭 반경(=최대작업반경)은 선회할 때 그리는 원의 중심에서 버킷 투스의 최대 수평거리이고 최대 덤프 높이는 최대 지상고이었다.
그리고 스키머(Skimmer;856f)의 구조 및 기능에는, 선회대에 달린 붐을 따라 버킷이 체인의 힘으로 이동되면서 지표를 얇게 깎는 건설장비인데 좁은 장소에서 얇은 굴착에 적당한 것이고 이의 용도에 있어서 대형기계로는 작업이 곤란한 협소한 장소에서 얇은 굴착에 사용하므로 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절을 하기 위해 해양발전소몸체 도크 선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구비되어 인명구조와 조난선박을 구조하는 지진해일방재를 극복 조정하도록 구성되어있다.
리퍼와 루터(Ripper, Rooter;856g)의 구조 및 기능에는, 지반이 단단하고 견고하여 굴착이 곤란한 경우에 사용되며 대형 불도저의 뒤에 부착하여 자체의 중량으로 23개의 발 톱날을 이용하여 단단한 지반을 긁어 파헤치는데 적당하다는 것이며 이의 용도에 있어서 나무뿌리 파헤치기, 아스팔트나 콘크리트 포장 파헤치기와 암석 또는 옥석류의 제거에 굳은땅 파헤치기에 사용되는 것이었다.
크레인(기중기,861)의 개요에 따라서 기중기라 부르며 중량물의 들어올리기와 내리기, 다른 작업장치를 이용하여 파쇄작업, 폐철 수집과 건축 공사에 많이 사용, 토목건설공사에 사용되는 토사, 석재, 기자재 등의 이동, 운반을 목적으로 차체 전면에 훅, 클램셸, 드래그 라인 전부장치를 설치하여 다목적으로 사용되는데에는 구조 및 기본 주요 3부 명칭은 다음과 같이 설명한다.

기중기(861)구조 및 명칭(861a)에는 훅(18) 그 이외는 도면에 기재한 바와 같다.
크레인 또는 기중기 구조의 각부명칭은,익스턴트케이블(861b)과 하중계(861c)에 브리들(861d)과 붐벡스들(861e)에 메이로프(861f)와 붐호이스트로프(861g)에 상부프레임(861h)과 하부프레임(861i)에 호이스트로프(861j)와 전방드럼(861k)에 중간드럼(861l)과 (861m)후방드럼에 균형추(861n)들로 구비되어 결합구조를 마련한다.
케이블크레인(861o)은,다음과 같은 기중기의 6개 전부장치(861p)를마련하는데 갈쿠리(Hook)장치(861q)와 조개(Clamshell)장치(861r)에 삽(Shovel;861s)장치,긁어파기(Dragline;861t)장치,도량파기(Trenchhoe;861u)장치,기둥박기(Pile driver;861v)장치들로 작용하므로 해양수력발전소 부양식독(593,594,595)의 선체 위치를 이동 조절과 분해 조립을 하기 위해 구성하는 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량의 흐름을 조절하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계들로 연결 구성되어있다.
규격(성능)표시방법으로는 최대 권상 하중을 톤(ton)으로 표시하는데 크레인의 7가지 기본동작은 아래의 표와 같다.

도 24 내지 도 64에 도시한 바와 같이,상기와 같이 크레인의 6개 전부장치(작업장치)에는 먼저 크레인(갈 쿠 리 : Hook)은 일반적인 기중작업,화물의 적재 및 적하작업에 사용되며 클램셸(조개 : Clamshell)은 토사 적재작업, 수직 굴토작업, 오물 제거작업, 수중굴착, 호퍼작업 및 깊은 구멍파기 작업에 적합하였으며 셔블(삽:Shovel)은 토사굴토, 경사면의 굴 토, 차량의 토사적재,도로의 기초공사에 적합하고 드래그라인(긁어파기:Drag line)은 제방 구축작업,배수로 구축작업,평면굴토 및 수중작업 차량에 토사를 적재시 적합하며 트렌치호(도랑파기:Trench hoe)는 배수로작업, 매몰작업, 굴토작업, 채굴작업, 송유관매설작업에 적합하였고 파일드라이버(기둥 박기 : Pile driver)는 건물 기초공사 작업시 기둥박기작업, 교량의 교주 항타작업에 사용되는 것으로서 상기 6개의 크레인은 수력발전소 몸체를 조립하는데 주요 장비이다.
도 24 내지 도 64에 도시한 바와 같이,붐(Boom)의 운전각도는 아래와 같다.
최소 제한 각은 20(단, 백호는 최소 제한각을 제한받지 않음)에 최대 제한각은 78°이며 최대 안전각은 66°30'로서 보통 작업각도는45°내지 65°이다.
그리고 크레인(기중기)작업시 물체의 무게가 무거울수록 붐(Boom)의 길이는 짧게 하고 각도는 크게 한다.
크레인의 분류에는 크롤러식과 트럭식으로 구분하는데 주행장치에 의한 분류는 아래표와 같이 설명한다.

도 24 내지 도 64에 도시한 바와 같이,사용용도별 종류에 있어 다음과 같이 분리되며 드래그 크레인(Drag crane)의 기능은 접지압이 크며, 연약 지반에서는 작업이 불가능하나 기동성이 좋다는 것이고, 용도는 고층건물의 철골 조립, 자재의 적재 운반, 항만 하역작업에 사용되며,타워 크레인(Tower crane)의 구조 및 기능은 높은 탑 위에 짧은 지브나 해머헤드식 트러스를 장치한 크레인이며,용도는 높이를 필요로 하는 고층빌딩이나 건축현장에 많이 사용되었으며 유압크레인(Hydraulic crane)의 구조 및 기능은,
유압으로 하여 장치를 조작하는 이동크레인으로서 붐(Boom)은 보통 510m까지 신축가능하고 권상 하중은 보통 310 ton이고 용도는 항만 하역공사, 토목공사, 전주작업, 중량물의 권상 작업에 사용되면서 동시에 케이블 크레인(Cable crane)의 구조 및 기능은,
양끝을 타워(Tower)에 굵은 케이블을 쳐서 트롤리를 달아 올리는 방식이며 용도는 댐(Dam)공사시 콘크리트나 자재 운반용으로 사용하면서 동시에 데릭 크레인(Derrick crane)은,
본 발명 주요 구성 부위로 상기 데릭 크레인의 구조 및 기능은, 철골제 마스트의 밑부분에서 비스듬히 붐(Boom)을 세워 블록을 지나와 이어 로프로 매단 중량물을 윈치로 감아 올려 옮기는 기계이며 용도는 철골의 조립, 기초공사, 교량의 가설작업에 사용되고 종류로는 가이 데릭은 재료빔에 대해 짐을 매다는 능력이나 작업반경이 크고 조립해체가 용이하며 하역작업. 중량물의 이동. 철골 조립작업에 사용되면서 동시에 3각 데릭은,좁은 장소나 빌딩의 옥상작업에 알맞으며 기초가 없어도 되고, 차륜에 설치한 경우는 이동이 용이하므로 파일 해머작업, 교량가설, 항만 하역에 사용되는 것이므로 해양수력발전소 부양식독(593,594,595)의 선체 위치를 이동 조절과 분해 조립을 하기 위해 구성하는 지진해일방재용 부양식독장치 본체(1) 내부로 유량의 흐름을 조절하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계들로 연결 구성되어있다.
트랙터 크레인(Tractor crane)은 먼저 셔블계 굴착기의 상부 체에 크레인을 부착한 것으로 휠식과 크롤러식인데 다음의 아웃 리거는 안전성을 유지해 주고 타이어에 하중을 받는 것을 방지하여 타이어 및 스프링 하중으로 인하여 마모 파손되는 것을 방지해 주는 역할을 하며 천정주행 크레인(=문형크레인)은,천정에 주행 레일을 설치하여 이동하도록 한 크레인이며 보통 콘크리트 빔(Beam)의 제작 및 가공현장에 사용되는데 고정형은 공장, 창고에서 적재작업에 사용하는데 하지만, 건설공사에는 사용하지 않고, 그리고 주행형은 건설공사에 많이 사용한다.
체인 블록(Chain block, 648)은 보통 하역용으로서 최대 15ton까지 인력으로 끌어올릴 수 있으며 기중기의 권상, 권하 작업시의 안전장치는 브레이크와 제한스위치이다.

해상크레인은 교량의 대형 강구조물의 운송 및 가설. 초대형 시설물의 운송 및 설치, 해상 구조물 운송 및 설치에 사용되는데 드레그 크레인(887)과 타워 크레인(886)에 유압 크레인(885)과 케이블 크레인 및 클램셸 부착물을 가진 크레인(888)이 포함하면서 동시에 유압크레인(885)과 타워크레인(886)에 가이데릭 구조의 각부명칭(886a)은,가이데릭(886b)과 주측(886c)에 붐(886d)과 붐호일(886e)에 턴버클(886f)과 공망(886g)들로 연결 구성하면서 3각 데릭(886h)은,주측(886i)과 붐(886j)에 붐호일(886k)과 레크(886l)들로 구성하고 드레그 크레인(887)의 드레그 크레인의 구조(887a)에는 호이스트 케이블(887b)과 덤프케이블(887c)에 버킷(887d)과 하부붐(887e)에 레터렉트케이블(887f)과 케이블롤러(887g)에 붐케이블(887h)과 케이블롤러(887i)와 붐 호이스트 케이블(887j)에 케이블드럼(887k)과 케이블드럼(887l)에 평행추(887m)들로 연결 구성되어있으며,동시에 클램셀 부착물을 가진 크레인(888)의 구조에는 홀딩 라인(888a)과 개폐라인(888b)에 클램셀 버킷(888c)에 상부프레임(888d)과 하부프레임(888e)에 랙 라인(888f)과 로프가이드(888g)에 붐탠던트(888h)와 브리들(888i)에 붐호이스트로프(888j)와 전방드럼(888k)에 후방드럼(888l)과 평행추(888m)들로 연결 구성되면서 동시에 해양수력발전소 부양식독(593,594,595)의 선체 위치를 이동 조절과 분해 조립을 하기 위해 건설기계로 구성하는 지진해일피해방재용 부양식독장치 본체(1) 내부로 유량의 흐름을 조절하는 지진해일피해방지장치(811)들로 구비해 해양수력발전소 부양식독(593,594,595)의 선체 위치를 이동 조절과 분해 조립을 하기 위해 구성하는 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량과 기체의 흐름을 조절하는 지진해일피해방지장치(811)들로 구비해 건설기계들은 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계들로 연결 구성되어있다.
도 24 내지 도 64에 도시한 바와 같이,로더(857)의 분류에는,먼저 주행방법에 의한 분류로서 크롤러형로더(857a)(장궤식=무한궤도식=크롤러식=셔블로더)는 크롤러 트랙터 앞에 버킷(Bucket)을 설치하여 험악한 늪지나 모래땅에서 작업을 수행할 수 있으며 수중작업이 가능함이며 휠형로더(Wheel type loader;857b)(차륜식=타이어식=휠식로더)는 휠형 트랙터 앞에 버킷(Bucket)을 설치한 것으로 평탄한 작업장에서 기동성이 우수하고 작업 수행능력이 크며 포장한 도로에서 작업 용이하고,반 무한 궤도식 로더는 전, 후륜의 한쪽을 무한궤도식으로 하고, 다른 한쪽에는 타이어를 장착한 것으로 무한궤도식과 차륜식의 단점을 보완한 기종이며,레일식로더(857c)는 레일 위를 주행할 수 있는 장치로서 터널이나 갱내에서 적재 작업을 한다.
적하방식에 의한 분류는 아래의 표와 같다.

로더(857)의 상차 적재방법은 아래의 표와 같다.

도 24 내지 도 64에 도시한 바와 같이,그 이외의 로더(857)에는,머크로더(Muk loader)로서 터널공사에서 많이 사용하며 굴착공사에서 폭파된 토석 등을 운반차에 적재하는데 사용되며,페이로더(Pay loader)는 덤프트(860)럭에 토사를 적재하는데 사용하며 가급적 서서히 운행해야 하고 무부하 운전시 버킷(Bucket)을 올려서는 안되며,레일식 슬랙로더는 터널이나 갱도의 굴삭 작업에서 폭파된 슬래그를 운반차에 적재하는 전용 중기이며,연속식로더에는, 개더링암 로더로 각종 터널,택지조성,석회석 채굴에 사용되었으며 스크루엑스카베이터는 시가지의 지하굴삭공사,공장 또는 배 안에서의 토사 적재작업에 사용되는 것이었고, 버킷휠엑스카베이터가 사용되어 있는 것과 벨트로더가 사용되는 것과,스키드로더는 갱도나 터널에서 작업하기에 알맞은 적재기계로서 작업량 산정식은 아래의 표와 같다.

지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절을 구성하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치들로 구비해 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치로 연결 구성되어있다.
덤프트럭(860)의 종류에는,리어(Rear)덤프트럭은 짐칸을 뒤쪽으로 기울게 하여 짐을 부리는 트럭으로 토목공사에서 가장 많이 사용하고 있으며 사이드 덤프트럭(860)은 짐칸을 옆쪽으로 기울게 하여 짐을 부리는 트럭이고 보텀덤프트럭(860)은 지브의 밑부분이 열려서 짐을 아래로 부릴 수 있는 것으로 트레일러 덤프차에 많이 사용되고 3방 열림 덤프트럭은 3방향으로 짐을 부릴 수 있는 트럭이며,이에 덤프트럭의 작업량 계산식은 아래의 표와 같다.
트럭의 소요 대수 계산 :

트럭작업량 계산 :

여기서,

덤프트럭(860)의 주행저항에는 회전저항과 구 배 저항에 구동력의 계산식이 있으며 회전저항(W_r)은

표시하고,구배 저항은(W_g)은

상기와같으며,구동력(W_s)은

상기와 같았다.여기서,

덤프터(Dumptor)는 단거리 운반의 특수 비포장 도로용 트럭으로 협소한 작업장에서 작업 가능하며 그리고 기관차는 다음과 같이 운반거리가 1 km 이상인 경우에 사용하며 터널공사 방조제의 토운 공사에 이용되었고 크기는 견인력을 표시하는 자중(ton)으로 표시되며,트랙터 및 트레일러(860a)는 중량물이나 장착물 및 건설기계의 불도저, 롤러를 적재한 피견인 트레일러(860a)를 트랙터에 의하여 운반하는 기계이며 트랙터의 주행장치는 크롤러식.반 크롤러식, 차륜식으로 구분한다.
삭도(Rope way)는 산간 양쪽에 철탑을 세우고 케이블을 연결한 후 60 m 마다 운반기를 배치하여 화물을 운반하는 기계로서 지형 및 도로조건에 제약을 받지 않는다는 점과 고장이 적으며 비교적 장거리 운반에 용이하다는 것이었다. 그리고 댐공사에서 골재 및 시멘트의 재료운반에 사용되며 이같이 왜건(Wagon)은 모터스크레이퍼와 비슷하나 자력으로 흙 깔기를 할 수 없고 싣기 기계로부터 적재한 토사를 운반하는 기계이며 트랙터 드로운 왜건은 트랙터에 의해 견인되며. 앞. 뒤 끝에 차축과 바퀴를 붙인 것으로서 풀(full) 트레일러(860a)라고도 한다.
지게차(포크리프트 : Forklift;858)의 개요로서 화물을 올리거나 내리는 장비이며, 자동차와 공통되는 점이 많은 장비로서 창고나 부두 옥내외에서 널리 사용되는 장비. 즉, 경화 물의 단거리 운반 및 적재와 적하작업에 효과적이며 규격표시는 들어올릴 수 있는 용량을 톤(ton)으로 표시(1톤 이상 중기)하고 이에 대한 특징으로는 조종석에 설치되어 있는 틸트 레버는 마스터를 앞으로 56°(전 경각이라 함), 뒤로 10°12° (후 경각이라 함)기울일 수 있고 높이는 최대 4500mm, 최소 3000mm(최대 양 고 라 함)움직일 수 있다.
최소 반경이 매우 적다. (65°75°안쪽 바퀴의 조 향 각도)
유압피스톤의 압력은 110130 kgf/cm²가 된다.
전륜구동은, 후 륜 환향 식으로 되어있다.
지게차(858)의 스티어링 장치 : 후 륜 환 향 식
유압으로 작동하는 마스터 뭉치가 설치되어 있다. (유압 70130 kgf/cm²)
운행시 포크는 지상으로부터 150200mm 정도 올리고 운행한다.
운행거리 250m 이내가 효율적이다.
앞바퀴는 직접 프레임에 설치하며 뒷바퀴는 소형에서는 현가 스프링이 없으나 대형은 현가 스프링을 사용하는 것도 있다.
조종방법에는 효율적인 운반거리의 운반거리는 250m이내 작업에 적합하며 주행중 포크의 높이는 화물을 적재하여 운반시 포크의 높이는 150200mm정도 올리고 주행한다는 것이고 경사지 운반은 경사지적 화물 운반시 포크 부(전면부)가 윗부분으로 향하고 후진하여 서행한다는 것이며 해양수력발전소 부양식독(593,594,595)의 선체 위치를 이동 조절과 분해 조립을 하기 위해 건설기계로 구성하는 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량과 기체의 흐름을 조절하는 지진해일피해방지장치(811)들로 구비해 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치로 연결 구성되어있다.
컨베이어(Conveyor, 633)는, 자재 및 콘크리트의 운송에 주로 사용되며 설비가 용이하고 경제적이므로 많이 사용되며 종류에 있어서는,대형 컨베이어는 모래, 흙, 자갈, 쇄석 등의 운송에 사용한다는 것이고,
스크류(Screw) 컨베이어는 모래, 시멘트, 콘크리트 운반에 사용한다는 것이며 벨트(Belt) 컨베이어는 흙, 쇄석, 골재 운반에 가장 널리 사용한다는 것이었고, 크기 : tonm 포터블(Portable) 컨베이어는 모래 자갈의 운반 및 채취에 사용한다는 것이었다.
이같이 특장 운반차에는 부정지 주행차와 유니모그에 호이스팅으로 아래와 같이 설명한다.
부정지 주행차는 진흙, 모래, 요철 등의 악조건에서 운반작업이 가능한 차 륜식 전륜 구동차인데,
유니모그(Uni mog)는 농업용, 토목, 제설, 도로 유지관리의 여러 분야에 널리 사용할 수 있는 차량이고 호이스팅은 중량물을 달아 올려 운반하는 건설기계로 구성하는 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량의 흐름을 조절하는 지진해일피해방지장치(811)들로 구비해 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치로 연결 구성되어있다.
도 24 내지 도 64에 도시한 바와 같이,롤러(863) 개요로는 전압장치를 가진 자주적인 것으로 2개 이상의 매끈한 드럼 롤러를 바퀴로 하는 다짐용 기계로 전압기계라고도 하며 주로 도로, 제방, 비행장, 활주로의 공사의 마지막 작업으로 노면을 다져주는 건설장비이다.상기 롤러(863) 규격 표시에는 롤러의 중량을 톤(ton)으로 표시하며롤러(863)의 규격이 815톤(ton)인 경우에는 자체 중량이 8ton이고 벨러스트(부가 하중)를 7ton까지 적재한다.
롤러(863)의 종류에 있어 전압식에 충격식과 가압방식의 진동식으로 분리한다.

위 표와 같이,요 부위의 부가하중(Ballast:중량 추)은,롤러자체의 무게로 전압능력이 작을 때 부가하중을 실어서 전압능력을 높이는 것을 부가하중이라 한다. 자중의 2배 이상으로 추가시킬 수 있다. 부가하중은 철, 물, 모래를 이용하는데 타이어롤러는 물탱크에 필요한 만큼 주입하고, 머캐덤, 탠덤, 탬핑 롤러는 바퀴에 부가하중을 주입하여 전압능력을 높인다.
가압방식에 의한 분류에 있어서는 전압식 다짐 기계는 로드 롤러, 타이어 롤러, 탬핑 롤러로 분리되며 충격식 다짐기계는 래머, 탬퍼로 분리되고 진동 식 다짐기계는 진동 롤러(863a), 소일 콤팩터(863b)로 분리되었다.
도 24 내지 도 64에 도시한 바와 같이,롤러의 종류 및 특징에 의한 정적 압력에 의한 롤러는 롤러의 정적 자중에 의하여 노면을 다지는 것이고, 머캐덤 롤러(Machadam roller;863c)의 용도는 쇄석(자갈)기층, 노상, 노반, 아스팔트 포장시 초기 다짐에 적합하고 특징은 커브(Curve) 선회시 원활한 선회를 위하여 내륜의 속도를 감속시킬 수 있는 차동장치 사용하는 차동기어로 뒤 차축의 중앙부에 장착되어 커브를 돌 때 양쪽바퀴를 서로 다른 속도로 주행시키는 장치이다.
탠덤 롤러(Tandem roller;863d)의 용도는 찰흙, 점 성토의 다짐에 적합하고 두꺼운 흙을 다지거나 아스팔트 포장의 끝마무리 작업에 사용되고 동력전달순서는 엔진 메인 클러치 변속기 전, 후진기 차동장치 종 감속장치 후륜 순서로 진행되며 특징은 쇄석 다짐에는 사용할 수 없으며, 구동드럼에 중유 주입 평활한 철재 원통형륜으로 2축 탠덤과 3축 탠덤이 있다. 또한, 전 후 륜의 조작을 따로 하여 다짐 폭을 넓힐 수 있다는 것이다.
탬핑 롤러(Tamping roller;863e)의 용도는 토질이 연약한 곳을 다지는데 사용. 댐의 축대공사와 제방, 도로, 비행장이며 종류는 푸 트 롤러, 턴 푸 트 롤러, 테이프 푸 트 롤러이고 특징은 강제의 원통 륜에 다수의 돌기 형태의 구조물을 붙여 회전하므로서 다짐한다는 것이다.
타이어 롤러(Tire roller;863f)의 개요는 탠덤 롤러의 철재 바퀴 대신에 타이어를 부착한 것으로 피 견인 식과 자주 식이 있다는 것이고 용도는 비행장 활주로, 고속도로 아스팔트 포장시 노면을 일정한 압력으로 다지는데 사용하며 타이어의 공기압력은 1.510kg/cm²이며 특징은 주행속도가 매우 크다는 것이었다.
이같이,원심력에 의한 롤러는 자중에 원심력을 이용하여 노면을 다지는 것이고 진동 롤러는 기 진기로 다짐바퀴를 진동시켜 다지는 기계로 쇄석, 자갈, 흙, 아스팔트, 콘크리트의 다짐에 적합하며 규격표시방법은 전 장비의 중량이다.
충격식 다짐 기계는 자유 낙하 충격을 다지기에 이용되며 래머(Rammer)는 소형 내연기관의 2 행정 사이클기관 몸체에 다짐용 푸트를 단것이고 탬퍼(Tamper)는 가솔린기관의 폭발력을 토크로 바꾼 후 크랭크축의 왕복운동으로 변화시켜 스프링의 탄성체를 통해 다짐판에 전하는 구조로 되어 있으며 좁은 장소와 도로의 노견 다지기에 적합하고 소일콤팩터(863b)는 소형가솔린엔진을 이용하여 진동을 일으키는 장치와 평판진동체가 조합된 다짐기계로서 자주식과 인력에 의한 이동식이 있다는 것이다. 이처럼 중량에 비해 다짐효과가 크다는 것이고 사질토에 적합하다는 것이며 점성 토에는 부적당하다는 것이었다.
그 이의의 사항에는 롤러 다짐 폭으로 1회 통과에 다져지는 폭(최대나비)에 의한 선압 인데 바퀴의 접지 중량을 그 바퀴의 폭으로 나눈 값(kg/cm)이다.
노상 안전기와 동일한 소일스태빌라이저(864)는 흙 땜. 도로. 비행장 공사에 경제적인 다짐 안정공법으로 사용되며 실 작업에서 각종 작업을 1개 기종으로 한번에 끝낼 수 있는 안정처리 시공기계이며 이에 따라 노상, 노반재료를 정확하게 현장에 투입한다는 것이며 자기 자신이 굴착하고 분쇄작업을 한다는 것이고 전체 재료를 균일하게 혼합한다는 것이었고 해양수력발전소 부양식독(593,594,595)의 선체 위치를 이동 조절과 분해 조립을 하기 위해 건설기계로 구성하는 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량과 기체의 흐름을 조절하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치는 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치로 연결 구성되어있다.
콘크리트 믹서의 개요는 모래, 자갈, 시멘트, 물을 혼합(Mixer)하여 공사현장에서 효과적으로 작업하기 위한 기계인데 건식(Dryness type)은 시멘트 및 골재를 계량하여 투입하고, 주행도중 물을 가하여 혼합하면서 목적지 공사 현장에 운송하며 혼합할 때의 구동은 유압에 의해서 이루어진다. 그리고 습식(Wetness type)은 완전히 혼합된 생 콘크리트 혼합물을 교반 하면서 운송하는 것으로 "에지 테이터"라고도 하며 규격표시는 1회 혼합할 수 있는 콘크리트 생산량(m³)으로 표시한다.
지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치는,
해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절을 구성하는 콘크리트 배칭플랜트(865)와, 콘크리트 호퍼(865a)와 운반장치차징차트(865b)에 조정판(865c)과 물멧처(865d)에 대칭호퍼(865e)와 스케일 프레임(865f)과 저장빈(865g)에 종합벨트콘베이어(865h)와 턴헤드(865i)에 버킷엘리베이트(865j)와 운반시멘트차드(865k)에 조정판(865l)과 기록장치(865m)와 원형믹서(865n)에 시멘트사일로(865o)와 스쿠르콘베이어(865p)들로 해양수력발전소 부양식독(593,594,595)의 선체 위치를 이동 조절과 분해 조립을 하기 위해 건설기계로 구성하는 지진해일방재용 부양식독장치 본체(1) 내부로 유량과 기체의 흐름을 조절하는 지진해일피해방지장치(811)들로 구비해 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치로 연결 구성되어있다.
콘크리트 펌프(869)의 개요는 터널 속 교량 또는 건물 속에서와 같이 제한된 공간에서 콘크리트를 운반할 때에 편리하며 펌프는 기계식과 액압식이 있다는 것이며 이동 설치가 간단하고 설치장소에 특별한 제한이 없다.는 것이고 유압 또는 유압 병용식으로 충격이나 진동이 적으며 취급이 간단하고 보수 점검이 용이하고 경제적이다는 것이었고 고층건물 및 장거리 콘크리트 이송에 사용된다.
종류에는 이동식과 기계식에 액압식과 트럭적재식인데 다이어프램식은 고층건물(100m이상)에 사용하며 규격표시는 시간당 배송능력(m³/h r)으로 표시되고 피스톤식 콘크리트 펌프의 구성요소는 콘크리트 주입 호퍼, 흡입 및 토출밸브, 피스톤, 실린더로 구성된다.
콘크리트 타설기계는 콘크리트 피니셔(Concrete finisher, 866)로 이의 개요는 콘크리트를 포설한 다음 고르고, 다짐하는 마무리 작업기계로서 먼저, 포설기로서 포설하고, 진동기로 다지고, 그 뒤를 피니셔가 횡단방향으로 움직이면서 콘크리트 슬래브 면을 마감작업을 한다.
용도로는 기계 각부의 부하가 적다는 것이고 구조가 간단하고 기계의 마모 및 소음이 적다는 것으로 콘크리트 피니셔는 표면의 앞, 뒤 고르기 진동을 하면서 포장표면을 끝낸다는 것이며 규격표시는 시공할 수 있는 표준폭(m)으로 표시하면서 동시에 지진해일방재용 부양식독장치 본체(1) 내부로 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치에는 해양발전소 몸체 도크선체갑판 상단부(SDU)에 연결된 건설기계의 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치들로 구성되어있다.
도 24 내지 도 64에 도시한 바와 같이,콘크리트 스프레더(Concrete spreader, 867)의 개요는 포장 노반에 살포된 생 콘크리트를 균일하게 부설하는 포장기계이며 용도는 콘크리트피니셔 앞을 주행하면서 트럭믹서나 덤프트럭으로부터 콘크리트를 받아 운반하고 깔고, 다지는 기계이고 규격표시는 시공할 수 있는 표준 폭(m)으로 표시되어있고 종류는 블레드형에 스크루형과 박스형으로 분류하면서 동시에 아스팔트 포장기계의 종류는 아스팔트믹싱플랜트(870)에 아스팔트피니셔(871)와 아스팔트살포기(872)에 아스팔트커버와 아스팔트스프레이로 분리하고 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절 펌핑 가동장치의 건설기계로 구성되어있다.
이의 종류에 있어 계량, 혼합방법은 배치식과 연속식으로 형성되며 설치방법은 정치식.가반식인데 조작방법은 전자동식과 반자동식에 수동식으로서 용도는 골재건조와 아스팔트 혼합에 아스팔트 가열이며 구성은 피 드호퍼와 골재건조장치에 배기집진장치와 핫 엘리베이터에 진동 스크린과 믹서와 아스팔트 캐틀에 계량장치로 구성되어있다.
아스팔트 피니셔(Asphalt finisher, 871)는, 정리 및 사상장치를 가진 것으로 아스팔트 혼합공장에서 자갈 모래를 160°이상 끓여서 혼합골재를 도로상에서 일정한 규격의 두께로 깔아주는 장비이며 용도는 비행장 활주로와 고속도로의 아스팔트 포장공사에서 아스팔트 살포, 고르기, 다지기 등에서 사용되며 규격표시는 최대 포장 나비(m) 및 포장능력(ton/hr)으로 표시되었고 아스팔트 피니셔(871)의 기구에 있어 스크리드는 노면에 살포된 혼합재를 매끈하게 다듬질하는 판이며, 리빙호퍼는 장비의 정면에 5톤 이상의 호퍼가 설치되어 덤프트럭으로 운반된 혼합 재(아스팔트)를 저장하는 용기이고 피더는 호퍼 바닥에 설치되어 혼합재를 스프레딩 스크루로 보내는 일을 한다는 것이며 범퍼는 스크리드 전면에 설치되어 노면에 살포된 혼합재를 요구하는 두께로 포장면을 다져 주는 일을 한다.
아스팔트살포기 (Asphalt distributor, 872)는, 아스팔트를 끓여서 최초로 도로 표면에 뿌리는 장비. 즉, 아스팔트를 노면에 뿜게 하는 살포기인데 종류는 자주식, 기어펌프식에 용액가압식과 탑재식으로 되었고 규격표시는 최대 살포 나비(m) 및 탱크 용량(m³)으로 표시한다.
아스팔트 커버는 고속도로용으로서 아스팔트 혼합 재를 연속적으로 까는 건설장비이며 또한 아스팔트 스프레이는 아스팔트, 아스팔트 유제와 타르 등을 오일버너에 의하여 가열 용해하며 노면에 가압 살포하는 장비이고 노상안정기(Stabilizer)는, 기체가 노상을 진행하면서 각종 작업을 하며 결합제, 물을 첨가 혼합하여 표면 고르기, 조여 굳힘을 하는 장비이고 규격 표시는 유체 탱크의 용량(m³)으로 표시하며 특징으로 작업능률이 양호하고 기동성이 우수하며 스프레이어의 효율이 좋다는 것이었고 땅을파는 깊이 조정이 용이하다.
기초공사용 건설기계 항타 및 항발기(877) 분류하는데 디젤파일해머(883)는, 2 사이클 디젤엔진의 폭발력을 이용하여 항타하는 기계로서 동일 크기의 진동 해머, 증기 해머보다 2 배정도 항타속도가 빠르다는 것이며 이의 방식은 기동장치에 의하여 램을 올렸다가 낙하시켰을 때의 분사장치가 작용, 앤빌의 오목면에 연료가 분사되어 램이 앤빌을 타격하는 순간 폭발함으로써, 이때의 폭발력과 램의 타격력이 말뚝에 전달되고 램은 반발력에 의하여 다시 위로 튀어 올라가게 되며 이때에 배기 및 흡입작용도 이루어지고 다시 낙하, 타격, 폭발을 되풀이하게 되므로 연속 항타 작업이 가능하다는 것이고 이의 구조는 실린더에 실린더 속을 오르내리는 램과 실린더 하부에 삽입된 앤빌에 연료펌프와 연료분사장치에 기동장치들로 구성되며, 실린더 냉각용 물탱크장치들이 구성되어 있다.
디젤파일해머(883) 몸체의 좌측에는 리드(896)에 기동장치(903)가 부착되었고, 상기 기동장치(903) 우측 상부에는 실린더(126)의 하부로 램(895)과 연료탱크(902)에 캠(901)의 하부에 연료펌프(900)와 상기 펌프(900) 하부로 헬밋(899)이 형성되었고 상기 헬밋(899) 하면에 파일(899)을 부착하여 파일작업이 진행된다.
이의 규격표시는 램(ram)의 중량(ton)으로 표시된다는 것이었고 이의 용도에는 나무, 콘크리트, 강관 파일을 박는데 사용되며 이의 특징은 아래의 표와 같다

기둥 해머(=기둥 파일 해머)의 이의 개요는 실린더 안에 증기 또는 압축공기를 보내 피스톤의 상하운동을 연속적으로 반복시켜 피스톤로드 하단에 있는 램(ram)으로 기둥(Pile)을 박는 기계이며,기둥해머의 종류에는 증기해머에 이의 개요는 증기의 팽창에너지를 이용하여 피스톤을 동작시켜 항 타 하는 기계로 규격표시는 피스톤 중량(ton)으로 표시하며 이의 특징으로 구조가 복잡하고, 정비와 보수가 어려우며 유지비가 많이 든다는 점이었고, 경량이 단단하고, 밀도가 높은 흙속에 말뚝을 박을 때 사용되며 리드(Lead)에 안내되며 단동식과 복동식이 있다는 점이다. 그리고 진동해머의 개요는 진동력에 의해 항타 또는 뽑기 작업을 하며 진동수는 1분에 500회 이상이며 규격표시는 모터의 출력(kW) 및 기진력으로 표시하였고 드롭 해머는 금속제 블록을 와이어로프로 올렸다가 파일의 머리에 낙하시켜 그 타격력으로 파일을 박는 것이었고 기초공사용 기계 중 원거리에서 소량시공에 있어 동일조건일 경우 설비비, 운전경비를 적게 하고자 할 때 적합하였다 이의 장비의 장단점은 아래와 같다.
첫째의 장점에는 운전 및 해머조작이 간단하다는 것이었고 설비규모가 작아 소요경비가 적게 든다.는 점이었으며 낙하높이의 조정으로 타격에너지의 증가가 가능하다는 것이었다.
도 24 내지 도 64에 도시한 바와 같이,둘째로 단점에 있어 파일 박는 속도가 느리다는 것이었으며 파일을 파손시킬 위험이 있다는 점이었고 이에 작업시의 진동으로 주위 건물에 피해를 주기 쉽다는 점이었고 수중 작업이 불가능하다는 점이었다.
파일 드라이버(882) 몸체의 리드(896) 상부에는 어댑터(906)와 붐전핀(904)에 와이어로프(19)와 도루레(135) 크레인붐(651)에 구성되었고 크레인 전면의 캐드워크(905)가 부착되었다. 상기 파일 드라이버(882)는 바지선 선체(591) 상단 갑판데크에 탑재 후 갑판데크 작업위치에 장비를 고정시켜 파일(898) 작업이 진행된다.
디젤해머에 증기해머와 진동해머에 드롭해머들을 총칭하는 것으로 파일을 박을 때에는 드롭해머나 디젤해머들을 사용하며 그 작업장치를 크레인붐에 설치하는 장비인데 참고할 사항은 아래의 표와 같다.

파일(898)은,심해저의 하부 기초 기둥부위로 고정 해지용의 별도의 카 파일(898)을 부착시켜 교각용의 새들형틀(617)로 콘크리트 교각을 해저바닥 상부로 설치가 용이하게 작업 진행한다.
건설기계 공기 압축기(Air compressor, 875)는,대기 중에 있는 공기를 흡입압축하여 압축공기를 만들며, 고압의 상태로 만들어 각종 건설공사에 다목적용으로 사용하는 기계로서 구동장치와 압축장치 및 그 밖의 부속품으로 구성되어 있다. 여기서, 구동장치는 압축기를 작동시키는 동력을 공급하는 가솔린 또는 디젤기관이다. 또한,건설공사에는 주로 체적형 압축기가 쓰인다는 것이었고,이의 용도로 채석작업은 착암기를 이용하여 바위에 구멍뚫기, 분활 작업을 한다는 것이었으며 점토굴착 작업은 물속에 찌든 찐득한 점토에 굳은 땅위 연암을 삽 장치나 굴착기로 굴착한다는 것이고 파괴작업은 브레이크로 콘크리트,아스팔트를 파괴한다는 점이다.
콘크리트 진동작업과 벌목작업에 페인팅 작업과 타이어 공기주입 및 장비세척이며 건설공기압축기는 대용량인 것이다.
이의 종류에 있어 압축기는, 구별 분류하고 왕복형 피스톤식에 베인형 압축기와 로터형 압축기에 스크루형 압축기와 원심터보형 압축기로 분리되며 용도별 분류에 있어 정치식은 일정한 장소에 고정시켜 사용되면서 주로 대규모 공사에 이용된다는 것이고 가반식은 압축기를 간단히 이동시켜가면서 사용할 수 있게 되어 있다는 것이다.
에어크리너 저압실린더 중간냉각기 고압실린더공기 탱크 이의 규격표시는 매분 당 공기 토출량(m³/min)으로 표시. 즉, 실 공기량으로 표시하며 210 cfm은 분당 210 입방 피트 압축공기 생산(ft³/min)으로 표기하며 이에 공기 압축기의 부품에는 피스톤과 실린더와 흡입 및 배기밸브에 압력조정밸브로 이루어진다.
이의 주요 부분의 기능(역할)은 아래의 표와 같이 설명한다.

착암기와 동등한 천공기(Boring equipment ;876)의 상세한 설명을 다음과 같이 설명한다.
상기 천공기(876)는 암석이나 지면에 구멍을 뚫는 기계로서 공기 압축기나 유압에 의해 작동된다는 것인데 타격식은 칼날의 충격에너지에 의하여 굴착 되며, 굴착속도는 빠르나 그 깊이가 낮다는 단점이 있다.
대부분 압축공기를 이용하며,이 압축 공기로 충격용로드(rod)를 작동하게 하여 그 충격력으로 암석을 부수는 것으로서 구조가 간단하고, 취급도 쉬우며 압축공기의 조작도 쉬워서 많이 사용된다는 점과 회전식은 구멍 속에서 회전하는 칼날로 굴삭하며, 굴착속도는 느리나 그 깊이가 깊다.
이의 규격 표시로 크롤러식은 착암기의 중량 및 분당 공기 소비량(m³/min) 표기기재하였고 크롤러점보식은 프랫트롤 단수와 착암기 대수(단대)로 표시되며 이에 실드굴진식은 사용설비 동력(kW)으로 표시되고 터널 굴진기는 최대 굴착치수(mm)로 표시되었다.
이의 종류에 있어 싱커는 방음장치가 달린 최신형 착암기로서 암석의 구멍뚫기, 각종의 팽치커트, 갱도의 반하향 작업에 적합하다. 즉, 인력으로 조작할 수 있는 소형으로 공기의 힘으로 작동하며, 피스톤의 상하작동으로 로드에 가격력을 전달하여 삭공하는 기계이며 드리프터는,
강력한 천공기로서 넓은 절단면의 굴진 작업, 채석작업, 댐 굴착시의 큰 구멍을 뚫는데 적합하다. 수동 또는 자동이송장치에 의하여 적당한 추압을 비트에 주어 구멍을 뚫으며, 이 피드장치에는 체인식과 스크루식이 있다는 것이었으며 스토퍼는 수평에서 하늘을 향해 구멍을 뚫는 기계로서 절삭 수직 갱 상향 채굴에 적합하다는 것이다.
그리고 브레이커는 콘크리트 도로의 파쇄 개수,건조물 및 튼튼한 기초물 파괴에 사용되며 공기소비량이 적으면서 강력한 파쇄력을 갖고있다. 주로 유압 백호 굴삭기에 부착하여 사용한다는 것이며,이에 록크래커는 화약을 사용할 수 없는 장소에서 암석이나 콘크리트를 유압으로 파쇄하는 장비이다.
이같이, 핸드해머는 좁은 곳에서 굴진 작업과 2차 파쇄작업에 효과적이며 방음장치가 붙어있어 사용하기 쉽다. 잭해머라고도 하며, 인력으로 이동, 조작이 가능한 소형의 착암기로서 주로 하향으로 구멍을 뚫는데 사용한다.Due to the tsunami off the coast of Indonesia that occurred in December 2004, each country is taking a lot of preparations for the tsunami.
On March 20, 2005, an earthquake occurred in the sea near Fukuoka, Japan. This is evidence of increased fear of tsunami.
Tsunamis, which cause waves under the sea and cause great damage to coastal areas, are classified as tidal waves, seismic waves, and storm waves, but seismic waves caused by earthquakes are dangerous.
When a tsunami occurs and overlaps with a typhoon, it pushes the sediments of the sea deep inland, causing a lot of damage to life and property.
The epicenter of an earthquake that causes a tsunami is usually 30-50 km deep and is predicted to have a seismic intensity of 7 or higher.
The submarine earthquake near Fukuoka in 2005 caused no damage from the tsunami because the earth's plate moved horizontally, but the tsunami that occurred in Indonesia caused a lot of damage because the earth's plate moved vertically.
Therefore, not all earthquakes on the seabed are accompanied by tsunamis.
Also, unlike a tsunami, damage may be caused by sea waves caused by coastal collapse or nuclear tests in the ocean.
Hereinafter, the tsunami included in the tsunami will be described in detail with reference to the drawings.
On the other hand, in the sea, it is equipped with offshore hydroelectric power plants equipped with double-structured block tank dust collectors to provide lifesaving and tsunami disaster prevention to rescue ships in distress. A floating reading device is manufactured.
As shown in Figures 1 to 3, the classification of the tsunami constituted inside the body of the floating fish reading device for tsunami disaster prevention includes,
As shown in the previous tsunami occurrence map,
When a tsunami first occurs, large waves are inconspicuous, but as they propagate to shallower areas, the waves gradually rise, causing great disasters.
In particular, when they arrive near the coast, the seawater rapidly drains away and a large sea wave comes in again.
The intensity of an earthquake, the point of occurrence, or the arrival time of a distant tsunami can be predicted to some extent with current science and technology. However, it takes a considerable amount of time to analyze the scale. Since it takes considerable time to find solid evidence that a tsunami will occur after an earthquake, it is an international practice to issue an advisory or warning first when an earthquake of a certain magnitude or larger occurs on the seabed.
In 1896, a tsunami that occurred in the East Sea of Japan caused an earthquake of 25 to 30 m, and over 10,000 houses were washed away and 26,000 people were killed. Also, Japan's Sanriku Tsunami in 1933 had a wave height of more than 20 m, and the tsunami caused by the 1972 Mt. Mayuyama earthquake caused 14,920 deaths and massive property loss. In 1958, a landslide in Litya Bay, Alaska, caused the water to rise to 250 meters high. In Korea, there were tsunamis in Pyeonghae, Gangwon-do in 1741, Rajin and Mukho in 1940, and the east coast in 1983.
On December 26, 2004, a subsea earthquake that occurred on the seabed near Sumatra, Indonesia caused a lot of damage not only in Indonesia, but also in coastal areas of neighboring countries such as Sri Lanka, India, and Thailand.
The tsunami reached as far away as the Maldives, an island country in the Indian Ocean, and Somalia on the east coast of Africa.
A building in Bangkok, Thailand, 2,000 km from the epicenter shook, and a 10m high wave hit Sri Lanka. At 2:46 pm on March 11, 2011, a tsunami occurred in the Tofuku region of Japan, killing more than 40,000 people and displacing more than 350,000 people.
So, what about our country? From the point of view of plate tectonics, the Korean Peninsula is out of the Pacific Rim earthquake zone. However, if an earthquake occurs in the East Sea or the West Bank of Japan, it begins to affect the East Coast of Korea in 1 hour to 1 hour and 30 minutes. Due to the nature of the topography of Korea's east coast, there is a high probability that a tsunami will come near Uljin. In addition, experts point out that fundamental countermeasures are necessary because there are nuclear power plant facilities in the vicinity of Uljin.
Let me explain about the tsunami.
The phenomenon of raising the water level in the sea is called a tsunami, and it is mainly caused by typhoons.
Tsunami damages agricultural land, coastal industrial complexes, coasts, port facilities, and residential areas, and occurs about two to three times a year in Korea.
Such tidal waves are generally called storm surges, and are also affected by the gravitational pull of the moon and the sun, especially tsunamis that occur during saris cause great damage. The principle of tsunami is surprisingly simple.
A storm surge raises the water level by typhoons or low pressure, and 1 mb of atmospheric pressure has the power to raise water by 1 cm.
Therefore, if the central pressure of the typhoon is 30mb lower than the surrounding, the water level rises by 30cm, and it seems to rise more because of the strong storm.
As shown in Figure 1, it shows a conventional tsunami (1003) technical field showing the bottom of the sea (1000), the upper part of the wave (1001) and the wavelength (1002).
As shown in Fig. 2, the damage situation is shown after the tsunami (1004).
As shown in FIG. 3, a method for relieving a ship after a tsunami has occurred (1004) is shown.
As shown in FIGS. 4 to 23 , the description of FIGS. 4 to 23 will be omitted because it is a prior art field.
24 to 64, in the construction equipment excavation machine, the bulldozer 855 and the scraper 859 are separated into an excavator 856 and a router, and the following is a machine for foundation construction, a pile driver 882 and a diesel The pile hammer (883) is separated by a steam hammer (884), and the next crane (crane, 861) has a hydraulic crane (885) and a tower crane (886) in a crawler crane (887) and a truck crane (888). In the loading machine, the loader 857 is separated by the payloader 857c in the shovel loader 857a and the follower 857b, the next stationary machine is separated by a motor grader 864, and in the compaction machine, the macadam roller 889 ) and a tandem roller 890 are separated into a tamping roller 891 and a tire roller 892, and the following pavers have a concrete finisher 866, an asphalt finisher 871 and an asphalt distributor 871a, and a concrete batching plant 865 ) and the asphalt mixing plant 870 with an aggregate spreader 873, while the conveying machine is separated by a conveyor 633 to a dump truck 860, a tractor 893, and a trailer 894 and a forklift 858, and dredged In the machine, a dredge 879 is separated into a pump dredge 879a and a bucket dredge 879b in its scope as a dipper dredge 879c and a grab dredger 879d, and then in a separate main construction machine, a drilling machine 876 ), separated into a crusher 874 and an air compressor 875, constructed at the upper end of the deck deck of the barge hull 591, and used for excavation, transportation, and towing. One engine generator 226 is isolated from each construction machine body, and an unmanned operation type monitor 52 operation device is used to overcome and adjust the tsunami disaster prevention. is selected as
24 to 64, the hull position movement of the conventional tsunami damage prevention device 811 construction machine control device of the lifesaving structure constituting the tsunami disaster prevention floating fish tank and construction machinery to rescue the ship in distress In a more detailed description of the flotation reading device for tsunami disaster prevention, the outline and definition for each sequence are as follows.
As shown in FIGS. 24 to 64, earthwork construction in which a soil plate (straight type, angle type, etc.) is mounted on the front part of the tractor and ancillary devices of a ripper and a router are attached to the rear side to cut and push the soil, bedrock, etc. A tsunami damage prevention device (811) that is a machine and the most basic earthmoving machine for construction machinery, which is a compound term of bull (ox) + dozer (machine to rest) that pushes the bull strong enough to liberate the bull from labor (811) ), it is a buoyancy poisoning device for tsunami disaster prevention that rescues life-saving and distressed ships included in the hull position shifting pumping operation device included in ).
The use will be described as shown in the table below.

In general, the size of the dozer is indicated by its own weight (ton or kg), that is, by its own weight. The economical working distance of the doser is 10100m. As shown in the table below,

The power transmission sequence of the dozer is as shown in the table below,

The calculation of the work amount of the dozer is explained as shown in the table below.
1) Workload per hour:

However, q: earthwork plate capacity (m ³ ) f: soil volume conversion factor
E : Working efficiency () C _m : One cycle time (min)
Blade (earthwork plate) capacity:

here. Q : Blade capacity (m ³ )
B : Blade width (m)
H : Blade height (m)

1 cycle time

(However, L : Working distance (m). V ₁ : Forward speed (min). V ₂ : Reverse speed (m/min). t : Gear change time (min)
A detailed description of the traction force is as follows.

where, ( : coefficient of friction)
( W : Vehicle weight (kg))
Traction horsepower (H)

only,

As shown in FIGS. 24 to 64, the hull position movement pumping operation device included in the conventional tsunami damage prevention device 811 constitutes a tsunami disaster prevention floatation poisoning device for saving lives and ships in distress, and the dozer The classification is explained as in the table below.
Classification by the traveling device (=classification considering the ground pressure) is divided into a crawler-type dozer (855a) and a wheel-type dozer (855b) that use a caterpillar type as shown in the table below.

The crawler type has a large ground area and low ground pressure, so it has strong digging ability even in bad terrain, and has good climbing ability. The wetland trash is very suitable for wetland work due to its low ground pressure, and it is easy to work underwater up to the depth where the track can be submerged.
Tire type (wheel type) has a large ground area and large ground pressure, making it impossible to work on wetlands and limbs, but it has better mobility and mobility than the caterpillar type and is effective for working on flat surfaces or paved roads.
In the classification by the working device, the straight dozer 855c and the tilt dozer 855d are divided into the angle dozer 855e. It is operated at an inclination of 10 and is used for straight cutting and soil remittance. A hydraulic cylinder is used to operate the blade up and down, and it excavates with its own weight. can be adjusted.
The angle dozer (855e) has a long and low blade, and can serve as a tilt dozer (855d) and a straight dozer (855c) to use by changing the position of the blade to the left and right by the required angle. It is suitable for laying on one side, and for the use of the above picture, it is used for sloping earthing work, cutting work, snow removal work, side burial work, ditch reclamation work, pipe laying work, hard ground side cutting work. It is possible to work with a slope of about 15cm to the left and right with respect to the horizontal plane, and at the same time, it is used for frozen ground, hard ground, side trench excavation, rock stone rolling, and V-shaped ditch work. The hull position movement pumping operation device included in the damage prevention device 811 is composed of a tsunami disaster prevention buoyancy reading device that saves lives and rescues a ship in distress.
As shown in FIGS. 24 to 64, the earthquake that rescues lifesaving and shipwrecked ships constituting the flotation reading device for tsunami disaster prevention of the hull position movement pumping operation device included in the conventional tsunami damage prevention device 811 Floating reading device for tsunami disaster prevention,
As shown in Figs. 24 to 64, in classification by ancillary devices,
Rake dozer and hinge dozer (855f), tree dozer (855g), hydric ripper (855i), push dozer, teana dozer and U dozer, while subdivided into U dozer, rake dozer (855h), instead of shovel blade, rake-type sulcus-shaped break It is a dozer with an attached device, and its use is suitable for picking out rocks during farmland reclamation and road construction, pulling out debris or tree roots, and transporting large stones during dam construction. Used to dig hard ground.
The hull position movement pumping operation device tree dozer (855g) included in the tsunami damage prevention device (811) is suitable for clearing and stopping work, and the hinged dozer (855f) is suitable for removing soil, snow removal work, and soil transport, The rick ripper (855i) is used when excavation is difficult because the ground is hard and solid. It is used when excavation is difficult with the earthwork plate of a bulldozer, removal of rocks or boulders that are difficult to blast, and destruction of asphalt pavement.
The push dozer pushes the scraper from behind to give traction when working with the scraper. Also, it is easy to move and does not harm the packaging.
Since the U-dozer has a U-shaped blade, there is less overflow on the side, so the body of the marine power plant consisting of the body (1) of the tsunami disaster prevention floating fish tank body (1) The body of the offshore power plant comprised in the upper part (SDU) of the dock hull deck (SDU) 593,594,595)'s hull position movement pumping operation device is composed of a tsunami disaster prevention flotation and aquaculture device that rescues lifesaving and distressed ships.
24 to 64, the hull position movement pumping operation device included in the tsunami damage prevention device 811 into the main body 1 of the tsunami buoyancy reading device for earthquake and tsunami prevention. ) and a hydraulic tank (819) having a connection structure with an excavator (856) constituting the construction machinery position adjustment of the hull position movement control of the marine hydroelectric power plant floating dock (593,594,595) that rescues a ship in distress and a plunger pump (148) of the bent shaft plunger pump (148b) and the radial plunger pump (148c) is composed of a construction machine connection structure, the hydraulic tank 819, the heat plate (819a) and the oil level gauge (819b) to the drain (819c) and the upper plate packing (819g) and the inlet packing (819h) on the diaphragm (819e) and the suction strainer (819f) on the tank bottom plate (819d) and the inlet lid (819i) on the tank top plate (819j) and the air blizzer/fuel hole (819k) on the tank top plate (819j) The tsunami damage prevention device 811 is provided with disaster prevention machines that control the flow rate and gas flow with cleaning window packings (819m) on the tank plate (819l) and the tank plate (819l) and connected to the hydraulic motor 820 and the hydraulic pump 821. ) included in the hull position movement pumping operation device is composed of a buoyancy-reading device for tsunami disaster prevention that rescues life-saving and distressed ships.
The bent-axis plunger pump 148b and the radial plunger pump 148c of the plunger pump 148 are suitable for high-pressure pumps as pumps that pump by the reciprocating motion of the plunger (piston). The plunger pump 148 is largely divided into an axial type and a radial type according to the relative relationship between the reciprocating motion direction of the plunger and the driving rotation direction. This type of pump or motor is also referred to as a rotary pump 337 . Crank-type piston pump can be thought of as a kind of radial type when it is classified by the motion of the piston, but it has a significant difference from other pumps in structure, so it is considered as an independent type.
The rotary pump 337 is capable of high-speed operation (usually 3000 to 4000 rpm, larger ones 15,000 rpm or more) because the mass of the reciprocating part is extremely small or there is no reciprocating part at all. Therefore, a relatively compact and high-pressure, high-performance pump is obtained. Since the pump with a large number of plungers is operated at high speed, the pulsation of the delivered oil is extremely small and the vibration is also small, so that it can be operated relatively smoothly. In addition, a variable-capacity type can be easily obtained in terms of mechanism.
Since the diameter of the plunger is relatively small, the stroke is small, and the machining accuracy is easy to obtain, a pump with high volumetric efficiency can be obtained. Therefore, the plunger pump currently on the market has a delivery pressure of 700-350kg _f /cm ² , a delivery amount of 10-50ℓ/min, and an efficiency of 80-90% is common.
In the past, many crank-type piston pumps were of low-speed and large-sized ones, but in recent years, high-speed rotation, high pressure, and small delivery have been developed. In 148a), the pump structure and features include,
A pump in which a plunger is inserted into a cylinder block arranged parallel to the axis on a circumference centered on the axis and reciprocates by an inclination angle between the axis and the drive shaft or a mechanism such as a swash plate to perform a pumping action. pump) and swash plate pump.
It shows the cross-section and structural diagram of the swash plate type axial piston pump. The cylinder block is coupled to the drive shaft by splines, and the piston in the cylinder rotates together with the swash plate according to the rotation of the drive shaft.
Compared to the bent shaft type, the structure is simple and the number of parts is small, so it is small and lightweight, and the price is low. Since the rotational weight is concentrated around the shaft in the structure, it is suitable for high-speed rotation and is widely used in construction vehicles and cargo handling machines with a narrow installation area.
24 to 64, the bulldozers 855 are the hull position movement pumping operation device included in the tsunami damage prevention device 811.
A tsunami damage prevention device that controls the flow and gas flow in the main body (1) of the tsunami disaster prevention device for disassembling and disassembling the hull position of the offshore hydro power plant floating dock (593,594,595). In the configuration of the floating fish dock hull position movement facility adjustment device consisting of the power transmission device parts of the dozer of the construction machine included in (811),
It is possible to work by attaching attachments by replacing the earthworks of the attachments of the bulldozer,
In the configuration of the power transmission device 855j of the dozer,
In the suction pump (855k) and engine (855l) for the cam and other devices, the cooling system (855m) and the final gear device (855n) have the clutch (855q) on the sprocket (855o) of the starting wheel and the idler (855p) of the floating wheel (855p) Construction Machinery The hull dock of the floating dock (593,594,595) composed of construction machines of the hull position movement construction machine control unit equipped with the power transmission device parts of the dozer of has been
24 to 64, the hull position movement pumping operation device included in the tsunami damage prevention device 811 configured in the body 1 of the body 1 for the earthquake and tsunami disaster prevention is the upper end of the dock hull deck of the offshore power plant. It constitutes a construction machine connection structure that shows the construction machine position adjustment configuration of the hull position movement control of the offshore hydroelectric power plant floating dock (593,594,595) comprised in (SDU). In this case, it has a longer transport distance than a bulldozer and is called a carry-all, and as a machine for mass earthworks, it is possible to perform continuous work in a batch of 5 tasks such as excavation, loading, transport, laying, and compaction, so the power of the dozer of construction machinery The hull position movement device included in the tsunami damage prevention device 811 equipped with transmission device parts is equipped with construction machines to overcome the tsunami disaster prevention at the hull dock upper end (SDU) position of the floating dock (593,594,595). configured to be able to
In the outline of the name of each part of the motor grader 862, the muffler 862a, the engine flywheel 862b, the cooling fan 862c, the front-rear gears 862d, the transmission 862e, and the fixed gear type transmission 862f ) in the parking brake (862g) and the differential gear (862h), the gear reducer (862i) and the disc brake (862j), the motor grader (862) equipped with the tantum drives (862k), the offshore hydro power plant floating dock (593,594,595) The hull position of the tsunami damage prevention device (811) equipped with the combined structure of the floating fish dock (593,594,595) configured inside the body (1) of the tsunami disaster prevention device body (1) for moving and disassembling and disassembling the hull position of the It is equipped with construction machines of mobile pumping operation devices and is configured to overcome tsunami disaster prevention at the hull dock upper part (SDU) position of the floating dock (593,594,595).
A motor scraper is a combination of a vehicle-type tractor and a scrater, and it is different in that it has power, so it can transport a large amount of soil for excavation and excavation, and The work of thinly cutting the surface of flat terrain composed of earth and ingots. It can carry out earthwork, cut, load, transport, and fill work, and its main purpose is to transport it by pushing it.
In the standard, the square (loading) capacity of the ball is indicated in m ³ and the power transmission sequence is explained as shown in the table below.

A detailed description of the classification of the scraper 859 will be described as shown in the table below.
[Comparison of traction type scraper (859a) and motorized scraper (859b)]

The hull position movement of the tsunami damage prevention device 811 equipped with the traction-type scraper 859a and the power scraper 859b classified as the scraper 859 as described above are provided with construction machines of the pumping operation device for floating fisheries. (593,594,595) The hull dock is configured to overcome the tsunami disaster at the upper end of the hull deck (SDU).
The hull position movement pumping operation device of the earthquake damage prevention device (811) composed of the main body (1) of the tsunami prevention device for the tsunami The main components of the pile driver 882 and the scraper 859 in the excavator 856 and the skimmer 856f in the crawler-type dozer (855a) and the wheel-type dozer (855b) showing the construction machine position adjustment configuration of the hull position movement control of And with respect to the role, the ball, as a container for transporting the soil 812, forms the center of the scraper 859 and advances by attaching a cutting edge to the lower surface of the progressing direction. Push, excavate, and load.
Earthquake at the hull dock upper end (SDU) position of the hull docking dock (593,594,595) with the construction machines of the hull position movement pumping operation device of the tsunami damage prevention device 811 equipped with the power transmission device parts of the dozer of the construction machine It is structured to overcome and adjust the prevention of tsunami damage.
In the apron (859c), it is installed on the front of the ball and provides a role to prevent the earth and sand (812) of the ball from flowing down, and to lift it up during loading and satoo. It controls the flow of flow into the main body (1) of the body (1) of the tsunami disaster prevention buoyancy reading device to rescue the lifesaving structure and ship in distress, and the air front (859c) and the eject (859d) have balls (859e) and With the combined structure of disassembly and assembly of the cutting edge (859f), the hull position movement of the tsunami damage prevention device (811) provided with the power transmission device parts of the construction machine dozer is provided as a construction machine for the floating farm dock (593,594,595) The hull dock is configured to overcome the tsunami disaster at the upper end of the hull deck (SDU).
In the ejector (859d), the so-called tailgate is located on the back of the ball and plays a role in pushing the soil in the ball and creating a large space to load the soil.
In the yoke, it is a member that couples the ball 859e and the tractor.

The amount of work of the scraper (towing type scraper) is,

where, Q : the amount of soil transported per ball
f : soil conversion factor
E : Working efficiency of scraper
C _m : Classified by cycle time.
The grader (862l) is used for civil works, mainly for grading work, and is equipment that scrapes the ground by installing a flattening plate (blade) to level the ground. In terms of usage and specifications, use and performance are indicated by the length of the blade (blade) and explained as shown in the table below.

The power transmission sequence is explained as shown in the table below.

The parking brake of the motor grader 862 holds the lower shaft of the gearbox and is an externally contracting type.
The power transmission sequence is explained as shown in the table below.

As shown in the table below, the propulsion angle and the propulsion angle of the blade are the angle between the grader centerline and the blade, which is small on hard ground, and 70° to 90° during static work. The angle at which the blade cutting edge is inclined with respect to the ground and small during cutting. Hold it large during static work, adjust the angle between the grader and the clay plate to push the soil sideways to 45° and 60°, and to finish it at 90°.

The blade capacity is described in the table below.

only. Q : Blade capacity (m ³ )
B : Blade width (m)
H : Blade height (m)
Minimum turning radius of steering system

(However, L : Axle distance. : King pin. : Outside wheel angle )
Why there is no grading mechanism
The motor grader (862) is for tsunami disaster prevention, in order to improve the straightness in terms of work properties to increase the finishing precision and to increase the efficiency. The floating reading device body (1) is composed of a coupling structure inside.
Offshore hydro power plant floating fish tank (593,594,595) is configured to move and adjust the hull position and disassemble and assemble the body (1) for tsunami disaster prevention by controlling the flow of flow into the body (1) and configuring the air front (859c) and ejection ( The hull position movement pumping moving part of the tsunami damage prevention unit 811 provided with the power transmission device parts of the dozer of the construction machine with a combined structure of disassembly and assembly of the ball 859e and the cutting edge 859f in 859d) It is configured to overcome the tsunami disaster that rescues life-saving and distressed ships at the upper end (SDU) of the hull dock hull deck of the floating dock (593,594,595).
The hull position movement of the tsunami damage prevention device (811) composed of the main body (1) of the tsunami prevention device for earthquake and tsunami ), the ripper and the router (856g) that constitute the position adjustment of the hull position movement control of the extant cable (861b), the six front devices of the crane (861p), and the drag crane (887) are composed of a construction machine connection structure, , The body dock of the offshore power plant is equipped with the construction machine position adjustment of the hull position movement control of the floating dock (593,594,595) composed of the upper part (SDU) of the hull deck of the offshore power plant. has been
The excavator excavator is a multi-purpose machine that can perform many tasks by installing a front attachment in addition to being used as an excavator as the oldest loading machine.
It is a machine that uses a shovel or crane as a basic type and performs various excavation and crane operations by exchanging various accessories. explained as

In the classification of the excavator 856 and the external structure of the excavator 856, according to the classification according to the driving device, it is divided into a crawler type and a wheel type and a truck mounted type. , wetlands, limbs, and free land are easy to operate and have very good stability, difficult to operate on paved roads, and a slow running speed of 3.2 km/hr. As a type, the running speed is about 40 km/hr, and the working efficiency is 30% to 35% higher than that of the crawler type, and the truck-mounted type has a running speed of 60 km/hr, so the mobility is good but the work efficiency is low.
In classification according to operation method, it is divided into manual type and hydraulic type, pneumatic type and electric type, and in classification by size, small size and medium type are divided into large size. Refers to those with a weight of 20t or less. Excavators with a bucket capacity of 0.6 m ³ or less and medium-sized cranes with a bucket capacity of 3 m ³ and a crane hoisting capacity of 10 t or less.
The performance display method of the excavator 856 is indicated by the capacity (m) of the backhoe 856a, the power excavator 856b, the dragline 856c, the clamshell 856e, and the bucket, and the earth drill 856d is excavated. Indicated by the caliber, the pile driver 882 is indicated by the weight of the hammer, the crane 861 displays the maximum hoisting load in tons, and the shovel 856b, the backhoe 856a, the dragline 856c, and the clamp The formula for calculating the amount of work of the shell 856e is as follows.
*

Flow rate into the body (1) of the body (1) of the hull position of the offshore hydro power plant floating dock (593,594,595) showing the construction position adjustment configuration at the top of the body of the offshore power plant to move and adjust the hull position and disassemble In the configuration of the hull position movement pumping operation device of the tsunami damage prevention device 811 that controls the flow of It is used for excavation lower than the position and used for excavating the foundation of rivers and buildings, and it can be loaded on the transport equipment higher than the machine while excavating the lower side than the trench digging machine. While suitable for preventive disaster prevention and control piping line installation work, the power shovel has a circular shape and is suitable for excavation higher than the working position. Used for excavation of cliffs.

According to the characteristics of the hydraulic excavator (compared to the mechanical rope type), the first is that the structure is simple, the second is easy to replace and drive the front, and thirdly, the maintenance and operation are simple, and finally, it is superior to the mechanical rope type in all aspects. it was
For scraping of the drag line (856c), it was first said that the working radius was large and it was easy to excavate under water. It was said that it was not suitable for collecting compacted soil or gravel.
Earth drill (856d) is used for on-site driving adjustment by excavating a large-diameter deep hole without noise. (592) Suitable for pier installation, the following crane is used for loading and unloading heavy objects and high construction works. It is equipped with a hook instead of a bucket, and is a machine that lifts heavy objects. Pile driver (882) is driving Clamshell (856e) is a clamshell device suitable for excavation in a certain place such as underwater excavation and explosion work, and it is used to drive concrete piles or sheet piles. It is used for deep vertical excavation at the bottom of the sea and is suitable for retaking of the manganese nodules (909) under the sea. It is widely used for excavating gravel, sand, and soil and loading it into dump trucks. It is suitable as a machine used for digging.
As for the working range of the excavator, the maximum excavation depth is the length from the ground surface to the tip of the bucket tooth when the tip of the bucket tooth is lowered to the lowest position. is the maximum horizontal distance and the maximum dump height was the maximum ground clearance.
And, in the structure and function of the skimmer (856f), the bucket is moved by the power of the chain along the boom attached to the swivel, and it is a construction equipment that cuts the surface thinly. It is suitable for thin excavation in a narrow place and is a large machine in its use is used for thin excavation in narrow places where it is difficult to work, so the hull position movement of the tsunami damage prevention device (811) inside the main body (1) of the tsunami disaster prevention device (811) is moved to the pumping operation device for the floating fish tank in the offshore hydro power plant (593,594,595) ) of the hull position movement control of the hull position movement control of the hull position movement control of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) constituted in the upper part (SDU) of the hull deck of the dock of the offshore power plant It is configured to overcome and adjust the tsunami disaster that rescues distressed ships.
For the structure and function of Ripper and Rooter (856g), it is used when excavation is difficult because the ground is hard and sturdy. It was suitable for digging, and in its use, it was used for excavating tree roots, digging up asphalt or concrete pavement, and digging hard ground for the removal of rocks or boulders.
According to the outline of the crane (crane, 861), it is called a crane, and it is used for lifting and lowering heavy objects, crushing work using other work devices, collecting waste iron and building works, and soil, stone materials, equipment, etc. used in civil engineering construction work. For the purpose of moving and transporting the vehicle, the hook, clamshell, and drag line all devices are installed on the front of the car body and used for multiple purposes.

The crane 861 has a structure and a name 861a with a hook 18. Others are as described in the drawings.
The name of each part of the crane or crane structure is, on the bridle (861d) and boombexes (861e) on the instant cable (861b) and the load gauge (861c), the may rope (861f) and the boom hoist rope (861g) on the upper frame ( 861h) and the lower frame 861i, the hoist rope 861j, the front drum 861k, the middle drum 861l and the front drum 861k, and the counterweight 861n are provided on the rear drum to provide a coupling structure.
The cable crane (861o) prepares the following six front devices (861p) of the crane: a hook device (861q) and a clamshell device (861r) with a shovel (861s) device, scraping (Dragline;861t) device, Trenchhoe (861u) device, Pile driver (861v) device, so it is configured to move and disassemble and disassemble the hull position of the offshore hydro power plant floating fish tank (593,594,595) The hull position movement pumping operation device of the tsunami damage prevention device 811 that controls the flow of the flow comprising the main body (1) of the tsunami disaster prevention device body (1) is composed of the upper part of the dock hull deck (SDU) of the offshore power plant It is composed of construction machines that control hull position movement of offshore hydroelectric power plant floating dock (593,594,595).
As a standard (performance) display method, the maximum lifting load is indicated in tons, and the 7 basic operations of a crane are shown in the table below.

As shown in Figures 24 to 64, as described above, in the six front devices (working devices) of the crane, the crane (galkuri: Hook) is used for general lifting work, loading and unloading of cargo, and clamshell (Clamshell) is suitable for soil loading work, vertical excavation work, dirt removal work, underwater excavation, hopper work, and deep hole digging work. , It is suitable for the foundation construction of roads, and the drag line is suitable for embankment construction work, drainage construction work, flat excavation and underwater work, and loading soil into vehicles. It was suitable for work, burial work, excavation work, mining work, and oil pipe laying work. It is the main equipment for assembling the body of the hydroelectric power plant.
24 to 64, the operating angle of the boom (Boom) is as follows.
The minimum limit angle is 20 (however, the minimum limit angle is not limited for the backhoe), the maximum limit angle is 78°, and the maximum safety angle is 66°30', and the working angle is usually 45° to 65°.
In addition, the heavier the weight of the object during crane (crane) work, the shorter the length of the boom and the larger the angle.
Cranes are classified into crawler type and truck type.

As shown in FIGS. 24 to 64, the types of use are separated as follows, and the function of the drag crane is that the ground pressure is large, and it is impossible to work on soft ground, but the mobility is good, and the use is high-rise buildings It is used for steel frame assembly, loading and unloading of materials, and port unloading work. The structure and function of a tower crane is a crane equipped with a short jib or hammerhead type truss on a high tower. It has been widely used in high-rise buildings and construction sites, and the structure and function of the hydraulic crane are,
As a mobile crane that operates the device by hydraulic pressure, the boom is usually extendable up to 510m, and the hoisting load is usually 310 tons. (Cable crane) structure and function,
It is a method of lifting the trolley by hitting a thick cable on both ends of the tower.
The structure and function of the derrick crane as the main constituent part of the present invention is a machine for lifting and moving a heavy object suspended with a rope by a winch by erecting a boom at an angle at the bottom of the mast made of steel and passing the block. It is used for assembly, foundation construction, and construction of bridges, and as a type, the Guy Derrick has the ability to hang a load on the material beam, the working radius is large, and assembly and disassembly are easy and unloading work. movement of heavy objects. While being used for steel frame assembly work, the triangular derrick is suitable for work on the roof of a narrow place or building. It does not require a foundation, and when installed on wheels, it is easy to move. The tsunami damage prevention device (811) that controls the flow of flow into the main body (1) of the tsunami disaster prevention device for disassembling and disassembling the hull position of the offshore hydro power plant floating dock (593,594,595) Hull position movement pumping operation device It is connected with construction machines for hull position movement control of offshore hydro power plant floating docks (593,594,595) that are configured in the upper part (SDU) of the body dock of the offshore power plant.
A tractor crane is a wheel type and a crawler type, with a crane attached to the upper body of the excavator system. The following outrigger maintains safety and prevents the load from being applied to the tire. Ceiling traveling crane (= door type crane) is a crane that has traveling rails installed on the ceiling to move it, and is usually used in the production and processing of concrete beams. It is used for loading work, but it is not used for construction work, and the running type is often used for construction work.
Chain block (648) is usually for unloading and can be lifted up to 15 tons by manpower, and the safety devices for hoisting and hoisting work of cranes are brakes and limit switches.

Offshore cranes transport and erect large steel structures on bridges. It is used for transport and installation of very large facilities, and transport and installation of offshore structures. The drag crane 887 and the tower crane 886 include a hydraulic crane 885 and a crane 888 with a cable crane and clamshell attachment, and at the same time hydraulic Each part name (886a) of the guiding structure in the crane (885) and the tower crane (886) is a turnbuckle (886f) and an empty net on the boom (886d) and the boom foil (886e) on the guiding rick (886b) and the main side (886c) The triangular derrick (886h) is configured by connecting to (886g), the main side (886i) and the boom (886j), the boom foil (886k) and the rack (886l), and the structure of the drag crane of the drag crane (887) (887a) has a hoist cable (887b) and a dump cable (887c) to a bucket (887d) and a lower boom (887e) to a letter rect cable (887f) and a cable roller (887g) to a boom cable (887h) and a cable roller (887i) ) and the boom hoist cable (887j) connected to the cable drum (887k) and the cable drum (887l) by parallel weights (887m), and at the same time, the structure of the crane 888 with a clamshell attachment has a holding line (888a) ) and the opening/closing line (888b) on the clamshell bucket (888c) on the upper frame (888d) and the lower frame (888e) on the rack line (888f) and the rope guide (888g) on the boom stand (888h) and the bridle (888i) The boom hoist rope (888j) and the front drum (888k) are connected to the rear drum (888l) and parallel weights (888m), while at the same time moving and disassembling and disassembling the hull position of the offshore hydro power plant floating dock (593,594,595). In order to prevent tsunami damage, it is equipped with tsunami damage prevention devices (811) that control the flow of flow into the body (1) of the tsunami damage prevention device body (1) composed of construction machinery to determine the hull position of the offshore hydroelectric power plant floating dock (593,594,595). Construction machinery is equipped with tsunami damage prevention devices (811) that control the flow and gas flow in the main body (1) of the tsunami disaster prevention buoyancy reading device for movement control and disassembly and assembly. Consists of inside the body (1) of the floating reading device for one-way disaster The hull position movement pumping operation device of the tsunami damage prevention device (811) is connected to the construction machines of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) that is configured in the upper part (SDU) of the dock hull deck of the offshore power plant. have.
24 to 64, in the classification of the loader 857, first, the crawler type loader 857a (long track type = caterpillar type = crawler type = shovel loader) is a bucket in front of the crawler tractor as a classification by the traveling method. (Bucket) can be installed to perform work in rough swampy or sandy land, and underwater work is possible. It has excellent mobility in a flat work place, has great work performance, and is easy to work on paved roads. The semi-caterpillar type loader has one of the front and rear wheels as a caterpillar type, and a tire is installed on the other side. It is a model that compensates for the disadvantages of the wheel type, and the rail type loader (857c) is a device that can run on rails and performs loading work in a tunnel or a pit.
Classification by drip method is shown in the table below.

The loading method of the loader 857 is shown in the table below.

24 to 64, in the other loaders 857, it is used as a muk loader in tunnel construction and is used to load the earth and rocks blown up in the excavation construction to the truck, pay A loader (Pay loader) is used to load soil into the dump truck (860), and it should be operated as slowly as possible, and the bucket should not be raised during no-load operation. It is an exclusive heavy machine for loading slag into a truck. In the continuous loader, it is a gathering arm loader that is used for various tunnels, housing site construction, and limestone mining. A bucket wheel excavator is used, a belt loader is used, and a skid loader is a loading machine suitable for working in a tunnel or a tunnel.

The hull position movement of the tsunami damage prevention device (811) composed of the main body (1) of the tsunami prevention device for earthquake and tsunami ) of the tsunami damage prevention device 811, which constitutes the position adjustment of the hull position movement control of the hull position movement control, is provided with the hull position movement pumping operation devices, and is connected to the tsunami disaster prevention flotation system that rescues lifesaving and distressed ships. Consists of.
In the type of dump truck 860, a rear dump truck is a truck that lifts a load by tilting the cargo compartment to the rear, and is most used in civil engineering work, and the side dump truck 860 is a truck that lifts a load by tilting the cargo compartment to the side. And the bottom dump truck 860 is a truck that can load a load down because the bottom of the jib is opened, and is widely used in trailer dump trucks. same as the table of
Calculate the number of trucks required:

Truck workload calculation:

here,

In the running resistance of the dump truck 860, there is a formula for calculating the driving force in the rolling resistance and the gradient resistance, and the rolling resistance (W _r ) is

Indicate, the gradient resistance (W _g ) is

As above, the driving force (W _s ) is

Same as above. Here,

Dumptor is a special unpaved road truck for short-distance transportation, and it can work in a narrow workshop. The tractor and trailer 860a is a machine that transports heavy objects or equipment, bulldozers of construction machines, and towed trailers 860a loaded with rollers by a tractor, and the tractor's driving device is classified into crawler type, semi-crawler type, and wheel type.
Rope way is a machine that transports cargo by building pylons on both sides of the mountain, connecting cables, and arranging a transporter every 60 m. it was to And it is used to transport aggregate and cement materials in dam construction. As such, a wagon is similar to a motor scraper, but it cannot lay soil by its own power, and it is a machine that transports the soil loaded from the loading machine. towed by front. It is also referred to as a full trailer (860a) as having an axle and wheels attached to the rear end.
As an outline of a forklift (Forklift; 858), it is a device that lifts or unloads cargo. It is a device that has many things in common with automobiles and is widely used indoors and outdoors in warehouses or piers. In other words, it is effective for short-distance transport, loading and unloading of hardened materials, and the specification mark indicates the lifting capacity in tons (more than 1 ton medium). can be tilted forward 56° (referred to as anterior inclination angle) and backward by 10°12° (referred to as rear inclination angle), and can move up to 4500mm in height and at least 3000mm (referred to as maximum amount of inclination).
The minimum radius is very small. (65°75° inside wheel steering angle)
The pressure of the hydraulic piston becomes 110130 kgf/cm ² .
Front-wheel drive is the rear-wheel directional type.
Steering device of forklift 858: rear wheel directional type
A hydraulically operated master assembly is installed. (Hydraulic 70130 kgf/cm ² )
During operation, the fork is raised by 150200mm from the ground.
It is efficient within 250 m of driving distance.
The front wheel is installed directly on the frame, and the rear wheel does not have a suspension spring in the small size, but some use a suspension spring in the large size.
As for the handling method, the effective carrying distance is suitable for work within 250m. The height of the fork while driving is to increase the height of the fork by 150200mm when carrying cargo. The flow rate and gas composed inside the body (1) of the tsunami disaster prevention flotation system body (1) composed of construction machinery to move and disassemble and disassemble the position of the hull of the offshore hydro power plant floating dock (593,594,595). It is equipped with tsunami damage prevention devices (811) that control the flow of the tsunami, and is connected to a tsunami disaster prevention buoyancy-reading device that saves lives and ships in distress.
The conveyor (Conveyor, 633) is mainly used for the transportation of materials and concrete and is widely used because the equipment is easy and economical.
The screw conveyor is used for transporting sand, cement, and concrete, and the belt conveyor is the most widely used for transporting soil, crushed stone, and aggregate. Size: tonm Portable conveyor is used for transporting sand and gravel and It was used for harvesting.
In this way, specially-designed transport vehicles are described as follows by hoisting to a stationary driving vehicle and a uni-mog.
The stationary driving vehicle is a wheel-type front-wheel drive vehicle capable of transporting in adverse conditions such as mud, sand, and irregularities.
Uni mog is a vehicle that can be widely used in various fields such as agriculture, civil engineering, snow removal, and road maintenance, and hoisting is a body (1) ) It is equipped with tsunami damage prevention devices 811 that control the flow of the internal flow, and is connected to a tsunami disaster prevention buoyancy poisoning device that saves lives and ships in distress.
As shown in FIGS. 24 to 64, the roller 863 is a self-contained self-contained voltage device, and is a compaction machine with two or more smooth drum rollers as wheels. It is a construction equipment that compacts the road surface as the last operation of the runway construction. The weight of the roller is indicated in tons in the specification of the roller 863, and when the size of the roller 863 is 815 tons, it The weight is 8 tons and the ballast (additional load) can be loaded up to 7 tons.
In the type of the roller 863, it is divided into a voltage type, an impact type, and a vibration type of a pressure type.

As shown in the table above, the additional load (Ballast: weight) in the yaw area is called an additional load to increase the voltage capacity by loading the additional load when the voltage capacity is small due to the weight of the roller itself. You can add more than twice its own weight. Iron, water, and sand are used for additional load. Tire rollers are injected as much as necessary into the water tank, and macadam, tandem, and tamping rollers increase voltage capability by injecting additional loads to the wheels.
In classification by pressure method, voltage compactors are divided into road rollers, tire rollers, and tamping rollers, impact compactors are divided into rammers and tampers, and vibratory compactors are vibrating rollers (863a) and soil compactors (863b). ) was separated.
24 to 64, the roller by static pressure according to the type and characteristics of the roller compacts the road surface by the static weight of the roller, and the use of the Machadam roller (863c) is crushed stone (gravel) It is suitable for initial compaction when paving the base, subgrade, roadbed, and asphalt, and its characteristic is that it is a differential gear using a differential device that can reduce the speed of the inner ring for smooth turning when turning a curve. It is a device that drives both wheels at different speeds when turning.
Tandem roller (863d) is suitable for compaction of clay and viscous soil and is used for compacting thick soil or finishing asphalt pavement. It proceeds in the order of the rear wheel, and the characteristic is that it cannot be used for crushed stone compaction, and heavy oil is injected into the driving drum. In addition, the compaction width can be widened by separately manipulating the front and rear wheels.
Tamping roller (863e) is used to compact the soft soil. It is a dam construction, embankment, road, and airfield, and the types are foot roller, turn foot roller, and tape foot roller.
The outline of the tire roller (863f) is that tires are attached instead of steel wheels of tandem rollers, and there are towed type and self-propelled type. The air pressure was 1.510 kg/cm ² and the characteristic was that the running speed was very high.
As such, the roller by centrifugal force compacts the road surface by using centrifugal force under its own weight. is the weight of the equipment.
Impact type compactor is used to compact free fall impact. Rammer is a compaction foot attached to the body of a two-stroke cycle engine of a small internal combustion engine. It has a structure that changes it into a reciprocating motion and transmits it to the compaction plate through the elastic body of the spring. It is suitable for compaction in narrow places and roads. As a compacting machine, it is said that there is a self-propelled type and a movable type by manpower. As such, the compaction effect is large compared to the weight, suitable for sandy soil, and unsuitable for viscous soil.
The objection to the objection is the line pressure by the width (maximum width) that is compacted in one pass as the roller compaction width, which is the value (kg/cm) divided by the weight of the wheel by the width of the wheel.
The soil stabilizer (864), which is the same as the road safety device, is dirt. road. It is used as an economical compaction and stabilization method for airfield construction, and it is a stabilizing construction machine that can complete various tasks at once in actual work with one model. In order to control the movement and disassemble and assemble the hull position of the offshore hydro power plant floating dock (593,594,595), it is said that the entire material is uniformly mixed. The hull position movement pumping device of the tsunami damage prevention device 811, which controls the flow rate and gas flow, is connected to a tsunami disaster prevention flotation device that rescues lifesaving and distressed ships.
The outline of the concrete mixer is a machine for effectively working at the construction site by mixing sand, gravel, cement, and water. When transporting to the construction site and mixing, it is driven by hydraulic pressure. And wetness type is transporting the completely mixed raw concrete mixture while stirring, also called "edge data", and the specification is indicated by the amount of concrete that can be mixed once (m ³ ).
The hull position movement pumping operation device of the tsunami damage prevention device 811 composed of the main body (1) of the tsunami disaster prevention device body (1),
A concrete batching plant (865), a concrete hopper (865a) and a transport device, constituting the construction machine position adjustment of the hull position movement control of the offshore hydroelectric power plant floating dock (593,594,595) constituting the upper part (SDU) of the dock hull deck of the offshore power plant In the charging chart (865b), the adjustment plate (865c) and the water catcher (865d), the symmetrical hopper (865e), the scale frame (865f), and the storage bin (865g), the integrated belt conveyor (865h) and the turnhead (865i), the bucket elevator (865j) and conveying cement chad (865k) with regulating plate (865l) and recording device (865m) and circular mixer (865n) with cement silo (865o) and skur conveyor (865p) for offshore hydro power plant floating dock (593,594,595) In order to move the hull position and to disassemble and assemble, it is equipped with tsunami damage prevention devices (811) that control the flow rate and gas flow into the main body (1) of the tsunami disaster prevention buoyancy reading device composed of construction machinery. It is connected to the structure and the floating fish tank for tsunami disaster prevention that rescues the ship in distress.
The outline of the concrete pump 869 is convenient when transporting concrete in a limited space, such as in a bridge or a building in a tunnel, and the pump is of a mechanical type and a hydraulic type. It is a hydraulic or hydraulic combination type, with little shock or vibration, simple handling, easy maintenance and inspection, and economical, and is used for high-rise buildings and long-distance concrete transport.
Types are movable and mechanical, hydraulic and truck loading. Diaphragm type is used for high-rise buildings (over 100m), and the specification is indicated by the delivery capacity per hour (m ³ /hr), and the components of the piston type concrete pump are concrete injection hopper, Consists of suction and discharge valves, pistons, and cylinders.
The concrete pouring machine is a concrete finisher (866), and its outline is a finishing machine that lays concrete, then selects and compacts it. Finish the slab surface.
The purpose is that the load on each part of the machine is small, the structure is simple, and the wear and noise of the machine is small. Displayed in width (m) and at the same time moving the hull position of the tsunami damage prevention device 811 into the body (1) of the tsunami prevention device body (1). It is composed of flotation equipment for tsunami disaster prevention that rescues the life of a machine and a ship in distress.
24 to 64, the outline of the concrete spreader (Concrete spreader, 867) is a paving machine that uniformly lays the raw concrete sprayed on the pavement bed, and the purpose is a truck mixer or a dump truck while driving in front of the concrete finisher. It is a machine that receives, transports, lays, and compacts concrete from The hull position of the tsunami damage prevention device (811), which is divided into the asphalt finisher (871) and the asphalt spreader (872) in the 870 and the asphalt cover and the asphalt spray, and is composed of the body (1) of the floating food reading device for tsunami disaster prevention Mobile pumping operation device It is composed of a construction machine of the hull position movement control pumping operation device of the floating dock (593,594,595) of the offshore hydroelectric power plant that consists of the upper part (SDU) of the dock hull deck of the offshore power plant.
In this type, the metering and mixing method is formed in batch type and continuous type, and the installation method is stationary type. It consists of a dehopper and aggregate dryer, an exhaust dust collector, a vibrating screen in a hot elevator, and a metering device in a mixer and asphalt kettle.
Asphalt finisher (871) is equipped with a cleaning and finishing device, which boils gravel sand over 160° in an asphalt mixing plant and spreads the mixed aggregate to a certain thickness on the road. It is used for asphalt spraying, leveling, and compaction in pavement construction, and the specification is indicated by the maximum pavement width (m) and pavement capacity (ton/hr). It is a smooth-finished plate, and the living hopper is a container for storing mixed ash (asphalt) transported by a dump truck with a hopper of 5 tons or more installed on the front of the equipment. It is a job, and the bumper is installed in front of the screed and compacts the pavement to the required thickness of the mixed material sprayed on the road surface.
Asphalt distributor (872) is the first equipment to boil asphalt and spray it on the road surface. That is, it is a spreader that sprays asphalt on the road surface, and the types are self ^- propelled, gear pump, solution pressurized, and mounted.
Asphalt cover is a construction equipment that continuously spreads asphalt mixture for highway use. In addition, asphalt spray is equipment that heats and melts asphalt, asphalt emulsion and tar by means of an oil burner and sprays it under pressure on the road surface. It is an equipment that performs various operations while progressing the hearth, adds and mixes binder and water to level the surface, tighten and harden. The specification is indicated by the capacity of the fluid tank (m ³ ). The efficiency of the sprayer was good, and it was easy to adjust the digging depth.
The diesel pile hammer 883 is a driving machine that uses the explosive power of a two-cycle diesel engine to classify the driving and driving machine 877 for foundation construction. The method of this is that the injection device works when the ram is raised and then dropped by the maneuvering device, and fuel is injected into the concave surface of the anvil and explodes the moment the ram hits the anvil, so that the explosive force and the striking force of the ram at this time are applied to the pile. It is transmitted and the ram bounces up again by the repulsive force. At this time, the exhaust and suction actions are also performed, and the falling, hitting, and explosion are repeated, so continuous driving work is possible. The fuel pump and fuel injection device are composed of starting devices in the anvil inserted in the lower part of the cylinder, and water tank devices for cooling the cylinder are configured.
A starting device 903 is attached to a lid 896 on the left side of the diesel pile hammer 883 body, and a ram 895 and a fuel tank 902 are attached to the upper right side of the starting device 903 as the lower part of the cylinder 126. A fuel pump 900 and a helmet 899 are formed in the lower portion of the cam 901, and a pile 899 is attached to the lower surface of the helmet 899, thereby performing a pile operation.
Its standard indication was that it is indicated by the weight (ton) of the ram, and its purpose is to drive wood, concrete, and steel pipe piles.

The outline of the pillar hammer (= pillar pile hammer) is a machine that sends steam or compressed air into the cylinder to continuously repeat the up and down movement of the piston to drive the pillar into the ram at the bottom of the piston rod. The type of the steam hammer is a machine that operates a piston by using the expansion energy of steam to drive. The specification is indicated by the piston weight (ton). The point is that it costs a lot, and it is light, hard, used when driving piles in high-density soil, guided by a lead, and there are single-acting and double-acting types. And the outline of the vibrating hammer is driving or pulling by vibration force, the frequency is more than 500 beats per minute, and the specification is indicated by the motor output (kW) and vibratory force. It was dropped on the head of the pile and the pile was driven by its striking force, and it was suitable for small-scale construction from a distance among foundation construction machines to reduce equipment and operating costs under the same conditions.
The first advantage was that the operation and hammer operation were simple, the cost was low due to the small size of the facility, and the impact energy could be increased by adjusting the drop height.
As shown in Figures 24 to 64, the second disadvantage was that the speed of driving the pile was slow, there was a risk of damaging the pile, and it was easy to damage the surrounding buildings due to the vibration during operation. It was impossible to work.
In the upper part of the lead 896 of the pile driver 882 body, the adapter 906 and the boom front pin 904, the wire rope 19, the pulley 135, the crane boom 651, and the cadwork 905 of the crane front ) is attached. The pile driver 882 is mounted on the upper deck deck of the barge hull 591, and then the pile 898 work is performed by fixing the equipment to the deck deck working position.
It is a generic term for drop hammers on diesel hammers and steam hammers on vibrating hammers. Drop hammers or diesel hammers are used to drive piles, and the work equipment is installed on the crane boom.

The pile 898 is attached to a separate car pile 898 for fixing to the lower foundation pillar of the deep sea floor, so that the concrete pier is easily installed to the upper part of the sea floor with the saddle frame 617 for the pier. .
Construction machine air compressor (Air compressor, 875) is a machine used for various purposes in various construction works by suctioning and compressing air in the atmosphere to make compressed air, and making it in a high pressure state. is composed of Here, the driving device is a gasoline or diesel engine that supplies power to operate the compressor. In addition, it was said that the volumetric compactor was mainly used for construction work, and for this purpose, the quarrying work was to drill a hole in the rock by using a rock drilling machine and to split the rock. is to be excavated with a shovel device or excavator, and the destruction operation is to destroy concrete and asphalt with brakes.
Concrete vibration work and logging work, painting work, tire air injection, and equipment cleaning. Construction air compressors are large-capacity.
In this type, the compressor is classified and divided into a reciprocating piston type, a vane type compressor, a rotor type compressor, and a screw type compressor and a centrifugal turbo type compressor. This means that the portable type can be used by simply moving the compressor.
Air Cleaner Low Pressure Cylinder Intercooler High Pressure Cylinder Air Tank Its specification is indicated by air discharge per minute (m ³ /min). In other words, it is expressed in terms of actual air volume, and 210 cfm is expressed as 210 cubic feet of compressed air production per minute (ft ³ /min), and the parts of the air compressor consist of a piston, a cylinder, and a pressure control valve on the intake and exhaust valves.
The functions (roles) of its main parts are described in the table below.

A detailed description of the boring equipment 876 equivalent to the rock drilling machine is described as follows.
The perforator 876 is a machine for drilling holes in rocks or the ground, which is operated by an air compressor or hydraulic pressure.
Most of the compressed air is used, and the shock rod is operated with this compressed air and the impact force is used to break the rock. It excavates with a rotating blade in the hole, and the excavation speed is slow, but the depth is deep.
As a standard indication, the crawler type is indicated by the weight of the rock drilling machine and air consumption per minute (m ³ /min). The tunnel excavator is indicated by the maximum excavation dimension (mm).
In terms of this type, the sinker is the latest rock drilling machine with soundproofing device, and it is suitable for rock drilling, various types of expansion cuts, and semi-downward work of tunnels. In other words, it is a small machine that can be manipulated by manpower and operates by the power of air, and it is a machine that delivers price force to the rod through the vertical movement of the piston to perform cutting.
As a powerful drilling machine, it is suitable for drilling large holes in the excavation work of wide cut surfaces, quarrying work and dam excavation. A hole is drilled by applying an appropriate weight pressure to the bit by manual or automatic feeding device, and this feed device has a chain type and a screw type. .
And the breaker is used for the number of crushing of concrete roads, destruction of buildings and strong foundations, and has a strong crushing power with low air consumption. It is mainly used by attaching to a hydraulic backhoe excavator. Therefore, a rock cracker is an equipment that hydraulically crushes rocks or concrete in places where gunpowder cannot be used.
In this way, the hand hammer is effective for excavation work and secondary crushing work in a narrow place, and it is easy to use because it has a soundproof device. Also called jackhammer, it is a small rock drilling machine that can be moved and operated by manpower and is mainly used to drill holes downward.

버킷준설선(879b)의 구조 및 용도는 해저의 토사를 버킷 컨베어를 사용하여 연속적으로 토사를 퍼올리는 방식으로 준설된 토사는 토운선에 의하여 수송하며 대규모의 항로나 정박지의 준설작업에 사용하고 종류는 연속식과 단속식이 있으며 연속식을 많이 사용되며 규격표시는 주엔진의 연속 정격 출력(P S)으로 표시되었으며 준설선(879b)의 특징은 아래의 표와 같다.

디퍼준설선(879c)의 구조 및 용도는, 굴착력이 강하고 견고한 지반이나 깨어진 암석을 준설하는데 사용하며 규격표시는 버킷의 용량 (m³)으로 표시하였고 이의 특징은 아래의 표와 같이 설명한다.

상기한 바와 같이 해저광물 망간단괴(909)의 채집은,
다수개의 건설기계 연결구조물이 지진해일방재용 부양식독장치 본체(1) 내부로 구비되어 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동부 해양발전소 몸체 도크선체갑판 상단부(SDU)에 연결된 원유시추용 드릴링 머신(908)과 해저광물 뜰채그물(910)에 해저광물 흡입 채집기계(911)와 해저광물 채취로봇(912)에 잠망경(913)과 고무풍선(914)에 와이어로프 체인(915)과 이중구조 배관라인 자동공압식 밸브운송장치(916)와 코아드릴(917) 건설기계의 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치 연결구조물들로 구비해 해저광물 망간단괴(909) 채집을 구성하게 되어있다.
도 24 내지 도 64에 도시한 바와 같이,그래브 준설선(879d)의 구조 및 용도는 선박 위의 클램셸을 장치하여 특수한 기중기에 의하여 준설하는 장비로서 소규모의 항로나 정박지의 준설 작업에 사용되었으며 규격표시는 그래브 버킷 평적 용량(m³)으로 표시하고 이의 특징으로는 아래의 표와 같이 설명한다.

그래브준설선(879d)의 구조 및 용도는 선박 위의 클램셸을 장치하여 특수한 기중기에 의하여 준설하는 장비로서 소규모의 항로나 정박지의 준설 작업에 사용되었으며 규격표시는 그래브버킷 평적 용량(m³)으로 표시하고 이의 특징으로는 아래의 표와 같이 설명한다.

상기한 바와 같이 해저광물 망간단괴(909)의 채집은,
다수개의 건설기계 연결구조물이 지진해일방재용 부양식독장치 본체(1) 내부로 구비되어 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 연결된 원유시추용 드릴링 머신(908)과 해저광물 뜰채그물(910)에 해저광물 흡입 채집기계(911)와 해저광물 채취로봇(912)에 잠망경(913)과 고무풍선(914)에 와이어로프 체인(915)과 이중구조 배관라인 자동공압식 밸브운송장치(916)와 코아드릴(917) 건설기계의 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치 연결구조물들로 구비해 해저광물 망간단괴(909) 채집을 구성하게 되어있다.
원석을 부수어서 작게 만드는 기계로서 쇄석을 만들어 공급하는 기능을 가지고 모든 쇄석 작업에 사용되며 주로 골재생산에 사용된다는 점인데 향후 이의 기계로 해저채굴광석을 1단은 선별과정을 거치게 된다.
이같이 쇄석기의 종류에는 1차, 2차, 3차 쇄석기로 분리시키는데 1차 쇄석기의 각부명칭의 설명은 다음과 같이 설명한다.
조크러셔는 압축력에 의하여 파쇄되는 기계로서 양측에 있는 조(Jaw) 사이에 암석이 투입되어 물려 들어가면 양쪽 중 한 측은 고정되어 있고, 다른 측은 가동하여 이때의 가격압력에 파쇄되어 석재는 자기중력과 밀어내는 힘에 의하여 토출방향으로 내려오게 된다. 이와 같은 조(Jaw)는 강력한 힘으로 어떠한 경질 암석류도 파쇄할 수 있는 구조로 제작되어 있다.
자 이레 토리 크러 셔(Gyratory crusher)는, 주철 또는 강철제로서 프레임 하부 편 심 축과 구동기어로 구성되어 있으며, 상부에는 cone형상의 파쇄 실이 있다. 파쇄 부에는 연 직 강제 축에 경 강의 파쇄 헤드 부가 있어 회전하면서 1차 분쇄되며, 그 다음에 최후의 파쇄 실 밑으로 배출되는 크러 셔 이다. 이 크러 셔 는 조 (Jaw) 크러 셔 에 비하여 진동이 적으며 연속적인 파쇄를 할 수 있는 장점이 있으며 기계의 위쪽을 투입구로 밑쪽을 토출구로 되어 있어 원석 투 입 호 퍼 를 설치하여 덤프트럭에 그대로 적재할 수 있는 장점이 있다. 압축력에 의해 파쇄된다는 것이며, 임 팩 트 크러 셔의 해머 크러 셔는 한 개의 회전축에 많은 디스크를 달고, 그 주위에는 장방형의 해머를 힌 지에 매달아 급속회전을 시키면 돌은 타격하게 되어 이때의 타격력으로 파쇄되는 것이다.
2차 쇄석기의 콘 크러 셔는 짧은 수직형 주축 위에 우산 모양을 콘 맨틀 헤드를 달아 이의 편 심 운동에 의하여 프레임에 장치한 콘 커브볼 사이에 돌이 물리고, 다시 이의 하강 석을 파쇄하게 된다. 이는 충격작용에 의하여 파쇄되므로 그 구조가 약간 복잡하며, 파쇄 석이 그대로 흘러내리는 슬립(Slip)은 거의 없어 상대적으로 파쇄비가 매우 큰 특징이 있다. 충격력과 압축력을 이용한다. 자 이레 토리 크러 셔 에 비하여 콘이 짧고, 공급 구 치수가 작으며 출구 간격 치수가 최대 치수의 쇄석으로 규격품을 생산할 수 있는 장점이 있다. 일정한 세 골재의 대량생산에 적합하다는 것이며 해머 밀 크러 셔의 더블 롤 크러 셔는 2개의 경 강 제 롤이 별개의 수평축에 고정되어 있고, 그 간격도 자유스럽게 조절할 수 있다. 이 롤은 평행으로 설치되어 있으나 회전은 각기 반대방향으로 회전하게 하여 그 사이에 암석을 물리게 함으로서 이 롤 사이를 통과하면서 파쇄된다. 이 롤은 압축파쇄, 배출의 주기능을 가지며 포장용 골재 생산에 많이 쓰인다.
3차 쇄석기(874)의 로드 밀(Rod mill)은 5mm 이하의 잔 골재를 생산하는 것이었고 볼 밀(Ball mill)은 로드 밀과 볼 밀은 파쇄된 돌을 다시 가는 골재로 생산하기위한 기계로서 강제의 원형 드럼 속에 짧은 환 봉 제의 로드를 넣고, 이 속에 가는 골재를 물과 함께 연속적으로 공급하여 드럼을 회전시키면서 타격 되어 분쇄된 다음 흘러나오게 되는 것으로 비교적 입 도가 균일하며, 이때의 물이 적으면 곱게 파쇄되며, 물이 많으면 입 도의 거칠기 정도가 크다. 물이 있는 밀은 습식이고, 물이 없는 것은 건식이나 일반적으로 습식이 많다.
볼 밀은 로드 밀의 로드 대신 강 볼을 원통 내에 넣고 회전하여 새로운 골재를 얻게 한 것이 다를 뿐이다.
이의 규격표시는 시간당 쇄석 능력을 톤(ton)으로 표시[TPH(ton per hour)]하는 것이다.
상기한 바와 같이,원석을 부수어서 작게 만드는 기계로서 쇄석을 만들어 공급하는 기능을 가지고 모든 쇄석 작업에 사용되며 주로 골재생산에 사용엔진발전기(226)의 동력전원(46)으로 해양터널 교통장치(941)의 완성 전 시기로 한시적으로 사용할 수 있게 다수개의 건설기계 연결구조물이 지진해일방재용 부양식독장치 본체(1) 내부로 구비되어 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 연결된 원유시추용 드릴링 머신(908)과 해저광물 뜰채그물(910)에 해저광물 흡입 채집기계(911)와 해저광물 채취로봇(912)에 잠망경(913)과 고무풍선(914)에 와이어로프 체인(915)과 이중구조 배관라인 자동공압식 밸브운송장치(916)와 코아드릴(917) 건설기계의 분배투입장치 건설기계 연결구조물들로 구비해 채집된 해저광물 망간단괴(909) 원석을 부수어서 작게 만드는 기계로서 쇄석기(874)의 로드 밀(Rod mill)은 5mm 이하의 잔 골재를 생산하는 것이므로 볼밀(Ball mill)은 로드밀과 볼밀은 파쇄된 돌을 다시 가는 골재로 생산하기 위한 기계로서 새로운 골재 쇄석을 지진해일피해방지장치(811)에 포함하는 선체위치이동 펌핑 가동장치와 해양수력발전 동력생산조절장치에 건설기계의 교통운송장치와 동력전달조절장치와 설비안전 통제 관리 전장장치와 전자제어조절장치 건설기계조절장치와 전자제어조절장치 나사조절장치의 연결구조물들로 구비해 인명구조와 조난선박을 구조하는 지진해일방재용 분배투입장치를 이루도록 구성되어있다.
이하, 지진해일방재용 부양식독장치의 방화수(7)인 급수의 수원과 수질에 대하여 다음과 같이 상세한 설명을 하기로 한다.
하천수나 호수와 같이 지표 위에 노출되어 있는 물을 지표수라 하고 우물과 같이 지하에 잠겨 있는 물을 지하수라 한다. 급수의 수원으로는 하천수와 우물물이 많이 사용된다는 것이었다.
이에 우물물은 평균 온도가 16°에서 17°로서 계절의 변화에 따른 수온의 차가 적어 냉방이나, 공업 용수에 적합하고 수질이 좋은 것은 음료수로 사용된다는 것이었으며,
하천수는 수량이 풍부하므로 정화하여 대도시의 상수도 물로 많이 사용한다. 수도물은 겨울에는 3°에서 8° 여름에는 25°에서 28°로서 계절에 따라 수온의 변화가 심하기 때문에 사진 현상, 그 이외는 별도의 공업용에는 적합하지 않다는 것이 었 고,
수질은 물에 포함되어 있는 유해물과 병균 등에 따라 탁도, 색, 맛, 냄새 등이 다르므로 이를 검사하여 허용 함유량을 초과하는 경우에는 사용을 금하고 있다. 병균은 질병을 발병시키는 요인이 되며 유해물은 기준치를 초과한 광물질로서 요리와 세탁물에 나쁜 영향을 준다.는 것이었으며,물의 경도는 물속에 포함된 탄산칼슘 등의 광물질의 함유량을 기준으로 표시한다. 즉 탄산 칼슘이 물속에 100만 분의 1 포함되어 있을 때 이것을 1(p.p.m; part per milion)이라 한다. 음료수는 90에서 110(p.p.m)이 적합하고 300(p.p.m)을 초과하여서도 안된다.
또한 물은 경도에 따라 연수와 경수로 나뉘며 90 p.p.m 이하의 물을 연수(110 p.p.m) 이상의 물을 경수라 한다는 것이었다.
일반적으로 펌프(pump) 몸체(Body)에 대하여 다음과 같이 설명하기로 한다.
상기 펌프의 양수는 흡입 관내를 진공 하여 빨아올리는 작용과 물을 뿜어내는 관내를 눌러서 올리는 작용에 의하여 행해진다. 빨아올리는 작용은 진공에 의한 것이므로 대기압에 상당한 수두. 즉 표준 기압하에서는 10.33m 이상 빨 아 올릴 수는 없다. 그러나 이 10.33m는 이론상의 빨아올리는 높이이며 실제로는 수중에 함유되어 있는 공기나 물 자체의 증발에 의하여 완전한 진공은 되지 못하며 또한 빨아올리는 관 내의 저항손실에 의하여 이론상의 빨아올리는 높이의 2/3정도 즉 약 7m 정도에 불과하다. 따라서 펌프의 설치 높이로 빨아올림 양정은 최저 수면에서 7m 이내의 곳이 아니면 안 된다.(이하,설명을 생략함).
도 24 내지 도 64에 도시한 바와 같이,유압의 정의에 대하여,유압이란 동력을 이용한 유압 펌프에 의하여 기계적 에너지를 유체의 압력에너지로 변화시켜 유압 유에 저장하게 하며 이를 제어밸브에 의해서 압력(힘의 제어), 유량(속도의 제어), 방향전환(방향의 제 어)의 3가지 기본제어 요소를 목적에 따라 조합하여 유압실린더나 유압모터의 작동기를 통하여 다시 기계적 에너지로 전환하는 장치 또는 방식을 의미하는데 먼저 유압의 장점으로는,상기 시스템의 크기에 비해 큰 힘을 발생하며 정확한 위치제어가 가능하고 큰 부하 상태에서의 시동 가능하여 부하와 무관한 정밀한 운동에 그리고 정숙한 작동과 반전으로 뛰어난 제어(힘, 방향, 속도) 및 조절성과 뛰어난 열 방출성을 감지할 수 있다는 것이다.
이러한 유압의 단점에 있어서는,폐유에 의한 주변 환경의 오염에 이물질에 민감하여 고압 사용으로 인한 위험성과 온도변화에 따른 작업조건의 변화로 낮은 효율들로 이처럼, 유압장치의 구성에 있어서,
상기 유압 시스템은, 먼저 동력공급과 제어와 그리고 출력 부분으로 나누어질 수 있으며 동력공급 부분은 시스템에 유량을 공급하며,가장 주요한 부품은 원동기와 펌프들로 상기 원동기는 펌프를 구동하는데 필요한 기계적인 동력을 제공하는 장치이며 산업 시스템에서는 이 장치로서 일반적으로 전동기가 사용되며, 굴삭기에 농기계와 같은 차량의 경우에 원동기는 자동차의 엔진으로서 펌프는 원동기로부터 기계적 동력을 얻어서 이를 압력을 지닌 유체의 유동으로 변환시키는 역할을 한다.
상기 유압 시스템의 출력 장치로는 작동기(액추에이터)와 부하가 포함되며 작동기는 유체의 동력을 기계적 동력으로 변환시켜 부하를 움직이는 역할을 하면서 작동기는 직선운동을 하는 실린더(선형 액추에이터)일 경우와 회전운동을 생성하는 유압 모 터(회전 액추에이터)일 경우의 유압 시스템의 출력 장치로 구성되어 있다.
제어장치는 유압 시스템의 중간에 위치하고 있으며 부품으로는 방향제어 밸브, 압력제어 밸브, 그리고 유량제어 밸브가 포함된다. 예를 들어, 실린더가 전진하거나 후퇴하는 것과 같이 유체 흐름의 방향제어에 의해 액추에이터의 운동방향을 조절할 수 있다.
전술했던 바와 같이,유체의 압력을 제어하는 것은 출력의 힘을 조절하는 것이 되면서 유량을 제어하는 것은 액추에이터의 운동속도 조절을 구성하는 것이다.
도 24 내지 도 64에 도시한 바와 같이,압력원부의 구성에는,필요량의 오일을 모아두는 탱크, 탱크로부터 오일을 퍼내서 회로내로 보내는 유압펌프와 동력원을 보호하기 위한 안전밸브들로 구성되고 있으나 이 부분도 장치 고유의 필요성에 맞추어 여러 종류의 기기가 사용된 펌프로 기어와 베인에 피스톤 펌프로 전동기와 탱크에 릴리 프밸브와(Shut-off) 밸브에 압력게이지와(Heat-exchange) 온도계에 휠터로 흡입라인에 압력라인과 복귀라인에 구성하고 제어부는 아래표와 같이 설명한다.
오일의 압력을 조절하는 압력제어밸브, 오일의 흐르는 방향을 전환하고 작동기의 작동방향을 전환하는 방향전환밸브,작동속도를 조정하는 유량조절밸브들이 구성요소로 되어 있는데 압력제어 밸브는 릴리프밸브와 감압밸브에 시 퀀 스 밸브와 무 부하 밸브에 카운터 밸런스 밸브이며 방향제어 밸브로는 2/2와 3/2에 4/2와 4/3에 5/2-w a y 밸브이고 유량제어 밸브에는 오리 피 스 와 작동속도 조절로 구성하면서 동시에 표 1-1은, 유압장치의 구성에 대해 아래의 표와 같이 설명한다.

작동부는,직선운동과 회전운동에 요동운동으로 아래의 표와 같이 설명한다.
첫째로,직선운동의 실린더는 직선적으로 누르거나 끌거나 한다.
둘째로,회전운동의 모터는 중량물을 와이어로프로 말아 올린다.
세째로,요동운동의 요동 모터는 일정 각을 회전하는데 표 1-2는,유압장치 내의 동력과 압력유의 구성작동에 대해 아래의 표와 같이 설명한다.

상기된 주요한 물리량과 단위의 물리량에 질량과 힘에 압력과 동력의 단위는 아래의 표와 같이 상세한 설명을 하기로 한다.
첫째로 물리량에 있어서는,물리량이란 물체의 특성,즉 측정할 수 있는 상태나 과정으로 예를들어,속도(속력),압력,시간,온도는 물리량이고 색은 물리량이 아니며,길이는 Meter(m)로,질량은 Kilogra m(kg)으로,시간은 Second(s)로,온도는 Kelvin(K) 또는 Celsius(℃)로 표준화가 되어있고 유압에서 주요한 물리량 즉 힘, 면적,유량,량,압력,속도는 위의 기본단위에서 유도할 수 있다.SI는 kg을 질량의 단위로써 정의한다.
둘째로 질량에 있어서는,질량은 일반적으로 무게 라는 용어와 같이 사용하며 지구상에서 1kg의 무게를 갖춘 정육면체 강재는 1kg의 질량을 가진다.
세째로 힘에 있어서는,질량은 중력 가속도에 관계없이 자체적인 성질을 갖춘 질량 단위를 설명하는데 있어서, 힘의 단위는 중력 가속도와 관련되어 결정되며 (Newton,1643-1729)법칙에서 힘 = 질량ㅧ가속도(F=mㅧα), 힘 = kgㅧm/s² 이것을 간단하게 Newton[N ]이라 하는데 1N = 1kgㅇm/s² 단위로써 정의한다.
네째로 압력에 있어서는,압력이란 "물체의 단위면적에 가해지는 힘의 압력"이며 그 단위로는 지금까지 미터법 공학단위인 [kg_f /cm²]나 [kg_f/m²]가 주로 사용되었으나 앞으로는 SI단위인 [N /m²], 즉 Pa(Pascal이라고 읽는다)을 써야 할 것이다.

상기한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 종전의 실린더(126)와 플런저펌프(148)의 사축식 플런저펌프(148b)와 레이디얼 플런저펌프(148c) 건설기계 연결구조물로 구성되어있다.
압력의 값은 일반적으로 대기압과 비교를 한다.

대기압(atomospheric pressure)은,지구를 둘러싼 공기를 대기라 하고 그 대기에 의하여 누르는 압력을 대기압이라 하는데 표준 대기압은,다음과 같다.
1atm = 760mmHg(수온주 높이) = 10332kg_f/m² = 1.0332kg _f/cm²
= 10.332mAq(물의 높이) = 101325N/m² = 1.0 1325bar
게이지 압력(gauge pressure)은, 게이지에 의하여 측정된 압력이며 국소 대기압을 기준으로 하여 측정한 압력이다.
절대 압력(absolute pressure)은,완전진공을 기준으로 하여 측정한 압력이다.
다섯번째 동력에는,일이란 소비된 에너지의 양으로 정의되고, 가해진 힘과 힘 때문에 이동한 거리와의 곱으로 계산된다(W = FㅇS). 만약 어떤 물체를 40m 이동하는데 300N의 힘이 필요했다고 하자. 이 경우 한 일은 W = 3 00Nㅇ40m = 1200Nㅇm[J]이다. 그러나 일이라는 개념만으로는 알 수 없는 것이 물체를 얼마나 빨리 이동하였는가 하는 것이다. 이 일은 10초 아니면 5초 만에 행해졌는가? 즉 동력은 에너지가 얼마나 빨리 소모되었는가를 고려하는 것이다. 한 일을 일이 행해진 시간으로 나눔으로써 동력에 대한 식을 구하게 된다.

예를들어, 일이 Nㅇm이고 시간이 초(s)라고 하면, 동력은 Nㅇm/s로 될 것이며 일반적으로 동력의 기호로는 대문자로 P를 사용하는 반면, 소문자 p는 압력의 기호로 사용되며 위 식에서s/t를 속도 υ로 바꾸어 넣으면 다음과 같이 된다.

예를들어, 힘이 N이고 속도가 m/s라면, 동력의 단위는 Nㅇm/s가 된다. 동력은 마력(horse power; hp)으로도 표현한다. 이 두 가지 단위 사이에서 변환 관계는, 다음과 같다.

도 24 내지 도 64에 도시한 바와 같이,단위간의 변화 관계를 방정식에 적용했기 때문에 위 식에서 힘은 N, 속도는 m/s로 단위 사용을 제한하면서 다른 어떤 단위로도 사용하면 안 되며 단위간의 변환 관계를 미리 고려하여 만들어진 이러한 방정식은 편리함 때문에 산업현장에서 많이 사용되면서 국제단위계에서 동력은 조 함 단위로서 와트 (Watt ; W)를 사용하고 있는데 W는 크기가 작은 단위이므로 일반적으로 킬로와트(kW)로 표현하면서 적합한 변환인수(1kW = 1000W)를 식 (1.2)에 넣으면 국제단위계에서 사용하는 다음 식이 얻어진다.

위 식에서 계산한 값의 단위가 킬로와트(kW)임을 나타내기 위해 kW란 기호를 사용하였다. 식 (1.3)에서 적용되는 단위는 F(힘)는 N,υ(속도)는 m/s이다.
유압기계에서 사용되는 간단한 유체역학의 연속방정식에 베르누이 방정식과 유체의 정역학에 파스칼의 원리와 압력전달의 원리에 유체의 유동과 마찰의 흐름을 아래와 같이 상세히 설명한다.
연속 방정식에 있어서는,연속 방정식은 질량 불변의 법칙을 유체의 흐름에 적 용한 것으로, 폐곡선의 관로 속 유체는 도중에 생성되거나 소멸 되지 않는 것을 뜻한다.
관로 속의 흐름 을 정상류(steady state flow)라 생각하고 유체는 압축성을 고려하지 않을 때, 이 관에 직교하는 임의의 단면 ①과 ②를 설정하고 그 단면에서의 평균유속을 각각 υ₁ υ₂, 단 면적을 A ₁ A ₂, 밀도를 ρ ₁ ρ ₂라 하며 이때 단위 시간당 각 단면을 흐르는 유체의 양은 질량 불변의 법칙에 따라 같지 않으면 안 된다. 즉 질량을 m이라 하면,

이 되어야 하고 여기서,

은 임의의 점에 있어서 관로를 지나는 질량 유량(mass flowrate)이다.
①지점을 단위시간에 통과하는 질량은 ρ ₁, A ₁, υ ₁이므로 위의 식은 다음과 같이 되며,

유체가 비 압축성인 경우에는 ρ = Const.이므로

으로 되며 이 Q를 유량이라 하고 관로 속을 지나는 유체의 유량은 어느 단면에 있어서나 일 정하다는 것을 나타낸다. 즉 유압에서는 유량이란 "단위 시간에 이동하는 액체의 양"을 말하며 토 출 량으로 표현하고 있고,유량은 통상적으로 기호 Q로 표시하고 단위는 ℓ/min. cc/sec 으 로 표시하며 유속은 "단위 시간에 이동하는 유체의 거리"를 말하는 것으로 위 식으로부터

가 되고 단위로 m/s로 표시된다.
베르누이 방정식에 있어서는,베르누이 방정식은 비 압축성 유체의 전체 에너지에 대한 관계를 설명하고 있으며, 유압유는 거의 비 압축성이므로 베르누이 방정식은 유압시스템에 사용할 수 있고 유체의 에너지는 3 가지 형태로 나타낸다.
먼저 유체 에너지(높이와 주역으로 인함) = Wㅇh
다음의 압력 에너지(압력으로 인함) = Wㅇ

*그 다음의 운동 에너지(속도로 인함) = Wㅇ

위의 3 가지 에너지 항의 단위는 모두 Nㅇm이다. 만약 어떤 시스템에 외부로부터 에너지가 들어오거나 빠져나가는 경우가 없다면, 임의의 두 점에서의 에너지는 모두 같아야만 하며, 이를 식으로 나타내면 다음과 같다.

각 항에 W가 공통으로 있으므로 이를 나누면 다음 식이 얻어진다.
이것이 베르누이 방정식인데 이는 단위 중량당 유체가 포함하는 에너지를 모두 표현하고 있으므로 세 가지 에너지 중에서 한 개만이라도 증가하면 나머지 두 가지 에너지 중에서 한 가지 또는 두 가지의 에너지가 감소하여 세 가지 에너지의 합이 동일하도록 균형을 이룬다.
유체의 정역학은 유체 정역학의 압력은 용기의 모양에 관계없이 수두에 비례한다. 따라서 유체의 비 중량과 수두의 곱으로 나타낼 수 있다.
p = rh (1.6)
파스칼의 원리는,밀폐된 용기에서 어떤 힘(사람의 힘, 기계의 힘 또는 자 중에 의한 힘)에 의하여 유체에 압력이 가했을 경우 이 유체에 가한 압력은 모든 방향에서 똑같은 크기로 다른 물체에 전달되며 이 원리를 처음으로 밝혀낸 사람이 파스칼이라서 "파스칼의 원리"라고 하며 유공압 기기에 이 원리를 많이 사용하고 있으며 이에 정지하고 있는 액체가 서로 맞닿아 있는 면에 미치는 압력은 맞닿아 있는 면과 수직으로 작용하는데,정지하고 있는 액체의 한 점에서 작용하는 압력의 크기는 모든 방향에 대하여 같으며 이처럼, 밀폐된 용기 내에 정지하고 있는 액체의 일부에 가해진 압력은 모든 부분에 같은 세기로 동시에 전달되므로 이를 파스칼의 원리라고 한다.
도 24 내지 도 64에 도시한 바와 같이,밀폐된 용기에 액체를 넣고 위에서 힘(F)을 가하면, 액체는 압축하여도 체적은 줄지 않는 성질이 있으므로 액체는 위에서 누르는 힘에 대항하려는 힘이 생긴다. 이를 반 력 이라고 하며, 이와 같은 액체의 반 력 을 압력(p)이라고 한다.
용기 내의 압력은 힘 F를 피스톤의 면적 A로 나눈 것이다.

압력 전달의 원리는,실린더 안에 액체를 채우고 피스톤 단면적 A _1, A ₂에 F ₁ 및 F ₂의 힘이 가해졌을 때 이들 힘 때문에 액체 중에는 어떤 압력이 발생하는데, 여기서 피스톤과 실린더 사이에 마찰은 없고 이 부분으로부터 누설도 없으며, 또한 전달에 의한 에너지 손실도 없다고 하면, 두 개의 실린더 내에 발생하는 압력은 다음 식으로 나타낼 수 있다.

단, 실린더 내 액체의 높이 차에 의한 압력의 차이는 p값에 비해 매우 작으므로 무시할 수 있다. 위의 식으로부터

가 얻어진다. 즉, 힘은 피스톤의 단 면적에 비례한다. A ₂에 비해 A ₁이 작으므로 F ₁에 비해 충분히 큰 힘 F ₂가 얻어진다. 유압 프레스나 수압기가 이 원리를 이용한 것이다.
실시예의 유압 증강장치는,표면적이 다른 두 개의 피스톤을 로드에 의해 연결하는데 압력 p ₁을 피스톤 면적 A ₁에 작용시키면 힘 F ₁이 로드를 통하여 작은 피스톤으로 전달되고 이 힘이 단면적 A ₁에 작용하므로 압력 p ₂는 증 압 되어 마찰손실을 무시하면 등식은 다음과 같다.

압력증강 장치에서 압력은 피스톤의 면적에 반비례한다.
도 24 내지 도 64에 도시한 바와 같이,유체의 유동은,유체 유동의 모든 경계면이 고체 면으로 이루어진 유동을 일반적으로 내부유동(internal flow)이라고 하며 이러한 유동은 크게 층류유동과 난류유동으로 대별하고 층류 유동은 점성력이 관성력 보다 지배적인 유동으로 레이놀즈수가 작은즉, 속도의 크기가 작은 유동이면서 점성 유동인 경우 뉴톤의 점성법칙을 잘 만족시키는 유동이며, 난류 유동은 역으로 관성 력이 점성력 보다 지배적인 유동으로 레이놀즈수가 큰즉, 속도의 크기가 큰 유동이며, 일반적으로 유압장치에서의 유동은 층류 유동인 경우가 많다.

위 표와 같이 마찰과 흐름은,유압 에너지는 배관을 통하여 이송될 때는 손실이 따른다. 마찰은 유체 자신과 배관의 내벽에 의해 발생 되고 열을 발생하는데 유압 에너지가 열에너지로 전환하면서 동시에 유압 에너지의 손실은 유압유체의 압력손실을 칭하며 유압유체는 유압설비 내의 모든 구조물에서 압력손실이 있으므로 이 손실은 흐름 매체의 마찰에 의한 것이며,열에너지로 변화하는 구조물에서의 압력손실은 때때로 고의적으로 발생 되는 경우가 있으므로 구조물에서 열 발생을 일으키는 압력손실은 바람직하지 않으므로 작동중에 있는 모든 유압유체는 유압기기 내의 구조물에 의해 가열되므로 배관 내의 유체가 화살표방향으로 작용하면 흐름의 방향으로 나타나는 압력은 점점 감소한다.
이렇게, 유압펌프는 유압 펌프개요와 토출량과 압력의 관계에 펌프의 동력과 효율로 분리하여 하표와 같이 설명하는데 먼저 유압펌프 개요에는,원동기로부터 공급받은 기계적 에너지를 유압 에너지로 변환시켜 유압 유의 유압에너지 수준을 높임으로써 유압계통에 에너지를 가해주는 기기를 유압펌프라 칭하며,펌프는 비용적식펌프와 용적형펌프로 분류하는데, 비용적식 펌프란 유폐되지 않은 상태에서 에너지의 전환이 일어나는 펌프로서 원심펌프, 사류펌프, 축 류펌프,분사형펌프들이 있으며 토출량과 압력 사이에 일정한 관계가 있어 토출량이 증가하면 토출 압력은 감소하며, 용적식 펌프란 펌프의 축이 한번 회전할 때마다 일정한 량을 토출하는 펌프로서 토출량이 부하압력에 관계없이 일정하고 부하압력에 따라 토출압력이 정해지므로 부하가 과대해 지면 압력이 상승해서 펌프가 파괴될 위험이 있는데,유압계통은 유압 펌프가 펌프작업을 함으로써, 탱크 내부에 있는 저에너지의 유압유를 흡입하여 이것에 에너지를 가하고, 다시 밀폐된 작동부에 높은 에너지의 유압유를 보내어 작동부(실린더,모터)를 통해서 외부에 일을 하고, 유압유는 저에너지로 되어 탱크로 다시 되돌아오는 계통으로 구성되면서 펌프작업으로 유압 유에 가해진 일 또는 에너지는, 일 = (힘)ㅧ(변위) = (압력)ㅧ(넓이)ㅧ(변위) = (압력)ㅧ(배제 체적)와 같이 된다.
단위시간에 가해진 일, 즉 공률 또는 동력은

과 같이 된다.
도 24 내지 도 64에 도시한 바와 같이,표 2-1은 유압 펌프의 분류에 따른 토 출 량과 압력의 관계에 있어 아래의 표와 같이 설명한다.

위 표와 같이, 유압 펌프의 토 출 량은 입력 축을 1회전 시킬 때 토출구로부터 내보내진 작동 유의 체적으로 나타내며,예를 들어 32cc/rev라면, 1회전당 토 출 량이 32cc라는 것이며,유압 펌프에는 그 속도 이하로 구동한 경우에는 소정의 토 출 량을 유지할 수 없는 「최저회전속도」가 있어서 속도 이상으로 회전시킬 경우, 극단으로 수명이 단축되고, 파손하는 일도 있는 「최고회전속도」가 정해져 있는데 이 최저와 최고회전 속도의 범위 내라면 임의의 속도로 유압 펌프를 구동할 수 있는 것이고 회전 속도에 비례해서 토출구로부터 내보내진 작동 유의 유량은 커지므로 32cc/rev의 유압 펌프를 1500rpm(1분당 1500회전의 속도)으 로 구동한 경우 토출구에서 나오는 유량은 32cc의 1500배, 즉 '48,000cc를 1분간에 흘린다.'라는 의미의 48 ,000cc/min(48ℓ/min)가 되며,즉 1500rpm에 놓인 이 유압펌프의 토출량은 48ℓ/min라고 표시하며 토출구에서 압력이 5kg_f/cm² 정도로 대단히 낮은 경우에는 실제로 측정한 토출량과 계산에서 구해진 토출량(이론 토출량)이 상당한 근사치가 되면서 동시에 유압 펌프에는 토출구의 압력이 수치 이상으로 높아지면 내부 누설이 많아지고 수명도 현저히 짧아진다는 의미를 갖는 「최고사용압력」이 정해져 있으므로 유압펌프의 내부에는 금속면과 금속면의 접촉부가 여러개 있어서 그 부분을 윤활하게 하기 위한 작동유가 필요하며 내부 누설은 이 목적이 이용되기 때문에 뺄 수가 없다.
그래서, 이 내부 누설은 토출구의 압력이 높아짐에 따라서(거의 비례하여) 커지고, 최고사용 압력에서는 이론 토출량의 5％에서 10％의 누설량이 되며 이것은 최고사용압력에서 실제로 이용할 수 있는 토출량이 이론 토출량의 95％에서 90％인 것을 의미하는데 어느 압력에서 실제로 이용할 수 있는 토출량이 이론 토출량의 몇 퍼센트인가를 나타내는 수치를 용적효율이라고 부른다.
통상 단순히 용적효율이라고 할 때에는 최고사용압력에서의 용적효율을 나타내는 것이 많으며 내부 누설이 이론 토출량의 5％인 경우, 바꿔 말하면 실제로 측정한 토출량이 이론 토출량의 95％인 경우 (그 압력에 있어서) 용적효율은 95％라고 표시하며 펌프의 동력과 효율에 있어서는,유압 펌프의 흡입압력을 p _s [kg_f/cm²], 토출 압력을 p _d[kg_f/cm² ]라고 하고, 토 출 유량을 R[m³/s]라 하면 펌프가 발생하는 펌프동력(유체에 유효하게 전달되는 마력) L _p는 다음과 같이 구할 수 있다.
(L _p = pQ[kg_f m/s]) (2.1)
여기서 p = p _d - p _s는 펌프의 출구와 입구의 압력차이나 보통 p _s 는 대기압으로 p = p _d로 생각한다.
출력단위를 kW나 ps로 표시하면

이다. 또 p의 단위가 kg_f/cm²이고 Q의 단위가 ℓ/min일 때 펌프동력은

펌프 속의 누설손실이 없다고 가정하였을 때 펌프가 유압 유에 준 이론동력(액체동력) L _th는,
(L _th = pQ _th [kg_f m/s]) (2.4)
여기서, pkg_f/cm²는 펌프 토 출 압력이고 Q _th[m³/s]는 이론 토 출 량이며 원동기로부터 펌프 축에 전달되는 동력(축 동력)을 L _s라고 하면

여기서, ω[l/s]는 각속도이며, T _th[kg _f/cm²]는 펌프를 회전시키는 데에 필요한 토크(torque) 이고, N[rpm]은 회전수이며 펌프는 원동기로부터 축을 통하여 받은 에너지의 전부를 유압 유에 주는 것이 아니고 일부는 손실로 소멸 되고 나머지의 에너지만 유압유가 가지고 나가므로 펌프가 축을 통하여 받은 에너지를 얼마만큼 유용한 에너지로 전환시켰는가의 정도를 나타내는 척도로서 효율을 정의한다.

여기서 η는 펌프의 전 효율이다.

개요 및 분류에 있어서,유압 액추에이터는 압 유에 의해 출력 축의 왕복운동 또는 회전운동을 발생시켜 기계적 일을 하는 유압기기의 총칭으로, 유압모터(축의 회전운동 ), 유압실린더(축의 직선운동) 및 요동 액추에이터(축의 한정된 회전운동)의 3종류로 표 4-1은 유압 액추에이터의 종류를 나타낸다.

유압모터에 있어서는,유압모터는 압유의 에너지를 회전운동으로 전환 시키는 장치이며 원리적으로는 유압펌프의 흡입 측으로 압유를 공급하면 유압모터가 되지만 효율이 좋지않으므로 다소의 차이가 있으며 펌프는 일정방향으로만 회전하는 것이 보통이지만 유압모터는 정역 어느 방향으로도 회전하는 것이 가능하므로 유압모터의 특징을 동일한 회전 운동을 하는 교류 전동모터와 비교하여 보면 다음과 같다.
회전수의 무단변속, 정역회전의 변환이 대단히 간단하고 시동 정지도 대단히 쉽고 관성이 적어 추종 성이 좋고, 응답이 빠르며 자동제어의 조작 부, 서 보 기구의 요소에 적당하므로 동일 마력당의 크기가 전동 기에 비해 훨씬 작으므로 이와 같은 장점이 있지만 유압장치 자체가 전동기로 구동시키기 때문에 그 용도가 제한되며 유압모터의 형식에는 모터를 1회전 시키는데 필요한 유량이 일정한 것과 변화되는 것이 있으므로 전자를 정 용량형 유압모터, 후자를 가변용량형 유압모터라고 한다.
기어모터(gear motor)의 구조는,기어 펌프와 거의 같으며 공급된 압유(壓油)가 치면(齒面 )에 작용하여 토크를 발생시켜 출력 축을 회전시키며 기어는 일반적으로 평기어가 이용되며 다른모터에 비교하여 구조가 간단하고, 소형 경량이며 구조상 가변용량형 모터로 제작하기는 곤란하고 100rpm 이하의 저속에서는 토크 출력 및 회전속도의 맥동이 커져서 사용할 수 없다는 것이 단점인데 기어모터의 전 효율은 70∼80[％] 정도이고 회전속도는 1000∼3000rpm 정도이다.
베인 모터(vane motor)는,구조 면에서 베인 펌프와 동일하며 공급압력이 일정할 때 출력 토크가 일정,역전가능,무단 변속가능,가혹한 운전 가능,점등의 장점이 있으므로 최고 사용압력 70bar, 동력 5∼30ps, 회전수 200∼1 800rpm 정도의 것이 많으며 최저 200rpm이라고 하는 속도 한계는 출력 토크의 변동이 적으며 일반적으로 저압이 라든가 저속에서는 효율이 좋지않아 토크의 변동이 증대되는 단점도 있다.
피스톤 모터( piston motor)에 있어서는,피스톤 모터는 흔히 플런저모터(plunger motor) 또는 회전 피스톤모터 라 칭하며 피스톤 펌프와 구조가 거의 같고 종류는 액셜형(axial type)과 레이디얼형(radial type)이 있으며 액셜 피스톤모터에는 사축식과 사판식이 있다.
도 24 내지 도 64에 도시한 바와 같이,레이디얼 피스톤모터는 몇 개 또는 10여 개의 피스톤이 축에 방사상으로 배열되어 반경 방향으로 왕복 운동하면서 축을 회전시키는 형식인데 실린더 블록의 편심 또는 편심캠을 써서 피스톤이 받는 압유에 의한 힘을 토크로 변환하는 편심식과 다엽캠을 써서 1회전에 대한 수회의 피스톤 왕복운동에 의해 토크를 발생시키는 다 행정식으로 분류되면서 피스톤모터는, 피스톤 펌프와 같이 정용량형(fixed displacement type)과 가변용량형(variable displacement type)이 각형 식마다 있다.
유압모터의 출력 및 효율에 있어서는,모터에 유입되는 압 유의 압력을 p ₁[kg f/cm²], 유출되는 압 유의 압력을 p ₂[kg_f/cm ²]라 하고 공급 압 유의 유량을 Q[cm³/min]라고 할 때 유압모터에 유입되는 동력은 다음과 같이 계산된다.

출력은 토르 크 와 각속도에 의하여 계산된다.

여기서 n는 모터 출력 측 회전수[rpm], T는 모터 출력 측에서 부하에 전달되는 토르크[kg_fㅇm] 이다. 따라서 입력과 출력의 관계에서 모터의 효율을 계산하면

유압모터의 크기는 1 회전 당에 필요한 압 유의 량 q(cm ³/revolution)으로 표시하며 모터의 내부 누설이 없다는 가정 하에서 Q = qㅧ n _o , 또 λ = 100％ 즉 손실이 없는 것으로 하고 귀환기름의 압력을 0으로 보 면(p ₁ = p)

위 식으로부터,

따라서 토르크 효율은

가 된다.
위 식에서 n _o는 모터 내부 누설이 없다는 가정 하에서의 회전수이며 T _o는 압력 p의 압유가 발생할 수 있는 최대 토르크 또는 이론 토르크라고 한다.
유압모터의 장단점에 있어서의 장점으로는 전동기에 비해 쉽게 급속 정지시킬 수 있으며 광범위한 무단변속을 얻을 수 있다는 점과 소형이고 가볍고 강력한 힘을 얻을 수 있다는 것이고 내폭성이 우수하여 고속 추종 성이 좋다는 것이며, 시동, 정지, 역전, 변속 등을 가변용량형 펌프나 미터링(교축 밸브의 뜻이며 유량을 개량하는 밸브)에 의해서 간단히 제어할 수 있다는 점이고 과부하에 대한 안전장치나 브레이크가 용이하며 종이나 전선에 쓰이는 권선기와 같은 토르크 제어기계에 편리 하다는 점이다.
상기한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 종전의 실린더(126)와 유압크레인(885)의 피스톤모터(885a)와 유압모터에 플런저펌프(148)의 사축식 플런저펌프(148b)와 레이디얼 플런저펌프(148c) 건설기계 연결구조물이 베르누이정리와 파스칼의 이론적 물리학 방식을 토대로 구비된 지진해일방재용 부양식독장치들로 구성되어있다.
도 24 내지 도 64에 도시한 바와 같이,해양수력발전소 부양식독(593,594, 595)의 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 물레방아(838) 형태의 건설기계 연결구조물의 해양수력발전 동력생산조절장치는, 직류(655)와 교류(656) 에너지 전력을 구비하는 헤드탱크(189)와 유압호스(190)에 도입관(191)과 실린더(126)와 피스톤 또는 피스톤펌프(127)에 전구몸체(660)와 건전지 또는 밧데리(671) 건설기계 연결구조물이 지진해일방재용 부양식독장치들로 구성되어있다.
전술한 바와 같이 수력발전 종래의 기술에 있어서는, 도수설비와 발전설비(양수)에 방수설비들은 수력발전의 요건에는 별로 장애가 없는 반면에 취수설비인 댐(680) 또는 취수댐(680)의 설정이 매우 심각한 수준인데 상기 취수댐(680) 설정에 따른 인근 주변의 환경영향의 표출되는 해결되어야 할 사항의 제반 문제점은 다음과 같다.
첫째로는 적정한 발전용량을 얻기 위하여 댐의 건설에 따라 발전설비의 발전기 제작 설치보다도 댐 건설에 따른 설치비용과 댐 건설의 소요기간이 발전설비와 상대적으로 격차가 매우 크기 때문이었고,둘째로 취수댐 설치 지역 인근의 환경영향(댐 설치위치 지층의 지반과 지각 변동 사항을 사전에 철저히 확인 고려하지 않은 점의 취수댐 설치한 후에는 홍수 가뭄을 조절하는 다목적용이기 보다는 유량의 체류기간이 장기화됨에 따라 조류 내지 유해 적조 대번식이 초래하고 취수량이 많고 적음에 따라 지각변동으로 지진 또는 산사태로 중소 도시가 매몰되는 사례가 속출되었으며 그 이외 지역으로는 태양열 발전으로 태양열 발전기 설치에 따른 산림을 훼손하는 점들의 홍수 가뭄 조절 불능으로 국가 경제발전 저해요인의 걸림돌 내지 애물단지에 상당하였었고 원자력 발전의 경우에는 구 소련의 체르노빌 원전의 사고와 일본의 원전 폭발사고로 인해 방사능 오염 사고의 결과를 초래하여 이의 피해는 상당한 것이었다. 한편 화력발전소는 보통 전력의 수요가 많은 대도시 인근 장소 또는 해안에 건설하게 되어 굴뚝(연돌)에서 분출하는 폐기가스로 인해 지구 온난화는 가속화되면서 이런 와중에 자동차가 뿜어내는 매연의 분진으로 대기의 오염과 이산화탄소 배출의 증가에 따라 지구온난화 현상에 의해 자연재해는 심각한 수준에 도달하게 된 것으로 그에 대한 대책이 바로 본 발명자의 발전기를 해양에 설치함으로써 친환경적 에너지를 무한적 생산으로 인류 고민을 해소하는 방식의 도 1c는
본 발명에 따른 종래의 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 재해차단 예방조절장치 구성을 보여주는 입형다단펌프 정단면도 및 정면도와 입형다단펌프시스템 개념의 구성도에 컨트롤 블록 다이아그램과 B F모델; 속도제어방식, 3 펌프직입 기동방식 실시예의 입형다단펌프 운전방식의 구성도인데 여기서,입형다단펌프설비와 동등한 해양수력발전기는 입형다단수력발전기 설비로 대용량의 발전 전력이 생산되도록 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치에는 해양발전소 몸체 도크선체갑판 상단부(SDU)에 물레방아(838) 형태의 해양발전소(233)가 더 구성되어있다.
일반적으로 국내의 수자원시설에 있어서, 전국 다목적댐의 총 저수용량은 약 126억㎥ 규모이며, 발전시설용량 약 105만kw, 홍수조절능력은 약 22억㎥을 갖추고 있으므로 수력설비는 유량과 낙차를 이용하는 설비이므로 이들 다목적댐의 연간 용수공급능력은 약 109억㎥ 이다. 댐별로는 소양강댐의 저수용량이 29억㎥로 가장 많으나 연간 용수능력은 12억㎥으로, 충주댐의 34억 ㎥보다 적다. 발전시설 용량 규모는 충주댐이 41만kw로 가장 크다. 상기한 발전소(육상수력발전)의 배경기술을 수력설비와 수력 일반에 수력 학으로 분리 구분시켜 당업자들이 본 발명을 보 다 더 상세한 설명에 의해 누구나 쉽게 이해할 수 있도록 본 발명의 수력발전소(233) 설비방식을 종전의 기술과 대동소이한 발전설비를 접목 구성된 아래의 표와 같이 설명하면서 먼저 수력설비의 개요에 대해 상세하게 설명하기로 한다.
상기 수력설비는 유량과 낙차를 이용하는 설비이므로 항상 발전에 필요한 유량을 안전하게 취수하고, 또한 낙차 및 유량의 손실이 가능한 한 적게 되도록 건설되어야 한다. 수력 발전소에서의 수력설비를 그 기능에 따라 분류하면 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q)의 4가지로 크게 나누어지지만, 이들의 설비는 지형에 알맞게 설계하고 또 각 설비를 잘 조합시켜서 그 지점이 갖는 수력을 가장 유효하게 활용할 수 있도록 계획하지 않으면 안 되므로,각 설비에 사용하는 공작물에는 여러 가지 구조의 것이 있는데 이들을 어떻게 조합하는가에 따라 발전소의 구성을 분류하면 여기서는 수력발전설비의 개요(679s)를 수로식 발전소를 대상으로 해서 간단히 살펴보기로 한다.
종전의 수력 발전용으로서 하전의 유수를 취수하기 위해서는 하천의 흐름에 거의 직각의 방향으로 물을 막아 주는 설비 - 이것을 취수댐(680b)이라고 부른다 - 와 그 바로 상류의 하안에 물을 취수하는 설비 - 이것을 취수구(678g)라고 부른다 -를 축조하는데 취수구(678g)로부터 취수한 물은 수로를 통하여 발전소(233) 상부에 있는 상수조(680m)까지 유도해서 낙차를 얻으며 이것을 다시 수압관을 거쳐 수차로 보내고 여기서 물이 갖는 위치에너지를 기계적 에너지로 변환해서 발전기로 전기 에너지를 발생하는데 사용하고 난 물은 방수로(678b)를 통해서 다시 하천에 방류하게 되며 이 과정에서 취수구 가까이에 침사지를 만들어 유수 중의 토사를 침전시키고 있으며 상수조에는 여수로를 설치해서 갑자기 부하가 줄어서 수위가 규정 값을 넘었을 때 잉여수를 하천에 안전하게 방류하도록 하고 있다. 이들 가운데 취수구(678g) 직후부터 상수조(680m) 입구 까지를 도수로라고 하며 도수로에는 그 전체에 압력이 걸리는 압력수로와 유수의 상부가 대기와 접하고 있는 자연 유 하식의 무압수로의 2가지가 있으며 상수조(680m)는 자연 유하식에 사용되는 것이며, 압력 수로일 경우에는 이 상수조(680m) 대신에 조압수조(680i)를 사용하며 한편 조정지나 저수지(680a)로부터 취수할 경우에는 이들 못 자체가 침사지(680k)의 작용을 겸하기 때문에 침사지(680k)를 설치하지 않고 댐식 발전소에서는 저수지(680a)가 상수조(680m)의 작용을 하게 되므로 상수조를 설치하지 않고 있다는 것이었다.
종전의 발전용 댐에 있어서는,발전용 댐을 우선 그 용도별로 분류하면, 수로 식 발전소에 사용되는 간단한 취수댐, 댐 수로 식 발전소에서는 상류 측의 수위를 높이는 데 사용되는 약간 큰 댐, 그리고 취수용뿐만 아니라 물을 어느 기간 동안 저장하기 위해서 골짜기나 하천을 가로 막아서 조정지나 저수지(680a)를 만드는 거대한 저수댐(댐식 발전소)이 있으며 댐을 축조할 때 주의하지 않으면 안 될 주요한 사항을 열거하면 먼저 홍수, 그 이외의 외력을 받더라도 안전하게끔 합리적으로 설계되어야 한다는 것이었고 다음의 댐 형식은 지형 및 지질을 고려해서 가장 경제적인 것으로 선정되어야 한다는 것이었으며 선정 후 댐의 상류 측 수위가 올라가게 됨으로써 - 곧 이것을 배수라 한다 - 입게 되는 피해를 최소한으로 줄여야 한다는 것이었고 그리고 홍수 시에도 그 최대유량을 안전하게 방류해서 발전 설비 및 하류의 모든 시설 등에 위험을 미치지 않아야 한다는 것이었으며 발전용 댐의 사용목적에 따른 분류에 의하면 취수댐과 저수댐이 형성되며 먼저 취수댐에 있어서,수로식 발전소에서 취수를 목적으로 한 댐으로서 일반적으로 댐 높이와 폭은 그다지 크지 않은 편이며 다음은 저수댐에 있어서,댐으로 상류 측 수위를 높여서 낙차를 얻음과 동시에 계절적 내지 연간을 통한 수량조절이 가능한 대규모 수량이 사용되므로 조정능력의 크기에 따라 조정지와 저수지로 나뉘어 진다는 것은 앞에서 설명한 바와 같다.
종전의 발전용 댐의 사용재료에 의한 분류에 의하면 콘크리트 댐과 흙댐에 암석 댐이 형성되며 첫째로 콘크리트 댐에 있어서는 시멘트, 모래, 자갈을 혼합, 가공한 콘크리트를 소재로 한 댐으로서 안정도가 높기 때문에 현재 가장 많이 사용되고 있고 둘째로 흙 댐에 있어서는,모래, 자갈, 점토 들을 적당히 혼합해서 축조하는 댐으로서 자재가 현지에서 조달될 경우 경제적이다. 이 형식의 댐은 콘크리트 댐보다도 상류, 하류 양면의 경사를 완만하게 해서 안정을 유지할 수 있도록 설계하여야 한다.
상기한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)와 전력 생산제조장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 유입식 발전소의 개념도(678c)와 저수지식 발전소의 개념도(678d)에 조정지식 발전소의 개념도(678e)의 수력발전설비 건설기계 연결구조물의 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 동력을 생산하는 해양수력발전 전력생산조절장치로 구비된 상기 해양수력발전소 부양식독(593,594,595)들은,
로터리 실린더인 랙＆피니 언 형-(NRP)의 유압회전실린더(620)와 밴드 지그대(621)의 부력조절용 버터플라이밸브(622)와 유압실린더 또는 유압 작키(623)에 유압실린더용 도어(624)로 구비된 지진해일방재용 부양식독장치들로 구비해 수직격벽(605)과 휴대용 러그 결합용 핀 연결축(606)에 휴대용 러그(607)와 휴대용 러그핀(608)에 대형플랜지 접속연결구 접합부위 가공홀(615) 건설기계 연결구조물과 교각(928)과 관교량(937)에 해양터널 교통장치(941)의 내부로 원유시추용 드릴링 머신(908)에 교각(928)과 관교량(937)에 해양 터널 교통장치(941)의 내부로 구성하는 해양터널교통장치 내부전동차(771)는,
건설기계 연결구조물과 분해결합으로 지진해일방재설비가 구성되면서 동시에 수력 발전소에서의 수력설비를 그 기능에 따라 분류하면 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q)의 4가지로 크게 나누어지는 수력설비는 유량과 낙차를 구비하는 설비인 반면에 해양수력발전소 부양식독(593,594, 595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 수력발전소(233)의 수력설비는,해조류의 유속을 조작하는 이론수력은 수차에의 입력으로 되어 수차, 발전기를 회전하게 되며 입형다단펌프(2)의 배열과 동등한 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q) 수력발전소(233)의 다단입류식 수력발전기(213)장치들로 구비해 유압장치의 시이소 형태와 물레방아 형태의 해양조력발전소에 해양수력발전소가 구성된다.
종전의 암석댐(680z)에 있어서는,주로 암석을 축조재료로 한 흙댐(680y)과 마찬가지로 현지에서 이러한 암석 재료가 조달될 경우 경제적이다. 이 댐은 흙댐(680y)에 비하여 댐을 높게 할 수 있고, 또 안정도도 높지만 자체중량이 크기 때문에 기초를 튼튼히 할 필요가 있다. 상기 흙댐(680y)과 마찬가지로 암석댐(680z)은 중력댐의 일종이며 암벽(680t)과 상류면보호층(680u)에 배수층(680v)과 토질재료(680w)와 기초암반(680x)들로 구성되어있다.
상기한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 동력을 생산하는 해양수력발전 전력 생산제조장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593, 594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 유입식 발전소의 개념도(678c)와 저수지식 발전소의 개념도(678d)에 조정지식 발전소의 개념도(678e)의 수력발전설비 건설기계 연결구조물의 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 동력을 생산하는 동력을 생산하는 해양수력발전 전력 생산제조장치로 구비된 상기 해양수력발전소 부양식 독(593,594,595)들은 로터리 실린더인 랙＆피니 언 형-(NRP)의 유압회전실린 더(620)와 밴드 지그대(621)의 부력조절용 버터플라이밸브(622)와 유압실린더 또는 유압 작키(623)에 유압실린더용 도어(624)로 구비된 지진해일방재용 부양식독장치들로 구성하는 수직격벽(605)과 휴대용 러그 결합용 핀 연결축(606)에 휴대용 러그(607)와 휴대용 러그핀(608)에 대형플랜지 접속연결구 접합부위 가공홀(615) 건설기계 연결구조물과 교각(928)과 관교량(937)에 해양터널 교통장치(941)의 내부로 원유시추용 드릴링 머신(908)에 교각(928)과 관교량(937)에 해양터널 교통장 치(941)의 내부로 구성하는 해양터널교통장치 내부전동차(771)는 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치들로 연결 구성된다.
건설기계 연결구조물과 분해결합으로 수해조절설비가 구성되면서 동시에 수력 발전소에서의 수력설비를 그 기능에 따라 분류하면 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q)의 4가지로 크게 나누어지는 수력설비는 유량과 낙차를 이용하는 설비인 반면에 해양수력발전소 부양식독(593, 594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 수력발전소(233)의 수력설비는,
해조류의 유속을 조작하는 이론수력은 수차에의 입력으로 되어 수차, 발전기를 회전하게 되며 입형다단펌프(2)의 배열과 동등한 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q) 수력발전소(233)의 다단입류식 수력발전기(213)장치들로 구비해 유압장치의 시이소 형태와 물레방아 형태의 해양조력발전소에 해양수력발전소가 구성된다.
종전의 발전용 댐의 역학적인 구조에 따른 분류에 의하면 중력댐에 형성되며 상기 중력 댐은 현재 가장 많이 사용되고 있는 형식으로서, 둑의 자체중량으로 외력에 대하여 안정도를 유지하고 있어 이 댐(680)은 큰 압력이 기초부분에 걸리기 때문에 설치장소는 견고한 암반이 있는 곳이어야 하는데 중력댐은 주로 콘크리트로 축조 되지만 이 밖에 흙을 사용한 흙댐(680y), 암석을 사용한 암석댐(680z)도 중력댐의 일종으로 일부 사용되고 있다.
상기한 바와 같이,지진해일방재용 부양식독장치들로 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 동력을 생산하는 해양수력발전 전력 생산제조장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 유입식 발전소의 개념도(678c)와 저수지식 발전소의 개념도(678d)에 조정지식 발전소의 개념도(678e)의 수력발전설비 건설기계 연결구조물의 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 동력을 생산하는 해양수력발전 전력 생산제조장치로 구비된 상기 해양수력발전소 부양식독(593,594,595)들은 로터리 실린더인 랙＆피니 언 형-(NRP)의 유압회전실린더(620)와 밴드 지그대(621)의 부력조절용 버터플라이밸브(622)와 유압실린더 또는 유압 작키(623)에 유압실린더용 도어(624)로 구비된 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치들로 구비해 수직격벽(605)과 휴대용 러그 결합용 핀 연결축(606)에 휴대용 러그(607)와 휴대용 러그핀(608)에 대형플랜지 접속연결구 접합부위 가공홀(615) 건설기계 연결구조물과 교각(928)과 관교량(937)에 해양터널 교통장치(941)의 내부로 구비되어있고,
원유시추용 드릴링 머신(908)에 교각(928)과 관교량(937)에 해양 터널 교통장치(941)의 내부로 구성하는 해양터널교통장치 내부전동차(771)로 구성되어있다.
건설기계 연결구조물과 분해결합으로 수해조절설비가 구성되면서 동시에 수력 발전소에서의 수력설비를 그 기능에 따라 분류하면 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q)의 4가지로 크게 나누어지는 수력설비는 유량과 낙차를 이용하는 설비인 반면에 해양수력발전소 부양식독(593, 594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 수력발전소(233)의 수력설비는,
해조류의 유속을 조작하는 이론수력을 구비해 수차에의 입력으로 되어 수차, 발전기를 회전하게 되며 입형다단펌프(2)의 배열과 동등한 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q) 수력발전소(233)의 다단입류식 수력발전기(213)장치들로 구비해 유압장치의 시이소 형태와 물레방아 형태의 해양조력발전소에 해양수력발전소가 구성된다.
종전의 부벽댐(679e)은, 표면차수판(679f)에 부벽(679g)과 이용수심(679h)에 중공부(679i)와 주변전실(679j)에 표층콘크리트(679k)와 물의위치에너지(679l)에 물의운동에너지(679m)와 기계에너지(679n)에 전기에너지(679o)와 이론수력(679p)과 수차출력(679q)들로 구성되어있다.
상기한 바와 같이,지진해일방재용 부양식독장치들로 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 동력을 생산하는 해양수력발전 동력생산조절장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593, 594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 유입식 발전소의 개념도(678c)와 저수지식 발전소의 개념도(678d)에 조정지식 발전소의 개념도(678e)의 수력발전설비 건설기계 연결구조물로 구비해 지진해일방재용 부양식독장치들로 본체(1) 내부로 구성하는 지진해일피해방지장치(811)에 포함하는 동력을 생산하는 해양수력발전 동력생산조절장치로 구비된 상기 해양수력발전소 부양식독(593,594,595)들은,
로터리 실린더인 랙＆피니 언 형-(NRP)의 유압회전실린더(620)와 밴드 지그대(621)의 부력조절용 버터플라이밸브(622)와 유압실린더 또는 유압 작키(623)에 유압실린더용 도어(624)로 구비해 지진해일방재용 부양식독장치들로 이루어 수직격벽(605)과 휴대용 러그 결합용 핀 연결축(606)에 휴대용 러그(607)와 휴대용 러그핀(608)에 대형플랜지 접속연결구 접합부위 가공홀(615) 건설기계 연결구조물과 교각(928)과 관교량(937)에 해양터널 교통장치(941)의 내부로 구성하는 원유시추용 드릴링 머신(908)에 교각(928)과 관교량(937)에 해양터널 교통장치(941)의 내부로 해양터널교통장치의 내부전동차(771)로 연결 구성되며,
건설기계 연결구조물과 분해결합으로 건설기계의 교통운송부(811c)에 포함하는 수력 발전소에서의 수력설비를 그 기능에 따라 분류하면 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q)의 4가지로 크게 나누어지는 수력설비는 유량과 낙차를 이용하는 설비인 반면에 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절을 구성하며,In addition, rag drill, boring machine, crawler drill, wagon drill and pick hammer are used to move the hull position of the tsunami damage prevention device (811), which is composed of the body (1) of the tsunami disaster prevention buoyancy reading device (1), pumping operation device, offshore power plant Asphalt finisher (871) and asphalt spraying on the road safety device (864) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part of the body dock hull deck (SDU)
Earthquake composed of a drilling machine (876) on the machine (872) and a boom (882a) and a diesel pile hammer (883) on the pile driver (882) and a plurality of construction machinery connection structures inside the body (1) of the tsunami prevention The hull position movement pumping operation device of the tsunami damage prevention device 811 is composed of a tsunami disaster prevention flotation system that rescues the lifesaving of a construction machine connected to the upper end of the dock hull deck (SDU) of the offshore power plant and a ship in distress.
Conventional dredgers are equipment that digs up the soil in the water, and they are routed by the Port Authority. milk shed. River. In order to increase the depth of the waterway and maintain the water depth, we also work on the reclamation of the common water surface and the basic construction of axial aviation such as rock walls and breakwaters. , the pump type is non-magnetic with the rated output of the driving engine, the bucket type is non-magnetic with the rated output of the main engine, and the dipper type is non-magnetic with the bucket capacity (m ³ ). ³ ), which is non-self-defined.
In classification by capability, steam turbine type and gas turbine type were divided into electric and diesel type, and in the structure and use of the dredger, the pump dredge (879a), the structure and use of the dredge, is difficult to install or the delivery distance is short. In the case of long-distance, it is a device that transports soil to a tow ship using a low-lift pump ship or sucks up soil and water and is used for port dredging or reclamation work. is expressed as the rated output (PS) of the driving engine. Its characteristics are shown in the table below.

The structure and use of the bucket dredger (879b) is a method of continuously scooping up soil from the seabed using a bucket conveyor. There are a continuous type and an intermittent type, and the continuous type is widely used.

The structure and use of the dipper dredger ( ^879c ) is used for dredging solid ground or broken rock with strong excavation force.

As described above, the collection of the seafloor mineral manganese nodules (909) is,
A plurality of construction machinery connection structures are provided inside the main body (1) of the tsunami disaster prevention device (811) to move the hull position of the tsunami damage prevention device (811) Pumping movable part Offshore power plant body dock When crude oil is connected to the upper part of the hull deck (SDU) A wire rope chain 915 and a periscope 913 and a rubber balloon 914 in a drilling machine 908 and a seabed mineral collecting machine 911 and a seabed mineral collecting robot 912 Double structure piping line Automatic pneumatic valve transport device (916) and core drill (917) Collecting manganese nodules (909) from the seabed with the connection structures for the tsunami disaster prevention flotation poisoning device that rescues the lifesaving of construction machinery and ships in distress is to constitute
24 to 64, the structure and use of the grab dredger (879d) is equipment for dredging by a special crane equipped with a clamshell on a ship, and was used for dredging work in small-scale routes or marinas. The indication is expressed in terms of the grab bucket average capacity (m ³ ), and its characteristics are described as shown in the table below.

The structure and use of the grab dredger ( ^879d ) is equipment for dredging by a special crane equipped with a clamshell on the ship. and its characteristics are described as shown in the table below.

As described above, the collection of the seafloor mineral manganese nodules (909) is,
A plurality of construction machinery connecting structures are provided inside the body (1) of the tsunami disaster prevention device for flotation, so that the hull position movement of the tsunami damage prevention device (811) is moved and the pumping operation device is a crude oil connected to the upper end of the dock hull deck (SDU) of the offshore power plant. Drilling machine 908 for drilling and seafloor mineral scavenger net 910, submarine mineral suction and collection machine 911 and seabed mineral extraction robot 912, periscope 913 and rubber balloon 914, wire rope chain 915 and double structure piping line automatic pneumatic valve transport device (916) and core drill (917), submarine mineral manganese nodules (909) Gathering is to be organized
It is a machine that crushes raw stones into small pieces. It has the function of making and supplying crushed stone. It is used for all crushing operations and is mainly used for the production of aggregate.
As such, the types of crushers are divided into primary, secondary, and tertiary crushers.
Jaw crusher is a machine that crushes by compressive force. When rocks are inserted between the jaws on both sides and bitten, one side of both sides is fixed, the other side is operated and crushed by the price pressure at this time, and the stone is pushed with magnetic gravity. It comes down in the discharge direction by the force applied. Such a jaw is manufactured in a structure that can crush any hard rocks with strong force.
Gyratory crusher is made of cast iron or steel and is composed of an eccentric shaft and a driving gear at the lower part of the frame, and has a cone-shaped crushing chamber at the upper part. The crusher has a crushing head of hard steel on a vertical steel shaft, and is the crusher that is first crushed while rotating, and then discharged under the final crushing chamber. Compared to the jaw crusher, this crusher has less vibration and has the advantage of continuous crushing. The top of the machine is the inlet and the bottom is the outlet. It has the advantage of being stackable. It is said that it is crushed by compressive force, and the hammer crusher of the impact crusher has many disks on one rotating shaft, and around it, a rectangular hammer is hung on a hinge and rotates rapidly. will become
The cone crusher of the secondary crusher attaches an umbrella-shaped cone mantle head on a short vertical main shaft, and the eccentric motion of the stone bites the stone between the cone curve balls installed in the frame, and then crushes the descending stone again. Since it is crushed by impact, its structure is slightly complicated, and there is almost no slip in which crushed stone flows as it is, so the crushing ratio is relatively large. It uses impact and compression forces. Compared to the Zaire Crusher, the cone is shorter, the supply port size is small, and the outlet gap size has the advantage of producing standard products with the largest crushed stone. It is said that it is suitable for the mass production of three fixed aggregates. The double roll crusher of the hammer mill crusher has two hard steel rolls fixed on separate horizontal axes, and the spacing can be adjusted freely. These rolls are installed in parallel, but the rotation is made to rotate in opposite directions, and the rocks are sandwiched between the rolls to be crushed while passing between the rolls. This roll has the main functions of compression crushing and discharging, and is widely used in the production of aggregates for packaging.
The rod mill of the tertiary crusher 874 was to produce fine aggregates of 5 mm or less, and the ball mill is a machine for producing crushed stone into fine aggregate again. A rod of short round sewing is placed in a circular drum of It is crushed finely, and if there is a lot of water, the degree of roughness of the particle size is large. Wheat with water is wet, and without water is dry, but generally wet.
The ball mill differs in that instead of the rod mill's rod, steel balls are placed in a cylinder and rotated to obtain new aggregate.
Its specification is expressed in ton (ton) of crushing capacity per hour [TPH (ton per hour)].
As described above, it is a machine that crushes and makes small stones, has a function of making and supplying crushed stone, and is used for all crushing operations and is mainly used for aggregate production. ), a plurality of construction machinery connection structures are provided inside the body (1) of the tsunami disaster prevention buoyancy reading device for temporary use before the completion of the tsunami damage prevention device (811). A drilling machine 908 for oil drilling connected to the upper part of the body dock hull deck (SDU) and a periscope 913 and rubber to a submarine mineral suction and collection machine 911 and a submarine mineral extraction robot 912 Subsea mineral manganese nodules collected with wire rope chains 915 in balloons 914, automatic pneumatic valve transport devices 916 and core drills 917 for double structure piping lines, distribution and input devices for construction machinery and construction machinery connection structures (909) As a machine that crushes and makes small stones, the rod mill of the crusher 874 produces fine aggregates of 5 mm or less. As a machine for production, the new aggregate crushed stone is included in the tsunami damage prevention device 811, the hull position movement pumping operation device and the offshore hydro power generation power production control device, the traffic transport device, the power transmission control device, and the facility safety control It is constituted to form a distribution system for tsunami disaster prevention that rescues lifesaving and shipwrecked ships with the connecting structures of the management electric field device and the electronic control control device, the construction machine control device, the electronic control control device, and the screw control device.
Hereinafter, a detailed description will be given of the water source and water quality of the water supply, which is the fire water 7 of the tsunami disaster prevention device.
Water that is exposed to the surface, such as rivers and lakes, is called surface water, and water that is submerged underground, such as wells, is called groundwater. The source of water supply was river water and well water.
Therefore, well water has an average temperature of 16° to 17°, and there is a small difference in water temperature according to the change of seasons, so it is suitable for cooling or industrial water and good water quality is used as drinking water.
Since river water is abundant, it is purified and widely used as tap water in large cities. The tap water is 3° to 8° in winter and 25° to 28° in summer, and the water temperature varies greatly depending on the season, so it is not suitable for photographic development and other industrial purposes.
Water quality has different turbidity, color, taste and smell depending on harmful substances and germs contained in the water. Germs cause disease, and harmful substances are minerals that exceed the standard and have a bad effect on cooking and laundry. That is, when calcium carbonate is contained in water per million, this is called 1 (ppm; parts per mil). Drinking water is suitable for 90 to 110 (ppm) and should not exceed 300 (ppm).
In addition, water is divided into soft water and hard water according to hardness, and water with less than 90 ppm is called soft water (110 ppm) or higher.
In general, the pump body will be described as follows.
The pump's pumping is performed by vacuuming the suction pipe and sucking up the suction pipe and pushing up the inside of the pipe to eject water. Since the sucking action is by vacuum, the head is equivalent to atmospheric pressure. In other words, it cannot be sucked up more than 10.33m under standard atmospheric pressure. However, this 10.33m is a theoretical suction height, and in reality, a complete vacuum cannot be achieved due to the evaporation of air or water itself contained in the water. That is, only about 7m. Therefore, the suction lift at the installation height of the pump must be within 7m of the lowest water level (hereinafter, explanation is omitted).
24 to 64, with respect to the definition of hydraulic pressure, hydraulic pressure is a hydraulic pump using power to convert mechanical energy into pressure energy of a fluid and store it in hydraulic oil, which is Control), flow rate (speed control), and direction change (direction control) are combined according to the purpose and converted back into mechanical energy through the actuator of a hydraulic cylinder or hydraulic motor. First of all, the advantage of hydraulic pressure is that it generates a large force compared to the size of the system, enables accurate position control, and can start under a large load, providing excellent control ( force, direction, speed) and controllability and excellent heat dissipation.
In the disadvantages of such hydraulic pressure, it is sensitive to foreign substances to the pollution of the surrounding environment by waste oil, so it is dangerous due to the use of high pressure and low efficiencies due to changes in working conditions according to temperature changes.
The hydraulic system can be first divided into power supply and control and output parts, and the power supply part supplies a flow rate to the system, and the most important parts are a prime mover and pumps, and the prime mover is a mechanical power required to drive the pump. In industrial systems, an electric motor is generally used as this device, and in the case of vehicles such as excavators and agricultural machinery, the prime mover is the engine of a car, and the pump obtains mechanical power from the prime mover and converts it into a fluid flow with pressure. serves to make
The output device of the hydraulic system includes an actuator (actuator) and a load, and the actuator converts fluid power into mechanical power to move the load while the actuator is a cylinder (linear actuator) that performs linear motion and rotational motion It is composed of the output device of the hydraulic system in the case of a hydraulic motor (rotary actuator) that generates
The control unit is located in the middle of the hydraulic system, and the components include a directional control valve, a pressure control valve, and a flow control valve. For example, the direction of movement of the actuator can be adjusted by controlling the direction of the fluid flow, such as when the cylinder moves forward or backward.
As described above, while controlling the pressure of the fluid is controlling the force of the output, controlling the flow rate constitutes the control of the movement speed of the actuator.
24 to 64, the configuration of the pressure source part consists of a tank for storing a required amount of oil, a hydraulic pump pumping oil from the tank and sending it into the circuit, and safety valves for protecting the power source. Part view A pump that uses several types of equipment to meet the unique needs of the device. A gear and vane, a piston pump, a motor and a tank, a relief valve, and a valve (Shut-off), a pressure gauge, and a thermometer, a filter. It consists of a suction line, a pressure line and a return line, and the control unit is explained as shown in the table below.
It consists of a pressure control valve that regulates the oil pressure, a directional valve that changes the flow direction of oil and changes the operating direction of the actuator, and a flow control valve that adjusts the operating speed. The pressure control valve consists of a relief valve and a pressure reducing valve. Counterbalance valves for sequence valves and no-load valves for valves, 5/2-way valves for 2/2 and 3/2 for directional control valves, 5/2-way valves for flow control valves, and orifices for flow control valves and operating speed control, and at the same time, Table 1-1 explains the configuration of the hydraulic system as shown in the table below.

The operating part is described as follows in the table below as a oscillating motion in a linear motion and a rotary motion.
First, a cylinder of linear motion is pressed or dragged in a straight line.
Second, the motor of rotational motion rolls up the heavy object with wire rope.
Third, the oscillation motor of oscillation motion rotates a certain angle, and Table 1-2 describes the configuration operation of power and pressure oil in the hydraulic system as shown in the table below.

The above-mentioned main physical quantities and units of physical quantities, mass and force, and units of pressure and power will be described in detail as shown in the table below.
First, in terms of physical quantity, a physical quantity is the property of an object, that is, a state or process that can be measured. , mass is standardized in Kilogram m(kg), time is Second(s), temperature is standardized in Kelvin(K) or Celsius(℃) Velocity can be derived from the above base units. SI defines kg as a unit of mass.
Second, in terms of mass, mass is generally used with the term weight, and a cube steel with a weight of 1 kg on Earth has a mass of 1 kg.
Third, in terms of force, mass describes a mass unit that has its own properties regardless of gravitational acceleration, and the unit of force is determined in relation to gravitational acceleration, and in the law (Newton, 1643-1729), force = mass x acceleration. ( F=m ㅧ α ), force = kgㅧm/s ² This is simply called Newton[N], and it is defined as a unit of 1N = 1kg m/s ² .
Fourth, in terms of pressure, pressure is "pressure of force applied to the unit area of an object", and the metric engineering unit [kg _f /cm ² ] or [kg _f /m ² ] has been mainly used as the unit. In the future, the SI unit [N /m ² ], that is, Pa (read as Pascal) will be used.

As described above, the hull position movement pumping operation device of the tsunami damage prevention device 811 constituted in the body 1 of the tsunami buoyancy reading device body 1 for the earthquake and tsunami The conventional cylinder 126 and plunger pump 148 showing the construction machine position adjustment configuration of the hull position movement control of the power plant floating dock (593,594,595), the bent axis plunger pump (148b) and the radial plunger pump (148c) construction machinery connection made up of structures
The value of pressure is usually compared to atmospheric pressure.

Atmospheric pressure: The air surrounding the earth is called the atmosphere, and the pressure exerted by the atmosphere is called atmospheric pressure. The standard atmospheric pressure is as follows.
1 atm = 760 mmHg (water column height) = 10332 kg _f /m ² = 1.0332 kg _f /cm ²
= 10.332 mAq (water height) = 101325 N/m ² = 1.0 1325 bar
Gauge pressure is the pressure measured by the gauge and is the pressure measured with respect to the local atmospheric pressure.
Absolute pressure is a pressure measured with reference to a perfect vacuum.
In the fifth power, work is defined as the amount of energy expended and is calculated as the product of the applied force and the distance traveled due to the force ( W = F S ). Suppose that a force of 300 N is required to move an object 40 m. In this case, the work done is W = 3 00No40m = 1200Nom[J]. However, what cannot be known from the concept of work alone is how fast an object is moved. Was this done in 10 or 5 seconds? In other words, power considers how quickly energy is consumed. By dividing the work done by the time the work was done, we get the equation for power.

For example, if work is N m and time is in seconds (s), then the power will be N m/s, generally using the capital letter P as the symbol for power, whereas the lowercase p is the symbol for pressure. If s/t is replaced with velocity υ in the above equation, it becomes as follows.

For example, if the force is N and the velocity is m/s, then the unit of power is N m/s. Power is also expressed as horse power (hp). The conversion relationship between these two units is as follows.

As shown in FIGS. 24 to 64, since the change relationship between units is applied to the equation, force is N and speed is m/s in the above formula, while limiting the use of units to m/s These equations, made in consideration of the relationship in advance, are widely used in industrial sites for their convenience. In the international system of units, watts (W) are used as a unit for power. Since W is a small unit, it is generally converted to kilowatts (kW). If you put an appropriate conversion factor (1kW = 1000W) into Equation (1.2) while expressing, the following equation used in the International System of Units is obtained.

The symbol kW is used to indicate that the unit of the value calculated in the above formula is kilowatt (kW). The unit applied in Equation (1.3) is F (force) is N, and υ (velocity) is m/s.
The flow of fluid and the flow of friction will be described in detail as follows: Bernoulli's equation for the continuity equation of simple fluid mechanics used in hydraulic machines, Pascal's principle for static mechanics and the principle of pressure transmission.
In the continuity equation, the continuity equation applies the law of mass invariance to the flow of a fluid, and it means that the fluid in the pipe with a closed curve is neither created nor destroyed on the way.
When considering the flow in the pipe as a steady state flow and not considering the compressibility of the fluid, set arbitrary sections ① and ② orthogonal to this pipe, and set the average flow velocity in the section to be υ ₁ υ ₂ , respectively. The area is A ₁ A ₂ , and the density is ρ ₁ ρ ₂ . That is, if the mass is m , then

should be here,

is the mass flowrate through the conduit at any point.
① The mass passing through the point in unit time is ρ ₁ , A ₁ , υ ₁ , so the above equation is as follows,

If the fluid is incompressible, then ρ = Const .

and this Q is called the flow rate, indicating that the flow rate of the fluid passing through the pipe is constant in any cross section. That is, in hydraulic pressure, flow refers to “the amount of liquid that moves per unit time” and is expressed in terms of discharge volume. It is expressed in cc/sec, and the flow rate refers to the “distance of the fluid moving per unit time.”

and is expressed in m/s as a unit.
In the Bernoulli equation, the Bernoulli equation describes the relationship to the total energy of an incompressible fluid, and since hydraulic oil is almost incompressible, the Bernoulli equation can be used in a hydraulic system and the energy of the fluid is expressed in three forms.
First, fluid energy (due to height and principal) = W o h
Pressure energy of (due to pressure) = W

*next kinetic energy (due to speed) = W

The units of the above three energy terms are all N m. If there is no case in which energy enters or leaves a certain system from the outside, the energy at any two points must be the same, and the equation is as follows.

Since W is common to each term, dividing it gives the following expression.
This is the Bernoulli equation, which expresses all the energy contained in the fluid per unit weight, so that when even one of the three energies increases, one or two of the other two energies decrease so that the sum of the three energies is the same. Balanced.
The hydrostatic pressure is proportional to the head regardless of the shape of the vessel. Therefore, it can be expressed as the product of the specific weight of the fluid and the head.
p = rh (1.6)
Pascal's principle is that when a pressure is applied to a fluid by a certain force (human force, mechanical force, or force due to its own weight) in a closed container, the pressure applied to the fluid is transmitted to another object with the same magnitude in all directions. The first person who discovered this principle was Pascal, so it is called "Pascal's principle" and this principle is widely used in hydraulic and pneumatic equipment. However, the magnitude of the pressure acting at a point of the liquid at rest is the same in all directions, and as such, the pressure applied to a part of the liquid at rest in the sealed container is simultaneously transmitted with the same strength to all parts, so it is calculated as Pascal's It is called principle.
24 to 64, when a liquid is put in a sealed container and a force (F) is applied from above, the liquid has a property that its volume does not decrease even when compressed, so that the liquid has a force to oppose the force pressing from above. This is called the reaction force, and this reaction force of the liquid is called the pressure ( p ).
The pressure in the vessel is the force F divided by the area A of the piston.

The principle of pressure transmission is that when a cylinder is filled with liquid and the forces F ₁ and F ₂ are applied to the piston cross-sectional areas A _{1 and} A ₂ , a certain pressure is generated in the liquid due to these forces, where there is no friction between the piston and the cylinder Assuming that there is no leakage from this part and there is no energy loss due to transmission, the pressure generated in the two cylinders can be expressed by the following equation.

However, since the pressure difference due to the difference in the height of the liquid in the cylinder is very small compared to the p value, it can be neglected. from the above expression

is obtained That is, the force is proportional to the cross-sectional area of the piston. Since A ₁ is small compared to A ₂ , a sufficiently large force F ₂ is obtained compared to F ₁ . Hydraulic presses or hydraulic presses use this principle.
The hydraulic enhancer of the embodiment connects two pistons with different surface areas by a rod. When a pressure p ₁ is applied to the piston area A ₁ , a force F ₁ is transmitted to the small piston through the rod, and this force is applied to the cross-sectional area A ₁ Therefore, if the pressure p ₂ is increased and friction loss is neglected, the equation is as follows.

In a pressure-increasing device, the pressure is inversely proportional to the area of the piston.
As shown in FIGS. 24 to 64, the flow of a fluid, a flow in which all boundary surfaces of the fluid flow are made of a solid surface is generally called an internal flow, and this flow is largely divided into laminar flow and turbulent flow, Laminar flow is a flow in which the viscous force dominates the inertial force, and the Reynolds number is small, i.e., a flow that satisfies Newton's law of viscosity in the case of a viscous flow with a small velocity. As a result, the Reynolds number is large, that is, a flow with a large velocity. In general, the flow in a hydraulic system is often a laminar flow.

As shown in the table above, friction, flow, and hydraulic energy are lost when transported through the pipe. Friction is generated by the fluid itself and the inner wall of the pipe and generates heat. At the same time, hydraulic energy is converted into heat energy, and the loss of hydraulic energy refers to the pressure loss of hydraulic fluid. The loss is due to the friction of the flow medium, and the pressure loss in the structure, which is changed to thermal energy, is sometimes intentionally generated. Therefore, the pressure loss that causes heat generation in the structure is undesirable. Since it is heated by the structure, when the fluid in the pipe acts in the direction of the arrow, the pressure in the direction of the flow gradually decreases.
In this way, the hydraulic pump outlines the hydraulic pump, and the relationship between the discharge amount and the pressure is divided into the power and efficiency of the pump and explained as shown in the table below. A device that applies energy to the hydraulic system by raising the level is called a hydraulic pump, and the pump is classified into a non-displacement pump and a positive displacement pump. There are four flow pumps, axial flow pumps, and injection type pumps, and there is a certain relationship between the discharge amount and pressure. As the discharge amount increases, the discharge pressure decreases. Since the discharge amount is constant regardless of the load pressure and the discharge pressure is determined according to the load pressure, if the load is excessive, the pressure rises and the pump is destroyed. A system that sucks low-energy hydraulic oil, applies energy to it, and sends high-energy hydraulic oil to the closed operating unit to work outside through the operating unit (cylinder, motor), and the hydraulic oil becomes low energy and returns to the tank The work or energy applied to the hydraulic oil by the pump operation as composed of
The work done per unit time, i.e. power or power, is

becomes like
24 to 64, Table 2-1 describes the relationship between the discharge amount and the pressure according to the classification of the hydraulic pump as shown in the table below.

As shown in the table above, the discharge amount of the hydraulic pump is expressed by the volume of hydraulic oil discharged from the discharge port when the input shaft is rotated once. For example, if 32cc/rev, the discharge amount per rotation is 32cc, and the hydraulic pump There is a “minimum rotational speed” that cannot maintain a predetermined discharge amount when driven below the speed. As long as it is within the range of the minimum and maximum rotational speeds, the hydraulic pump can be driven at any speed, and the hydraulic oil flow rate discharged from the outlet increases in proportion to the rotational speed. speed), the flow rate from the outlet is 1500 times of 32cc, that is, 48,000cc/min (48ℓ/min) meaning '48,000cc flows in 1 minute.' That is, this hydraulic pressure placed at 1500rpm The discharge rate of the pump is indicated as 48ℓ/min, and when the pressure at the discharge port is very low, such as 5kg _f /cm ² , the actually measured discharge amount and the discharge amount calculated in the calculation (theoretical discharge amount) are very approximations, and at the same time, the pressure at the discharge port in the hydraulic pump is As the “maximum operating pressure” has been set, meaning that when it rises higher than the numerical value, the internal leakage increases and the lifespan is significantly shortened. is required, and internal leakage cannot be eliminated since it is used for this purpose.
Therefore, this internal leakage becomes larger (almost proportionally) as the pressure of the discharge port increases, and at the maximum operating pressure, the leakage amount is 5% to 10% of the theoretical discharge amount. It means 95% to 90%, and the numerical value indicating the percentage of the theoretical discharge amount that can actually be used at a certain pressure is called the volumetric efficiency.
Usually, when simply speaking of volumetric efficiency, volumetric efficiency at the maximum operating pressure is often expressed. In the case where internal leakage is 5% of the theoretical discharge amount, in other words, when the actual measured discharge amount is 95% of the theoretical discharge amount (at that pressure) The efficiency is expressed as 95%, and in terms of power and efficiency of the pump, the suction pressure of the hydraulic pump is ps [kg _f /cm ² ], the discharge pressure _{is p d [} kg _f /cm ² ], and the discharge flow rate is If R[m ³ /s], the pump power (horsepower effectively transmitted to the fluid) L _p generated by the pump can be obtained as follows.
( L _p = pQ [kg _f m/s]) (2.1)
Here, p = p _d - p _s is the pressure difference between the outlet and the inlet of the pump, but p _s is the atmospheric pressure and p = p _d is usually considered.
If the output unit is expressed in kW or ps,

to be. Also, when the unit of p is kg _f /cm ² and the unit of Q is ℓ/min, the pump power is

Assuming that there is no leakage loss in the pump, the theoretical power (liquid power) L _th given by the pump to the hydraulic oil is,
( L _th = pQ _th [kg _f m/s]) (2.4)
Here, p kg _f /cm ² is the pump discharge pressure, Q _th [m ³ /s] is the theoretical discharge amount, and if the power (shaft power) transmitted from the prime mover to the pump shaft is L _s

Here, ω [l/s] is the angular velocity, T _th [kg _f /cm ² ] is the torque required to rotate the pump, N[rpm] is the number of revolutions, and the pump received through the shaft from the prime mover Efficiency is defined as a measure of how much energy the pump receives through the shaft is converted into useful energy, because not all of the energy is given to the hydraulic oil, but some is dissipated as a loss and only the rest of the energy is taken out by the hydraulic oil.

where η is the overall efficiency of the pump.

In outline and classification, a hydraulic actuator is a generic term for hydraulic equipment that performs mechanical work by generating reciprocating or rotating motion of the output shaft by means of hydraulic oil. Table 4-1 shows the types of hydraulic actuators with three types (limited rotational motion of the shaft).

In a hydraulic motor, the hydraulic motor is a device that converts the energy of the hydraulic oil into rotational motion. Although it is common to rotate only in the direction of rotation, hydraulic motors can rotate in either forward or reverse direction.
It is very simple to change the number of revolutions continuously and forward/reverse rotation, it is very easy to start and stop, and the inertia is small, so the followability is good, the response is fast, and it is suitable for the elements of the operation part of automatic control and the servo mechanism. Since it is much smaller than a conventional motor, it has these advantages, but its use is limited because the hydraulic device itself is driven by an electric motor. , the latter is called a variable displacement hydraulic motor.
The structure of the gear motor is almost the same as that of the gear pump, and the supplied hydraulic oil acts on the tooth surface to generate torque to rotate the output shaft. Compared to motors, the structure is simple, compact and lightweight, and it is difficult to manufacture as a variable displacement motor due to its structure. It is about ~80[%] and the rotation speed is about 1000~3000rpm.
A vane motor is the same as a vane pump in terms of structure and has the advantages of constant output torque, reversal, stepless speed change, harsh operation, and lighting when the supply pressure is constant. There are many things of ∼30ps, and the number of rotations is 200 to 1 800rpm, and the speed limit of 200rpm has little fluctuation in output torque.
In the piston motor, the piston motor is often called a plunger motor or a rotary piston motor, and has almost the same structure as a piston pump, and there are axial type and radial type. There are two types of piston motors: bent shaft type and swash plate type.
24 to 64, the radial piston motor is a type in which several or 10 pistons are radially arranged on the shaft and rotate the shaft while reciprocating in the radial direction, using the eccentric or eccentric cam of the cylinder block. As the piston motor is classified into the eccentric type that converts the force of the pressure oil received by the piston into torque, and the multi-stroke type that generates torque by reciprocating the piston several times per rotation using a multi-leaf cam, the piston motor is a constant displacement type like a piston pump. There is a fixed displacement type and a variable displacement type for each type.
In the output and efficiency of the hydraulic motor, the pressure of the hydraulic oil flowing into the motor is p ₁ [kg When f/cm ² ], the pressure of the outgoing hydraulic oil is p ₂ [kg _f /cm ² ], and the flow rate of the supplied hydraulic oil is Q [cm ³ /min], the power flowing into the hydraulic motor is calculated as follows .

The output is calculated by torque and angular velocity.

Here, n is the number of rotations on the motor output side [rpm], and T is the torque delivered to the load from the motor output side [kg _f ㅇm]. Therefore, if we calculate the efficiency of the motor from the relationship between input and output,

The size of the hydraulic motor is expressed in terms of the amount of pressure required per rotation q (cm ³ /revolution). Under the assumption that there is no internal leakage of the motor, Q = q ㅧ n _o , and λ = 100%, that is, there is no loss. If the oil pressure is 0 ( p ₁ = p )

From the above formula,

Therefore, the torque efficiency is

becomes
In the above formula, n _o is the number of revolutions under the assumption that there is no internal leakage of the motor, and T _o is the maximum torque or theoretical torque that hydraulic oil of pressure p can generate.
The advantages of hydraulic motors are that they can be easily stopped quickly and can achieve a wide range of continuously variable speed compared to electric motors, that small, light and powerful power can be obtained. , stop, reversal, shift, etc. can be easily controlled by a variable displacement pump or metering (meaning a throttling valve and a valve that improves flow). It is convenient for torque control systems such as
As described above, the hull position movement of the tsunami damage prevention device 811 into the main body (1) of the tsunami disaster prevention device body (1) Pumping operation device Offshore power plant body dock hull deck upper end (SDU) flotation constituted The bent shaft plunger pump (148) of the piston motor (885a) and the hydraulic motor of the conventional cylinder 126 and the hydraulic crane 885 showing the construction machine position adjustment configuration of the hull position movement control of the food dock (593,594,595) 148b) and the radial plunger pump (148c) construction machine connection structure is composed of tsunami buoyancy reading devices provided based on Bernoulli's theorem and Pascal's theoretical physics method.
As shown in FIGS. 24 to 64, offshore hydro power generation of a construction machine connection structure in the form of a water wheel 838 configured in the upper end (SDU) of the marine power plant body dock hull deck of the offshore hydro power plant floating dock (593, 594, 595) The power production control device includes an inlet pipe 191, a cylinder 126, and a piston or a piston pump 127 to the head tank 189 and the hydraulic hose 190 having direct current (655) and alternating current (656) energy power. In the light bulb body (660) and the battery or battery (671), the construction machine connection structure is composed of tsunami disaster prevention buoyancy reading devices.
As described above, in the prior art of hydroelectric power generation, the waterproofing facilities of the water supply facility and the power generation facility (pumping water) do not have much obstacle to the requirements of hydroelectric power generation, whereas the setting of the water intake facility dam 680 or water intake dam 680 is Although it is a very serious level, various problems to be solved in the expression of environmental impacts in the vicinity according to the setting of the intake dam 680 are as follows.
First, in order to obtain an appropriate power generation capacity, the installation cost and the period required for dam construction were relatively large compared to the generation facility, and the Environmental impacts near the installation area (not for multi-purpose control of floods and droughts after the installation of the intake dam at the point where the ground and tectonic changes of the dam installation location were not thoroughly checked in advance. There have been many cases of small and medium-sized cities being buried due to earthquakes or landslides due to tectonic fluctuations due to large and low water intake and large numbers of algae or harmful red tides. In the case of nuclear power generation, the accident at the Chernobyl nuclear power plant in the former Soviet Union and the nuclear explosion accident in Japan resulted in radioactive contamination accidents. On the other hand, thermal power plants are usually built in places near large cities or on the coast where there is a high demand for electricity, and global warming is accelerated due to waste gas emitted from chimneys (chimneys). Natural disasters have reached a serious level due to global warming due to the increase in pollution and carbon dioxide emission. Figure 1c of
A vertical multi-stage pump front sectional view and a front view and a vertical multi-stage pump system showing the configuration of the disaster-blocking prevention control device of the tsunami damage prevention device 811 configured in the body 1 of the conventional floating culture reading device for tsunami disaster prevention according to the present invention Control block diagram and BF model in the schematic diagram of the concept; This is the configuration diagram of the vertical multi-stage pump operation method of the speed control method, the three-pump direct starting method embodiment, where, the offshore hydro generator equivalent to the vertical multi-stage pump facility is a vertical multi-stage hydro generator facility, and flotation for tsunami disaster prevention to produce large-capacity power generation The hull position movement pumping device of the tsunami damage prevention device 811 composed of the food poisoning device body 1 has an offshore power plant 233 in the form of a water wheel 838 at the upper end (SDU) of the marine power plant body dock hull deck. is more composed
In general, in domestic water resources facilities, the total storage capacity of multi-purpose dams across the country is about 12.6 billion m3, with a power generation facility capacity of about 1.05 million kw and a flood control capacity of about 2.2 billion m3, so hydroelectric facilities use flow and fall. As a facility, the annual water supply capacity of these multi-purpose dams is about 10.9 billion ㎥. By dam, Soyanggang Dam has the largest storage capacity at 2.9 billion ㎥, but the annual water capacity is 1.2 billion ㎥, which is lower than that of Chungju Dam with 3.4 billion ㎥. In terms of power generation capacity, the Chungju Dam is the largest at 410,000 kilowatts. Hydroelectric power plant (233) facility of the present invention so that those skilled in the art can easily understand the present invention by a more detailed description by separating and dividing the background technology of the power plant (onshore hydro power) into hydropower facilities and hydropower in general First, the outline of the hydraulic power facility will be explained in detail while explaining the method as shown in the table below, which is composed of the existing technology and similar power generation facilities.
Since the hydraulic power facility is a facility that uses the flow rate and the drop, it should always be constructed to safely take in the flow required for power generation, and to minimize the drop and the loss of the flow rate as much as possible. If the hydropower facilities in the hydroelectric power plant are classified according to their functions, they are broadly divided into four types: water intake facilities (680n), water supply facilities (680o), power generation facilities (680p), and waterproof facilities (680q). Since it is necessary to design appropriately and combine each facility well to plan for the most effective use of the hydraulic power of that location, there are various structures of the workpieces used for each facility. In this section, we will briefly review the overview of hydroelectric power plants (679s) for hydroelectric power plants.
A facility that blocks water in a direction almost perpendicular to the flow of the river in order to take in the running water of the electric charge as for conventional hydroelectric power generation - This is called the intake dam (680b) - and a facility that takes in water immediately upstream of it - This is called a water intake port (678g) to build a -, and the water taken from the intake port (678g) is guided through the waterway to the water tank (680m) located on the upper part of the power plant 233 to obtain a free fall, and it is sent to the water wheel through the hydraulic pipe again. Here, the potential energy of water is converted into mechanical energy and used to generate electrical energy by the generator, and the water is discharged back into the river through the spillway (678b). A surplus water channel is installed in the water tank so that the surplus water can be safely discharged into the river when the water level exceeds the specified value due to a sudden decrease in load. Among them, the waterway from immediately after the water intake (678g) to the entrance to the water tank (680m) is called a waterway. The water tank (680m) is used for a natural flow type, and in the case of a pressure channel, a pressure water tank (680i) is used instead of this water tank (680m). It was that the water tank was not installed because the reservoir (680a) acts as a water tank (680m) in a dam-type power plant without installing the soaking pond (680k) because it itself functions as the soaking pond (680k).
In conventional power generation dams, if the power generation dams are first classified by their use, a simple intake dam used in a hydroelectric power plant, a slightly larger dam used to raise the water level on the upstream side in a dam hydroelectric power plant, and a water intake In addition, there is a huge reservoir dam (dam-type power plant) that blocks valleys or streams to create a control pond or reservoir (680a) to store water for a certain period of time. , and that it should be reasonably designed to be safe even if it receives external forces other than that, and that the next dam type should be selected as the most economical in consideration of topography and geology. It is called drainage - it was said that the damage suffered should be reduced to a minimum, and that the maximum flow should be safely discharged even in the event of a flood so as not to pose a risk to power generation facilities and all downstream facilities. According to the report, an intake dam and a water storage dam are formed. First, in the intake dam, as a dam for the purpose of water intake in a hydroelectric power plant, the height and width of the dam are generally not very large. As described above, it is divided into a control pond and a reservoir according to the size of the adjustment capacity because a large-scale water quantity that can be adjusted seasonally or annually is used as well as a fall by raising it.
According to the classification by materials used for power generation dams in the past, rock dams are formed in concrete dams and soil dams. Currently, it is the most used and secondly, in terms of soil dams, it is economical if materials are procured locally as a dam constructed by mixing sand, gravel, and clay appropriately. This type of dam should be designed to maintain stability by making the slope of both upstream and downstream sides smoother than that of a concrete dam.
As described above, the tsunami damage prevention device 811 and the power production and manufacturing device marine power plant body dock hull deck upper part (SDU) composed of the tsunami damage prevention device 811 and the electric power production and manufacturing device composed of the body 1 Connection of hydraulic power plant construction equipment in the conceptual diagram (678c) of the inflow type power plant and the conceptual diagram (678d) of the reservoir type power plant (678d) showing the construction machine position adjustment configuration of the hull position movement control of the sikdok (593,594,595) The offshore hydroelectric power plant floating dock (593,594,595) provided as an offshore hydro power generation power production control device that produces the power of the tsunami damage prevention device 811 composed of the main body (1) of the structure for tsunami disaster prevention ,
A hydraulic cylinder door ( 624) equipped with buoyancy reading devices for tsunami disaster prevention, a large flange connection connector to a portable lug 607 and a portable lug pin 608 to the vertical bulkhead 605 and the portable lug coupling pin connection shaft 606 Joint processing hole 615, construction machine connection structure, pier 928 and pipe bridge 937, to the inside of the marine tunnel transportation device 941, to the drilling machine 908 for oil drilling, pier 928 and pipe bridge ( In 937), the marine tunnel transportation device internal train 771 comprising the interior of the marine tunnel transportation device 941 is,
When the tsunami disaster prevention facility is constructed by disassembling and combining the construction machinery connection structure, and at the same time, the hydraulic facilities in the hydroelectric power plant are classified according to their functions. 680q), which is largely divided into four types, is a facility with flow rate and drop, whereas hydroelectric power plant (233) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant buoyancy dock (593,594, 595) of the hydraulic power facility, the theoretical hydraulic power for manipulating the flow rate of seaweed is input to the water wheel to rotate the water wheel and generator, and the water intake facility (680n) equal to the arrangement of the vertical multi-stage pump (2) is equipped with a water supply facility (680o) and power generation The facility (680p) and the waterproofing facility (680q) are provided with the multi-stage inflow hydroelectric generator 213 devices of the hydroelectric power plant 233, so that the marine hydroelectric power plant is configured in the marine tidal power plant in the form of a seesaw of a hydraulic device and a water wheel.
In the conventional rock dam (680z), it is economical when such rock material is procured locally, like the earth dam (680y) mainly made of rock as a building material. This dam can make the dam higher than that of the earth dam (680y) and has high stability, but it is necessary to strengthen the foundation because its own weight is large. Like the soil dam 680y, the rock dam 680z is a type of gravity dam, and is composed of a drainage layer 680v, soil material 680w, and foundation bedrock 680x on the rock wall 680t and the upstream protective layer 680u. have.
As described above, offshore hydroelectric power generation and manufacturing device for generating power of the tsunami damage prevention device 811 composed of the main body (1) of the tsunami reading device body (1) for earthquake and tsunami disaster prevention Offshore power plant body dock hull deck upper end (SDU) A conceptual diagram (678c) of an inflow type power plant showing the construction machine position adjustment configuration of the hull position movement control of the floating docking dock (593, 594,595) of the offshore hydroelectric power plant, and the conceptual diagram (678d) of the reservoir type power plant. 678e) Offshore hydro power generation power generation and manufacturing device that produces power for the tsunami damage prevention device 811 that is configured in the body 1 The marine hydro power plant flotation docks (593,594,595) provided with And the vertical bulkhead 605 and the portable lug coupling pin connection shaft 606 for tsunami disaster prevention provided as a door 624 for the hydraulic cylinder in the hydraulic cylinder or hydraulic jack key 623. The portable lug (607) and the portable lug pin (608) to the large flange connection connector joint processing hole (615) construction machinery connection structure and the pier (928) and the pipe bridge (937) to the interior of the marine tunnel transportation device (941) The marine tunnel transportation system internal train 771 consisting of the interior of the marine tunnel transportation system 941 on the pier 928 and the pipe bridge 937 on the drilling machine 908 for the weight is an earthquake that saves lives and rescues ships in distress. It is connected and composed of floating fish reading devices for tsunami disaster prevention.
When the water damage control facility is configured by disassembling and combining the construction machine connection structure and at the same time, when the hydraulic facilities in the hydroelectric power plant are classified according to their functions, the water intake facility (680n) includes the water supply facility (680o), the power generation facility (680p), and the waterproof facility (680q). ), hydropower of the hydroelectric power plant (233) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydroelectric power plant floating dock (593, 594,595), while the hydraulic facilities divided into four categories are those that use the flow rate and drop. equipment,
The theoretical hydraulic power for manipulating the flow rate of seaweed is input to the water wheel to rotate the water wheel and the generator. The waterproofing facility 680q is provided with the multi-stage inflow hydroelectric generator 213 devices of the hydroelectric power plant 233, and the marine hydro power plant is configured in the seesaw type of the hydraulic device and the waterwheel type of the marine tidal power plant.
According to the classification according to the mechanical structure of the conventional power generation dam, it is formed in a gravity dam, and the gravity dam is the most used type currently, and the dam 680 is large because it maintains stability against external forces with its own weight. Since pressure is applied to the foundation, the installation site must be a place with solid rock. Gravity dams are mainly constructed of concrete, but in addition, earth dams using soil (680y) and rock dams using rocks (680z) are also partially used as types of gravity dams. .
As described above, offshore hydroelectric power generation and manufacturing device that produces power of the tsunami damage prevention device 811 configured in the main body 1 with the flotation reading devices for earthquake and tsunami disaster prevention marine power plant body dock hull deck upper end ( The conceptual diagram (678c) of the inflow type power plant showing the construction machine position adjustment configuration of the hull position movement control of the floating dock (593,594,595) of the offshore hydroelectric power plant (SDU) and the conceptual diagram (678d) of the adjustment knowledge power plant ( 678e) provided as an offshore hydroelectric power generation and manufacturing device for generating power of the tsunami damage prevention device 811 configured in the main body 1 of the tsunami disaster prevention flotation reading device for the structure connected to the hydraulic power plant construction machine Offshore hydro power plant buoyancy dock (593,594,595) is a rotary cylinder rack & pinion type-(NRP) hydraulic rotary cylinder 620 and band jig 621 for buoyancy control butterfly valve 622 and hydraulic cylinder or hydraulic jack The vertical bulkhead 605 and the pin connection shaft 606 for coupling the portable lug are equipped with the tsunami disaster prevention buoyancy reading devices to rescue lifesaving and tsunami disaster relief provided by the door 624 for the hydraulic cylinder at (623). To the inside of the marine tunnel transportation device 941 to the portable lug 607 and the portable lug pin 608 to the large flange connection connector joint processing hole 615, the construction machinery connection structure, the pier 928 and the pipe bridge 937 is available,
The drilling machine for oil drilling 908 is composed of a pier 928 and an offshore tunnel transportation system internal train 771 that is configured as an interior of the marine tunnel transportation system 941 on the pier 928 and the pipe bridge 937.
When the water damage control facility is configured by disassembling and combining the construction machine connection structure and at the same time, when the hydraulic facilities in the hydroelectric power plant are classified according to their functions, the water intake facility (680n) includes the water supply facility (680o), the power generation facility (680p), and the waterproof facility (680q). ), hydropower of the hydroelectric power plant (233) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydroelectric power plant floating dock (593, 594,595), while the hydraulic facilities divided into four categories are those that use the flow rate and drop. equipment,
Equipped with theoretical hydraulic power to manipulate the flow rate of seaweed, it is input to the water wheel to rotate the water wheel and the generator. ) and a waterproofing facility (680q) and a multi-stage inflow hydroelectric generator (213) devices of the hydroelectric power plant (233), the marine hydroelectric power plant is configured in the seesaw type of the hydraulic system and the waterwheel type of the marine tidal power plant.
The previous buttress dam (679e) has a buttress (679g) in the surface water plate (679f), a hollow part (679i) in the used water depth (679h), and the surface concrete (679k) and the potential energy of water (679l) in the surrounding anterior chamber (679j). ) is composed of kinetic energy (679m) of water, mechanical energy (679n), electrical energy (679o), theoretical hydraulic power (679p), and aberration output (679q).
As described above, an offshore hydro power generation power production control device that produces power of the tsunami damage prevention device 811 configured in the main body 1 with the flotation reading devices for earthquake and tsunami disaster prevention. The conceptual diagram (678c) of the inflow power plant and the conceptual diagram (678d) of the reservoir type power plant showing the construction machine position adjustment configuration of the hull position movement control of the floating dock (593, 594,595) constituting the SDU). Offshore hydroelectric power generation that produces power included in the tsunami damage prevention device 811 that is provided as a connection structure for the hydroelectric power generation facility construction machine in the conceptual diagram (678e) and is composed of the tsunami damage prevention device 811 inside the main body (1) as a floating culture device for tsunami disaster prevention The offshore hydroelectric power plant floating docks (593,594,595) provided as power production control devices are,
A hydraulic cylinder door ( 624) and made up of buoyancy reading devices for tsunami disaster prevention, connecting the portable lug 607 and the portable lug pin 608 to the vertical bulkhead 605 and the portable lug pin connection shaft 606 for the large flange connection connector Part processing hole 615, construction machine connection structure, pier 928 and pipe bridge 928 and pipe bridge in the drilling machine 908 for oil drilling comprising the interior of the marine tunnel transportation device 941 on the pier 928 and the pipe bridge 937 It is connected to the interior of the marine tunnel transportation device 941 at 937 and connected to the internal train 771 of the marine tunnel transportation device.
When the hydraulic facilities in the hydroelectric power plant included in the transportation and transport unit 811c of the construction equipment are classified according to their functions by disassembly and combination with the construction equipment connection structure, the water intake facility 680n includes the water supply facility 680o and the power generation facility 680p. and waterproofing facilities (680q), which are largely divided into 4 types, are facilities using flow rate and drop, whereas they constitute the position adjustment of construction machinery of hull position movement control of offshore hydro power plant floating dock (593,594,595),

로 된다.
도 24 내지 도 64에 도시한 바와 같이,상기 p를 깊이 H[m]에서의 압력의 세기 또는 압력도(pressure intensity)라고 말하며, 전체에 작용하는 수압 P를 전압력 또는 총압 이라고 해서 이것과 구별하고 있고 이때의

를 압력수두(pressure head]라고 하며 압력의 단위로서는 [kg/㎠]또는 [kg/㎡]를 사용한다.
동수력학에서는,유체(물)의 운동법칙을 취급하며 유체의 운동을 크게 나누면 유동과 와동,파동으로 되며 유동을 다시 나누면 유선이 정연하게 기하학적인 선으로 되어 흐트러지지 않고 흐르는 충류와 유선이 서로 엉켜서 혼란한 상태가 되어 흐르는 난류로 된다. 수력 발전소에서 사용하는 유체의 흐름은 일반적으로 난류이며 일반적으로 관로나 수로 등에 흐르는 물의 양 Q[㎥]는 유수의 단면적 A[㎡]와 평균유속 υ[m/s]와의 곱으로 표시하고 있다.
(Q = Aㅇυ [㎥]) 식 ②
관로 등의 고체로 둘러싸인 유수에서 2점 a, b에서의 단 면적을 각각 A ₁[㎡], A ₂[㎡] 평균 유속을 υ ₁[m/s], υ ₂[m/s]라고 하면, 단위시간에 지점 a로부터 유입되는 수량은 A ₁ B ₂[㎥/s], 지점 b로부터 유출되는 수량은 A ₂ υ ₂[㎥/s] 이다.

로 부 터

가 된다.
속도 υ로 흐르고 있는 물은 이상론 H의 높이에 해당하는 수두를 갖는다고 생각해서 이 H(=υ ² /2g)를 속도 수두라고 하며 끝으로 토리첼리의 정리에 대하여 단면적 ①을 가진 수조에서 하부의 측면에 있는 아주 작은 구멍, 이 관계식을 토리첼리의 정리(Torricelli's theorem)라고 말한다. 실제는 물의 점성, 분출공에서의 마찰손실이 있기 때문에 실제의 분출속도 υ ₂'는 υ ₂보다 약간 작아져서 다음 식으로 표시하며 즉,오리피스 ②로부터 분출하는 물의 속도 υ₂는 베르누이의 정리

조의 단면적은 분출구의 단면적 보다 훨씬 크기 때문에 υ ₁는 무시된다.(≒0)또, h ₁ - h ₂ = h인 조건을 윗 식에 대입하면,

으로 부터

를 얻는다.
상기한 바와 같이, 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 동력을 생산하는 해양수력발전 전력 생산제조장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593, 594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 유입식 발전소의 개념도(678c)와 저수지식 발전소의 개념도(678d)에 조정지식 발전소의 개념도(678e)의 수력발전설비 건설기계 연결구조물의 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 동력을 생산하는 해양수력발전 전력 생산제조장치로 구비된 상기 해양수력발전소 부양식독(593, 594,595)들은 로터리 실린더인 랙＆피니 언 형-(NRP)의 유압회전실린더(620)와 밴드 지그대(621)의 부력조절용 버터플라이밸브(622)와 유압실린더 또는 유압 작키(623)에 유압실린더용 도어(624)로 구비된 지진해일방재용 부양식독장치들로 구성하는 수직격벽(605)과 휴대용 러그 결합용 핀 연결축(606)에 휴대용 러그(607)와 휴대용 러그핀(608)에 대형플랜지 접속연결구 접합부위 가공홀(615) 건설기계 연결구조물과 교각(928)과 관교량(937)에 해양터널교통장치(941)의 내부로 구성하는 원유시추용 드릴링 머신(908)에 교각(928)과 관교량(937)에 해양터널 교통장치(941)의 내부로 해양터널교통장치 내부전동차(771)는,
건설기계 연결구조물과 분해결합으로 수해조절설비가 구성되면서 동시에 수력 발전소에서의 수력설비를 그 기능에 따라 분류하면 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q)의 4가지로 크게 나누어지는 수력설비는 유량과 낙차를 이용하는 설비이며 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 수력발전소(233)의 수력설비는,
해조류의 유속을 조작하는 이론수력은 수차에의 입력으로 되어 수차, 발전기를 회전하게 되며 입형다단펌프(2)의 배열과 동등한 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q) 수력발전소(233)의 다단입류식 수력발전기(213)장치들로 구비해 유압장치의 시이소 형태와 물레방아 형태의 해양조력발전소에 해양수력발전소가 구성된다.
도 24 내지 도 64에 도시한 바와 같이,물의 위치에너지(679l),물의 운동에너지(679m),기계에너지(679n),전기에너지(679o),이론수력(679p),수차출력(679q),발전기출력(679r),수력발전의 개요도(679s)로 구비되어있다.
(η _t),(η _g)는 수차, 발전기의 각각의 형식, 용량, 부하의 크기 등에 따라 약간 달라지지만 정격운전시에 η _t = 80 ∼ 90[％], η _g = 90 ∼ 97[％] 정도의 값을 가지며, 이 양자의 곱 η = η _t η _g 를 종합효율이라고 한다. 위의 식으로부터 알 수 있는 바와 같이 수력을 유효하게 사용하려면, 어떻게 하면 큰 낙차(H)를 얻고 또 사용수량(Q)을 경제적으로 얻을 수 있는가 하는 것이 문제로 된다. 하천의 하류부를 이용할 경우에는 사용수량을 크게 얻을 수 있으나 그 대신 낙차는 작아지며, 반대로 하천의 상류부에서는 큰 낙차를 얻을 수 있는 대신 사용수량은 일반적으로 감소하게 된다.
[표 1] 수차 및 발전기 효율의 개략 값

수력발전소의 종류와 설비에는,수력발전소는 취수방법과 운용방법에 따라 여러 가지로 분류된다. 먼저 취수방법에 의한 분류에는 댐 식발전소와 수로식 발전소에 댐수로식 발전소와 유역 변경식 발전소가 형성되어있고 상기 댐식 발전소는 하천을 횡단하는 댐을 축조하여 유수를 막아,이로 인하여 생기는 낙차를 이용하는 형식이며 큰 낙차를 이 형식으로 하려면 상당히 높은 댐을 축조하여야 하고,또 매몰면적도 크므로 경제적인 방법이라고 할 수 없으나,적성지형 외에도 관개용 또는 홍수조절용 저수지의 낙차를 이용하는 경우가 많으며 대개 저낙차 원동소에 사용되며 이 댐식은 우리나라 실정에서 볼 때 가장 유용한 것이며 장래에도 이 방식의 건설이 매우 주요시 된다.
발전, 관개, 홍수조절용의 목적으로 축조되는 댐을 다목적댐이라고 부른다. 또 댐 식으로 하면 강우량과 사용 수량 사이의 불균형에 의하여 상당한 낙차변동을 피할 수 없을 때가 많으며 이와 같은 발전소를 특히,변 낙차 발전소라고 부르는 수도 있다.
이것은 댐에 저장되는 수량이 풍부할수록 경제적으로도 유리하고, 또 운용면에서도 바람직하므로 우리나라에서는 비교적 경사가 있고 수량이 풍부한 한강계 중하류부에 이 형식의 발전소를 많이 건설하고 있다.(춘천, 의암,청평,팔당,소양강 발전소 등)
상기한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 동력을 생산하는 해양수력발전 전력 생산제조부 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 유입식 발전소의 개념도(678c)와 저수지식 발전소의 개념도(678d)에 조정지식 발전소의 개념도(678e)의 수력발전설비 건설기계 연결구조물의 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 동력을 생산하는 동력을 생산하는 해양수력발전 전력생산제조장치로 구비된 상기 해양수력발전소 부양식독(593,594,595)들은,
로터리 실린더인 랙＆피니 언 형-(NRP)의 유압회전실린더(620)와 밴드 지그대(621)의 부력조절용 버터플라이밸브(622)와 유압실린더 또는 유압 작키(623)에 유압실린더용 도어(624)와 밴드 지그대(621)의 분배투입장치들로 구비해 수직격벽(605)과 휴대용 러그 결합용 핀 연결축(606)에 휴대용 러그(607)와 휴대용 러그핀(608)에 대형플랜지 접속연결구 접합부위 가공홀(615) 건설기계 연결구조물과 교각(928)과 관교량(937)에 해양터널 교통장치(941)의 내부로 원유시추용 드릴링 머신(908)에 교각(928)과 관교량(937)에 해양터널 교통장치(941)의 내부로 구성하고, 해양터널교통장치 내부로는 전동차(771)가 형성된다.
건설기계 연결구조물과 분해결합으로 구비해 지진해일방재설비가 구성되면서 동시에 수력 발전소에서의 수력설비를 그 기능에 따라 분류하면 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q)의 4가지로 크게 나누어지는 수력설비는 유량과 낙차를 이용하는 설비이며 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 수력발전소(233)의 수력설비이다.
한편, 해조류의 유속을 조작하는 이론수력은 수차에의 입력으로 되어 수차, 발전기를 회전하게 되며 입형다단펌프(2)의 배열과 동등한 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q) 수력발전소(233)의 다단입류식 수력발전기(213)장치들로 구비해 유압장치의 시이소 형태와 물레방아 형태의 해양조력발전소에 해양수력발전소가 구성된다.
도 24 내지 도 64에 도시한 바와 같이,종전의 수력발전의 개요(679s)는, 건설기계 연결구조물의 댐식 발전소의 개념도(679t)와 스크린(679u)에 취수탑(679v)과 볼탭밸브(679w)에 입구밸브(679x)와 주요기기(679y)에 주요변압기(679z)들로 구비해 수력발전설비가 구성되어있다.
그 기능에 따라 분류하면 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q)의 4가지로 크게 나누어지는 수력설비는 유량과 낙차를 이용하는 설비인 반면에 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 수력발전소(233)의 수력설비는,
해조류의 유속을 조작하는 이론수력은 수차에의 입력으로 되어 수차, 발전기를 회전하게 되며 입형다단펌프(2)의 배열과 동등한 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q) 수력발전소(233)의 다단입류식 수력발전기(213)장치들로 구비해 유압장치의 시이소 형태와 물레방아 형태의 해양조력발전소에 해양수력발전소가 구성된다.
도 24 내지 도 64에 도시한 바와 같이,종전의 댐식 발전소의 개념도(679t)의 수로식 발전소는, 하천(678) 주류에 댐을 축조하여 별도로 작은 구 배의 수로 또는 압력 수로를 만들어 하천(678)의 급구배 또는 굴곡된 지형을 이용하여 주로 상당한 거리의 수로에 의하여 중낙차나 고낙차를 얻는 경우에 사용되며 물은 취수구(678g), 침사지(680k),수로 또는 압력수로, 상수조(680m) 또는 조압수조(680j), 수문(293),수압관(191),수차(264),방수로(678b)의 순서로 흐르게 되며 침사지(680k)를 취수구(678g)에 가깝게 만들어 물을 일단 정지시켜, 흙, 모래, 초목 같은 침전물을 제거하여 맑은 물만을 수로에 들어가게 한다. 침사지(680k)의 칙면에는 배사로를 만들어 때때로 침전된 흙, 모래들을 배출시킨다.
상기한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 동력을 생산하는 해양수력발전 전력 생산제조장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593, 594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 유입식 발전소의 개념도(678c)와 저수지식 발전소의 개념도(678d)에 조정지식 발전소의 개념도(678e)의 수력발전설비 건설기계 연결구조물의 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 동력을 생산하는 동력을 생산하는 해양수력발전 전력 생산제조장치로 구비된 상기 해양수력발전소 부양식독(593,594, 595)들은,
로터리 실린더인 랙＆피니 언 형-(NRP)의 유압회전실린더(620)와 밴드 지그대(621)의 부력조절용 버터플라이밸브(622)와 유압실린더 또는 유압 작키(623)에 유압실린더용 도어(624)로 구비된 지진해일방재용 부양식독장치들로 구비해 수직격벽(605)과 휴대용 러그 결합용 핀 연결축(606)에 휴대용 러그(607)와 휴대용 러그핀(608)에 대형플랜지 접속연결구 접합부위 가공홀(615) 건설기계 연결구조물과 교각(928)과 관교량(937)에 해양터널 교통장치(941)의 내부로 원유시추용 드릴링 머신(908)에 교각(928)과 관교량(937)에 해양 터널 교통장치(941)의 내부로 구성하는 해양터널교통장치 내부전동차(771)는 건설기계 연결구조물과 분해결합으로 구비되어 지진해일방재설비가 구성되어있다.
수력 발전소에서의 수력설비를 그 기능에 따라 분류하면 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q)의 4가지로 크게 나누어지는 수력설비는 유량과 낙차를 이용하는 설비이며 해양수력발전소 부양식독(593, 594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 수력발전소(233)의 수력설비는,
해조류의 유속을 조작하는 이론수력과 수차에의 입력으로 구성되어 수차, 발전기를 회전하게 되며 입형다단펌프(2)의 배열과 동등한 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q) 수력발전소(233)의 다단입류식 수력발전기(213)장치들로 구비해 유압장치의 시이소 형태와 물레방아 형태의 해양조력발전소에 해양수력발전소가 구성된다.
도 24 내지 도 64에 도시한 바와 같이,종전의 유입식 발전소의 개념도(678c)와 저수지식 발전소의 개념도(678d)에 조정지식 발전소의 개념도(678e)의 유입식 발전소의 개념도(678c)에는 저수지(680a) 또는 조정지(680a)가 없기 때문에 최대 사용 수량 이상의 유량은 발전에 이용되지 않고 무효 방류된다.
수로는 지형에 따라서 개 거,이 방식에서는 건설비가 크게 소요되지 않지만 그 대신 발생전력은 자연유량에 따라 달라지며, 또 이 자연유량도 계절에 따라 변동되기 때문에 부하변화에 응해서 원활한 전력공급을 할 수 없다는 결점이 있고 우리나라에서는 이 방식의 발전소가 없지만 러시아의 시베리아나 브라질 같이 수량이 풍부한 하천에서는 자연유량을 그대로 발전에 이용하는 유입식 발전소를 건설해서 운용하고,다음의 저수지식 발전소는 계절적인 하천의 유량변화를 조정할 수 있는 대용량의 저수지를 가진 발전소로서,풍수기에 남는 물을 저수하였다가 갈수기에 방출해서 하천유량을 장기간(보통 1년간)에 걸쳐 유효하게 이용하는 발전소이다.
우리나라의 수계는 유량이 비교적 적기 때문에 저수지식 발전소는 귀한 편이다. 그 중에서도 북한강 계의 소양강 발전소와 남 한강 계의 충주발전소가 다목적댐을 축조해서 저수지식 발전소를 이루고 있다. 유효 저수량을 보면 소양강댐 이 약 19억[t], 충주댐이 약 18억[t]이며 조정지식 발전소에 있어 저수지를 건설할 수 없을 정도로 유량이 적은 수계에서는 수로의 도중 또는 취수구 앞(댐 식일 경우)에 조정지를 설치해서 하천으로부터의 취수량과 발전에 필요한 수량과의 차를 이 조정지에 저수하거나 또는 방출함으로써 수시간 또는 수 일간에 걸친 부하변동에 대응할 수 있게 하고 있다. 이 방식은 유입식 발전소(678c)와 달라서 하천의 취수량보다도 발전소 최대수량을 상당히 크게 설계할 수 있다는 이점이 있다. 또한 첨두 부하를 분담하는 경우가 많아서 그러한 경우에는 이것을 특히 피크(첨두용) 발전소라 부르기도 한다.
도 24 내지 도 64에 도시한 바와 같이,본 발명에 따른 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)에 포함하는 선체위치이동 펌핑 가동장치에는,
해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 교각(928)과 관교량(937)에 해양 터널 교통장치(941)의 내부로 해양터널교통장치 내부전동차(771)에 포함하는 건설기계 연결구조물을 구성하며;상기 해양수력발전소 부양식독(593,594,595)들은 로터리 실린더인 랙＆피니 언 형-(NRP)의 유압회전실린더(620)와 밴드 지그대(621)의 부력조절용 버터플라이밸브(622)와 유압실린더 또는 유압 작키(623)에 유압실린더용 도어(624)로 구비된 지진해일방재용 부양식독장치들로 구성하고 수직격벽(605)과 휴대용 러그 결합용 핀 연결축(606)에 휴대용 러그(607)와 휴대용 러그핀(608)에 대형플랜지 접속연결구 접합부위 가공홀(615) 건설기계 연결구조물과 교각(928)과 관교량(937)에 해양터널 교통장치(941)의 내부로 원유시추용 드릴링 머신(908)에 교각(928)과 관교량(937)에 해양 터널 교통장치(941)의 내부로 구성하는 해양터널교통장치 내부전동차(771)는 건설기계 연결구조물과 분해결합으로 지진해일방재 설비가 구성된다,
도 24 내지 도 64에 도시한 바와 같이,본 발명에 따른 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)에 포함하는 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크 선체 갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 부양식독(593,594,595) 분해조립의 수직격벽(605)과 휴대용 러그 결합용 핀 연결축(606)에 휴대용 러그(607)와 휴대용 러그핀(608)에 대형플랜지 접속연결구 접합부위 가공홀(615) 건설기계 연결구조물을 구성하며,상기 해양수력발전소 부양식독(593,594,595)들은 로터리 실린더인 랙＆피니 언 형-(NRP)의 유압회전실린더(620)와 밴드 지그대(621)의 부력조절용 버터플라이밸브(622)와 유압실린더 또는 유압 작키(623)에 유압실린더용 도어(624)로 구비된 지진해일방재용 부양식독장치들로 구성하며 수직격벽(605)과 휴대용 러그 결합용 핀 연결축(606)에 휴대용 러그(607)와 휴대용 러그핀(608)에 대형플랜지 접속연결구 접합부위 가공홀(615) 수력발전설비 건설기계 연결구조물과 분해결합으로 지진해일방재용 부양식독장치가 구성된다,
도 24 내지 도 64에 도시한 바와 같이,종전의 수력발전소 또는 해양 수력발전소(233)의 수차 또는 펌프수차(264)와 메인밸브(265) 수력발전설비 건설기계 연결구조물의 양수식 발전소는 조정지식 또는 저수지식 발전소의 일종으로서 전력수요가 적은 심야 또는 주말의 경부하시에 원자력발전소의 값싼 전력을 이용하여 펌프로 하부 저수지의 물을 상부저수지에 양수해서 저장해 두었다가 첨두 부하시에 이것을 이용하는 발전소이며 이 방식에는, 상부 저수지에 하천으로부터의 자연 유입량이 있고,부족 되는 수량만을 하부 저수지로부터 양수하는 혼합식 양수발전소와, 상부 저수지에는 전혀 자연 유입량이 없이 양수된 수량만으로써 발전하는 순양수식 발전소의 2가지가 있다.
종전의 발전소는 청평(40만[kW]), 삼랑진(60만[kW]), 무주(60만[kW]), 산청(70만[kW ]), 양양(100만[kW])이 있는데 이들은 모두 후자의 순양 수식 발전소이며,
상기와 같이,동 도면에 도시된 바와 같이, 지진해일방재용 부양식독장치본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 수력발전소(233)를 구성하고.상기 수력설비는 유량과 낙차를 이용하는 설비이므로 항상 발전에 필요한 유량을 안전하게 취수하고, 또한 낙차 및 유량의 손실이 가능한 한 적게 되도록 건설되어야 한다. 수력 발전소에서의 수력설비를 그 기능에 따라 분류하면 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q)의 4가지로 크게 나누어지는 수력설비는 유량과 낙차를 이용하는 설비인 반면에 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 수력발전소(233)의 수력설비는,해조류의 유속을 조작하는 이론수력은 수차에의 입력으로 되어 수차, 발전기를 회전하게 되며 입형다단펌프(2)의 배열과 동등한 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q) 수력발전소(233)의 다단입류식 수력발전기(213)장치들로 구비해 유압장치의 시이소 형태와 물레방아 형태의 해양조력발전소에 해양수력발전소가 구성된다.
도 24 내지 도 64에 도시한 바와 같이,종래의 조력 발전 소에 있어서 상기의 조력발전은 바닷물의 간만의 차에 의한 위치 에너지를 전력으로 변환하는 발전소로서 그 설치장소는 가능한 한 간만의 차가 큰 곳이 바람직하다. 곧, 바닷물이 밀물로 밀려 왔을 때 이것을 해안에 건설된 저장 지에 유도해서 저장하고, 썰물로 빠져나갈 때 저장 지로부터 저장한 바닷물을 바다로 낙하시켜서 양수발전의 경우와 마찬가지로 발전기를 구동해서 발전하는 방식이며 조력 발전소의 운전 예로서는 최대 13[m]의 간만차를 이용할 수 있다는 프랑스의 랭스 하구에서의 랭스 조력발전소가 유명하다.
여기서는 최대 13[m], 평균 8.5[m]의 간만차를 이용해서 10,000[kW]ㅧ 24기의 240,000[kW]의 발전을 하고 있다 .이 발전방식의 가장 큰 문제점은 입지조건이며, 바닷물의 간만차가 최대 10[m] 정도 이상의 바다가 있고, 이 해안이 저장 지의 건설에 적합하다는 조건이 충족되어야 한다.
종전의 국내에서도 충남의 가로림 만을 중심으로 한 몇 군데에서 조력발전 계획을 구상중에 있다. 가로림만은 최대 조석차 7.9[m], 조지 면적 120[㎡], 방조제 길이 2.1[㎞], 시설용량 40만[kW]의 발전소를 건설할 수 있는 매우 유리한 후보지로 알려지고 있다.
참고로 [표 2]는 세계 주요지점에서의 평균 조차(간만차)를 나타낸 것이다(여기서는 평균조차 4.6[m ] 이상만 수록하였음).
*[표 2] 세계 주요지점에서의 평균조차

상기와 같이,동 도면에 도시된 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)의 선체위치이동 펌핑 가동장치 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 수력발전소(233)를 구성하고.상기 수력설비는 유량과 낙차를 이용하는 설비이므로 항상 발전에 필요한 유량을 안전하게 취수하고, 또한 낙차 및 유량의 손실이 가능한 한 적게 되도록 건설되어야 한다.
수력 발전소에서의 수력설비를 그 기능에 따라 분류하면 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q)의 4가지로 크게 나누어지는 수력설비는 유량과 낙차를 이용하는 설비이며, 해양수력발전소 부양식독(593, 594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 수력발전소(233)의 수력설비이고,
해조류의 유속을 조작하는 이론수력은 수차에의 입력으로 구비되어 수차, 발전기를 회전하게 되며 입형다단펌프(2)의 배열과 동등한 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q) 수력발전소(233)의 다단입류식 수력발전기(213)장치들로 구비해 유압장치의 시이소 형태와 물레방아 형태의 해양조력발전소에 해양수력발전소가 구성된다.
도 24 내지 도 64에 도시한 바와 같이,종전의 토리첼리의 정리 관계식 건설기계 연결구조물의 국내의 대부분의 수력 발전소가 집중되어 있는 한강수계에서의 각 발전소 위치도 및 종 단도를 정리해서 보인다.
도 24 내지 도 64에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811) 동력을 생산하는 해양수력발전 전력 생산제조장치에 포함하는 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 한강수계에서의 각발전소 위치구성(678p) 건설기계 연결구조물를 구성하고, 종전의 한강수계에서의 각발전소 위치 구성도(678p)를 살펴보면,화천 수력발전소(678q)와 소양강 수력발전소(678r)에 충주 수력발전소(678s)와 춘천 수력발전소(678t)에 의암 수력발전소(678u)와 청평 수력발전소(678v)에 팔당 수력발전소(678w)들이 아래의 표와 같이,소양강(678x)과 남한강(678y) 등지로 분포되어 종전의 수력발전 용량을 갖추면서 동시에 인근의 괴산 수력발전소(678z)에도 수력발전 설비를 갖추어 전력 생산을 구성하는 차별되는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 것과 대조적인 전력 생산을 이루도록 동력을 생산하는 해양수력발전 전력 생산제조장치 들은 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치들로 구성되어있다.

이 관계식을 토리첼리의 정리(Torricelli's theorem)라고 말한다. 실제는 물의 점성, 분출공에서의 마찰손실이 있기 때문에 실제의 분출속도 υ ₂'는 υ ₂보다 약간 작아져서 표시되어있다.
종전의 수문(293)은 데인터 게이트(293a)에 롤링 게이트(293b)가 사용되어있고 이에 따라 강철제의 원통형 게이트를 댐의 정상에 설치하고 이 원통을 회전시키면서 수문(293)을 개폐하는 것이며 이것은 구조가 견고하여 유수 등의 충격에도 견딜 수 있으므로 취수댐(680)에 많이 사용되고 있다.
도 24 내지 도 64에 도시한 바와 같이,종전의 수압관로의 설치되는 데에는 일반적으로 상수조 또는 조압수조로부터 발전소의 수차입구에 이르기까지의 도수관(191)을 수압관(191)이라고 부르며, 이 수압관(191)을 지지하기 위한 공작물과 그 이외의 반면을 총칭해서 수압관로라고 하며 수압관(191)의 위치는 상수조(680m)와 발전소와의 위치에 따라 가능한 한 최단거리의 직선을 택하여야 하며 수압관의 지름은 건설비나 손실 수두를 고려하여 관내 유속이 3∼5[m/s] 정도가 되게끔 정하고 있다. 그 밖에 수압관(191) 수는 수차 1대에 1관이 기본이지만 고 낙차의 수량이 적을 경우에는 수차 2대에 1관으로 하는 경우도 있다.
수압관(191)에는 정수두,서징수두,수격작용에 의한 압력이 내압으로서 작용하므로 관의 두께 t [cm]는 그 부분에 걸리는 최대수압에도 충분히 견딜 수 있는 크기로 결정해 주어야 하고 수압관의 지름을 D[cm], 최대수압을 P[kg/㎠], 강철재료의 허용 응력도 (응 장력)을 σ[ kg/㎠], 관의 접합효율을 η[％], 부식에 대한 여유 두께를 ε[cm]라고 하면 관의 두께 t [cm]는 다음 식으로 계산된다.

다음 수차 이후에는 방수로가 사용된다.
이것은 수차로부터 나오는 물을 원래의 하천에 방류하기 위한 수로로서 이것과 하천의 본류가 합류되는 곳을 방수구(169)라고 한다.
방수로의 구조는 앞에서 설명한 수로의 그것과 대체로 같지만 하천의 흐름에 원활하게끔 가능한 한 수심이 깊은 장소를 선정하고 또한 하천의 흐름과 같은 방향으로 방류시키도록 하여야 한다는 것이었다.
같이, 수력 발전의 원리에 대하여 수력 일반을 다음과 같이 설명한다.
현재 지구상에 보유되어 있는 에너지자원 중 석탄과 석유 기타의 지하자원에 의한 열에너지는 장차 자원이 고갈될 운명에 있고, 최근 원자력발전의 개발에 크게 기대되고 있으나, 물 에너지는 우주가 존재하는 한 무한 이라고 생각할 수 있다.
우리나라에서도 최근 큰 댐을 건설하여 인공적인 저수지를 만들어 홍수의 조절과 발전 ,관개에 많은 노력을 하고 있고 또한 물은 압력, 위치의 에너지를 갖추고 있으며, 자연계에서는 위치에너지의 형태로서 보유되는 경우가 많다. 이 위치 에너지를 운동 에너지 및 압력 에너지로, 또는 운동 에너지만으로 변화시켜 수차에 작용시키므로 기계적 에너지로 변화시킬 수 있다.
물의 발생동력 P kgㅇm/sec은 낙차를 Hm, 유량을 Q ㎥/sec, 물의 비 중량을 r kg/㎥ 라고 하면 (P = rHQ kgㅇm/sec) 이므로 수력동력은 낙차와 유량에 따라서 결정되며 낙차는 하천이나 수원지의 상태가 결정되면 대체로 일정하고, 유량은 유역과 강우량에 관계된다는 것이었고 여기서 발생하는 출력은 낙차와 수량과의 곱에 비례하므로 우선 발전소 상부의 포장수력에 좌우되며 이때의 출력을 늘리기 위해서는 이들의 물을 1개소에 집중하도록 인공적으로 유수를 바꾸고, 또 큰 낙차를 얻을 수 있는 발전지점을 선정하여야 한다는 것이었으며 지금 사용수량 Q[㎥/s]의 물이 유효낙차 H[m]를 낙하해서 수차에 유입될 경우 수차에 주는 동력 P _o[kW]는
(P _o = 9.8QH[kW]) 로 되는데 보통 이것을 이론수력이라고 부른다.
이론수력은 수차에의 입력으로 되어 수차, 발전기를 회전하게 되며 수차출력 P _t 및 발전기 출력 P _g는 각각 수차효율을 η _t, 발전기효율을 η _g라고 할 때, ( P _t = 9.8QHη _t [kW])(P _g = 9.8QH η _t η _g [kW])로 표시된다.
상기와 같이,동 도면에 도시된 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 지진해일피해방지장치(811)에 포함하는 선체위치이동 펌핑 가동장치의 해양발전소 몸체 도크선체갑판 상단부(SDU)에 구성하는 해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 수력발전소(233)를 구성하고,
상기 수력설비는 유량과 낙차를 이용하는 설비이므로 항상 발전에 필요한 유량을 안전하게 취수하고, 또한 낙차 및 유량의 손실이 가능한 한 적게 되도록 건설되어야 한다.
수력 발전소에서의 수력설비를 그 기능에 따라 분류하면 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q)의 4가지로 크게 나누어지는 수력설비는 유량과 낙차를 이용하는 설비이며,
해양수력발전소 부양식독(593,594,595)의 선체위치 이동조절의 건설기계 위치조절 구성을 보여주는 수력발전소(233)의 수력설비는,
해조류의 유속을 조작하는 이론수력은 수차에의 입력으로 되어 수차, 발전기를 회전하게 되며 입형다단펌프(2)의 배열과 동등한 취수설비(680n)에 도수설비(680o)와 발전설비(680p) 및 방수설비(680q) 수력발전소(233)의 다단입류식 수력발전기(213)장치들로 구성된다.
상기 댐은 홍수기에 홍수조절을 통해 물로 인한 재해를 막고, 가뭄 기는 물을 안정적으로 방류하여 생활용수와 농업용수, 하천유지용수를 공급하며,다목적댐과 동등한 해양터널교통장치(941)에 해양수력 발전댐 건설기계의 분배투입장치를 주입하여 항해선박이 거센 풍랑 파도에 선박의 침몰을 방지할 목적에 대피소를 일정한 거리로 항로에 형성하는 계안계류장치의 대피 시설을 해수면 상단부로 노출하면서 동시에 남지나 해상큐루시오 조류의 유속을 이용하는 수력발전기로 수력전기를 생산해 청정한 동력자원을 지진해일방재용 부양식독장치 본체(1) 내부로 구성된 산 정상과 하부에 위치하는 원형조립식 물탱크(292)와 원형댐(680) 내부에 위치하는 지진해일방재용 부양식독장치설비의 공급이 제공되게 한다.
이처럼, 댐은 주요한 사회간접자본 시설임에도 불구하고 최근에는 댐적지의 감소, 환경에 대한 관심증가, 수몰지역발생과 재산권행사 지장으로 인한 반발 등 여러가지 이유로 댐건설을 둘러싼 사회적 여건이 매우 곤란한 상황에 직면해 있으므로 이러한 현 시점에서 댐 건설 필요성에 대한 진단과 더불어 효율적인 물관리 공정에 대해 진지하게 재검토해 볼 필요성이 부각된다.
상기 지진해일방재용 부양식독장치 본체(1) 내부로 형성된 산정상에 위치하는 원형 조립식 물탱크(292)와 원형 댐(680) 내부에 저장하는 자연수와 방제 수에 방재수의 황토혼합물 방재물질들을 포함하는 물탱크(292)와 원형 댐(680)들은 지진해일방재 극복을 위해 다수개의 건설기계를 구비해 지진해일을 조절하는 설치 공정들로 구비해 무동력펌프(393)와, 수조탱크에 전자센서밸브와 관제시스템의 무인카메라(184) 일체로 구성하는 장비들로 지진해일방재용 부양식독장치 본체(1)의 내부로 구성하는 지진해일방재공정이 이루어지는 지진해일방재설비가 구성되어있다.
전국토 65％ 산악지형에 따른 산정상의 하부 각부능선에 위치하는 각개의 원형 댐(680)을 배분하고 상기 댐에 연결되는 복수개의 방재수로(17)들로 구비해 홍수기에 대비하여 집중 호우인 빗물과 황토 혼합물을 각 해안 바닷가의 방제수 저장탱크와 방제댐에 저장을 갖추면서 동시에 유해적조 발생주의보가 발령되면 상기 저장탱크와 방제댐에 저장된 황토혼합물을 밸브(409)를 개방하여 방제수를 대량으로 방출하여 유해적조발생을 차단하는 장치들로 구비해 지진해일방재설비용 물 저장탱크와 해양터널교통장치에 해양수력 발전댐 건설기계의 지진해일방재용 부양식독장치 본체(1) 내부로 지진해일피해방지장치(811)로 연결 구성되게 한다.
부수적으로 여러 지역 수력발전소(233)에 위치하는 수력발전기(213)로 전기를 생산해서 먼저, 3부 능선의 취수 댐(680)의 물을 양수할 수 있는 취수장의 동력펌프(304)에 전기를 공급하여 5부 능선의 취수 댐(680)에 양수하고 5부 능선의 취수댐(680)에서는 재차 8부 능선의 취수댐으로 동력펌프를 구비해 물을 양수하고 8부 능선의 취수 댐에서는 반복하여 산정상 취수댐(680)에 물을 양수하여 물순환을 구성하여 쓰나미방재설비용 물 저장탱크와 해양터널 교통장치에 해양수력 발전 댐 건설기계와 연결구성하는 재해예방을 구성되게 한다.
상기 다수개의 수해 극복을 위해 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)에는 해안가에 위치하는 물탱크(292)와 방제댐(680)에 저장된 황토혼합물에는 점도 5％ 수준의 우뭇가사리(934)를 끊인 후 믹서(73)로 혼합 후 바지선(933)에 싣고서 해양에 살포함으로 인해 유해적조 대번식을 차단하도록 우뭇가사리(934)를 접착제로 구비되어 상기 물탱크(292)와 방제 댐(680) 내부로 계절 온도변화에 대응하여 냉각장치(816)와 보온장치(815) 시설들로 구성된 다수개의 지진해일 극복을 위해 지진해일방재용 부양식독장치 본체(1) 내부로 구성될 수 있다.
상기 다수개의 지진해일 극복을 위해 지진해일방재용 부양식독장치 본체(1) 내부로 형성하는 건설댐(680)과 수로(294)의 건설 공사 전에는 댐(680)과 수로(294)의 현지 설정위치에 따른 환경영향평가 타당성 평가 조사 후 설계는 측량기구로 설계를 마감 후 건설댐(680)의 재료가 되는 철근과 모래에 자갈 세멘트 재료 산출을 마련하고 건설댐(680)과는 별도의 돌과 흙을 사용하는 자연댐, 수로공사를 선택할 수 있는 점을 파악하여 이에 준하는 댐공사장 인근에 건설기계와 케이블카아(256)에 벌목기계들로 구성된 다수개의 지진해일 극복을 위해 지진해일방재용 부양식독장치 본체(1) 내부로 구성될 수 있다.
상기 다수개의 수해 극복을 하기 위해 수해의 건설기계를 구비한 장비들을 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 냉각장치(816)에 마련하는 냉각수와 수질정화용 해양 지하의 심층수를 공급할 수 있도록 하기 위해 바지선(933) 갑판데크 상단으로 건설기계 항타와 항발기(877)에 파일드라이버(882)와 디젤 파일 해머(883)에 증기 해머(884)와 원유시추용 드릴링 머신(908)을 탑재하여 강 하류와 해양으로 다수개의 심층수 시추공(936)을 굴착하여 상기 시추공(936)으로 양수장의 펌프로 배관과 호스를 구비하여 심층수를 바닷물과 함께 양식장의 수조 탱크에 공급하는 연결구조물들로 구성하는 다수개의 지진해일 극복을 하기 위해 황사방재용 물 저장탱크와 해양터널 교통장치에 해양수력 발전댐 건설기계는 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유해적조와 폭염으로 인해 가두리양식장의 수온이 상승하기 전에 어패류의 떼죽음을 면하도록 어패류를 바지선(933)으로 옮겨싣어 냉각장치(816) 시설을 갖춘 양식장으로 이동시키는 장비들로 포함하여 구성하고;
지진해일피해방지장치(811)에는 선체위치이동 펌핑 가동장치와 해양수력발전 전력생산조절장치에 건설기계의 교통운송장치와 동력전달조절장치와 유해적조차단 예방조절의 재해차단장치에 설비안전 통제 관리 전장장치와 전자제어조절장치 건설기계조절장치에 댐의 전자제어조절장치 나사조절장치장치와 부양식독 선체 계류장치들로 분리 구성하는 여건의 조성이 절실히 필요하다.The hydraulic power facility of the hydroelectric power plant 233, the theoretical hydraulic power for manipulating the flow rate of seaweed is input to the water wheel to rotate the water wheel and the generator, and the water intake facility 680n equivalent to the arrangement of the vertical multi-stage pump 2 (680o), power generation facility (680p), waterproof facility (680q), multi-stage inflow hydroelectric generator (213) devices of hydroelectric power plant (233), seesaw type of hydraulic device and waterwheel type offshore tidal power plant The power plant is constructed.
In the type of the conventional sluice gate 293, it is installed on the upper part of the fixed dam and closed when the water runs low to increase the water level on the upstream side to facilitate water intake. At the same time, it has the function of discharging the sediment deposited on the upstream side of the dam, and there are several types of sluice gates as follows. In general, it has a structure to open and close a rectangular door by manipulating it up and down, and a roller gate is used. And the vertical operation of the sluice gate 293 is usually using a wire rope and a batted winch 137,
The sluice gate 293 controls the design water level 293c with the data gate 293a and the rolling gate 293b and at the same time adjusts the water level 293d. The anchor part fixing part 293e and the fixing part 293f are provided. do.
As described above, an offshore power plant body dock hull of an offshore hydroelectric power generation and manufacturing device that produces power included in the tsunami damage prevention device 811 configured in the main body 1 with the tsunami reading devices for tsunami disaster prevention. Adjustment knowledge power plant in the conceptual diagram (678c) and the reservoir type power plant conceptual diagram (678d) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydroelectric power plant floating dock (593,594,595) configured on the upper deck (SDU) Offshore hydraulic power that produces power for the tsunami damage prevention device 811 composed inside the main body 1 with the tsunami disaster prevention floating reading devices of the hydroelectric power generation facility construction machine connection structure in the conceptual diagram (678e) of The offshore hydroelectric power plant floating docks (593,594,595) provided as power generation power production and manufacturing devices are,
A hydraulic cylinder door ( 624) and tsunami disaster prevention buoyancy reading devices, and a portable lug 607 and a portable lug pin 608 to a vertical bulkhead 605 and a portable lug pin connection shaft 606 for a large flange connection connector. The pier 928 and the pipe to the drilling machine 908 for oil drilling composed of the joint processing hole 615, the construction machine connection structure, the pier 928 and the pipe bridge 937, and the interior of the marine tunnel transportation device 941 An internal train 771 constituting the marine tunnel transportation system is formed in the bridge 937 as the interior of the marine tunnel transportation system 941 .
When the water damage control facility is configured by disassembling and combining the construction machine connection structure and at the same time, when the hydraulic facilities in the hydroelectric power plant are classified according to their functions, the water intake facility (680n) includes the water supply facility (680o), the power generation facility (680p), and the waterproof facility (680q). ), the hydraulic power facilities are largely divided into four
The hydraulic facility of the hydroelectric power plant 233 showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydroelectric power plant floating dock (593,594,595), the theoretical hydraulic power that manipulates the flow rate of seaweed is an input to the water wheel and rotates the water wheel generator The water supply facility (680o), the power generation facility (680p) and the waterproofing facility (680q) in the water intake facility (680n) equivalent to the arrangement of the vertical multistage pump (2), the multi-stage inflow type hydroelectric generator (213) device of the hydroelectric power plant (233) The offshore hydroelectric power plant is composed of an offshore tidal power plant in the form of a seesaw of a hydraulic system and a water wheel.
Offshore hydroelectric power plant floating dock (593,594,595) comprised in the upper part (SDU) of the dock hull deck of the marine power plant included in the tsunami damage prevention device 811 composed of the main body (1) as a tsunami disaster prevention device. It is provided based on the theoretical physics method of the Bernoulli theorem method of the connection structure showing the configuration of the sluice winch 137 and the sluice gate 293 for the sluice gate opening/closing control device with a rope or chain wound around the fuselage of the hull position movement control. Hydrodynamics are included in the physical properties of water and hydrodynamics in the hydrodynamics of the technical level of the present invention, thereby simplifying the installation conditions of the offshore power plant of the present invention.
In terms of the physical properties of water, the density of water is maximized at 4[℃] under atmospheric pressure, and although it changes slightly with temperature, the change is very small, so it is usually okay to treat it as having a constant weight in hydrodynamic calculations. That is, the weight of water is described as 1 [g/cm 3 ] or 1 [t/m 2 ], and when pressure is applied to water, it is an extremely small value, but the volume decreases. However, the rate of change of its volume, that is, the compressibility of water, is so small that it is only about 5 × 10-5 for a change of 1 atm at room temperature and normal pressure, so there is no problem even if it is considered that ordinary water is incompressible.
If there is a difference in flow velocity inside the moving liquid, a force to resist the relative motion is generated. This property is called viscosity or internal friction, and the degree is expressed by the viscosity coefficient. do. The volume of this water column is AH [m3], and if the weight per unit volume of water is ω [kg/cm3], then the total weight of this water column is ωAH [kg]. Therefore, the water column is in equilibrium by being supported by the water force ω [kg] acting from the bottom upwards.
That is, since W = ωAH [kg], the average force p [kg/T㎡

becomes
24 to 64, the p is called the intensity or pressure intensity of the pressure at the depth H [m], and the water pressure P acting on the whole is called the voltage force or total pressure, and it is distinguished from this. and at this time

is called the pressure head, and [kg/cm2] or [kg/m2] is used as the unit of pressure.
In hydrodynamics, the law of motion of a fluid (water) is treated, and when the motion of a fluid is largely divided, it becomes a flow, a vortex, and a wave. It becomes a state of confusion and becomes a flowing turbulence. The flow of fluid used in hydroelectric power plants is generally turbulent, and the amount of water Q [m3] flowing through a pipeline or waterway is generally expressed as the product of the cross-sectional area A [m2] of the running water and the average flow velocity υ [m/s].
( Q = Aㅇυ [㎥]) Equation ②
In running water surrounded by solids such as pipelines, the cross-sectional area at two points a and b is A ₁ [m2], A ₂ [m2], respectively. If the average flow velocity is υ ₁ [m/s], υ ₂ [m/s] , the amount of water flowing in from point a is A ₁ B ₂ [m3/s], and the amount of water flowing out from point b is A ₂ υ ₂ [m3/s] per unit time.

from

becomes
Considering that water flowing at a velocity υ has a head corresponding to the height of the ideal H , this H (= υ ² /2 g ) is called the velocity head. A very small hole in the side of , this relation is called Torricelli's theorem. In reality, because of the viscosity of water and friction loss in the jet hole, the actual jet speed υ ₂ ' is slightly smaller than υ ₂ and is expressed as the following formula, that is, the speed υ ₂ of water jetting from the orifice ② is the Bernoulli's theorem.

Since the cross-sectional area of the tank is much larger than the cross _- sectional area _of the outlet , υ ₁ is ignored .

from

get
As described above, offshore hydroelectric power generation and manufacturing device for generating power of the tsunami damage prevention device 811 composed of the main body (1) of the tsunami disaster prevention device body (1) The upper end of the dock hull deck of the offshore power plant (SDU) A conceptual diagram (678c) of an inflow type power plant showing the construction machine position adjustment configuration of the hull position movement control of the floating docking dock (593, 594,595) of the offshore hydroelectric power plant, and the conceptual diagram (678d) of the reservoir type power plant. 678e), the offshore hydroelectric power plant floatation dock (593, 594,595) provided as an offshore hydroelectric power generation and manufacturing device for generating power to be composed inside the main body (1) of the tsunami disaster prevention device for the connection structure of the hydroelectric power plant construction machine ) is a rotary cylinder of a rack & pinion type-(NRP) hydraulic rotary cylinder 620 and band jig 621 for buoyancy control butterfly valve 622 and hydraulic cylinder or hydraulic jackkey 623 for hydraulic cylinder A large flange on the vertical bulkhead 605 and the portable lug coupling pin connection shaft 606 composed of the tsunami disaster prevention buoyancy reading devices provided with the door 624 and the portable lug 607 and the portable lug pin 608 Connection connector joint processing hole (615) Construction machine connection structure and pier (928) and pier (928) on the drilling machine for oil drilling consisting of the interior of the marine tunnel transportation device (941) on the pier (928) and the pipe bridge (937) The marine tunnel transportation device internal train 771 into the marine tunnel transportation device 941 on the bridge 937 and the marine tunnel transportation device 941,
When the water damage control facility is configured by disassembling and combining the construction machine connection structure and at the same time, when the hydraulic facilities in the hydroelectric power plant are classified according to their functions, the water intake facility (680n) includes the water supply facility (680o), the power generation facility (680p), and the waterproof facility (680q). ), the hydraulic facilities are those that use the flow rate and the drop, and the hydraulic facilities of the hydroelectric power plant 233,
The theoretical hydraulic power for manipulating the flow rate of seaweed is input to the water wheel to rotate the water wheel and the generator. The waterproofing facility 680q is provided with the multi-stage inflow hydroelectric generator 213 devices of the hydroelectric power plant 233, and the marine hydro power plant is configured in the seesaw type of the hydraulic device and the waterwheel type of the marine tidal power plant.
24 to 64, the potential energy of water (679l), the kinetic energy of water (679m), the mechanical energy (679n), the electrical energy (679o), the theoretical hydraulic power (679p), the aberration output (679q), the generator The output (679r) is provided with a schematic diagram (679s) of hydroelectric power.
( η _t ) and ( η _g ) vary slightly depending on the water wheel, each type of generator, capacity, load size, etc., but during rated operation η _t = 80 ~ 90[%], η _g = 90 ~ 97[% ], and the product η = η _t η _g of these two is called the overall efficiency. As can be seen from the above equation, in order to use hydraulic power effectively, the problem is how to obtain a large drop ( H ) and economically obtain the amount of water used ( Q ). When the downstream part of the river is used, the amount of water used can be large, but the drop is smaller instead.
[Table 1] Schematic values of aberration and generator efficiency

In the types and facilities of hydroelectric power plants, hydroelectric power plants are classified into various types according to water intake and operation methods. First, in classification by water intake method, a dam-type power plant and a watershed-type power plant are formed in a dam-type power plant and a water-channel-type power plant, and the dam-type power plant builds a dam that crosses a river to block the flow of water, and uses the fall resulting from this. In order to achieve a large drop in this type, a fairly high dam must be built and the burial area is large, so it cannot be called an economical method. This dam type is the most useful in Korea's situation, and the construction of this type of dam is very important in the future.
Dams constructed for the purpose of power generation, irrigation, and flood control are called multi-purpose dams. In addition, when using a dam type, significant drop fluctuations are often unavoidable due to the imbalance between rainfall and water used.
As the amount of water stored in the dam is abundant, it is economically advantageous and desirable in terms of operation. Cheongpyeong, Paldang, Soyanggang power plants, etc.)
As described above, offshore hydroelectric power generation power production and manufacturing unit that produces power to constitute the inside of the body (1) of the floating fish tank for earthquake and tsunami disaster prevention offshore power plant floating dock (SDU) configured in the upper part (SDU) of the body dock hull deck (SDU) 593,594,595) of the hydraulic power plant construction machine connection structure of the conceptual diagram (678e) of the control knowledge power plant in the conceptual diagram (678c) and the reservoir type power plant conceptual diagram (678d) showing the construction machine position adjustment configuration of the hull position movement control of 593,594,595) The offshore hydroelectric power plant floatation dock (593,594,595) equipped with an offshore hydroelectric power generation and manufacturing device that produces power to produce the power of the tsunami damage prevention device 811 composed of the main body (1) of the tsunami disaster prevention device ) heard,
A hydraulic cylinder door ( 624) and a large flange connection to the portable lug 607 and the portable lug pin 608 to the vertical bulkhead 605 and the portable lug coupling pin connection shaft 606 provided with distribution and input devices of the band jig stand 621 Connector joint processing hole 615 Construction machine connection structure, pier 928 and pipe bridge 937, to the inside of the marine tunnel transportation device 941, to the drilling machine 908 for oil drilling, pier 928 and pipe bridge At 937, the interior of the marine tunnel transportation device 941 is configured, and a train 771 is formed inside the marine tunnel transportation device.
When the tsunami disaster prevention facility is constructed by disassembling and combining with the construction machinery connection structure, and at the same time, when the hydraulic facilities in the hydroelectric power plant are classified according to their functions, the water intake facility (680n) is equipped with a water supply facility (680o), a power generation facility (680p) and waterproofing. The hydro power facility, which is largely divided into four types of facility (680q), is a facility that uses flow rate and drop, and the hydraulic facility of the hydro power plant (233) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) to be.
On the other hand, the theoretical hydraulic power for manipulating the flow rate of seaweed is input to the water wheel to rotate the water wheel and generator, and the water intake facility (680n) equal to the arrangement of the vertical multi-stage pump (2) has a water supply facility (680o) and a power generation facility (680p). ) and a waterproofing facility (680q) and a multi-stage inflow hydroelectric generator (213) devices of the hydroelectric power plant (233), the marine hydroelectric power plant is configured in the seesaw type of the hydraulic system and the waterwheel type of the marine tidal power plant.
As shown in Figures 24 to 64, the outline (679s) of the conventional hydroelectric power generation is a conceptual diagram (679t) of a dam-type power plant of a construction machine connection structure and a water intake tower (679v) and a ball tap valve (679w) on the screen (679u) The inlet valve (679x) and the main device (679y) are equipped with main transformers (679z) to constitute a hydroelectric power generation facility.
When classified according to their function, hydroelectric facilities, which are largely divided into four types of water intake facilities (680n), water supply facilities (680o), power generation facilities (680p), and waterproof facilities (680q), are facilities using flow rate and drop, whereas offshore hydraulic power The hydraulic facility of the hydroelectric power plant 233 showing the construction machine position adjustment configuration of the hull position movement control of the power plant floating dock (593,594,595) is,
The theoretical hydraulic power for manipulating the flow rate of seaweed is input to the water wheel to rotate the water wheel and the generator. The waterproofing facility 680q is provided with the multi-stage inflow hydroelectric generator 213 devices of the hydroelectric power plant 233, and the marine hydro power plant is configured in the seesaw type of the hydraulic device and the waterwheel type of the marine tidal power plant.
24 to 64, the water-type power plant of the conceptual diagram 679t of the conventional dam-type power plant is a river 678 by constructing a dam in the main stream of the river 678 to separately create a small gradient channel or pressure channel. It is mainly used to obtain a medium or high drop by a waterway of a considerable distance using a steep slope or curved topography of Alternatively, it flows in the order of the pressure water tank (680j), the sluice gate (293), the water pressure pipe (191), the water wheel (264), and the waterproofing waterway (678b), and the water is stopped once by making the sedimentation pond (680k) close to the water intake port (678g). , remove sediments such as soil, sand, and vegetation to allow only clear water to enter the canal. In the chim-myeon of the silt (680k), the sedimentary soil and sand are discharged from time to time by making a drainage path.
As described above, offshore hydroelectric power generation and manufacturing device for generating power of the tsunami damage prevention device 811 composed of the main body (1) of the tsunami reading device body (1) for earthquake and tsunami disaster prevention Offshore power plant body dock hull deck upper end (SDU) A conceptual diagram (678c) of an inflow type power plant showing the construction machine position adjustment configuration of the hull position movement control of the floating docking dock (593, 594,595) of the offshore hydroelectric power plant, and the conceptual diagram (678d) of the reservoir type power plant. 678e) Offshore hydro power generation power generation and manufacturing device that produces power for the tsunami damage prevention device 811 that is configured in the body 1 The offshore hydroelectric power plant floating docks (593,594, 595) equipped with
A hydraulic cylinder door ( 624) equipped with buoyancy reading devices for tsunami disaster prevention, a large flange connection connector to a portable lug 607 and a portable lug pin 608 to the vertical bulkhead 605 and the portable lug coupling pin connection shaft 606 Joint processing hole 615, construction machine connection structure, pier 928 and pipe bridge 937, to the inside of the marine tunnel transportation device 941, to the drilling machine 908 for oil drilling, pier 928 and pipe bridge ( 937), the marine tunnel transportation device internal train 771 constituted as the interior of the marine tunnel transportation device 941 is provided by disassembling and combining the construction machinery connection structure to constitute a tsunami disaster prevention facility.
If the hydro power facilities in the hydro power plant are classified according to their functions, the hydro power facilities, which are largely divided into four types: the water intake facility 680n, the water supply facility 680o, the power generation facility 680p, and the waterproof facility 680q. The hydraulic facility of the hydro power plant 233, which is a facility used and shows the construction machine position adjustment configuration of the hull position movement control of the floating dock (593, 594,595) of the offshore hydro power plant,
It is composed of theoretical hydraulic power manipulating the flow rate of seaweed and input to the water wheel to rotate the water wheel and the generator. and a waterproofing facility (680q) and a multi-stage inflow type hydroelectric generator (213) devices of the hydroelectric power plant (233).
24 to 64, the conceptual diagram 678c of the conventional flow-in power plant and the conceptual diagram 678d of the reservoir type power plant have the reservoir Because there is no (680a) or the adjustment area (680a), the flow rate above the maximum used water is not used for power generation and is discharged ineffective.
The waterway is cleared according to the topography, and this method does not require a large construction cost, but instead, the generated power varies according to the natural flow, and since this natural flow also fluctuates according to the season, it is possible to smoothly supply power in response to the load change. There is a drawback that there is no power plant of this type in Korea, but in rivers with abundant water such as Siberia or Brazil in Russia, an inflow power plant that uses natural flow as it is for power generation is constructed and operated. As a power plant with a large-capacity reservoir that can adjust changes, it is a power plant that stores water remaining during the feng shui season and discharges it during the dry season to effectively use the river flow over a long period of time (usually one year).
Since the water flow in Korea is relatively small, reservoir-type power plants are rare. Among them, the Soyanggang Power Plant on the Bukhan River and the Chungju Power Plant on the Namhan River have built a multi-purpose dam to form a reservoir type power plant. In terms of effective water storage, Soyanggang Dam is about 1.9 billion [t] and Chungju Dam is about 1.8 billion [t]. It is possible to respond to load fluctuations over hours or days by storing or discharging the difference between the amount of water withdrawn from the river and the amount required for power generation by installing a regulating pond in the irrigation pond. This method is different from the inflow-type power plant 678c and has the advantage that the maximum water quantity of the power plant can be designed to be considerably larger than the water intake amount of the river. They also often share peak loads, and in such cases they are specifically referred to as peak (peak) power plants.
24 to 64, the hull position movement pumping device included in the tsunami damage prevention device 811 configured inside the main body 1 of the tsunami reading device for tsunami disaster prevention according to the present invention,
Offshore tunnel transportation device ( 941) to the inside of the marine tunnel transportation device, constituting the construction machinery connection structure included in the internal train 771; The cylinder 620 and the buoyancy control butterfly valve 622 of the band jig 621 and the hydraulic cylinder or hydraulic jack key 623 are equipped with a door 624 for a hydraulic cylinder. And the vertical bulkhead 605 and the portable lug coupling pin connection shaft 606 to the portable lug 607 and the portable lug pin 608 to the large flange connection connector joint processing hole 615 Construction machine connection structure and pier 928 ) and the pipe bridge 937 to the inside of the marine tunnel transportation device 941, the drilling machine 908 for oil drilling, the pier 928 to the pier 928 and the pipe bridge 937 to the interior of the marine tunnel transportation device 941 The internal train 771 of the marine tunnel transportation system is composed of a tsunami disaster prevention facility by disassembling and combining the construction machinery connection structure,
24 to 64, the hull position movement pumping operation device included in the tsunami damage prevention device 811 configured in the tsunami damage prevention device 811 inside the body 1 The vertical bulkhead 605 and the portable lug coupling pin of the floating dock (593,594,595) disassembly and assembly showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part of the dock hull deck (SDU) A portable lug 607 on the connecting shaft 606 and a large flange connection connector junction part processing hole 615 on the portable lug pin 608 constitute a construction machine connection structure, and the offshore hydro power plant floatation dock (593,594,595) is a rotary cylinder In-rack & pinion type-(NRP) hydraulic rotary cylinder 620 and band jig 621 for buoyancy control butterfly valve 622 and hydraulic cylinder or hydraulic jack key 623 for hydraulic cylinder door (624) It is composed of floating reading devices for tsunami disaster prevention equipped with a vertical bulkhead 605 and a portable lug pin connection shaft 606 for a portable lug 607 and a portable lug pin 608 to a large flange connection connector. The processing hole (615) hydroelectric power generation facility construction machine connection structure and the disassembly and combination of the tsunami disaster prevention buoyancy reading device is composed,
24 to 64, the water wheel or pump water wheel 264 and the main valve 265 of the conventional hydro power plant or offshore hydro power plant 233, the pumped-type power plant of the hydroelectric power plant construction machine connection structure is an adjustment knowledge or As a type of reservoir type power plant, it is a power plant that pumps water from the lower reservoir to the upper reservoir with a pump using the cheap power of the nuclear power plant during light load at night or on weekends when power demand is low, and uses it at peak load. , There are two types of power plants: a mixed pumped power plant that has a natural inflow from the river in the upper reservoir and pumps only the insufficient amount from the lower reservoir, and a pure pumped power plant that generates power only with pumped water without any natural inflow in the upper reservoir. .
The previous power plants were Cheongpyeong (400,000 [kW]), Samrangjin (600,000 [kW]), Muju (600,000 [kW]), Sancheong (700,000 [kW]), and Yangyang (1 million [kW]). These are all cruiser modified power plants of the latter,
As described above, as shown in the same figure, the hull position movement of the tsunami damage prevention device 811 constituted in the tsunami disaster prevention device body (1) inside the hull position movement pumping operation device offshore power plant body dock hull deck upper end ( The hydro power plant 233 showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) constituting the SDU) is configured. It should be constructed so that it can safely take in the flow, and that the drop and loss of the flow are as small as possible. If the hydro power facilities in the hydro power plant are classified according to their functions, the hydro power facilities, which are largely divided into four types: the water intake facility 680n, the water supply facility 680o, the power generation facility 680p, and the waterproof facility 680q. On the other hand, the hydraulic facility of the hydroelectric power plant 233 showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595), the theoretical hydraulic power that manipulates the flow rate of seaweed is an input to the water wheel. The water wheel and the generator are rotated, and the water intake facility (680n) equivalent to the arrangement of the vertical multi-stage pump (2) has a water supply facility (680o), a power generation facility (680p), and a waterproof facility (680q). An offshore hydro power plant is configured in an offshore tidal power plant in the form of a seesaw of a hydraulic device and a water wheel provided with hydroelectric generators 213 devices.
As shown in FIGS. 24 to 64, in the conventional tidal power plant, the tidal power generation is a power plant that converts potential energy due to the tidal difference of seawater into electric power, and the installation site is a place where the tidal difference is as large as possible. This is preferable. In other words, when seawater is pushed into the high tide, it is stored in a reservoir built on the shore, and when it goes out at low tide, the stored seawater is dropped into the sea to generate electricity by driving a generator as in the case of pumped water power generation. The Reims tidal power plant in the mouth of Reims, France is famous, as an example of the operation of a tidal power plant that can use a tidal difference of up to 13 [m].
Here, 10,000 [kW] Ⅷ 24 units of 240,000 [kW] are generated using the maximum tidal difference of 13 [m] and average 8.5 [m]. The biggest problem with this power generation method is location conditions, There is an ocean with a maximum tidal difference of 10 [m] or more, and the condition that this coast is suitable for the construction of a storage site must be satisfied.
Even in the former country, tidal power generation plans are being conceived in several places centering on Garorim Bay in Chungcheongnam-do. Garorim Bay is known as a very advantageous candidate site for the construction of a power plant with a maximum tidal difference of 7.9 [m], an area of 120 [m2], a length of a seawall of 2.1 [km], and a facility capacity of 400,000 [kW].
For reference, [Table 2] shows the average even (tidal difference) at major points in the world (here, only averages of 4.6[m] or higher are listed).
*[Table 2] Even averages at major points in the world

As described above, as shown in the drawing, the hull position movement of the tsunami damage prevention device 811 composed of the body 1 of the tsunami disaster prevention device body 1 inside the hull position movement pumping operation device offshore power plant body dock hull deck upper end ( The hydro power plant 233 showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) constituting the SDU) is configured. It should be constructed so that it can safely take in the flow, and that the drop and loss of the flow are as small as possible.
If the hydro power facilities in the hydro power plant are classified according to their functions, the hydro power facilities, which are largely divided into four types: the water intake facility 680n, the water supply facility 680o, the power generation facility 680p, and the waterproof facility 680q. It is a facility used, and it is a hydraulic facility of the hydroelectric power plant 233 showing the construction machine position adjustment configuration of the hull position movement control of the floating dock (593, 594,595) of the offshore hydro power plant,
The theoretical hydraulic power for manipulating the flow rate of seaweed is provided as an input to the water wheel to rotate the water wheel and the generator. and a waterproofing facility (680q) and a multi-stage inflow type hydroelectric generator (213) devices of the hydroelectric power plant (233).
As shown in FIGS. 24 to 64, the location and longitudinal views of each power plant in the Han River water system, where most of the domestic hydroelectric power plants of the construction machine connection structure of the previous Torricelli's theorem are concentrated, are summarized.
24 to 64, an offshore power plant included in a tsunami damage prevention device 811 that produces power in the tsunami damage prevention device 811 configured in the body 1 Each power plant in the Han River water system showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) composed on the upper part of the body dock hull deck (SDU) (678p) Configure the construction machinery connection structure, Looking at the previous location diagrams (678p) of each power plant in the Han River water system, the Hwacheon hydroelectric power plant (678q) and the Soyanggang hydroelectric power plant (678r), the Chungju hydroelectric power plant (678s), and the Chuncheon hydroelectric power plant (678t), the Uiam hydroelectric power plant (678u) ) and Cheongpyeong Hydroelectric Power Plant (678v), Paldang Hydroelectric Power Plants (678w) are distributed to Soyanggang River (678x) and Namhan River (678y), etc. 678z), also equipped with hydroelectric power generation facilities to produce power, which is a different offshore hydroelectric power plant that produces power to produce power in contrast to the construction machinery position adjustment configuration of the hull position movement control of the buoyancy dock (593,594,595). Electric power production and manufacturing devices are composed of flotation and quaking devices for tsunami disaster prevention that save lives and rescue ships in distress.

This relation is called Torricelli's theorem. In reality, because of the viscosity of water and friction loss in the jet hole, the actual jet speed υ ₂ ' is slightly smaller than υ ₂ .
In the conventional sluice gate 293, a rolling gate 293b is used for the data gate 293a, and accordingly, a steel cylindrical gate is installed on the top of the dam, and the sluice gate 293 is opened and closed while rotating the cylinder. This is used a lot in the intake dam 680 because it has a strong structure and can withstand shocks such as running water.
24 to 64, in the conventional installation of the hydraulic pipe, the water pipe 191 from the water tank or pressure water tank to the water intake inlet of the power plant is called the water pressure pipe 191, and this The work for supporting the hydraulic pipe 191 and the other side are collectively called a hydraulic pipe. The diameter of the hydraulic pipe is set so that the flow velocity in the pipe is about 3 to 5 [m/s] in consideration of the construction cost and head loss. In addition, the number of water pressure pipes 191 is basically 1 pipe per aberration, but in some cases, when the number of high drop is small, 1 pipe per 2 waterwheels is used.
Since the pressure by the hydrostatic head, surging head, and water hammer action acts as an internal pressure in the hydraulic pipe 191, the thickness t [cm] of the pipe must be determined to a size that can sufficiently withstand the maximum water pressure applied to that part, and the The diameter is D [cm], the maximum hydraulic pressure is P [kg/cm2], the allowable stress (stress) of the steel material is σ [kg/cm2], the joint efficiency of the pipe is η [%], and the thickness of the allowance for corrosion is If we say ε [cm], the thickness t [cm] of the tube is calculated by the following formula.

After the next aberration, the waterproof path is used.
This is a water channel for discharging water from the water wheel to the original river, and the place where this and the main stream of the river join is called a water outlet 169.
The structure of the spillway is generally the same as that of the waterway described above, but it was necessary to select a place as deep as possible to facilitate the flow of the river and discharge it in the same direction as the flow of the river.
Similarly, the principle of hydroelectric power generation will be described in general as follows.
Among the energy resources currently held on earth, thermal energy from coal, oil, and other underground resources is doomed to be depleted in the future, and it is highly expected in the recent development of nuclear power, but water energy is infinite as long as the universe exists. can think
In Korea, too, recently, a large dam was built to create an artificial reservoir, and many efforts are being made to control flooding, power generation, and irrigation. . This potential energy can be converted into kinetic energy and pressure energy or into mechanical energy because it acts on the aberration by changing only kinetic energy.
If the water generating power P kgㅇm/sec is H m for the drop, Q ㎥/sec for the flow rate, and r kg/㎥ for the specific weight of water ( P = rHQ kgㅇm/sec), the hydraulic power is proportional to the drop and the flow rate. Therefore, it is determined that the drop is generally constant when the state of the river or water source is determined, and the flow rate is related to the watershed and rainfall. In order to increase the output at this time, it was necessary to artificially change the running water to concentrate their water in one place, and to select a power generation point where a large drop could be obtained. When H [m] falls and flows into the water wheel, the power P _o [kW] given to the water wheel is
( P _o = 9.8 QH [kW]), which is usually called theoretical hydraulic power.
The theoretical hydraulic power is input to the aberration and rotates the aberration and the generator. The aberration output P _t and the generator output P _g are respectively aberration efficiency η _t and generator efficiency η _g , ( P _t = 9.8 QHη _t [ kW]) ( P _g = 9.8 QH η _t η _g [kW]).
As described above, as shown in the same figure, the upper end of the dock hull deck of the marine power plant body of the hull position movement pumping device included in the tsunami damage prevention device 811 into the main body 1 of the tsunami prevention device body 1 A hydroelectric power plant (233) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) constituting the (SDU) is constructed,
Since the hydraulic power facility is a facility that uses the flow rate and the drop, it should always be constructed to safely take in the flow required for power generation, and to minimize the drop and the loss of the flow rate as much as possible.
If the hydro power facilities in the hydro power plant are classified according to their functions, the hydro power facilities, which are largely divided into four types: the water intake facility 680n, the water supply facility 680o, the power generation facility 680p, and the waterproof facility 680q. equipment used,
The hydro power facility of the hydroelectric power plant 233 showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) is,
The theoretical hydraulic power for manipulating the flow rate of seaweed is input to the water wheel to rotate the water wheel and the generator. The waterproofing facility (680q) is composed of the devices of the multi-stage inflow hydroelectric generator (213) of the hydroelectric power plant (233).
The dam prevents water disasters through flood control during the flood season, supplies water for living, agriculture, and river maintenance by stably discharging water during the drought season, and provides marine hydropower generation to the marine tunnel transportation system (941) equivalent to a multi-purpose dam. The evacuation facility of the Gyean mooring device, which forms a shelter on the route at a certain distance for the purpose of preventing the sailing vessel from sinking in strong wind waves by injecting the distribution input device of the dam construction machine, is exposed to the upper part of the sea level and at the same time exposing the A circular prefabricated water tank (292) and a circular dam ( 680) The supply of the buoyancy-reading equipment for tsunami disaster prevention located inside is to be provided.
As such, despite the fact that dams are major infrastructure facilities, the social conditions surrounding dam construction have been very difficult for various reasons, such as a decrease in the number of dam sites, an increase in interest in the environment, the occurrence of submerged areas, and backlash due to interference with the exercise of property rights. Therefore, at this point in time, the need to seriously review the efficient water management process along with the diagnosis of the necessity of dam construction is highlighted.
The loess mixture of disaster prevention materials in natural water and control water stored inside the circular prefabricated water tank 292 and circular dam 680 located on the mountaintop formed inside the body 1 of the tsunami disaster prevention device. The water tank 292 and the circular dam 680 are equipped with a plurality of construction machines to overcome the tsunami disaster, and are equipped with installation processes to control the tsunami. The tsunami disaster prevention facility is composed of the valve and the unmanned camera 184 of the control system, and the tsunami disaster prevention process is performed inside the main body 1 of the tsunami reading device body 1 for tsunami disaster prevention.
Each circular dam 680 located on the lower ridges of the mountaintop according to the mountainous topography of 65% of the country's land is distributed and provided with a plurality of disaster prevention waterways 17 connected to the dam to prepare for the flood season, rainwater that is concentrated heavy rain. and loess mixture are stored in the control water storage tank and control dam of each coastal beach, and at the same time, when a hazardous tidal occurrence warning is issued, the valve 409 is opened for the loess mixture stored in the storage tank and the control dam to provide a large amount of control water. Equipped with devices to block the occurrence of harmful red tides by discharging into the tsunami, it is equipped with a water storage tank for tsunami disaster prevention facilities and an offshore tunnel transportation device. It is configured to be connected to the damage prevention device 811 .
Incidentally, electricity is produced by the hydroelectric generator 213 located in the hydroelectric power plant 233 in various regions, and first, electricity is supplied to the power pump 304 of the water intake that can pump water from the intake dam 680 of the third ridge. The supply is supplied and pumped to the intake dam 680 of the 5th ridge, and the intake dam 680 of the 5th ridge is again equipped with a power pump to the intake dam of the 8th ridge, and water is pumped in. Repeatedly in the intake dam of the 8th ridge By pumping water to the water intake dam 680 on the summit, water circulation is constituted, and disaster prevention is constituted by connecting the water storage tank for the tsunami disaster prevention facility and the marine tunnel transportation device with the marine hydroelectric power generation dam construction machine.
In order to overcome the plurality of flood damage, in the tsunami damage prevention device 811 configured inside the body 1 of the tsunami disaster prevention device body 1, there is a water tank 292 located on the shore and the loess mixture stored in the control dam 680. After cutting off agar agar 934 with a viscosity of 5%, mixing it with a mixer 73, loading it on a barge 933, and blocking the breeding of harmful algae due to spraying in the sea. In response to seasonal temperature changes inside the tank 292 and the control dam 680, the body (1) ) can be configured internally.
In order to overcome the plurality of tsunamis, the local setting position of the dam 680 and the water channel 294 before the construction work of the construction dam 680 and the water channel 294 formed inside the main body 1 of the tsunami disaster prevention device body 1 After the feasibility evaluation of the environmental impact assessment according to In order to overcome multiple tsunamis consisting of construction machinery and cable car (256) logging machinery in the vicinity of the equivalent dam construction site by identifying the natural dam and waterway construction options to be used (1) may be constructed internally.
In order to overcome the plurality of flood damage, the cooling water provided in the cooling device 816, which consists of the equipment equipped with the construction machinery for the tsunami disaster prevention, into the body 1 of the tsunami disaster prevention system, and the deep water in the ocean for water purification. A steam hammer 884 and a drilling machine 908 for oil drilling in a pile driver 882 and a diesel pile hammer 883 in the construction machine driving and driving machine 877 to the top of the barge 933 deck deck in order to be able to It is mounted and excavated a number of deep water boreholes 936 to the downstream of the river and the ocean, and the borehole 936 is equipped with a pump to the pumping station and a hose to supply deep water together with seawater to the fish tank tank of the farm. In order to overcome a number of tsunamis, the marine hydroelectric power generation dam construction equipment in the water storage tank for yellow sand disaster prevention and offshore tunnel transportation system was built into the main body (1) of the tsunami disaster prevention flotation system due to the harmful red tide and heat wave. Before the water temperature of the farm rises, the fish and shellfish are transferred to the barge 933 to avoid the death of the fish and shellfish, and the cooling device 816 comprises equipment for moving to the farm equipped with facilities;
In the tsunami damage prevention device 811, the hull position movement pumping operation device, the offshore hydro power generation control device, the traffic transport device and the power transmission control device of the construction machinery, and the disaster blocking device of the harmful operation prevention and control management It is urgently needed to create a condition in which the electric control system and the electronic control control device construction machinery control device are separated into the electronic control control device screw control device of the dam and the mooring devices of the floating dock hull.

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The hull position movement pumping operation device and offshore hydro power generation power production including the tsunami damage prevention device comprising the equipment equipped with the construction machinery of the plurality of tsunami overcoming systems into the body 1 Controlled electric power production and manufacturing equipment, construction machinery traffic transport equipment, power transmission controller, and hazardous intercept facility safety control management electric field equipment and electronic control controller Construction equipment controller Electronic control controller of dam Screw controller and floating dock hull There is a need in the art for a tsunami reading device for lifesaving and tsunami prevention that rescues a ship in distress, which is further equipped with a tsunami flotation reading device for tsunami disaster prevention composed of mooring devices to improve the overcoming of tsunami disaster. In order to enable those skilled in the art to understand the technology of the present invention, the technology of the present invention will be described as follows.

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The present invention is a tsunami reading device for tsunami prevention was invented to solve the above problems, and the conventional tsunami reading device for tsunami prevention is only at a level of a tsunami warning, and the damage is astronomical.
The present invention relates to a tsunami disaster prevention buoyancy poisoning device, and more specifically, the tsunami tsunami flotation poisoning device is equipped with a floating dock for small, medium, and large offshore hydroelectric power plants, so that the upper part of the sea level is 40m high on land. In order to prevent casualties and casualties before and after the tsunami, a rope net and safety tube formed in layers for lifesaving are installed around the bottom of the floating dock deck and the beach. A playground, an apartment building, and a building are provided to form a living ground, and a rope and safety tube are provided on the cable car (256) and the deck deck to prevent casualties inside the body (1) of the tsunami disaster prevention device. A pumping operation device and an electric power production and manufacturing device included in the tsunami damage prevention device connected to the construction machinery crane, the conveyor and the electronic control control device on the upper part of the floating dock deck deck Safety control management of electrical equipment and electronic control control device for construction machinery transportation device and power transmission device for power transmission Electronic control control device for construction machine control device and lifesaving cable car It is equipped with Awa screw adjustment devices to adjust the height of the apartment building to a height of 40 m above sea level on the hull of the apartment building, etc. It relates to a buoyancy-reading device for tsunami disaster prevention that rescues lifesaving and distressed ships by installing safety tubes and preventing great damage and property damage on the shore.
It will be composed for the purpose of providing the global village with a flotation reading device for tsunami disaster prevention that saves lives and rescues ships in distress.
On the other hand, according to the present invention, according to the long-term weather forecast provided by the artificial satellite, a safety pulley and a wire rope are provided in a lifeboat connected to the upper part of the sea level at a height of 40m without any reason, such as a coastal beach, so that a number of lifesaving and It will constitute the provision of a flotation reading device for tsunami disaster prevention to the global village to rescue ships in distress.

In addition, the hydroelectric power plant is formed at the top 40m above sea level, and a tsunami disaster prevention buoyancy-reading device that rescues multiple lives and ships in distress is constructed in the global village.

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The present invention as a technical idea for achieving the above object, in the flotation reading device for earthquake and tsunami disaster,
The tsunami disaster prevention buoyancy reading device is at the bottom of the barge hull 591 at the upper end of the holding tank at the upper end of the sea level (SLU) exposed at sea level (SLL) and the double structure post block tank 590 at the bottom of the lower end of the sea level (SLD). The barge hulls 592 at the bottom of the holding tanks located at the bottom of the pier are configured to be combined on both sides by a dual structure holding block tank 590 and a portable lug 607 for disassembling and combining each block tank hull to the inside of the main body of the tsunami buoyancy system. A flotation reading device for tsunami disaster prevention to rescue life-saving components and a ship in distress is formed;
The tsunami disaster prevention buoyancy reading device is configured to be connected to the marine tunnel transportation device and the marine hydroelectric power plant;
The double structure block tank of the floating reading device is a holding tank and an inner block tank, and the outer block tank has a length of 800mm, a diameter of ∮300mm, and an iron plate thickness of the portable lug. is 150mm, the pin connection shaft is connected to the portable lug, and the processing hole of the connection pin connection shaft has a diameter ∮300mm, the length of the portable lug pin is 500mm, the pin thickness is 2mm, and the pin body diameter is 10∮mm. while forming a double-structured block tank constituting a buoyancy-reading device for tsunami disaster prevention that rescues lifesaving and shipwrecked ships by disassembling and coupling with a nut at the screw thread position machined with the pin connection shaft end portion;
The double structure block tank is a barge hull 591 at the top of the holding tank formed by a band jig 621 mounted on a semi-submersible work ship 637 transferred to the tug 636. The volume of the barge hull 591 is horizontal 600M, and the vertical is 800M, the height is 40M, is provided with a steel plate thickness of 18mm, and the volume of the barge hull (592) at the bottom of the holding tank is 15M in the width and 15M in the length of the volume of the pipe bridge, the diameter of the four corners is π15M, and the thickness is 24mm , and the production unit is provided with a volume of 1Km and is individually combined with the outer block tank consisting of the holding tank and the peripheral surface of the inner block tank. The medium-sized floating dock for offshore power plants is 2Km wide, 3.2Km long, and 2Km high, and the large-sized offshore power plant floating dock is 10Km wide, 10Km long, and 10Km high so that it can be installed and operated according to the depth of the ocean. construct a flotation reading device for tsunami disaster prevention to rescue life and rescue ships in distress;
The floating food poisoning device is a portable lug pin 608 is fastened with a bolt and nut in the processing hole of the lug connection shaft, and at the same time, the lug pin 608 is not separated from the lug pin 608. The pedestal control mechanism of the Zakky bed (616) and the core drill are equipped with a hole-cutting excavation drill device with a diameter of 350Ø or 400Ø. to construct a buoyancy-reading device for tsunami disaster prevention that is assembled and equipped at sea by
The spray nozzle connected to the fire pump constituting the buoyancy reading device is the upper deck deck at the top of the barge hull at the top of the holding tank and the deck deck at the bottom of the barge hull at the bottom of the holding tank. In the spray nozzle, the nozzle hole diameter is 3mm to 5mm, and the number of nozzles is 70 places and 7-nozzle gaps in the form of radiation and 490 nozzle holes. The multiple jet nozzles that control the flow of the tsunami while removing the multiple fire pillars at the moment when the jet water and curtain curtain are discharged through the gap between the jet nozzles are combined with the fire hose and inside the body of the floating food poisoning device for tsunami disaster prevention A disaster prevention control device configured to achieve tsunami disaster control, comprising: a lifesaving device configured to achieve damage prevention;
The decomposition of the double structure block tank hull of the floating reading device is,
The lug connection shaft disassembly coupling nut 604 coupled to the bolt thread 603a of the lug connection shaft bolt 603 is provided in the nut thread 603b, and the lug processing hole 615 is inserted into the bolt 603. Fasten with a nut 604, and when combining the block tank hull, first insert it into one lug processing hole 615 and fasten the bolt 603 with the nut 604. Inserted into the hole 615, fastened with a nut 604 to the bolt 603, and fixed with a lug pin 608. A butterfly valve 622 and a hydraulic cylinder for buoyancy control of a hydraulic rotary cylinder 620 and a band jig 621 of a rotary cylinder rack & pinion type-(NRP) provided with buoyancy reading devices for tsunami disaster prevention or Equipped with a door 624 for a hydraulic cylinder in the hydraulic jack 623, a portable lug 607 and a portable lug pin 608 to a vertical bulkhead 605 and a portable lug pin connection shaft 606 for a large flange connection connector The pier 928 and the pipe to the drilling machine 908 for oil drilling consisting of the processing hole 615 of the joint part and the construction machine connection structure pier 928 and the pipe bridge 937 and the interior of the marine tunnel transportation device 941 The bridge 937 is connected to the internal trains 771 of the marine tunnel transportation system to the inside of the marine tunnel transportation system 941 to form the block tank hull disassembly and coupling of the floating fish tank body (1). ) is provided inside and constitutes a flotation reading device for tsunami disaster prevention that saves lives and rescues distressed ships;
The buoyancy poisoning device has a tsunami damage connected to a construction machine crane and a conveyor and an electronic control device at the top of the floating dock deck deck in the barge hull 591 at the top of the holding tank of the upper end of the sea level (SLU) exposed at sea level (SLL). The pumping operation device included in the prevention device and the power transmission device that transmits power to the construction machine traffic transport device and the electric power production and manufacturing device, the facility safety control management electric field device and the electronic control control device, the electronic control control device and the construction machine control device For tsunami disaster prevention so as to form a combination with the barge hull 592 at the bottom of the holding tank located at the bottom of the double structure post block tank 590 for pier double structure at the lower end of the sea level (SLD) provided with screw adjustment devices in the mooring device of the floating dock hull. It is provided inside the body (1) of the floating fish reading device to configure a floating fish reading device for tsunami disaster prevention that saves lives and rescues ships in distress;
The floating docking device is equipped with floating docks of small, medium, and large offshore hydroelectric power plants to prepare apartment buildings and individual houses at a height of 40m above sea level, and to suppress casualties before and after a tsunami. A rope net and safety tube for lifesaving are installed in and around the beach, and roads, playgrounds, apartments and buildings are provided on the top 40m above sea level to form a living ground. ) In order to suppress the casualties inside, the cable car 256 and the floating docking deck deck are equipped with ropes and safety tubes to configure the floating docking device to rescue the lives and rescue the ship in distress;
In the floating food poisoning device, an apartment building that can accommodate 1500 households and a temporary shelter for ships drifting in the sea are provided in the apartment building. ) and a fire hose are provided inside the main body (1) of the tsunami disaster prevention buoyancy reading device to configure the tsunami disaster prevention flotation reading device for saving lives and ships in distress;
According to the long-term weather forecast provided by the artificial satellite, the floating fish tank is equipped with a safety pulley and a wire rope on the lifeboat that connects to the upper part of the sea level at a height of 40 m without any reason, such as a coastal beach, so as not to cause any casualties. The device is provided to the global village, and the hydroelectric power plant is provided inside the main body (1) of the tsunami prevention flotation anti-quadition system on the top 40 m high topography of the sea level, and constitutes a tsunami tsunami flotation poisoning system to save lives and rescue ships in distress;
The buoyancy reading device is separated and coupled with the electronic control control device and screw control device 818 of the dam provided in the tsunami damage prevention device 811, and a lifesaving structure composed of the inside of the body 1 of the tsunami disaster prevention device. And in the flotation reading device for tsunami disaster prevention that rescues ships in distress,
In the tsunami damage prevention device 811, the hull position movement pumping operation device 812 and the power production control power production and manufacturing device 813 and. Construction machinery traffic transport device 814, power transmission control device 815, facility safety control management electric field device 816, and electronic control control device construction machine control device 817 Floating dock hull mooring device and firefighting device A lifesaving cable car is provided in the pump device, and a tsunami damage prevention device 811 is further provided on the floating dock for height adjustment. A device for improving the overcoming of tsunami damage prevention, which is provided as an interconnection structure and is composed of the main body (1) of the floating reading device for tsunami disaster prevention;
It is characterized by being composed of
Alternatively, the tsunami damage prevention device 811 for forming the tsunami flotation reading device for tsunami disaster prevention configured in the body (1) inside the tsunami disaster prevention device,
In the hull position movement pumping operation device 812 and offshore hydro power generation power production control power production and manufacturing device 813, the traffic transport device 814 and the power transmission control device 815 of the construction equipment are harmful to the equipment safety control management battlefield The device 816 and the electronic control control device construction machine control device 817 are separated and combined with the electronic control control device screw control device 818 of the dam and the hull mooring device for floating aquaculture docking, and mutually coupled to the tsunami disaster prevention device for floating aquaculture It is composed of a buoyancy-reading device for tsunami disaster prevention that saves lives and rescues ships in distress;
In the hull position movement pumping operation device 812 of the tsunami anti-seismic flotation read-out device for tsunami disaster prevention consisting of the body (1) inside the body,
Hull position movement control of the marine hydroelectric power plant and floating dock (593,594,595) composed of a motor pump for supplying the hydroelectric power plant diesel engine and generator production power to each compressor and pump. In order to do this, the barge hull (591) at the top of the holding tank of the floating dock and the barge hull (592) at the bottom of the holding tank are combined with the block pipe (598) for the tank and the central holding tank and the auxiliary support pin shaft for coupling and separating the portable lug ( 606) and a portable lug (607), a hydraulic rotary cylinder machine (619) for a block tank unit hull disassembly and coupling adjustment device, and a rotary cylinder machine for a block unit hull, which is provided as a construction machine for hull height adjustment at sea In the rack and pinion type cylinder machine (619) of the hydraulic rotary cylinder (620) and the block tank block unit hull disassembly and coupling control device band jig stand (621), the block tank block unit hull ups and downs control device ballast butterfly valve (622) and block tank block unit hull disassembly and coupling control device hydraulic cylinder hydraulic action key (623), block tank hull traffic control device hydraulic cylinder door and block tank block unit hull unit hull disassembly and coupling control device hydraulic cylinder machines (624) are A forklift 858, a dump truck 860, and a trailer are provided in the bulldozer 855 and the loader 857, which are provided as construction machines. It is provided with a hull position shifting pumping operation device 812 and is configured in a tsunami disaster prevention buoyancy reading device for saving lives and rescue boats in distress;
In the offshore hydroelectric power generation and manufacturing device 813 for generating the power of the tsunami flotation reading device for tsunami disaster prevention composed of the body (1) inside the body,
Francis and Pelton aberration provided inside the body of the hydroelectric power plant showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the dock hull deck of the offshore power plant. A tsunami damage prevention device ( 811) included in the marine hydroelectric power generation control device 813 is provided with pump aberrations in a turbine and guide vane coupled with a pump aberration to a Francis water wheel and a Pelton water wheel into the body of the hydroelectric generator, and a diesel engine and an electric motor are provided. The body (1) for tsunami disaster prevention is equipped with an offshore hydroelectric power generation control device (813) inside the tsunami disaster prevention device to save lives and ships in distress;
In the tsunami disaster prevention floatation reading device body (1), the traffic transport device (814) of the construction machine for the tsunami disaster prevention floatation reading device is composed of the inside,
A guide rail (618) for the block tank hull transportation device is laid on the floor inside the marine tunnel transportation device, and it is provided as a train that runs on the guide rail (618). configure the machine's transportation device 814;
In the power transmission control device 815 configured in the offshore hydroelectric power plant of the tsunami disaster prevention floating poisoning device body (1) composed of the inside,
Power transmission control of construction machinery that is provided with transformers 96 on the main switch button 66 and the auxiliary switch button 67 for on/off control of each pump connected to the power wire 71 to save lives and rescue ships in distress The device 815 constitutes a buoyancy-reading device for tsunami disaster prevention;
The tsunami buoyancy system for tsunami prevention consists of the main body (1) inside the tsunami tsunami prevention system, which is equipped with an electric field device (816) for the prevention and control of harmful tidal waves, which is provided in offshore hydroelectric power plants. constructing a flotation reading device for tsunami disaster prevention that rescues rescue and distressed ships;
By attaching the main switch button 66 for on-off control connected to the power wire 71 and the anode connecting to the auxiliary switch button 67 to the outer wall of the shunt, the tsunami buoyancy reading device for earthquake and tsunami prevention is integrated with the construction machinery to prevent harmful even cuts. A disaster interception facility safety control management electronic device 816 of adjustment is provided, and constitutes a tsunami disaster prevention floatation reading device to rescue life-saving and shipwrecked ships;
Floating reading device for tsunami disaster prevention The floating reading device for tsunami prevention consisting of the main body (1) inside is,
The power supply 46, which is a power supply device connected to the control box 2 of the control panel, is provided for the construction machine control device 817, which is an electronic control control device that saves lives and a ship in distress, which is provided in the tsunami disaster prevention device. ) and inverter 47, inverter V 48, access pointer 49, Internet network 50 and monitor 52, ADC 53, and switch input circuit 58, electronic control device MCU (59) and the electronic control device DAC (60), the overcurrent circuit breaker brake (61), the power supply unit (62), the display screen (63), the analog input (64), the digital input (65), and the on/off of each pump Equipped with auxiliary switch button (67) vertical multi-stage pump display input or computer network input (68) current pressure value or set pressure value, pressure set value recognition name plate (69) on the main switch button (66) for control, flotation for tsunami disaster prevention Floating reading device for tsunami disaster prevention composed of the inside of the food poisoning device body (1) It is provided as an electronic control control device for construction machinery and a construction machine control device (817) to operate construction machinery that rescues lives and rescues ships in distress. ;
The hull position movement pumping operation device 812 for saving lives and shipwrecked ships has a dryer 291 and water in an oil separation tank 288 and a gear driver 290 coupled to a thermocouple thermometer switch 103 for a detection sensor. The tank 292 is equipped with a sluice gate 293 and vibration alarm devices 300, and the solenoid valve body has a spool packing 560, a pilot 561 and a coil 562 on a cover 558 and a spool 559. On connector (563) and manifold (564) on manifold (565) and on screw bolt (566) on air hose binding hole union coupling (567) and union body binding on coupling (568) 2-position single (569) and 2-position Double (570), center vertical type (571), vertical type (572), single (575) and double (576), H (577), eye (578) and J (579), micro switch (580) ) equipped with a tsunami prevention buoyancy anti-seismic system for tsunami prevention by connecting it with construction machinery to understand the dynamics of a tsunami in advance to reduce damage. composed of floating fish reading devices for tsunami disaster prevention;
The floating fish tank hull mooring device for saving lives and shipwrecked ships in the tsunami disaster prevention floating docking device configured inside the main body (1) of the tsunami disaster prevention device,
Forming a ship mooring device by winding the chain 640 for the anchor on the crank 248 and the link rod 249 with the chain block 648 and the right inch on the bollard 638 and the anchor 639, and the skewer Using the drill as an excavator (845) for deep-sea excavation equipment to form a ship mooring device,
Forming a ship mooring device using the crank crank (846) for replacing the anchor;
Seismic damage consisting of a ship mooring device using a rock drill (847) and a ship mooring device using a level foundation for piers (851). A one-way disaster buoyancy docking device is equipped with a hull mooring device for lifesaving and rescue of a ship in distress, a device that improves the overcoming of tsunami damage prevention;

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It features a device to improve the overcoming of tsunami damage prevention.

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The present invention is a tsunami reading device for tsunami prevention was invented to solve the above problems, and the conventional tsunami reading device for tsunami prevention is only at a level of a tsunami warning, and the damage is astronomical.
The present invention relates to a tsunami disaster prevention buoyancy poisoning device, and more specifically, the tsunami tsunami flotation poisoning device is equipped with a floating dock for small, medium, and large offshore hydroelectric power plants, so that the upper part of the sea level is 40m high on land. In order to prevent casualties and casualties before and after the tsunami, a rope net and safety tube formed in layers for lifesaving are installed around the bottom of the floating dock deck and the beach. A playground, an apartment building, and a building are provided to form a living ground, and a rope and safety tube are provided on the cable car (256) and the deck deck to prevent casualties inside the body (1) of the tsunami disaster prevention device. A pumping operation device and an electric power production and manufacturing device included in the tsunami damage prevention device connected to the construction machinery crane, the conveyor and the electronic control control device on the upper part of the floating dock deck deck Safety control management of electrical equipment and electronic control control device for construction machinery transportation device and power transmission device for power transmission Electronic control control device for construction machine control device and lifesaving cable car It is equipped with Awa screw adjustment devices to adjust the height of the apartment building to a height of 40 m above sea level on the hull of the apartment building, etc. It relates to a buoyancy-reading device for tsunami disaster prevention that rescues lifesaving and distressed ships by installing safety tubes and preventing great damage and property damage on the shore.
It will have the effect of composing for the purpose of providing the global village with a flotation reading device for tsunami disaster prevention that rescues lives and ships in distress.
On the other hand, according to the present invention, according to the long-term weather forecast provided by the artificial satellite, a safety pulley and a wire rope are provided in a lifeboat connected to the upper part of the sea level at a height of 40m without any reason, such as a coastal beach, so that a number of lifesaving and It will have an effect that will constitute the provision of a flotation reading device for tsunami disaster prevention to the global village to rescue ships in distress,

In addition, the hydroelectric power plant is formed on the top 40m above sea level, and it will have the effect of composing a floating fish tank for tsunami disaster prevention that rescues multiple lives and ships in distress in the global village.

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[FIG. 1] is an implementation of a tsunami reading device for tsunami disaster prevention showing a tsunami for explaining a general outline of a conventional tsunami comprised inside the main body 1 of the floating food reading device for tsunami disaster prevention according to the present invention It is a perspective configuration diagram of a tsunami that rescues a ship in distress and a conventional lifesaving showing the characteristics to illustrate an example.
[Figure 2] is one of a tsunami reading device for tsunami disaster prevention showing a tsunami for explaining the general outline of the conventional tsunami comprised inside the main body 1 of the floating food reading device for tsunami disaster prevention according to the present invention It is a perspective configuration diagram of a conventional lifesaving and a tsunami that rescues a ship in distress, showing the characteristics illustrating the embodiment.
[FIG. 3] is a tsunami disaster prevention device body (1) in accordance with the present invention, among the conventional tsunami flotation reading devices of the present invention, a strong wind wave (1101) is prevented from sinking and cannot be overcome. A ship equipped with resilience for lifesaving for power generation facilities of a hydroelectric power plant showing a configuration illustrating an embodiment showing a tsunami disaster prevention device of a disaster interception prevention control device constituting a ship 1078 with resilience for lifesaving and 1078) as the inside of the facility of the hydroelectric power plant and the facilities of the hydroelectric power plant that include the disaster prevention and control device. It is equipped with an in-fire damper (583), a damper spindle (584), a doctor ventilation (585), a doctor ventilation inlet (585a), and a doctor ventilation outlet (585b). It is a side configuration diagram of a lifesaving device constituting a ship having a resilience for lifesaving inside the device main body (1) and a flotation reading device for tsunami disaster prevention that rescues a ship in distress.
[Figure 4] is a diesel engine and generator production power according to the operation of the hydroelectric power plant showing the configuration of the pumping operation device included in the tsunami damage prevention device 811 configured in the body of the tsunami disaster prevention floating reading device body according to the present invention. It is a perspective configuration diagram of the electric pump to rescue lifesaving and a ship in distress to supply each compressor and pump.
[FIG. 5] is a hydroelectric generator body inside a hydro power plant showing the configuration of an offshore hydro power generation power production control device included in the tsunami damage prevention device 811 configured inside the body of the tsunami disaster prevention floating reading device body according to the present invention. This is a Francis water wheel that rescues life and ship in distress, a Pelton water wheel, a pump water wheel, a turbine and guide vane internal assembly model diagram, and a configuration diagram of the pump water wheel.
[FIG. 6] is a tsunami disaster prevention device 811 configured inside the main body of the tsunami disaster prevention device according to the present invention. It is an outline drawing of a diesel engine and a model configuration diagram of the internal disassembly and assembly of the electric motor.
[FIG. 7] is a vertical multi-stage pump front sectional view and front view and a vertical type showing the configuration of a facility safety control management electric device included in the tsunami damage prevention device 811 configured inside the main body of the tsunami reading device for tsunami disaster prevention according to the present invention. Control block diagram and BF model in the schematic diagram of the multi-stage pump system concept; It is a configuration diagram of a vertical multi-stage pump operation method that saves lives and a ship in distress in an embodiment of the speed control method, three-pump direct starting method.
[FIG. 8] is a vertical multi-stage pump microcomputer showing the configuration of the equipment safety control management electrical equipment included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floating reading device according to the present invention. Inverter system of the control method and digital PD control method, the unmanned camera of the control system is installed, the inverter system that discharges fire water from the spray nozzle, and the equipment of the control system are combined to save lives and the inside of the fire sensor pump body to rescue the ship in distress is the working configuration of
[FIG. 9] shows the structure of the electronic control adjustment device screw adjustment device included in the tsunami damage prevention unit 811 configured inside the main body of the tsunami reading device for tsunami disaster prevention according to the present invention. It is a partial perspective configuration diagram of a plurality of compressors, a moving compressor, a fixed compressor, and a multi-stage screw compressor, and an operational configuration diagram of the front section for fixing an underground anchor bolt.
[FIG. 10] shows the structure of the equipment safety control management electric field device included in the tsunami damage prevention device 811 configured inside the main body of the tsunami readiness device for tsunami disaster prevention according to the present invention. It is a model configuration diagram of disassembly and assembly of the gear driver 290 to which the separation tank is adhered and the suction valve to the skewer compressor connected to the electric motor.
[FIG. 11] shows the structure included in the tsunami damage prevention device 811 configured inside the main body of the tsunami reading device for tsunami disaster prevention according to the present invention. It is a perspective configuration diagram of the suction filter 262 attached to the air dryer 291 and the suction filter attached to the inside.
[Fig. 12] is a tsunami damage prevention device 811 configured inside the main body of the tsunami reading device for tsunami disaster prevention according to the present invention. Showing the configuration partially showing the structure of the double-mouth shell-type ground fire hydrant, the excretory and excretory hydrant, and the underground single-piece fire hydrant (179a) and the underground double-headed fire hydrant (179b) at the lower part of the road surface. It is a front sectional configuration diagram, and it is a front configuration diagram of the fire extinguisher accessories and the hydrant box inside the automatic fire hydrant 161 and the indoor hydrant box 160, and a hydrant ( 179), it is a front and cross-sectional configuration diagram and a perspective configuration diagram, and is a partial side configuration diagram showing partial aspects of (a) large-scale fire hydrant facilities and (b) small-scale fire hydrant facilities of the indoor fire hydrant piping system.
[FIG. 13] is a perspective configuration diagram of a facility safety control management electric field device that rescues lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention. A perspective configuration diagram of the sprinkler facility and the sprinkler head 111 of the sprinkler facility piping system and the trencher head and the configuration diagram of the vibration alarm device 300 .
[FIG. 14] is a reciprocating reciprocating rescue and rescue ship that shows the configuration of the facility safety control management electric device included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floating reading device according to the present invention. A partial side view showing the operation method of the pump piston pump 127 and a partial plunger pump 148 operation configuration diagram showing the operation method of the plunger 253 in a partial side view of the plunger pump 148, the blue of the rotary motion pump It is a partial side view showing the side of the woot pump 311 and the turbine empty pump 140, and is a configuration diagram of the operation side showing the installation state of the sewage pump 309 from the side.
[FIG. 15] is an adjustment to rescue lifesaving and a ship in distress showing the configuration of the facility safety control management electric field device included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floatation reading device according to the present invention It is a block diagram of land and sea of a general type faucet 496 of a faucet flow type of integral valve 459 and piping accessories.
[FIG. 16] is a tsunami disaster prevention device 811 configured inside the main body of the tsunami disaster prevention device according to the present invention, showing the configuration of the facility safety control management electric device configuration, and a pump that rescues lives and a ship in distress. It is an enlarged cross-sectional diagram of the main parts of countermeasures for major problems during operation.
[FIG. 17] is a firefighting system that saves lives and a ship in distress showing the configuration of a facility safety control management electric field device included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention buoyancy reading device according to the present invention. It is a perspective configuration diagram of a plurality of valves formed in the pump and the prime mover.
[FIG. 18] is a tsunami disaster prevention device 811 configured inside the main body of the tsunami disaster prevention device according to the present invention to show the configuration of the equipment safety control management electrical equipment to rescue life and rescue ships in distress. It is a schematic diagram of the operation method of the valve.
[FIG. 19] shows the structure of the electronic control adjustment device screw adjustment device of the dam that rescues lifesaving and shipwrecked ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami reading device for tsunami disaster prevention according to the present invention. It is a perspective configuration diagram of the plunger pump 148 of the reciprocating pump for each type of positive displacement pump showing the operation method and the operation method of the diaphragm pump 144 and the operation method of the wing pump 327, and the rotary pump 337 inside And the external gear pump 326 is a configuration diagram of the operation showing a partial operation method of the rotary pump rotor 338 other than that.
[Fig. 20] shows the structure of the electronic control adjustment device screw adjustment device of the dam included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floatation reading device body according to the present invention. It is a perspective configuration diagram showing the turbine pump 140 to structure, the axial flow pump 341 and the mixed flow pump 342 of the propeller pump 146 in the priming 339 and the self-priming pump 340 perspective configuration diagram And, the viscous pump 343 is a configuration diagram of the side operation showing the operation method of each pump in the perspective configuration diagram of the viscous pump and the impeller in the perspective configuration diagram.
[FIG. 21] is a tsunami damage prevention device 811 configured inside the main body of the tsunami reading device for tsunami disaster prevention according to the present invention showing the configuration of the screw adjustment device for the electronic control adjustment device. It is a block diagram of the side operation showing the operation method of the automatic collecting well tank.
[Fig. 22] is a tsunami disaster prevention device 811 included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention device according to the present invention, showing the configuration of the screw adjustment device for adjusting the electronic control device to save lives and rescue ships in distress. It is a block diagram of the side operation showing the operation method of the automatic collecting well tank.
[FIG. 23] is a tsunami damage prevention device 811 configured inside the main body of the tsunami reading device for tsunami disaster prevention according to the present invention, showing the configuration of the screw adjustment device for the electronic control adjustment device. It is a block diagram of the side operation showing the operation method of the automatic collecting well tank.
[Fig. 24] is a tsunami disaster prevention device (811) that is included in the tsunami damage prevention device (811) configured inside the main body of the tsunami disaster prevention device according to the present invention, showing the configuration of the screw adjustment device for adjusting the electronic control device. It is a block diagram of the side operation showing the side of the operation method of the conventional automatic collection well tank.
[Fig. 25] is a tsunami damage prevention device 811 configured inside the body of the tsunami reading device for tsunami disaster prevention according to the present invention showing the configuration of the screw adjustment device for the electronic control adjustment device. It is a configuration diagram of an embodiment showing an operation assembly of a plurality of solenoid valves attached to a hydraulic pneumatic cylinder and a configuration diagram of a hydraulic pressure and sensor technology application method by a configuration of a sensor according to an integrated configuration of a detection switch.
[Fig. 26] is an ad balloon that rescues lifesaving and a ship in distress showing the configuration of the facility safety control management electric field device included in the tsunami damage prevention device 811 configured inside the main body of the tsunami fish reading device for tsunami disaster prevention according to the present invention. It is an operation configuration diagram according to typhoon and weather forecast in the atmosphere, showing the operation method of the airship. it is do
[Fig. 27] is a tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention buoyancy-reading device according to the present invention, showing the structure of the construction machine position adjustment configuration constituting the hull position movement pumping operation device. It is a perspective configuration diagram of the operation of a plurality of construction machinery bulldozers 855 to rescue a ship.
[Fig. 3] to [Fig. 27] ... Each is a configuration diagram illustrating an embodiment of the conventional configuration of the body of the tsunami buoyancy reading device for tsunami disaster prevention according to the present invention configuration.
[FIG. 28] is a lifesaving and distress diagram showing a construction machine position adjustment configuration constituting the hull position movement pumping operation device of the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floatation reading device according to the present invention. It is a perspective configuration diagram of the operation of the trailer 894 on the tamping roller 891 and the tire roller 892 on the concrete batching plant 865 and the macadam roller 889 on the forklift 858 and the dump truck 860 that rescue the ship .
[Fig. 29] is a lifesaving structure showing a construction machine position adjustment configuration constituting the hull position movement pumping operation device included in the tsunami damage prevention device 811 configured inside the main body of the tsunami reading device for tsunami disaster prevention according to the present invention. With the six front devices (861p) of the crane that rescues the ship in distress, the rake device (861q), the shell device (861r) and the shovel device (861s), the rake device (861t) and the metrology device (861u) are driven It is a perspective block diagram of the operation of the device 861v.
[FIG. 30] is a lifesaving structure showing a construction machine position adjustment configuration constituting the hull position movement pumping operation device included in the tsunami damage prevention device 811 configured inside the main body of the floating culture reading device for tsunami disaster prevention according to the present invention. It is a perspective configuration diagram of the operation of the crusher 874 and the dredge 879 to rescue the ship in distress.
[FIG. 31] is located on the ridgeline of each part of the mountain that rescues lifesaving and ship in distress showing the overall configuration included in the tsunami damage prevention device 811 configured inside the main body of the tsunami reading device for tsunami disaster prevention according to the present invention. It is an offshore power plant body perspective configuration diagram of hull position movement control of offshore hydroelectric power plant and ado tunnel 672 and connection structure of floating fish dock (593,594,595) of water damage control of step-step dam rotation channel.
[FIG. 32] is a hull position movement pumping operation device for rescuing a ship in distress and lifesaving included in the tsunami damage prevention device 811 configured inside the body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock A plunger pump (148) to an excavator (856) and a hydraulic tank (819) with a connection structure showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part of the hull deck (SDU) of the bent shaft plunger pump (148b) and the radial plunger pump (148c) is a perspective configuration diagram of a construction machine connection structure.
[FIG. 33] is a hull position movement pumping operation device for rescuing a ship in distress and lifesaving included in the tsunami damage prevention device 811 configured inside the body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock Straight on the crawler-type dozer (855a) and the wheel-type dozer (855b) of the bulldozer (855) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydroelectric power plant floating dock (593,594,595) configured in the upper part of the hull deck (SDU) It is a perspective configuration diagram of a construction machine connecting structure of a hydraulic ripper (855i) to an angle dozer (855e) and a hinge dozer (855f) to a tree dozer (855g) and a rake dozer (855h) to the dozer (855c) and the dilter dozer (855d). .
[FIG. 34] is a hull position movement pumping operation device for rescuing a ship in distress and a lifesaving device included in the tsunami damage prevention device 811 configured inside the main body of the tsunami readiness device for tsunami disaster prevention according to the present invention. Offshore power plant body dock It is a perspective configuration diagram of a construction machine connection structure showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydroelectric power plant floating dock (593,594,595) configured in the upper part of the hull deck (SDU).
[FIG. 35] is a hull position movement pumping operation device for rescuing a ship in distress and a lifesaving device included in the tsunami damage prevention device 811 configured inside the body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock An excavator (856) and a skimmer (856) and a wheel-type dozer (855b) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydroelectric power plant floating dock (593,594,595) configured in the upper part of the hull deck (SDU) 856f) is a perspective configuration diagram of the pile driver 882 construction machine connection structure.
[Figure 36] is a hull position movement pumping operation device for rescuing a ship in distress and a lifesaving device included in the tsunami damage prevention device 811 configured inside the body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock Extent cable (861b) and all 6 cranes on ripper and router (856g) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured on the upper part of the hull deck (SDU) (861p) and the drag crane (887) is a perspective configuration diagram of the construction machine connection structure.
[Figure 37] is a hull position movement pumping operation device for rescuing a ship in distress and lifesaving included in the tsunami damage prevention device 811 configured inside the body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock The forklift 858 and the trailer 860a of the dump truck 860 on the loader 857 showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) constituting the upper part of the hull deck (SDU) It is a perspective configuration diagram of a construction machine connection structure.
[Figure 38] is a hull position movement pumping operation device for rescuing a ship in distress and lifesaving included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock Concrete mixer truck (868) construction on the concrete batching plant (865) and the concrete finisher (866) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydroelectric power plant floating dock (593,594,595) consisting of the upper part of the hull deck (SDU) It is a perspective configuration diagram of a mechanical connection structure.
[Figure 39] is a hull position movement pumping operation device for rescuing a ship in distress and lifesaving included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock The asphalt finisher (871) and the asphalt spreader (872) on the road safety device (864) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part of the hull deck (SDU) (876) and the pile driver (882) to the boom (882a) and the diesel pile hammer (883) is a perspective configuration diagram of the construction machine connection structure.
[Fig. 40] is a hull position movement pumping operation device for rescuing a ship in distress and lifesaving included in the tsunami damage prevention device 811 configured inside the body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock Pump dredger (879a) and bucket dredger (879b) of a dredger (879) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part of the hull deck (SDU) Construction machine connection structure is the isometric configuration of
[FIG. 41] is a hull position movement pumping operation device for rescuing a ship in distress and a lifesaving device included in the tsunami damage prevention device 811 configured inside the body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock It is a perspective configuration diagram of the construction machinery connection structure of the grab dredger (879l) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydroelectric power plant floating dock (593,594,595) configured in the upper part of the hull deck (SDU).
[Fig. 42] is a tsunami disaster prevention device 811 included in the tsunami damage prevention device 811 configured in the upper part of the dock hull deck upper part (SDU) of the internal marine power plant body and the body of the floating fish tank for tsunami disaster prevention according to the present invention. It is a perspective configuration diagram of a crusher (874) connection structure showing the construction machine position adjustment configuration of the hull position movement control of the hull position movement pumping actuator offshore hydro power plant floating dock (593,594,595).
[Fig. 43] is a hull position movement pumping operation device for rescuing a ship in distress and a lifesaving device included in the tsunami damage prevention device 811 configured inside the body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock Bent axis plunger pump (148b) of the conventional cylinder 126 and plunger pump 148 showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part of the hull deck (SDU) and a radial plunger pump (148c) is a perspective configuration diagram of a construction machine connection structure.
[Fig. 44] is an offshore hydro power generation power production control that produces power to rescue life-saving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami buoyancy reading device for tsunami disaster prevention according to the present invention. Apparatus A perspective configuration diagram of a construction machine connection structure of disassembly and coupling of a cylinder 126 showing a construction machine position adjustment configuration of a hull position movement control of an offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the dock hull deck of the offshore power plant to be.
[Fig. 45] is a hull position movement pumping operation device for rescuing a ship in distress and a lifesaving device included in the tsunami damage prevention device 811 configured inside the body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock The piston motor (885a) of the cylinder 126 and the hydraulic crane 885 showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part of the hull deck (SDU) construction machine connection structure is the isometric configuration of
[Figure 46] is an offshore hydroelectric power generation control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention. Apparatus Offshore hydro power generation of a construction machine connection structure in the form of a water wheel (838) showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) composed at the upper end of the dock hull deck (SDU) of the offshore power plant It is a perspective configuration diagram of the power production control unit construction machine connection structure.
[Figure 47] is a hull position movement pumping operation device for rescuing a ship in distress and lifesaving included in the tsunami damage prevention device 811 configured inside the body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock It is a perspective configuration diagram of a hydroelectric power plant construction machine connection structure showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydroelectric power plant floating dock (593,594,595) configured in the upper part of the hull deck (SDU).
[FIG. 48] is an offshore hydro power generation power production control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention. Device It is a perspective configuration diagram of a hydroelectric power plant construction machine connection structure showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the dock hull deck of the offshore power plant.
[Figure 49] is an offshore hydro power generation power production control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floatation reading device according to the present invention. Device It is a perspective configuration diagram of a hydroelectric power plant construction machine connection structure showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the dock hull deck of the offshore power plant.
[FIG. 50] is an offshore hydroelectric power generation control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami readiness device for tsunami disaster prevention according to the present invention. Device It is a perspective configuration diagram of a hydroelectric power plant construction machine connection structure showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the dock hull deck of the offshore power plant.
[FIG. 51] is an offshore hydro power generation power production control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention. Device It is a perspective configuration diagram of a hydroelectric power plant construction machine connection structure showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the dock hull deck of the offshore power plant.
[Figure 52] is a marine power plant body dock hull deck upper end (SDU) that rescues lifesaving and shipwrecked ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention. It is a perspective configuration diagram of the connection structure showing the configuration of the position adjustment of the hydroelectric power plant construction machine of the hull position movement control of the floating dock (593,594,595) of the offshore hydro power plant.
[FIG. 53] is an offshore hydro power generation power production control device for generating power to the tsunami damage prevention device 811 composed of the inside of the tsunami damage prevention device 811 inside the body of the tsunami buoyancy reading device for tsunami disaster prevention according to the present invention. ) is a perspective configuration diagram of the construction machinery connection structure of the construction machinery of the Bernoulli theorem method that rescues the lifesaving and ship in distress showing the construction machinery position adjustment configuration of the hull position movement control of the floating dock (593,594,595) of the offshore hydroelectric power plant.
[FIG. 54] is an offshore hydroelectric power generation control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention. Device It is a perspective configuration diagram of a hydroelectric power plant construction machine connection structure showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the dock hull deck of the offshore power plant.
[Figure 55] is an offshore hydroelectric power generation control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floating reading device body according to the present invention. Device It is a perspective configuration diagram of a hydroelectric power plant construction machine connection structure showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the dock hull deck of the offshore power plant.
[Figure 56] is an offshore hydro power generation power production control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention. Device It is a perspective configuration diagram of a hydroelectric power plant construction machine connection structure showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the dock hull deck of the offshore power plant.
[Fig. 57] is located on each ridge of the mountain showing the overall structure of the rescue and rescue of the ship in distress included in the tsunami damage prevention device 811 configured inside the main body of the tsunami reading device for tsunami disaster prevention according to the present invention. The side of the body of the hydroelectric power plant construction machine connection structure of the hull position movement control of the floating dock (593,594,595) of the offshore hydroelectric power plant with a connection structure with the onshore hydroelectric power plant and the fishing tunnel (672) It is a configuration diagram.
[58] is a hull position movement pumping operation device for rescuing a ship in distress and lifesaving included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock The interior of the marine tunnel transportation device 941 on the pier 928 and the pipe bridge 937 showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydroelectric power plant floating dock (593,594,595) configured in the upper part of the hull deck (SDU) It is a perspective configuration diagram of the structure connecting the internal electric vehicle (771) of the marine tunnel transportation system to the hydroelectric power generation facility and the construction machine.
[Figure 59] is a hull position movement pumping operation device for rescuing a ship in distress and lifesaving included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock The interior of the marine tunnel transportation device 941 on the pier 928 and the pipe bridge 937 showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydroelectric power plant floating dock (593,594,595) configured in the upper part of the hull deck (SDU) It is a perspective configuration diagram of a drilling machine for crude oil drilling 908, a hydroelectric power plant construction machine connection structure.
[Figure 60] is a hull position movement pumping operation device for rescuing a ship in distress and lifesaving included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floating reading device body according to the present invention. Offshore power plant body dock Vertical bulkhead 605 and portable lug coupling pin connection of the floating dock (593,594,595) disassembly and assembly showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part of the hull deck (SDU) The shaft 606 is a portable lug 607 and the portable lug pin 608 is a large flange connection connector joint processing hole 615 is a perspective configuration diagram of a hydroelectric power plant construction machine connection structure.
[Figure 61] is an offshore hydro power generation power production control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention A water wheel or pump aberration (233) of a hydro power plant or offshore hydro power plant showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) comprising the device offshore power plant body dock hull deck upper part (SDU) 264) and the main valve 265 is a perspective configuration diagram of the hydroelectric power generation facility construction machine connection structure.
[Figure 62] is an offshore hydro power generation power production control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami readiness device for tsunami disaster prevention according to the present invention. Device It is a perspective configuration diagram of a hydroelectric power plant construction machine connection structure showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the dock hull deck of the offshore power plant.
[Figure 63] is an offshore hydro power generation power production control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami readiness device for tsunami disaster prevention according to the present invention. Device Positioning of each power plant in the Han River water system (678p) showing the configuration of the position adjustment of the hull position movement control of the floating dock (593,594,595) of the offshore power plant consisting of the dock hull deck upper part (SDU) of the offshore power plant. It is a perspective configuration diagram of a mechanical connection structure.
[Figure 64] is an offshore hydro power generation power production control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention. Apparatus Torricelli's theorem showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) composed on the upper part (SDU) of the dock hull deck of the offshore power plant. it is do
[Figure 65] is an offshore hydro power generation power production control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention The structure of the micro switch 580 and the limit switch 580 micro switch showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the offshore power plant body dock hull deck (183) and the diaphragm-type pressure switch (104a) to the pneumatic-sensor pressure switch (104b) is a perspective configuration diagram of the hydraulic power plant construction machine connection structure.
[Figure 66] is an offshore hydro power generation power production control that produces power to rescue life-saving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention Device of the offshore power plant body dock hull deck upper part (SDU) of the offshore hydro power plant floating dock (593,594,595) showing the construction machine position adjustment configuration of the hull position movement control Configuration of the thermocouple of the detection sensor bimetal (102) It is a side configuration diagram of the configuration description of the thermocouple thermometer switch 103 thermocouple for the detection sensor while dividing the reference point 102e at the measurement point 102d of the thermal current generation 102b and the thermoelectric power generation 102c according to the method 102a.
[Fig. 67] is an offshore hydro power generation power production control that produces power to rescue life-saving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention. Device A plurality of gear pumps 326 and vane pump 142 showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper end (SDU) of the dock hull deck of the offshore power plant. It is a partial side configuration view showing a partial side of the valve 474 .
[Fig. 68] is an offshore hydro power generation power production control that produces power to rescue life-saving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention. Apparatus Offshore Power Plant Body Dock A river estuary dam showing the sluice operation method configuration of a water damage control facility showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the hull deck (SDU) 680) at the upper end of the sluice gate 293, the first adjustment shaft 231 provided as an electronic control adjustment device screw adjustment device of a plurality of floating aquaculture dams. It is a perspective configuration diagram of a floating dock located at the upper end of the sluice gate 293 of the Han River estuary dam 680.
[Figure 69] is an offshore hydro power generation power production control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention. Apparatus Offshore Power Plant Body Dock A river estuary dam showing the sluice operation method configuration of a water damage control facility showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the hull deck (SDU) 680) at the upper end of the sluice gate 293, the first adjustment shaft 231 provided as an electronic control adjustment device screw adjustment device of a plurality of floating aquaculture dams. It is a side view of the floating dock located at the upper end of the sluice gate 293 of the Han River estuary dam 680.
[Figure 70] is an offshore hydro power generation power production control that produces power to rescue lifesaving and distressed ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention Apparatus Offshore Power Plant Body Dock A river estuary dam showing the sluice operation method configuration of a water damage control facility showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the hull deck (SDU) 680) at the upper end of the sluice gate 293, the first adjustment shaft 231 provided as an electronic control adjustment device screw adjustment device of a plurality of floating aquaculture dams. It is a side view of the floating dock located at the upper end of the sluice gate 293 of the Han River estuary dam 680.
[Figure 71] is located on the ridge of each part of the mountain showing the overall configuration of the rescue and rescue of the ship in distress included in the tsunami damage prevention device 811 configured inside the main body of the tsunami readiness device for tsunami disaster prevention according to the present invention Cross-section of the body of the offshore power plant for controlling the movement of the hull position of the floating dock (593,594,595) of the offshore hydroelectric power plant with a connection structure with the onshore hydroelectric power plant and the ado tunnel 672 of the water damage control of the step-step dam rotation channel It is a configuration diagram.
[Figure 72] is an enlarged representative perspective view of the main part of a pumping operation device that rescues a ship in distress and a lifesaving device included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floating reading device body according to the present invention In the furnace and floating dock, the barge hull (591) at the top of the holding tank and the barge hull (592) at the bottom of the holding tank are combined with the tank block piping (598) and the central holding tank and the auxiliary support pin shaft for coupling and separating the portable lug ( 606) and a portable lug 607. The present invention of the hydroelectric power plant floating dock hull assembly method showing the detailed assembly process showing the hull configuration of the floating dock hull at sea is a representative diagram of
[FIG. 73] is an enlarged representative perspective view of the main part of an offshore power plant, which is a pumping operation device that rescues lifesaving and shipwrecked ships included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention floating reading device body according to the present invention. In the furnace and floating dock, the barge hull (591) at the top of the holding tank and the barge hull (592) at the bottom of the holding tank are combined with the tank block piping (598) and the central holding tank and the auxiliary support pin shaft for coupling and separating the portable lug ( 606) and a portable lug 607. The present invention of a hydroelectric power plant floating dock hull assembly method showing the hull position movement pumping operation device configuration of the tsunami damage prevention device 811 in the detailed assembly process showing the hull configuration of the floating dock hull at sea It is a representative configuration diagram of the pumping operation device and is an enlarged representative perspective view of the main part of the offshore power plant, the barge hull (591) at the top of the holding tank of the floating dock and the barge hull (592) at the bottom of the holding tank for the tank block pipe (598) and the center The detailed assembly process showing the structure of the hull floating in the sea with the pin shaft 606 and the portable lug 607 for coupling and separating the holding tank and the auxiliary support. It is a representative configuration diagram of the present invention of the hydroelectric power plant floating dock hull assembly method showing the device configuration, and the steel plate bending method for the piping block of the offshore power plant and the welding bonding basic method are the front side of the steel structure inside the pipe of the double pipe structure. It is a structural diagram of the hull assembly method of the hydroelectric power plant, showing the partial partial detailed configuration diagram and the configuration of the tsunami prevention device for the tsunami disaster prevention of the steel pipe manufacturing process.
[FIG. 70], [FIG. 71]. [FIG. 72]. [FIG. 73]. Each of the hull of the tsunami damage prevention device 811 into the main body 1 of the tsunami disaster prevention floatation reading device according to the configuration of the present invention. A configuration diagram illustrating an embodiment of a position movement pumping operation device, a block unit tank combination method in the sea and the seabed to rescue lifesaving and a ship in distress by providing a tugboat 636 and a helicopter 647 to the floating dock hull It is the configuration diagram of the hull assembly method of the hydroelectric power generation facility.
[FIG. 74] is a tsunami damage prevention device 811 included in the tsunami damage prevention device 811 configured inside the body of the tsunami disaster prevention flotation reading device according to the present invention, and the hull position movement pumping operation device for rescuing a ship in distress Offshore hydroelectric power plant flotation A partial partial detailed configuration diagram showing the side section of the double structure block tank connection part of the food dock in partial detail, and the development method of the overall configuration showing the combination method of the dual structure holding tank and the floating dock dock to explain the overall configuration method of the offshore hydroelectric power plant floating dock An assembly method diagram showing the configuration of the tsunami disaster prevention floatation poisoning device for tsunami disaster prevention. It is the configuration diagram of the hull assembly method of the hydroelectric power plant floating dock.
[Figure 75] is a hull position movement pumping operation device for rescuing a ship in distress and lifesaving included in the tsunami damage prevention device 811 configured inside the body of the tsunami disaster prevention floating reading device body according to the present invention. It is a configuration diagram of the hull assembly method of a hydroelectric power plant showing the composition of the block tank unit disassembly and combination method of the floating dock unit, showing the disassembly and combination of the floating dock block tank unit.
[Figure 76] is a hull position movement pumping operation device for rescuing a ship in distress and lifesaving included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention. A double structure showing the preparation process for cutting and underwater welding by providing a band jig 621 for marine safety jigs at the top of a semi-submersible work ship in the sea to assemble a welding connection with each of the double structure block tanks (598) of the food dock Block tank side connection method configuration diagram, partial double structure block tank (598) showing the dual structure block tank (598) and the band jig (621) in detail It is a schematic diagram of the hull assembly method.
[FIG. 69], [FIG. 70]. [FIG. 71]. [FIG. 72]. Each of the hull of the tsunami damage prevention device 811 into the main body 1 of the tsunami disaster prevention floating reading device according to the configuration of the present invention. A configuration diagram illustrating an embodiment of a position-moving pumping operation device. Hydropower showing a block unit tank coupling method in the sea and the seabed to rescue life-saving and a ship in distress by providing a tugboat 636 and a helicopter 647 to the floating dock hull It is the configuration diagram of the hull assembly method for the floating food dock drying power plant.
[Figure 77] is a tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention device according to the present invention. and the wire rope 19 to the piercing winch 137 of the elevator machine room constructed with the reducer 251 and the motor body 192 on the building and the roof of each building and the building roof, and the driving wheel roller 135 to the top of the tower 116 ), the cable car 256 is equipped with a fire-fighting sensor pump and fire-fighting and disaster-prevention measures to achieve an initial fire within 1 second. It is a perspective configuration diagram of a hydroelectric power plant and a tsunami prevention device for a tsunami prevention and control system.
[FIG. 78] is a facility safety control management battlefield that rescues life-saving and shipwrecked ships included in the tsunami disaster-preventing floating-reading device damage prevention device 811 configured inside the main body of the tsunami disaster-preventing floating fish-reading device according to the present invention. Device Seismic power generation facility earthquake showing the structure of the equipment safety control management equipment safety control management installation location of the installation location of the equipment safety control management and firefighting installation location at the top of the mountain, where the initial extinguishment is achieved within 1 second for each fire type of the body of the offshore power plant This is the front cross-sectional diagram of the floating fish reading device for tsunami disaster prevention.
[FIG. 79] is a tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention device according to the present invention. This is a configuration diagram of the operation method of the floating fish reading device for tsunami disaster prevention, showing the configuration of the equipment safety control management and electrical equipment for the installation operation of the nozzle and double pipe structure fire hose.
[Figure 80] is a disaster prevention control unit that rescues lifesaving and shipwrecked ships contained in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention flotation reading device according to the present invention. This is the configuration diagram of the installation method of the tsunami disaster prevention buoyancy reading device, showing the configuration of the disaster blocking prevention control device of the pump fire extinguisher connected to the water supply system to the roof tank and pressure tank, which can easily achieve initial firefighting and lifesaving within seconds.
[FIG. 81] is a simplified view of a facility safety control management electric field device for rescuing a ship in distress and lifesaving included in the tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention buoyancy reading device body according to the present invention. It is a configuration diagram of the installation method of the hydroelectric power generation facility tsunami prevention flotation poisoning device configuration showing the facility safety control management electronic device configuration of the carbon dioxide gas fire extinguisher according to the installation of the pipe nozzle collecting well tank of the stepped non-powered water hammer pump (393).
[FIG. 82] is a multi-pipe fire hose and spray nozzle assembly model configuration for saving lives and ships in distress included in the tsunami damage prevention device 811 configured inside the main body of the tsunami buoyancy reading device for tsunami disaster prevention according to the present invention. It is a configuration diagram of a hydroelectric power plant and tsunami prevention device for tsunami disaster prevention, showing the configuration of the electrical equipment for facility safety control and management in the assembly and manufacturing process.
[Figure 83] is a tsunami disaster prevention device 811 included in the main body of the tsunami disaster prevention device 811 according to the present invention. A three-tiered pump fire extinguisher configured to achieve an initial firefighting within a few minutes A water collecting tank with a fire prevention method and an agate turn-type level balanced pipe nozzle that replaces it. It is a configuration diagram.
[FIG. 84] is a tsunami damage prevention device 811 configured inside the main body of the tsunami disaster prevention device according to the present invention. A tsunami room equipped with a hydroelectric power generation facility showing the configuration of the electrical system for the initial fire-fighting of A fire, disaster prevention and tsunami prevention control and tsunami prevention and control, and facility safety control management by anyone using the double vinyl tent nozzle type fire protection water supply method for each ridge This is the configuration diagram of the reusable floating reading device.
[FIG. 85] is a tsunami disaster prevention device showing a large blower and a ventilator for saving lives and a ship in distress, included in the tsunami damage prevention device 811 configured inside the main body of the tsunami flotation reading device for tsunami disaster prevention according to the present invention Floating reading device configuration diagram.
From [FIG. 73] to [FIG. 85]., each is an embodiment of the facility safety control management electronic device of the tsunami damage prevention device 811 into the main body 1 of the tsunami reading device body 1 according to the configuration of the present invention It is a structural diagram of lifesaving and rescue of a ship in distress.

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention for tsunami disaster buoyancy reading device will be described in detail. The embodiments introduced below are provided as examples so that the spirit of the present invention can be sufficiently conveyed to those skilled in the art. Accordingly, the present invention is not limited to the embodiments described below and may be embodied in other forms. And, in the drawings, the width, length, thickness, etc. of the components may be exaggerated for convenience. Like reference numerals refer to like elements throughout.

이러한 입형다단펌프시스템의 제어방식에 대하여 상세한 내용은 다음과 같다.
·압력제어방식 (그림1)
시스템의 운전 범위는 모든 펌프의 가동 점(Po n)에서부터 최대부하 운전펌프의 가동 정지 점 Po f f 1과 주 펌프의 운전 정지 점 Po f f 2 사이에 형성된다. 압력제어 방식의 시스템의 Po f f 2의 운전정지 지점에 도달한 후 180초∼210초(CO-CR), 0∼120초(CO-ER)간의 최소 운전 후 완전히 정지한다. 인버터제어 방식보다 ΔP의 폭을 좁게 유지할 수는 없지만 1bar정도의 입력변화를 감지함으로 저층의 흡수 가압에 주로 이용된다.

·주파수 변조제어 장식 (그림2)
시스템의 운전 범위는 조정수치 범위를 유지한다.
각 운전중인 펌프의 유량이 100％ 도달시와 가동대기 펌프가 구동 직전의 압력이 가동 점 P on이고 개개의 최대운전 펌프가 정지 직전이 압력이 펌프 정지 점 Po ff가 된다.
따라서 주파수 변조 방식은 △P의 폭을 좁게 유지할 수 있으며 주파수 변조기로 주 펌프의 회전속도를 제어함으로 가동 대기펌프의 가동시 또는 최대 운전 펌프의 정지시 발생하는 급격한 압력의 변화를 보상하는 시스템으로 구성된다.
시스템의 가동은 가동 점 부근까지 압력이 낮아지면 곧바로 주 펌프가 주파수 변조기제어에 의하여 서서히 가동하고 유량의 변화가 없으면 제어기에 의하여 중지되므로 시스템 헌팅 (System hunting)에 의한 압력 변동을 제거할 수 있다.

일반적으로 지진해일방재용 부양식독장치 본체(1) 내부로 방재 공정이 형성된 입형다단펌프의 주요기능의 동 도면에 도시한 한 바와 같이 상세한 설명은 다음과 같다.

도 65에서부터 도 85에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량과 기체의 흐름을 조절하는 지진해일피해방지부(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 수해조절설비로 구성하는 수해조절 공정이 형성된 입 형 다단펌프에는 도시기호로 요 부위 관 노즐 틈새 형 펌프소화기 몸체 내부로 주요기능을 상세히 표기 기재함으로써 누구나 쉽게 화재발생시 화재현장 또는 펌프기계 근처에 근접 않고도 펌핑을 하게 되어 취침시에도 주민의 고통을 해소하여 구성되면서 인명구조 및 사전예방에 따라 소방차 소방헬기가 화재현장 도착 전에 1초 이내로 초기진화를 이루게 되는 지진해일방재용 부양식독장치 본체(1) 내부로 방재가 이루 지게 구성하는 재해 차단예방 조절장치로 지진해일공정이 형성된 특징이다.
도 65에서부터 도 85에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량과 기체의 흐름을 조절하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 지진해일방재용 부양식독장치로 구성하는 방재 공정이 형성된 스위치-온 시 개방되고 스위치-오 프 시 닫히는 격리밸브(5)와,방재수를 일정한 압력으로 감압하는 레 귤레이트(136)와, 방재수가 일정압력 이하로 유도되면 공급을 차단하는 역류방지 역지밸브(61)와, 방재물질 이산화탄소(164)와 자연황토(158) 혼합기(73) 믹서 및 동력모터 제어모듈로서 이루어지는 고압 입형다단 펌프(8)가 작동되어 방재수는 차단밸브 개방으로 통과하고 노즐호스(9)에 연결되는 다수개의 배관(14) 원둘레 주위의 틈새 가공 홀과, 복수개의 플랜지 접합부위의 틈새로 내 수압이 형성된 방화수는 일자형의 토출 분사수(38) 형상 또는 커텐물막(39) 형상 다수개가 분출되면서 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 설비안전 통제 관리 전장장치(816)로 구비해 방재 공정이 형성된 지구촌에는 산불과, 황사와, 유해적조와 폭설피해를 재난발생 전 후 시 다수개의 자연 재해를 사전예방한다.
도 65에서부터 도 84에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량과 기체의 흐름을 조절하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 지진해일방재용 부양식독장치로 구성하는 방재 공정이 형성된 폭서와, 태풍과 지진 발생 전에 해일 또는 산사태의 발생에 따른 피해축소방식으로 구비되는 재난방지 에는,에이 취 빔(149)과 산 도로절개지의 삼칠 계단식 와이어로프 그물망(안전그물망, 401)이 설치되고, 해상에서 발생 되는 풍랑 파도로부터 해상선박 침몰방지를 하기 위한 해상선박 탑재용 일체로 구비되는 인명을 구조하기 위한 튜브(130)와, 구명정(188)과, 인명구조용 바스켓(42)과, 인명구조겸용 침대노즐(172)에 방화사(159)와, 공기보관 비닐 튜브로 구비하는 재난방지방식을 포함하는 가스폭발시 방화사로 구비되는 모래주머니 방벽과, 육지 해상을 연결하는 해저 배관선로 일체로, 재난방지를 하기 위한 방재제어장치로 형성되고 미래의 기계문명을 향상시켜주는 철광석 망간 단 괴(909) 채집용 굴착채취 뜰채그물(910)과, 공압식 운송장비(916)의 흡입채취기계(911)와 해저광물 재취로봇(912)과 뜰채 바스켓에 탐색장비용 탐조등과 수중조명등에 감지센서 일체로 구비해 지진해일방재용 부양식독장치 본체(1) 내부로 황사방재를 구성하는 지진해일피해방지장치(811)로 방재 공정이 형성된 해양수력발전소의 바지선 선체(591) 상단, 하단으로 탑재 구성작용장치가 구성되고, 격리밸브(5) 전방에 구비되는 제1압력체크센서(86)와,역지밸브(6) 일체로 구비되는 제2압력체크센서(87)와,상기 격리밸브(5)를 기준으로 상기 격리밸브(5)의 전방과 후방을 연결하여 우회하도록 구비되는 소방방재 배관라인(168)과,상기 우회 방재 배관라인(168)에서 상기 격리 밸브(5)와는 반대로 개폐작동하도록 구비되는 비상밸브(84)와,상기 제1압력체크센서(86)와 상기 제2압력체크센서(86)로부터의 압력값을 확인하여 상기 비상밸브(84)의 작동을 제어하는 전자제어유닛(88) 일체로 지진해일방재용 부양식독장치 본체(1) 내부로 지진해일방재가 이루 지게 구성하는 설비안전 통제 관리 전장장치(816)로 방재 공정이 형성된 해양수력발전소의 바지선 선체(591) 상단, 하단으로 탑재 구성작용장치가 구성되어 있다.
도 65에서부터 도 84에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 설비안전 통제 관리 전장장치(816)로 구비해 방재 공정이 형성된 입형다단펌프 하단부 도로 지표면 상단의 흡입합류관(3) 플랜지(28) 연결 접합부위의 솔레노이드밸브(76)와, 펌프 기계실 외부에 있는 집수정 탱크(34)에 구비되는 방화수는 방화수 수위 감지센서로 방재수량은 감지되며, 노즐호스(9) 내부로 구비되는 호스(109) 연결용 암수 관계의 소켓 닛플(110)과, 해상선박 재난발생 전 후 시 인명구조용 애드벌룬(77)과, 비행선(78)을 해수면 상단부 상단으로 띠우기 위해 선체 갑판 상단의 비상엔진발전기(226)를 가동하면서 동력전원을 공기압축기(80) 동력모터 제어모듈(106)에 공급하고,
공기압축기(80) 작동으로 생성되는 공기를 리시이버 고압저장탱크(145) 내부로 일정한 압력의 공기가 저장되도록 재난발생 전 후 시 리시이버 고압저장탱크(145) 내부에는 일정하게 공기압이 유지되면서 재난발생시 방재용 공기배관라인(181) 비상밸브(84)가 오픈 되면서 선체 내부로 공기를 불어 넣고 선체 외부의 배관프레임에 부착되어 있는 다수개의 콘테이너 크기의 튜브(130)에 공기가 저장되면서 인명구조용 선체갑판 상단의 애드벌룬(77)이 해수면 상단부 상단으로 부상하면서 애드벌룬(77) 하단의 인명구조용 바스켓(42)에 재난선박의 선원 일체로 탑승구조확인된 후 위기상황을 침착하게 극복을 구성함으로써, 지구촌의 육지와 해상의 재난방지를 하기 위한 안전제어장치 시설물 제조설치방식과 인명구조수단 일체로 분사식 노즐에 부착되는 파라핀(100)이 해상선박에 구비되어 화재방지목적 그 외 재난을 대비하여 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 지진해일방재용 부양식독장치로 구성하는 방재 공정이 형성된 분사식 노즐 조절 전자제어펌프를 소방방재 제어장치를 제공하게 되는데에는 관 노즐 이동형 소방방재 펌프가 해양발전소 내부의 생산전력을 공급받기 때문이다.
도 65에서부터 도 85에 도시한 바와 같이, 지진해일방재용 부양식독장치본체(1) 내부로 구성하는 유량과 기체의 흐름을 조절하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 방재조절설비로 구성하는 밀폐된 분사노즐을 개방시킨 전자제어장치의 밸브 후미의 배관호스 및 배관라인의 배관몸체(B) 둘레면을 따라 일직선 틈새(15)와 원형 형식의 틈새(15) 가공홀(20)인 노즐직경이 5밀리미터 또는 10밀리미터로 조정되는 490개의 노즐과 플랜지 접합부 8개소의 틈새 노즐로 액체와 기체로된 방해물질을 함께 공급되도록 소방호스 부위로 연결되는 분사노즐과 소방호스(9) 내부로 형성되는 호스 부위에 연결구성되는 노즐을 볼트·너트로 분리결합하고 와샤로 플랜지 접합부 틈새 노즐을 조정하도록 형성된 분사노즐 몸체(B) 내부에 소방호스(9)의 내수압을 보유하고 있는 방재물질에 의해 방출된 분사노즐(10) 틈새(15)로 토출분사수(38)와 커텐물막(39)이 다수개의 불기둥을 쓰러지도록 하고,모여드는 유해적조 미생물(921)을 분산 퇴치토록 하면서 조류 대번식을 억제하고, 해상상공의 찬 공기 덩어리인 수직하강 기류를 해수면 10킬로미터 상공의 제트기류에 수직하강 기류를 되돌려서 지진해일은 육지로 접근 못하도록 감쪽하는 순간에 감쪽같이 화재와, 유해적조와 쓰나미를 소멸제거시키는 장면들이 구비되어 형성된 무인카메라(184)로 전송하되, 고압의 공기 압축기(80)와 입형다단펌프(8)의 관제시스템(150) 관제 서버(51)의 연산을 통해 모니터에 점수를 디스플레이하도록 형성되는 분사식 노즐조절용 마이크로 전자제어 펌프와, 호스(109)와 노즐(923)로 공기 압축기(80) 및 냉각장치와 함께 탑재되어 형성시킨 분배축(357)에 연결되어 가뭄 기에 유해적조 발생주의보가 발령되면 상기 저장탱크와 방제 댐에 저장된 지하수와 황토혼합물을 방제 댐의 동력펌프(304)가 구비되어 수문 밸브(409)를 개방하여 황토혼합물 방제 수를 대량으로 해양에 방출하여 유해적조발생 차단예방을 갖추면서 지진해일방재용 부양식독장치 본체(1)의 내부로 구성하는 지진해일방재가 이루 지게 유해적조 차단설비안전 통제관리 전장장치로 구성되어있다.
여기서, 소방센서펌프장치에 관한 상세한 구성 설명에 있어서, 대형화재 초기진화 및 인명구조를 위한 소방 방재 시스템은 근린생활 단독건물옥외, 옥내의 상수도배관(14) 수도꼭지용 급수밸브(495) 손잡이핸들(533), 중간부위연결접합부에, 엘보소켓붓싱나사부속티이엘보(44)를 부착한후 방화수방우량 체크용의 유량계(105) 부위로 방화수 제어장치 밸브로 설치구성되어야하고 상기 방화수 제어장치밸브라함은 필요에 따라서 주택 옥내, 옥외로 발생되는 화재발생시 거주구 옥내 옥외로 구분하여 설치하고 상수도 배관(14)은 노즐호스로도 화재감지센서 감지용의 구멍난 호스(9)에 파라핀(100) 마개가 형성되어 호스 내부의 내수압에 해당되는 상수도 수압으로도 화재방지가 가능한 것이 포함하는 구성인데 여기에도 기체공급용 에어와 불연성가스(164)가 통과하면서 방화수는 발화물질이 설치배치되는 곳에는 파라핀 마개용 분사호스 노즐이 전진배치되어 불씨(292)와 불꽃(293)의 발화를 억제하고 이와동시에 최초발화 지점을 감지하는 최초발화 감지노끈(41)이 노즐몸체(B)상단으로 발화물질인 건물목재기둥 동서남북 실내 모서리와 천정바닥으로 여러곳에 부착한다.
도 65에서부터 도 85에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 파라핀 테이프(177)와 발화비물질철사(176)로 형성된 후 파라핀 테이프(177)는 발화되어 이와 동시에 감지노끈(41)이 절단되며 방화수 급수제어장치밸브로 연결되는 감지센서바이메탈(102)과, 열전대 온도계 스위치(103)와, 솔레노이드밸브(76)에 조성된 솔레노이드 작동온오프스위치버턴(66)과 스위치작동후 비상싸이렌(93)이 소리내어 이에 경보장치와 함께 솔레노이드 밸브 스위치 작동용 추(107)가 작동되어 전자제어장치의 솔레노이드밸브(76)가 열림과 동시에 실내내부의 계단거치용 분사노즐(10) 그리고 벽면거치용분사노즐(10)과 천정거치용분사노즐(10)로 방화수는 신속하게 보급되어 발화지점의 불씨(292)와 불꽃(293)과 불기둥(294)을 방사선형의 틈새(15)와 일직선형의 틈새(15)로 방화수는 일직선형의 토출분사수(38) 그리고 방사형의 토출분사수커텐물막(39)으로 겹겹이 토출분사하여 불씨와 불꽃 그리고 불기둥에 부드럽게 서서히 신속 정확하게 초기진화되어 이와 동시에 소방차(402) 출동 현지 도착시간전에 불씨, 불꽃, 불기둥을 사전제거로하는 육지해상재난 발생방지를 하기 위한 지구촌 방재장치 장비시스템의 구성으로서, 토출분사수(38)와 커텐물막(39) 형상으로 일기 예보 관제시스템의 인터넷망 또는 육안으로도 식별할 수 있게 되며 집수정탱크 내부의 물수위감지로, 화재열을 온도감지센서로도 직접, 간접으로 감지하도록 구성되어 있는 본 발명은 종전의 기술과는 현격한 차이로 구분되는 구성이다.
도 65에서부터 도 85에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량의 흐름을 조절하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 수해조절설비로 구성하는 형성된 출입문의 개폐 여부 또는 가공물의 존재 유무를 감지하는 마이크로 스위치(580)와 리밋 스위치(183)가 작동되려면 물체와의 접촉이 필요하며 이러한 센서를 기계적 작동 방식의 접촉식 센서라 한다. 이들 스위치가 서로 다른 점은 구조와 용도 면에 약간의 차이가 있으며 마이크로 스위치는 비교적 소형으로 성형품 케이스에 접점기구를 내장하고 밀봉되지 않은 구조로서 주로 계측장치나 소형기계장치의 검출기용으로 사용하는데 리밋 스위치는 견고한 다이캐스트 케이스에 마이크로 스위치를 내장한 것으로 밀봉되어 방수, 방청의 구조로 내구성이 요구되는 장소나 외력으로부터 기계적 보호가 필요한 생산 설비와 공장 자동화 설비에 투입되면서 동시에 리밋 스위치(183)를 봉입형 마이크로 스위치라고도 한다.
이러한 마이크로 스위치(580)의 연결 구성에 있어서,
마이크로 스위치는, 리밋 스위치의 한 종류로서 리밋 스위치 중에서 아주 소형인 것을 칭하며, 마이크로 스위치는 조작 및 제어에 주요한 구성요소로서 널리 사용되며 작은 형상에 큰 전력을 스위칭할 수 있는 요소이므로 마이크로 스위치는 규정된 힘으로 직접 조작하여 접점의 떨어지는 속도가 조작 속도와 관계없이 스위칭을 반복하면서 동시에 특정의 동작 특성을 충실히 반복하는 높은 반복 정밀도를 가지며,작은 힘이나 움직임에도 스위치가 동작하므로 정밀 스냅 액션스위치 또는 센시티브 스위치라고 칭하며,
도 65 내지 도 85에 도시한 바와 같이,상기 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량의 흐름을 조절하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 설비로 유량의 물 저장을 조절하는 조절축(231) 해양터널 교통장치(941)에 해양수력발전소 부양식독(593,594,595) 발전댐 건설기계의 시추공(936) 분배투입장치가 구비되어,태풍방재설비를 건설기계의 시추공(936) 원유시추용 드릴링 머신(908)에 갖춘 파이프 랙(854)에 결합하는 코아 드릴(917) 회전체의 방재용 분배투입장치로 다수개의 시추공(936)을 마련하고,
강바닥의 불 투 성 암반과 변성암 위의 대수층에 위치하는 지하수를 동력펌프(304)가 구비되어 강수면 위로 대량으로 퍼올리면서 지하수 분출을 배분하여 물 저장탱크와 각 취수댐 내부에 분배 저장하는 다수개의 분배축 구성하는,단수개의 이중구조 블록탱크(598)는 단수개의 내부 블록탱크(596)와,상기 내부 블록탱크(596) 외부로 단수 개의 외부 블록탱크(599)와 결합하여 쓰나미방재용 분배투입장치 본체(1) 내부로 구성된 이중구조블록탱크(598) 부양식독 선체위치 이동설비 펌핑 가동부(812) 연결구조가 지진해일방재용 부양식독장치들로 이루 지게 구성된다.
도 65에서부터 도 84에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량의 흐름을 조절하는 지진해일피해방지장치는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 지진해일방재용 부양식독장치로 구성하는 부양식독 노즐프레임의 외부블록탱크 외부에는 대형의 플랜지 상기 플랜지 접합부위는 고강도의 볼트(603)와 고강도의 너트(604)로 플랜지 가공 홀에 결합 체결되고 접합부 틈새에는 고압력의 가스켓트 또는 고무패킹(32)으로 접속되며 방재노즐 프 레임 연결부속 티이 엘보(44) 또는 방재배관부속 엘보(44) 접합 부위로 블록탱크에 연결 구성되며 해저광물자원 탐색장비의 탐조등(232)과 해저탐사 렌즈 유리의 수중조명등(843)이 수직탱크 외 측벽으로 방재노즐 프레임의 외부배관 외 측벽으로 일정한 간격으로 설치 구성되고 외부배관의 외 측벽 둘레 면에는 방재노즐 지지대 프레임 결합분리 휴대용 러그(607)와 방재노즐 지지대 프레임 결합분리 러그(21)들로 구비해 휴대용 러그 핀 연결축(606) 또는 핀 결합을 유압 작키(623)로 결속 결합을 구성하며;
대형플랜지(614)는 이중으로 블록결합을 하면서 접합부위 핀 결합의 장공 홀(616)과 블록결합을 접합부위 휴대용 러그 핀(608)이 러그(607)의 결합체로 해수면으로 이동시켜 해양조립식으로 구비되어 부양식독 상단부에 연결접합 구성되면서 물체의 하중을 분산시켜 물체의 수명을 연장하고 조류의 변동에 따라서 물체가 해수면에 노출될 시에는 해상선박과 충돌로 대형사고가 나지 않도록 고무타이어(919)들로 충돌방지를 구성하는 지진해일방재용 부양식독장치 본체(1) 내부로 구성된 해양수력발전소 부양식독 갑판은, 해수면 상단부 100M로 위치를 조절한다.
도 65에서부터 도 84에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량의 흐름을 조절하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 수해조절설비로 구성하는 부양식독 노즐프레임의 수직탱크와 수직과 수평의 대각 또는 대칭으로 블록 단위의 러그와 러그 핀 연결축은 해수면 선상에서 블록 탱크단위의 접합부위 연결조립 후 잠수와 부상이 반복되면서 부양식독은 공기압력조절 또는 수압 조절 후 펌프가동으로 해수면 상공으로 방재수(7)는 일자형의 토출분사 수(38) 및 방사형의 토출분사수 물막커텐으로 토출되어 의 위력을 제압하고,
지구온난화가 방지되면서 유해적조를 사전에 제어되어 대형 발전기(213)의 헤드 탱크와 수압관에 프란시스 수차(229)와 펠톤 수차(230) 그리고 해양수력발전기(231)에 의하여 생산되는 동력을 육지로 공급하고 이의 동력으로 해저를 굴착하여 원유(841)와 무공해 천연가스(922)채집 또는 해저저층에 적재되어 있는 망간 단 괴(909)를 채집하고 해 중의 해수면 하부 100지점 관 교량(937)의 교각(928) 설치와 해 중 터널 건설을 하는 분배투입장치로 포함하는 장비로서 무재해 지구촌의 해양재난방지와 해양환경산업발전을 하기 위한 유해적조 구제장비와 종합재난 방지시스템의 장비 일체로 형성됨을 특징으로 종전의 건설기계의 크레인(861) 붐 대(651)를 바지선 선체(591) 갑판 데크 측면사이드에 수개의 시이 소(935) 크레인 붐 대는 해양 수심에 따른 장축으로 사용할 수 있도록 500m 블록단위 다수개로 결합하면서 길이 20km로 제작하여 해저 바닥의 기초콘크리트 교각을 설치하고, 무재해를 이룰 수 있게 쓰나미의 진로를 제압하는 장비로서 국제사회의 기상예보 및 기상예방정책기관에서 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일방재용 부양식독장치의 물 저장탱크와 해양터널 교통장치에 해양수력 발전 댐 건설기계의 지진해일방재용 부양식독장치로 구성하는 본 발명의 장비들을 선택할 수 있다.
도 65에서부터 도 84에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량의 흐름을 조절하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 설비로 구성하는 부양식독 갑판데크 상단부 하단의 부양식독 보텀 하단으로 노즐프레임의 내부블록탱크(596) 및 외부블록탱크(599)의 이중구조블록탱크(598)로 갖추면서 동시에 원유시추용 드릴링 머신(908)이 위치하는 내부블록탱크(596) 중심으로 원유 시추봉으로 연결하는 파이프 랙(854)에 부착되는 코아드릴(917)로 갖추면서 드릴링 머신(908)의 회전체가 작동하면서 원유 시추봉 가동 후에 발생되는 굴착토와 시추공의 유해가스를 이동하는 배관으로 이의 배관을 지지하는 보조철판(165)은 등변산 형강(149)들로 갖추면서 이중구조블록탱크(598)는,내부블록탱크(596)와 외부블록탱크(599)를 지지하는 블록 탱크용 제1 보조 형강(600)과 블록탱크용 제2 보조철판(601)에 용접 접합을 할 수 있게 하는 스냅홀(602)이 수직 격벽(605)의 격벽맨홀(610)과, 방재수 통로 맨홀덥개(152) 접합틈새와, 수평격벽(609) 용접부위로 각기 일정하게 갖추면서 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 지진해일방재용 부양식독장치로 구비해 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일방재용 부양식독장치의 물 저장탱크와 해양터널교통장치에 해양수력 발전댐 건설기계의 지진해일방재용 부양식독장치로 구성된다.
도 65에서부터 도 84에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량의 흐름을 조절하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 수해조절설비로 구성하는 블록철탑 좌측으로 안정통제실과 기상관측장비 관리실 하단부에 위치하는 갑판 데크 헬기 정류장(619)이 조성되고 안전통제실 좌측면으로 인공위성 발사대(643)와,인공위성 발사대 내부의 우주로켓(612)으로 구성하고;
유해적조 대번식을 차단하는 공기압축기(80)와 그물 식 호스로 산소와 공기를 해저에 투입하여 해양환경 보호를 갖추면서 동시에 부양식독 갑판 데크 상단부 상단의 중심위치 블록철탑 내부의 상단 부위로 설치되는 원유 시추봉 연결작동용 파이프랙(854)은,
블록철탑 내부 타구어윈치(137)와 크레인(861)의 와이어로프(19)로 결속되어 굴착채집용 파이프랙(854) 하단부에 위치하는 코아 드릴(917) 상단에서 원유 시추용의 드릴링 머신(908)이 위치하는 머신룸에서 이송배치 작동을 형성하고 해저광물자원 망간단괴(909)를 채집하는 뜰채 바스켓(842)과,자동공압식 흡입채취기계(911)에 해저광물채취로봇(912)과, 광물채집 뚜레박(924)으로 조성 연결 배치 형성되며 부양식독의 해양터널교통장치 외부에는 따개비 또는 해양생물이 서식하지 못하게 아노드(INode;전극판,938)를 선체 외벽으로 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일방재용 부양식독장치의 물 저장탱크와 해양터널 교통장치에 해양수력 발전 댐 건설기계의황사 방재용 분배투입장치들로 구성된다.
도 65에서부터 도 85에 도시한 바와 같이,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량의 흐름을 조절하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 태풍방재설비로 구성하는 해양발전소 부양식독(593,594,595) 블록철탑(116) 우측으로 설치가 마련되는 유해가스제거용 버너 붐(920)과 리시이버 탱크(145)로 대형발전기(213)가 마련되는 발전실 외부로 구성하고 운송시스템의 비이오피 스키드(918)와, 원유시추공 작업 후 황토(158)와 시멘트(931)로 시추공을 메우기 위하여 황토(158)와 시멘트의 혼합장비 믹서는 기계실(머드피드 룸)에 항상 대기하도록 배치되었는데 상기의 장비는 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일방재용 부양식독장치의 물 저장탱크와 해양터널교통장치에 해양수력 발전댐 건설기계의 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치로 구성된다.
도 65 내지 도 81에 도시한 바와 같이,상기 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량의 흐름을 조절하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 황사방재설비로 구성하는 형성된 고압 피스톤식 방재펌프 작동으로 방재노즐 끝단 부위로 방재수는 방출되며 일자형의 토출분사수(38)와 방사형의 토출분사수 물막커텐(39) 형상으로 토출 낙하 분사되며 방재펌프작동기계실 또는 안전통제실 내부의 고압 피스톤식 방재펌프시스템(150)의 휴대용 무선통신단말기(82)와 방재펌프작동제어용 스위치(66) 또는 방재수 살포용 방제 펌프작동 스위치 버턴(67) 상단부로 동력전원 공급장치제어박스(2)가 안전통제실과 방재펌프작동기계실의 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 인명구조와 조난선박을 구조하는 지진해일피해방지장치(811)로 구성된다.
도 65 내지 도 81에 도시한 바와 같이,상기 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량의 흐름을 조절하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 방재설비로 구성하는 형성된 크레인 붐대(651) 내부로 방제노즐(10)과 방제호스 연결접합부 연결부 중간에 설치되는 방제노즐(10) 몸체와 이를 지지하는 수직지지대프레임(11)과 상단 지지대 프레임 하단지지대프레임으로 분리결합 구성되고 적조발생지점에 항상 배치되어 방사선 형식의 분사노즐(10) 틈새(15) 제작설비를 규격화하여 설치하고 유해적조를 잠재우는 부양식독은 예인선으로 이동하여 고압 피스톤식 방제펌프와 공기 압축기의 방제노즐로 유기적인 결합으로 해수면 상단의 크레인 붐 대(651) 방제노즐과 방제호스(9)로 인공폭포수와 같이 일자형의 토출 분사수 또는 방사형의 물막커 텐(39) 형상으로 노즐 외부로 방출되면서 공기 압축기가 작동되어 유해적조 발생 전에 해저에 산소와 공기를 함께 해저 하단부로 그물형식의 열십자형의 분사노즐(10)로 공기와 방제수를 투기하여 유해적조발생을 사전제거 또는 사전예방장비로서 해양재난방지와 해양환경산업발전을 위한 유해적조 구제장비와 종합재난 방지시스템의 장비로 대형화재와 유해적조에 태풍과 황사로부터 그에 대한 피해 최대한 적게 하면서 기상예보에 따라 세력이 미미한 효자 태풍에 포함하는 가뭄을 해소토록 하는 지진해일 등에는 모른척하면서 그냥 지나치면 되는 것인데 뭐니해도 자연재해와 인위적 재난은 사전예방이 바람직하다.
도 65 내지 도 81에 도시한 바와 같이,상기 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 유량의 흐름을 조절하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 방재설비로 구성하는 형성된 이중구조 블록탱크(598) 몸체 내부로 형성된 복수 개의 내부 블록탱크(596)와 복수 개의 외부 블록탱크(599)에는 블록탱크용 제 1 보조 형강(600)과 블록 탱크용 제 2 보조철판(601)에 수직격벽(605)과 수평격벽(609)에 철재빔(149)들로 구비한 상기 블록탱크용 제 1 보조 형 강(600)과 블록 탱크용 제 2 보조 철판(601)에 수직 격벽(605)과 수평 격 벽(609)에 철재 빔(149)들은 컴 퓨터 레이져 절단기로 가공한 용접 조립을 갖춘 지진해일방재용 부양식독장치 본체(1) 내부로 구성된 스냅홀(602)과 격벽맨홀(610)들로 구비해 이중구조블록탱크(598) 부양식독 선체위치 이동설비 펌핑 가동의 지진해일피해방지장치(811) 연결구조로 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치들로 구성되어 있다.
한편,지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 방재설비로 구성하는 방재 공정이 형성된 다수의 물 산맥으로 태풍의 상승기류(925)와 하강기류(926)를 미세먼지(927)와 함께 제어되도록 해수면 상단과 유해적조 미생물(921)도 마찬가지로 공기압축기(80)와 입형다단 펌프(8)의 작동으로 다수의 재해를 소멸 제거시키면 무인카메라(184)가 이 장면을 전송하되, 전자 펌프제어시스템 또는 관제시스템(150)의 펌프 관제 서버(51)의 연산을 통해 모니터(52)에 점수를 디스플레이하도록 형성된 분사식 노즐조절 전자제어펌프의 소방방재 제어장치 일체와, 미래의 기계문명을 향상하는 철광석 그 외 망간 단괴(909) 일체를 채집하도록 구성하고;
굴착채취용 회전축(198)에 공 압 식 운송장비의 흡입채집기계(911)와, 해저광물채취 로봇(912)과, 뜰채바스켓(842)에 광물채집 뚜 레 박 (924)과 해저탐사 렌즈유리용 수중조명등(843)에 해저광물자원 탐색장비용 탐조등(232)과 감지센서 일체와 전자제어장치 밸브 일체에 원유시추용 로터리테이블의 드릴 링 머 신(908)과, 대형 수력발전기 또는 수차발전기(213)와 프란시스 수차(229)와 펠 톤 수차(230)와 그 외 탑재 형성 작동시켜 연결된 지진해일방재용 부양식독장치 본체(1) 내부로 지진해일피해방지장치(811)로 방재 공정이 형성된 교통장치의 교각다리기둥(928) 및 해양 터널 교통장치(941)를 구비하는 구성은 종전과 대동소이하다.
도 65 내지 도 81에 도시한 바와 같이,상기 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 방재설비로 구성하는 방재 공정이 형성된 필터(262)는 연료탱크로부터 공급되는 가스연료에 포함된 이물질들이 여과되도록 하여 순수한 연료만이 공급될 수 있도록 하되, 공기압축기(80) 작동시 에어 흡입구에도 이물질 차단토록 필터(262) 마개와 오일로 된 오일냉각기(182)로 설치할 수 있도록 하며 펌프 격리밸브(5)는 스위치 버턴을 온(O N)하면 개방되고 오프(off)되면 차단되도록 구성되면서 동시에 레귤레이트(136)는 상기 격리 밸브(5)을 통해 유도되는 고압의 연료를 일정한 압력으로 유지되도록 감압시키게 되며,
저압차단밸브(83)에서는 지나치게 압력이 낮아지게 되면 연료공급이 차단되도록 구성되면서 동시에 믹서(73)는 저압차단밸브(83)를 통해 유입되는 연료 또는 해저저층의 천연가스(922) 또는 원유(841)와 화학물질(930)과 외부의 흡기계인 터어빈 펌프(140)를 통해 유도되는 엔진제어모듈(627)의 레귤레이터(136)측의 연료압력 상태를 체크하여 연료공급 상태가 비정상적이면 경고수단을 작동시키면서 연료 및 방재물질의 공급 자체가 중단되도록 하는 것이되고,
지주탱크 상단의 바지선 선체(591) 갑판데크 상단부에 무재해 지구촌에 경제에너지를 공급할 수 있게 일정량의 전력이 지진해일방재용 부양식독장치 본체(1) 내부로 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 지진해일방재용 부양식독장치로 구성하는 방재 공정이 형성된 변전소의 전력 조절용 변압기(96)에 의해 지진해일방재용 부양식독장치로 공급된다.
도 65 내지 도 81에 도시한 바와 같이,상기 지진해일방재용 부양식독장치 본체(1) 내부로 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 방재설비로 구성하는 대형의 해양발전소 부양식독(595) 상단부 다수개의 방재노즐(10) 및 노즐 틈새(15)는 자연적인 수압으로도 북극(N P)과 남극(S P) 적도전선(E P)으로 배관 연결들로 구성됨으로써, 분사노즐(10) 토출 부위 낙하 분사수(38) 또는 물막(39)으로 토출되는데 지주탱크 상단 바지선 선체(591) 갑판데크 측면부 위치로 위치하는 다수개의 시이소(935) 크레인붐대(등 변산 형 강과 소형 관으로 형성된 붐 대 길이 최저 15K M와 최대길이 20K M 붐 대, 651) 상부로는 분사노즐(10)로 방재수는 토출 분사 수(38)가 분출되게 해수면 상단 10k m 이상 위치에서 수직하강기류(찬 공기덩어리인 태풍의 씨앗,926) 흡입할 수 있는 호퍼 닥터 벤츄레이션(흡입구a, 배출구b ; 585)를 부착하고 갑판 데 크 하부의 붐 대(651)에는 붐 대 물체의 하중균형을 이루게 크레인 붐 대 레벨 유지 웨 이 트(107)로 와이어로프(19)와 가이드레일(618)에 형성시켜 조절할 수 있게 마련하고 붐 대 최저위치에는 수격펌프(무동력펌프, 393)에 상기 펌프(393) 상부의 붐 대 원둘레면을 따라 다수개의 레 듀 샤(35)로 형성된 도입 관(191)이 형성된 후에는 양수관(89)을 설치하고 상기 양수 관 둘레 면을 따라 공기배관라인(181)이 닥터 벤츄레이션(585) 호퍼와 연결되어 공기 압축기(80)에 연결된 가열 팬(642)과 냉각팬(641)으로 생성된 공기압 공급조절로 대류의 흐름을 조절하여 지구의 온난화 방지와 진로를 변경시켜 지구촌의 육지로는 피해 없게 하는 것인데 이러한 해양도시 건설 또는 국가간의 교통수단의 해저 해상 통로 및 교량 건설 사업의 견인차 기능의 초석이 마련되면서 현재 지구는 타원체로서 적도 부위의 섬나라 땅은 지구온난화로 인해 그대로 방치함으로써 대재앙이 도래하게 된다는 점에서 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 여러 개의 자연 재해의 사전 방지를 하기 위해 방재설비로 구성하는 지진해일방재용 부양식독장치가 형성된 곳에서는 함몰되는 섬나라 땅의 구재대책으로 선택할 수 있다.
상기한 바와 같이 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 여러 개의 자연 재해의 사전 방지를 하기 위해 황사방재설비로 구성하는 해양수력발전소 몸체 내부에는 해저유전을 파는 원유시추선의 하반부는 물속에 가라앉아서 부표구실을 한다는 점의 종전의 기술수준인데 이렇게 부표역할은 원유시추선에 한정되지 않고 일반선박이 항해도중 풍랑에 의해 난파선 또는 침몰선박이 되기 때문에 해수면 하단 100m 지점에는 파도의 영향이 적으므로 부양식독 자체의 하중을 분산시켜 안정되기 때문에 물체의 안전도를 감안해서 일반선박이래도 태풍과 풍랑을 만나서 침몰 되지 않으려면 태풍과 풍랑에서 잠깐 물속으로 잠수하면서 동시에 수개의 콘 테이너(132) 크기의 고무풍선(914)은 지진해일방재용 부양식독장치 본체(1) 내부로 구성된 공기 압축실(402)로 선체에 부착하여 지속적으로 사용하게 된다.
도 65 내지 도 81에 도시한 바와 같이,지진해일방재용 부양식독장치는 상기 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기위해 방재설비로 구성하는 조절축의 분배축에 구성하는 입 형 다단펌프(8)는,입형 다단펌프(8)의 내부와 외부로 구성된 수개의 격리 밸브(5)와 역지 밸브(6)에 유체의 압력과 유량제어와 유량방향조절의 전자제어방식의 밸브 일체와, 상기 전자제어방식의 밸브 제어센서와 제1압력감지센서(86)에 제2압력감지센서(87)와, 방재물질 일체를 배관 내부에서 유동을 단속하게 되는 센서 스위치 일체와, 불연성가스(164)에 탄산가스(174) 소화기(124)와 황토(158)에 방화사(159)와 핼륨 가스 (176)를 저장하는 가스통(171)과 수개의 집수정 탱크(34)와 수개의 압력탱크 (189)에 수개의 저수조탱크(295)와 고수조 탱크(295) 각개로 밀폐형의 탱크 상부로는 맨홀 덮개(153)와 해치카버(154) 각개로 수개의 탱크 맨홀에 볼트(24) 나사 탭(167)에 상기 뚜껑(153) 가공홀(20)에 가스켓트(32)를 부착한 후 볼트를 수 공구 몽 키 스패너를 구비하여 고정하고 산봉우리 산정상 아래 각부능선의 계단식 개방형과 유동형에 수개의 수조탱크(295)는 비닐팩 또는 천막텐트(43)와 상기 텐트(43)와 함께 이동설치 가능하게 발화 감지노끈(41)에 비 발화물질철사(178)로 상기 철사(178)는 비닐 팩 또는 천막텐트 중심부위와 비닐 팩 마디 부위로 결속 후 텐트고정형 프레임에 매달아 고정하고 텐트 모서리 부위로 상기 노끈(41)을 각기 4곳에 8곳으로 각기 형성된 상기 수개의 탱크에 대체되는 산 높이에 따라 각부능선으로 수개의 비닐팩 수조탱크(295)로 설치한 후 수개의 압력탱크(189)와 수개의 집수정 탱크(34)의 내부와 외부로 소방방재 배관라인(168)과 소방관 노즐(10)의 상기 관 노즐(10) 이동형은 표준형 소방호스(9) 규격에 따라 기본 1형과 기본 2형으로 구분하여 플랜지(28) 접합 소방관 노즐과 카플링(29) 접합부 소방관 노즐로 연결된 상기한 관노즐(10)은 소방케이블 카아(256)에 다수개의 이동형 관 노즐 소방센서 펌프들로 갖추면서 지진해일방재용 부양식독장치 본체(1)의 내부에 해양수력발전소에서 다수 개의 발전기 생산전력(685)을 우선 분배축으로 공급을 수행하게 되어 조절축에 구성하는 동력전달장치(811d)는 관교량(937) 해양터널 교통장치(941) 내부의 전동차(771)가 시속 100km 내지300km로 지속적으로 운행할 수 있도록 구성되어 있다.
도 65 내지 도 81에 도시한 바와 같이,상기 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 지진해일방재용 부양식독장치로 구성하는 태풍을 잠재우게 조절축에 구성하는 수격펌프(393)는,
동력펌프에 압축기 없이 유체의 위치에너지를 구비하여 높은 위치의 물을 흘러보내다가 급격히 패쇄 시킬 때 고압이 발생하는 수격작용(389)의 워터 햄머 방식으로 구성하며 발전소 터빈(267)의 상면에 위치하는 도입관으로 유입된 헤드 탱크(189)와 동일하게 위치에너지를 조절하게 형성된 각부능선의 헤드탱크(189) 하단에는 수개의 도입관(191)으로 구비해 계곡의 샘 하부의 설치위치 각개로 구성된 수개의 집수정 탱크(34)에 도입관을 설치 후 집수정 탱크(34) 상단에 구성된 고압 볼 탱크(303)의 하단과 집수정 탱크(34) 상단 접합부의 책 밸브(453) 개보수를 간단히 하도록 플랜지(28) 분해조립을 수공구로 갖추면서 동시에 해양에서는 시이소(935) 크레인 붐대(651)에 상기 수격펌프(393)는 해수면(SLL) 하부의 크레인 붐대(651)에 부착시켜 해수면에서 수격작용(389)으로 구비해 해수면 상단부(SLU) 수 km 상공으로 양수 후 노즐(10)로 유량을 분출하면서 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치를 지구촌에 제공을 선택할 수 있다.
공조시스템의 장비로 방재 선 내부에 설치되는 엔진가동에 관한 내부설명은 이하 생략하며,이에 본 발명자는 과거 원유시추선 열 척을 제작으로 구성된 선박 등급을 확정하는 해양선박안전 시스템의 테스트 요원으로 차출되어 원유시추선 상단 및 하단을 구석구석으로 장비의 안전을 점검을 확인하여 각개의 생산부서 담당자에게 결함을 지적하여 외국기술진과 국내기술진의 유대를 돈독히 한바 있으며 이 같은 경험에 따른 본 발명의 장비들은 안전에 의한 안전제어수단이 구비된 분사노즐(10)과 노즐호스(9)의 연결 부위의 중간에 설치되는 분사노즐에서 분출되는 공기압 및 분사수로 태풍의 씨앗을 사전에 제거하는 지구촌의 일기 예보에 따른 수해조절설비의 물 저장탱크와 해양터널 교통장치에 해양수력 발전 댐 건설기계를 구비한 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치이다.
상기 지진해일방재용 부양식독장치 본체(1) 내부로 황사방재 공정이 형성된 유해적조 발생원인과 황사의 발생원인에 따른 대책을 상술한 바와 같이 무엇보다 시급한 것은 발등에 불이 붙어 있는 상태로 고통받는 부분인 화재로부터의 발생과 이에 대한 원인을 규명키로 한다.
상기 지진해일방재용 부양식독장치 본체(1) 내부로 구성하는 지진해일피해방지장치(811)는 산불, 황사, 폭설, 폭서, 태풍, 홍수와 가뭄, 산사태 등의 자연 재해의 사전 방지를 하기 위해 지진해일방재용 부양식독장치로 구성하는 방재 공정이 형성된 분사노즐은 종래의 표준형 분사노즐 보 다 더 많은 방수량을 더 멀리, 더 빠르게 더 많이 더 높은 곳에서 방재물질을 토 출 되는 것으로 종래의 분사노즐과 현격한 차이이며, 다수개의 무동력의 수격펌프(393)의 양정 거리가 도입관(191)과 취수구와 50배 양수관(89) 양정인데 이에 분사노즐은 소형의 배관(14)으로 방재호스와 연결하고 고압입형 다단 펌프(8)의 배관후미로 연결되는 분사노즐(10)에 수송장비 탑재용 분사노즐(10)과 방재호스 연결마디 연결접합부 중간에 설치되는 분사노즐(10)인데 노즐 지지대 프레임(11)과 갈고리(13)에 훅크(18)와 와이어로프(19)에 충격 완 와 용의 스프링(186)과 갈고리 결합용 러 그(21)에 안전핀용 샤 클(29)과 볼트(24)에 너트(25)와 와 샤(26)에 마개용의 철망 또는 플랜지(28)를 구비하여 통신수단의 단말기 휴대폰과 수송장비 엔진에 의한 고성능 수중펌프(36)와 고압 입형 다단펌프 제어장치 시스템을 포함한 것을 지진해일방재용 부양식독장치 본체(1) 내부로 지진해일피해방지장치(811)로 구비해 지진해일방재 공정이 구성된다.
도 65 내지 도 84에 도시한 바와 같이,본 발명은 물 저장탱크를 포함하는 인명구조와 조난선박을 구조하는 지진해일방재용 부양식독장치를 지구촌에 제공한다.Preferably, in the distribution and dispensing device for tsunami disaster prevention,
The tsunami buoyancy reading device for tsunami prevention is at the bottom of the barge hull 591 at the top of the holding tank at the upper end of the sea level (SLU) exposed at sea level (SLL) and the dual structure post block tank 590 at the bottom of the lower end of the sea level (SLD). The barge hulls 592 at the bottom of the holding tanks located at the bottom of the pier are configured to be combined on both sides by a dual structure holding block tank 590 and a portable lug 607 for disassembling and combining each block tank hull. A flotation reading device for tsunami disaster prevention to rescue life-saving components and a ship in distress is formed;
The tsunami disaster prevention buoyancy reading device is configured to be connected to a marine tunnel transportation device and an offshore hydro power plant;
The double structure block tank of the floating reading device is a holding tank and an inner block tank, and the outer block tank has an inner wall and an outer wall of each tank. is 150mm, the pin connection shaft is connected to the portable lug, and the processing hole of the connection pin connection shaft has a diameter ∮300mm, the length of the portable lug pin is 500mm, the pin thickness is 2mm, and the pin body diameter is 10∮mm. while forming a double-structured block tank constituting a buoyancy-reading device for tsunami disaster prevention that rescues lives and ships in distress by disassembling and coupling with a nut at the screw thread position machined with the end of the pin connection shaft;
The double structure block tank is a barge hull 591 at the top of the holding tank formed by a band jig 621 mounted on a semi-submersible work ship 637 transferred to the tug 636. The volume of the barge hull 591 is horizontal 600M, and the vertical is 800M, the height is 40M, is provided with a steel plate thickness of 18mm, and the volume of the barge hull (592) at the bottom of the holding tank is 15M in the width and 15M in the length of the volume of the pipe bridge, the diameter of the four corners is π15M, and the thickness is 24mm , and the production unit is provided with a volume of 1Km and is individually coupled to the outer block tank composed of the circumference of the holding tank and the inner block tank. The medium-sized offshore power plant floating dock is 2Km wide, 3.2Km long, and 2Km high, and the large-sized offshore power plant floating dock is 10Km wide, 10Km long, and 10Km high so that it can be installed and operated according to the depth of the ocean. construct a flotation reading device for tsunami disaster prevention to rescue life and rescue ships in distress;
The floating food poisoning device is a portable lug pin 608 is fastened with a bolt nut in the processing hole of the lug connection shaft, and at the same time, the lug pin 608 is not separated from the lug pin 608. The pedestal control mechanism of the Zakky bed (616) and the core drill are equipped with a hole-cutting excavation drill device with a diameter of 350Ø or 400Ø. to construct a buoyancy-reading device for tsunami disaster prevention that is assembled and equipped at sea by
The spray nozzle connected to the fire pump constituting the buoyancy reading device is the upper deck deck at the top of the barge hull at the top of the holding tank and the deck deck at the bottom of the barge hull at the bottom of the holding tank. In the spray nozzle, the nozzle hole diameter is 3mm to 5mm, and the number of nozzles is 70 places and 7-nozzle gaps in the form of radiation and 490 nozzle holes. A plurality of jet nozzles that control the flow of tsunami while removing multiple fire pillars at the same time as the jet water and curtain curtain are discharged through the gap between the jet nozzles are coupled to the fire hose and inside the body of the tsunami buoyancy poisoning device for tsunami disaster prevention A disaster interception prevention control device configured to achieve tsunami disaster control, comprising: a lifesaving device configured to achieve damage prevention;
The decomposition of the double structure block tank hull of the floating reading device is,
The lug connection shaft disassembly coupling nut 604 coupled to the bolt thread 603a of the lug connection shaft bolt 603 is provided on the nut thread 603b, and the lug processing hole 615 is inserted into the bolt 603. Fasten with a nut 604, and when combining the block tank hull, first insert it into one lug processing hole 615 and fasten the bolt 603 with the nut 604. The barge hull 591 and the barge hull 592 at the bottom of the holding tank of the holding tank of the floating aquaculture device by inserting it into the hole 615 and fastening it with a nut 604 to the bolt 603 and fixing it with a lug pin 608 are A butterfly valve 622 and a hydraulic cylinder for buoyancy control of a hydraulic rotary cylinder 620 of a rack & pinion type-(NRP) rotary cylinder and a band jig 621 provided with buoyancy reading devices for tsunami disaster prevention or Equipped with a door 624 for a hydraulic cylinder on the hydraulic jack 623, a portable lug 607 and a portable lug pin 608 to the vertical bulkhead 605 and the portable lug coupling pin connection shaft 606. The pier 928 and the pipe to the drilling machine 908 for oil drilling consisting of the processing hole 615 of the joint part and the construction machine connection structure pier 928 and the pipe bridge 937 and the interior of the offshore tunnel transportation device 941 The bridge 937 is connected to the internal trains 771 of the marine tunnel transport device to the inside of the marine tunnel transport device 941 to form the block tank hull disassembly and coupling of the floating fish tank body (1). ) is provided inside and constitutes a flotation reading device for tsunami disaster prevention to rescue life and rescue ships in distress;
The flotation poisoning device has a tsunami damage connected to a construction machine crane and a conveyor and an electronic control device on the upper part of the floating dock deck deck in the barge hull 591 at the top of the holding tank of the upper part of the sea level (SLU) exposed at sea level (SLL). The pumping operation device included in the prevention device and the power transmission device that transmits power to the construction machine traffic transport device and the electric power production/manufacturing device are used for facility safety control management. For tsunami disaster prevention so as to form a combination with the barge hull 592 at the bottom of the holding tank located at the bottom of the pier double structure post block tank 590 at the bottom of the sea level (SLD) provided with screw adjustment devices in the mooring device of the floating dock hull. It is provided in the body (1) of the floating reading device body (1) to construct a tsunami reading device for disaster prevention that saves lives and rescues a ship in distress;
The floating docking device is equipped with floating docks of small, medium, and large offshore hydroelectric power plants to prepare apartment buildings and individual houses at a height of 40m above sea level, and to suppress casualties before and after tsunami. In the vicinity of the beach and the beach, a rope net and safety tube formed in layers for saving lives are installed, and roads, playgrounds, apartments and buildings are provided on the top 40 m above sea level to form a living ground. ) In order to suppress the casualties inside, the cable car 256 and the floating docking deck deck are equipped with ropes and safety tubes to configure the floating docking device to rescue the lives and rescue the ship in distress;
In the floating food poisoning device, an apartment building that can accommodate 1500 households and a temporary shelter for ships drifting in the sea are provided in the apartment building. ) and a fire hose are provided inside the main body (1) of the tsunami disaster prevention buoyancy reading device to configure the tsunami disaster prevention flotation reading device for saving lives and ships in distress;
According to the long-term weather forecast provided by the artificial satellite, the floating fish tank is equipped with a safety pulley and a wire rope on the lifeboat connected to the upper part of the sea level at a height of 40 m without any reason, such as a coastal beach, to prevent a single casualty from occurring. The device is provided to the global village, and the hydroelectric power plant is provided inside the main body (1) of the tsunami prevention flotation anti-quadrant in the upper 40 m high terrain at the top of the sea level, and constitutes a tsunami tsunami prevention flotation poisoning system to save lives and rescue ships in distress;
The buoyancy reading device is separated and coupled to the electronic control control device and screw control device 818 of the dam provided in the tsunami damage prevention device 811, and a lifesaving structure consisting of the inside of the body 1 of the tsunami disaster prevention device. And in the flotation reading device for tsunami disaster prevention that rescues ships in distress,
With the tsunami damage prevention device 811, the hull position movement pumping operation device 812, and the power production control power production and manufacturing device 813. Construction machinery traffic transport device 814, power transmission control device 815, facility safety control management electric field device 816, and electronic control control device construction machine control device 817 Floating dock hull mooring device and firefighting device A lifesaving cable car is provided in the pump device, and a tsunami damage prevention device 811 is further provided on the floating dock for height adjustment. A device for improving the overcoming of tsunami damage prevention, which is provided with an interconnection structure and is composed of the main body (1) of the floating reading device for tsunami disaster prevention;
It is preferable to consist of
Preferably, The tsunami damage prevention device 811 for forming a tsunami reading device for tsunami prevention that is configured inside the body (1) of the tsunami disaster prevention device,
In the hull position movement pumping operation device 812 and offshore hydro power generation power production control power production and manufacturing device 813, the traffic transport device 814 and the power transmission control device 815 of the construction machinery are harmful to the equipment safety control management battlefield The device 816 and the electronic control control device construction machinery control device 817 are separated and combined with the electronic control control device screw control device 818 of the dam and the floating fish dock hull mooring device, and mutually coupled to the tsunami disaster prevention device for floating fish tanks. It is composed of a buoyancy-reading device for tsunami disaster prevention that saves lives and rescues ships in distress;
In the hull position movement pumping operation device 812 of the tsunami anti-seismic flotation read-out device for tsunami disaster prevention consisting of the body (1) inside the body,
Hydroelectric power plant diesel engine and electric motor pump for supplying generator production power to each compressor and pump. Control of hull position movement of offshore hydro power plant and floating dock (593,594,595) composed of the upper part (SDU) of the dock hull deck of the offshore power plant. In order to do this, the barge hull (591) at the top of the holding tank of the floating dock and the barge hull (592) at the bottom of the holding tank are combined with the block pipe (598) for the tank and the central holding tank and the auxiliary support pin shaft for coupling and separating the portable lug ( 606) and a portable lug (607), a hydraulic rotary cylinder machine (619) for block tank unit hull disassembly and coupling adjustment device, and a drill lathe rotary cylinder machine for block tank unit hull, which is provided as a construction machine for hull height adjustment at sea and block unit hull In the rack and pinion type cylinder machine (619) of the hydraulic rotary cylinder (620) and the block tank block unit hull disassembly and coupling control device band jig stand (621), the block tank block unit hull ups and downs adjustment device for the ballast butterfly valve (622) and block tank block unit hull unit hull disassembly and coupling control device hydraulic cylinder hydraulic action key (623), block tank hull traffic control device hydraulic cylinder door and block tank block unit hull disassembly and coupling control device hydraulic cylinder machines (624) are The bulldozer 855 and the loader 857 provided as a construction machine are provided as a forklift 858, a dump truck 860, and a trailer to provide a hull position adjustment of the offshore hydro power plant floating dock (593,594,595) hydroelectric power plant (233) A hull position shifting pumping operation device 812 is provided to configure the tsunami disaster prevention buoyancy reading device to save lives and rescue ships in distress;
In the offshore hydroelectric power generation and manufacturing device 813 for generating the power of the tsunami flotation reading device for tsunami disaster prevention composed of the body (1) inside the body,
Francis and Pelton aberration provided inside the body of the hydroelectric power plant showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the dock hull deck of the offshore power plant. A tsunami damage prevention device ( 811) included in the marine hydroelectric power generation control device 813, which is provided as a pump aberration in a turbine and guide vane coupled with a pump aberration to a Francis water wheel and a Pelton aberration into the body of the hydroelectric generator, and is provided with a diesel engine and an electric motor The body (1) for tsunami disaster prevention is equipped with an offshore hydroelectric power generation control device (813) inside the tsunami disaster prevention device to save lives and ships in distress;
In the tsunami disaster prevention floatation reading device body (1), the traffic transport device 814 of the construction machine for the tsunami disaster prevention floating reading device is composed of the inside,
A guide rail (618) for the block tank hull transportation device is laid on the floor inside the marine tunnel transportation device, and it is provided as a train running on the guide rail (618) to save lives and rescue ships in distress. configure the machine's transportation device 814;
In the power transmission control device 815 configured in the offshore hydroelectric power plant of the tsunami disaster prevention floating poisoning device body (1) composed of the inside,
Power transmission control of construction machinery that is provided with transformers 96 to the main switch button 66 and the auxiliary switch button 67 for on/off control of each pump connected to the power wire 71 to save lives and rescue ships in distress The device 815 constitutes a buoyancy-reading device for tsunami disaster prevention;
The tsunami buoyancy anti-seismic system for tsunami prevention consists of the main body (1) inside the tsunami tsunami prevention flotation system is equipped with a disaster prevention facility safety control management electronic device (816) for the prevention and control of harmful tidal waves provided in offshore hydroelectric power plants. constructing a flotation reading device for tsunami disaster prevention that rescues rescue and distressed ships;
By attaching the main switch button 66 for on-off control connected to the power wire 71 and the anode connected to the auxiliary switch button 67 to the outer wall of the shun body, the flotation read-out device for earthquake and tsunami disaster prevention construction machinery to prevent harmful even cut-off A disaster interception facility safety control management electronic device 816 of adjustment is provided, and is configured in a tsunami disaster prevention buoyancy reading device to rescue lives and rescue ships in distress;
Floating reading device for tsunami disaster prevention The floating reading device for tsunami prevention consisting of the main body (1) inside is,
A power supply (46) which is a power supply device connected to the control box (2) of the control panel to provide a construction machine control device (817), an electronic control control device that saves lives and a ship in distress ) and inverter 47, inverter V 48 and access pointer 49, Internet network 50 and monitor 52, ADC 53, and switch input circuit 58, electronic control device MCU (59) and the electronic control device DAC (60), the overcurrent circuit breaker brake (61), the power supply unit (62), the display screen (63), the analog input (64), the digital input (65), and the on/off of each pump Equipped with auxiliary switch button (67) vertical multi-stage pump display input or computer network input (68) current pressure value or set pressure value, pressure set value recognition name plate (69) on the main switch button (66) for control, flotation for tsunami disaster prevention Floating reading device for tsunami disaster prevention composed of the inside of the food poisoning device body (1) It is provided as an electronic control and control device for construction machines and a construction machine control device (817) to operate construction machines that save lives and rescue ships in distress. ;
The hull position movement pumping operation device 812 for saving lives and shipwrecked ships has a dryer 291 and water in an oil separation tank 288 and a gear driver 290 coupled to a thermocouple thermometer switch 103 for a detection sensor. The tank 292 is provided with a sluice gate 293 and vibration alarm devices 300, and the solenoid valve body has a spool packing 560, a pilot 561 and a coil 562 on a cover 558 and a spool 559. On connector (563) and manifold (564) on manifold (565) and on screw bolt (566) on air hose binding hole union coupling (567) and union body binding on coupling (568) in 2-position single (569) and 2-position Double (570), center vertical type (571) and vertical type (572), single (575) and double (576), H (577), eye (578) and J (579), micro switch (580) ) equipped with a tsunami prevention buoyancy anti-seismic system for tsunami prevention by connecting it with construction machinery to understand the dynamics of a tsunami in advance to reduce damage. composed of floating fish reading devices for tsunami disaster prevention;
The floating fish tank hull mooring device for saving lives and rescue boats in the tsunami disaster prevention floating food poisoning device for tsunami disaster prevention composed of the main body (1) inside the tsunami disaster prevention device body (1),
Forming a ship mooring device by winding the chain 640 for the anchor to the crank 248 and the link rod 249 with the chain block 648 and the right inch to the bollard 638 and the anchor 639, and the skewer Using the drill as an excavator (845) for deep-sea excavation equipment to form a ship mooring device,
Forming a ship mooring device using the crank crank (846) for replacing the anchor;
Seismic damage consisting of a ship mooring device using a rock drill (847) and a ship mooring device using the level foundation for piers (851) inside the body (1) of the tsunami prevention device. A one-way disaster buoyancy docking device is equipped with a hull mooring device to save lives and rescue a ship in distress, a device that improves the overcoming of tsunami damage prevention;
It is preferable to consist of
Hereinafter, a description will be given with reference to FIGS. 65 to 85 .
As shown in FIGS. 65 to 85 , the hull position is adjusted by the floating fish tank hull position movement pumping operation device 812 constituting the tsunami damage prevention device 811 inside the main body 1 of the tsunami disaster prevention device. A wrench is provided on the band jig stand 621 and the hand tool hammer installed in the hydraulic cylinder jackki 623 and the hydraulic rotary cylinder 620 having a tsunami disaster prevention process composed of the distribution input device of the large flange coupling bolting connection assembly. prepare,
As the discharge pump and the air compressor 80 are operated, the floating fish dock equipped with the air pressure control device and the water pressure control device inside the block tank repeats diving and surfacing while the portable lug 607 located at the connection part of each block tank processing hole ( 615), insert it into the connecting shaft 606 of the portable lug coupling pin, bind the lug coupling disassembly nut 604 to the lug coupling shaft coupling bolt 603 thread, and insert the portable lug pin 608 into the bolt thread end part processing hole In the event of a hull fire, before the occurrence of harmful tidal waves and typhoons, the pump and air compressor are inserted into the hull and the nut is fixedly coupled to the pin 608 with the pin knurled to form a subsea wiring in the double structure block tank line to supply power to the land. (80) to provide air supply with a cross-shaped flexible high-pressure hose 190 above the sea level and the seabed by operation,
Disaster prevention water of the water pressure inside the pump piping line hose is discharged through the nozzle gap and is discharged as a radial curtain water film, forming a water mountain range, and is composed of a control device for the flow of the updraft (925) and the downdraft (926). Exchange of information on the Internet network (50) that overcomes the crisis economy and peacefully resolves international social disputes while subduing the power of tsunami and preventing global warming, transforming those skilled in the conflict between the parties to the nuclear bomb production equal to the harmful tide into a mood of reconciliation It is equipped with the equipment included in the information providing means transmitted to the unmanned camera 184 to the radio device radar of the artificial satellite 611 of the computer system grafted with the communication means. and the equipment for the infinite happy life of mankind, equipped with a connection structure, and composed of the main body (1) of the floating fish tank for earthquake and tsunami disaster prevention. It is composed of a floating fish reading device for tsunami disaster prevention that rescues the
As shown in FIGS. 65 to 84, it is provided as a pumping operation device 812 for the hull position movement facility for floating aquaculture docks constituting the tsunami damage prevention device 811 inside the body 1 of the floating fish tank for earthquake and tsunami disaster prevention. A blast furnace that produces electricity with eco-friendly, pollution-free energy hydroelectric generators equipped with a tsunami disaster prevention process consisting of a distribution input device for hull positioning, collects seabed mineral resources, and melts iron ore immediately upon collection. While processing manganese nodules (909) in the world, the internal train (771) of the marine tunnel transportation system for supplying and controlling the supply of iron ore, crude oil (841) and pollution-free natural gas (922) to each country in the world consists of a maritime trade volume control device;
In order to establish and organize as a cooperative device for international social and economic development, and to resolve disputes over territorial waters in the global village, all military materials and bomb-making experiments are kept in a designated place at sea and preserved as a management system by the international peacekeeping force, while acquiring seabed resource reserves. According to the performance, after confirming the victory to a country or individual with a lot of points obtained through the unmanned camera 184, a float reading that is displayed on the score conversion monitor 52 is provided,
It is configured so that the pirates dive into the water together with the pirate ship when the engine is operated while the engine propeller 146 and the skewer 147 wings are modified while equipped with a marine pirate eradication and elimination device that appears in unspecified areas of the sea As the close relationship between ignition and disaster prevention materials at the fire site is maintained, all communication equipment of the Internet control system before and after a fire, a plurality of pumps, a pump electronic control device, a high-performance submersible pump (36), and an air compressor (80) and air storage tank and wire rope with multiple frames, mobile transport equipment, helicopters and ad balloons with a connection structure including airships, so the floating fish tank hull position composed of the inside of the body (1) for tsunami disaster prevention A tsunami disaster prevention process consisting of a tsunami disaster prevention buoyancy-reading device for tsunami disaster prevention that is equipped as a moving equipment pumping operation device to control the position of the hull and rescue a ship in distress. Mixing gas and liquid or solid disaster prevention materials quickly and accurately It is provided as a pipe nozzle and is maintained as a solid paraffin nozzle stopper 100 as a nozzle stopper before a fire occurs.
As shown in FIGS. 65 to 84, it is provided as a pumping actuating device 812 for a floating aquaculture dock hull position moving facility configured inside the body 1 for a tsunami disaster prevention. In the event of a fire with a tsunami disaster prevention process that 39) and a plurality of straight and straight-shaped curtain curtains 39, and electronic control composed of vertical and horizontal curtain curtains to prevent any harm to life from death gas 163, dioxins and flame materials that are generated in case of fire. Equipped with a pump and valve connection structure of the device, it is equipped with disaster-free global firefighting and disaster control devices to prevent disasters such as forest fires, yellow sand, heavy snow, heat waves, typhoons, floods, droughts, and landslides that occur on land and at sea. Supplying energy power (685) to the fire and disaster prevention device of the control pump and connecting the upper and lower parts of the deck deck for tsunami disaster prevention. With the device 812, a tsunami disaster prevention process consisting of a distribution input device for hull position control is integrated with the hydroelectric generator of a global marine hydroelectric power plant, and the water intake tank of the barge is replaced with the intake dam of the water intake facility, and Equipped with a non-powered water hammer pump 393, the pumped power generation is composed of a tsunami prevention flotation reading device that rescues lifesaving and distressed ships inside the body 1 of the tsunami disaster prevention flotation reading device.
As shown in FIGS. 65 to 84, the distribution input device of the diving progress preparation operation control control device located inside the main body 1 of the floating fish reading device for earthquake and tsunami prevention is,
In the holding tank upper barge hull 591 and the holding tank lower barge hull 592, the block tank hull disassembled and combined portable lug 607 provided in a horizontal and vertical form coupling structure with each part,
A plurality of lug processing holes (615) and a long hole (616) for a block tank unit hull disassembly and coupling position movement control device are provided to provide a horizontal block tank hull disassembly and coupling portable lug pin connection shaft (606) processing hole (615) and The vertical block tank hull disassembly and coupling portable lug pin connection shaft 606 processing hole 615 is provided with a long hole 616 for the block tank block unit hull disassembly and coupling position movement control device, and the pier combined holding tank 590 connection part and a plurality of lug pin connection shafts 606 bound to a plurality of processing holes 615 provided in each part in the vertical form of the barge hull 591 at the top of each holding tank and the barge hull 592 at the bottom of the holding tank Remove the block tank hull disassembly and coupling portable lug pin connection shaft 606 bound to several lug processing holes 615 to provide a single lug pin connection shaft 606 binding,
The dual structure holding tank 598 by the portable lug pin connection shaft 606 is provided as a distribution and input device for the retention ship 634 to prevent sinking of the salvage vessel of the sunken ship, and is provided as a connection structure that can be disassembled and combined by disassembling and combining the sea level. Inlet (585a) of the block tank block unit hull buoyancy control butterfly valve 622 of the block tank block unit hull buoyancy control of the submersible control device and the doctor ventilation (585) of the submersible control device with a connection structure to each part of the barge hull at the bottom of the connection part after completing the assembly ) and the exhaust port (585b) for the hydraulic cylinder door (624) for the block tank hull traffic control device and the automatic pneumatic valve transport device (916) for the double structure piping line to the stopper iron plate (625) and the engine control power motor control module (106) each Prepare the dive progress preparation operation, prepare the conversion of the horizontal holding tank 590 to the vertical holding tank 590, prepare it for diving proceeding to the bottom of the sea level (SLD), and distribute it to the sinking prevention retention ship 634 Prepared to put in the tsunami disaster prevention flotation docks (594,595 596) that are composed inside the main body (1) of the tsunami disaster prevention buoyancy docks (594,595 596) to make up the tsunami disaster prevention flotation docks to save lives and rescue ships in distress. is composed
A motor body 192 on a distribution shaft of an adjustment shaft constituting the inside of the body 1 of the tsunami reading device body 1, and a center of a rotation shaft 198 formed on the horizontal center line (MBCL) of the motor body 192 A pump having an impeller 148 and a guide vane 142 attached to both outer surfaces of the impeller 143 as a circumferential surface portion, and a piston 127 attached to the rotary shaft 198 to a pump to which the vane 142 is not attached. ) The main valve on the side of the pump waterwheel 264 located below the generator of the power plant composed of the pump and the generator 213 integrated into the power plant, and the balance nozzle and the turbine 267 inside the Pelton waterwheel 230 on the Francis waterwheel. In 140, the plunger pump 198 and the high-pressure piston pump 127 in the propeller pump 146 and the viscous pump 343, each pump integrally with the rotating shaft 198 inside each pump body casing 141 is separated Possibly, several power motors 198 and several microcomputer-controlled vertical multistage pumps 8 are formed inside the main body 1 of the tsunami disaster prevention flotation reading device, so that the conventional oil drilling vessel is used as an anchor. In the present invention, unlike working in the continental shelf area within 200 m of water depth after fixing the hull, in the present invention, the hull is fixed with the anchor crank (846) for replacing the anchor in the 10 km seabed area. It is a marked difference from
As shown in FIGS. 65 to 84, the holding tank 590 provided in a connection structure with the tank for buoyancy control configured in the main body 1 of the buoyancy control device for earthquake and tsunami disaster prevention is equipped with a double structure block tank 598. The inner block tank (596) and the outer block tank (599) for buoyancy control in the empty space of the tank buoyancy dock (593,594,595) In the outer portion located outside the lug 607, the coupling shaft 606 and the lug pin (608) Equipped with an offshore tunnel transportation device (941), the floating docks (593,594,595) of the marine hydroelectric power plant are the same as the device that unfolds the table-top table legs to close and the barge hull is,
Since it is equivalent to the tabletop table and the tabletop leg is equivalent to the holding tank 590 of the barge hull, the tabletop table provides an operation of retracting and unfolding the tabletop leg freely by manpower, so that the holding tank of the barge hull ( 590) is provided with doors 624 for hydraulic cylinders in the hydraulic rotary cylinder 620 and the hydraulic cylinder 623 for the operation of freely closing and unfolding the buoyancy control butterfly valve ( 622) and the opening of the butterfly valve 622 for buoyancy control with a connection structure to the solenoid valve 76, the main switch button 66 for the solenoid valve start switch button is on-time by providing the operation of the main switch button 66 The barge hull 591 at the top of the holding tank and the barge hull 592 at the bottom of the holding tank are combined in a holding tank 590 connection structure to the sea level upper end (SLU) position to provide the barge hull with the barge hull. The sea level upper part (SLU) provided with a coupling connection structure on one side of both sides of the holding tank 590 equipped with the block tank coupling portable lug 607 of the barge hull while at the same time providing an installation operation of freely closing and unfolding the holding tank 590 of the sea level ) and the solenoid valve (76) start switch to open the buoyancy control butterfly valve 622 and the solenoid valve 76 with the connection structure to the buoyancy control butterfly valve 622 and the solenoid valve 76 provided in connection with the tank for buoyancy control of the barge hull. On-time of the main switch button for the button provides the main switch button (66) operation,
By the operation of the hydraulic cylinder 623 in the empty space for diving control on the hull of the barge, the doors 624 for the hydraulic cylinder are opened and the electrolyzed water is filled in the empty space for controlling the dive, and the hull of the barge is first slowly submerged into the water while losing its buoyancy, and the barge A single vertical lug 21 on both sides of the holding tank 590 equipped with a block tank coupling portable lug 607 of the hull is a single vertical processing hole part on one side of the lug coupling pin connection shaft 606 and the connection structure By the operation of the hydraulic rotary cylinder 620 and the hydraulic cylinder 623, the doors 624 for the hydraulic cylinder constitute a full close,
The horizontal state of the connecting shaft bow position with the connecting structure on one side of the single vertical lug 607 with the barge hull and the lug 607 in a state where the holding tank 590 and the pipe pier 928 in the horizontal state do not lose buoyancy. As the holding tank 590 is slowly submerged simultaneously with the barge hull into the water at the position of the connecting shaft portion, the lower barge hull 592 of the holding tank is seated on the seabed and each holding tank 590 is not connected to the barge hull. The unit provides vertical position movement control in a vertical state at the top of the sea level, and each holding tank 590 that is not connected to the barge hull and the barge hull 591 at the top of the holding tank. Distributing and dispensing device connection structure is provided at the position of the connecting shaft stern of each holding tank 590 and the barge hull 591 at the top of the holding tank with position movement control in a vertical state at the top of the sea level in a state where the position movement adjustment is completed. Distributing input of construction machinery and marine tunnel transportation equipment for submarines and semi-worked submersibles (637), barges and tugs (636) to prevent sinking of the lifting ships The automatic manufacturing connection structure of fixing and releasing the mooring device is configured by putting the device position movement control device and the upside down control device;
In order to establish the foundation for manufacturing and installation of anti-sink floating dock, the distribution and input device of the construction machinery and all marine tunnel transportation equipment is put in the position movement control device and the up and down control device to form a distribution and input device for the floating fish dock (593,594,595) of the marine hydroelectric power plant, The holding tank 590 of the barge hull of the combined connection structure on one side of both sides of the holding tank equipped with the block tank combination portable lugs 607 of the barge hull provided in the ocean The entire buoyancy control device in the body of the barge hull corresponds to the table leg. Distributing for tsunami disaster prevention that consists of offshore hydroelectric power plant floating docks (593,594,595) prepared as a holding block tank that can adjust the position of the hull at a constant angle from 0° to 350° vertically and horizontally. A plurality of inner block tanks (596) to the inside of the hull deck center (SDM) of a barge hull (591) of an offshore hydro power plant, which is provided as the main body of the input device to overcome natural disasters sequentially and relieve anxiety for the people with peace of mind The power transmission control unit 815 that transmits hydraulic power facility power to both sides of the bow and stern of the dual structure barge hull 591 at the top of the holding tank 590 is provided separately to provide the insertion of each adjustment shaft. The guide rail 618 is installed on the left and right sides of the deck deck to the upper end (SDU) position, and a crane 861 with a capacity of 5000 tons is formed on the guide rail 618 while providing a moving installation inside the barge hull,
In order to repair the hydraulic power facility, the double structure large sliding hatch cover 153 is installed in a double and triple safety place where the crane 861 passes, and the hydraulic cylinder 623 on one side of each adjustment shaft is used to position the hull. Equipped with a hydraulic cylinder 623 for adjusting the position of each adjustment shaft provided as a connection structure for controlling Disassembly and coupling of the block tank position movement control device to the holding tank 590 The lug 607 and the lug coupling shaft coupling bolt 603 to the portable lug coupling pin coupling shaft 606 Disassembled nut 604 and a double structure block tank pipe pier 928 of a double structure block tank 598 in an offshore hydro power plant floating dock (593,594,595) equipped with a pumping movable part 812 for a floating dock hull position moving facility that adjusts the position of each adjustment shaft and Dual structure block tank pipe bridge (937) Offshore tunnel transportation device (941) A plurality of distribution shafts for distributing and discharging to a connection structure capable of disassembling and coupling the connecting shaft, and a dual structure barge hull (591) at the top of the holding tank of each adjustment shaft To the inside of the hull deck center (SDM), a connection is made with a connection structure to several inner block tanks (596),
The double structure block tank pipe pier (928) and the double structure block tank pipe bridge ( 937) The perimeter of the small floating fish dock 593 as a connection structure that can be disassembled and coupled to a small floating fish dock 593 constituting a discharge by distributing it to a connection structure capable of disassembling and coupling the connecting shaft of the marine tunnel transportation device 941 The dual structure block tank 598, the hull coupling separation portable lug 607 and the portable lug pin connection shaft 606 of the side part of the surface,
The medium-sized floating dock (594), the hull coupling separation portable lug 607 and the portable lug pin connection shaft 606 located at each point of the side part are hydraulic cylinders 623 with a small floating dock (593) and a medium-sized dock (593). 594) is provided with a coupling, and the hull coupling separation portable lug 607 and the portable lug pin connection shaft 606 located at each point of the side part of the medium-sized floating dock 594 are hydraulic cylinders 623 to the large floating dock 595. ) The hull coupling separation portable lug 607 and portable lug pin connection shaft 606 located at each point of the side part are equipped with a hydraulic cylinder 623 for each diving control separation and coupling, and assembling at sea level while simultaneously moving into the interior of the floating dock. The opening of the butterfly valve 622 for buoyancy control having a structure connecting the suction and discharge of disaster prevention water to the buoyancy control butterfly valve 622 and the solenoid valve 76 is turned on by the solenoid valve 76 and the main switch button for the start switch button. -Operation of the main switch button (66) is provided to open the hydraulic cylinder door (624) by the operation of the hydraulic cylinder (623) in the empty space for diving control on the hull of the barge so that the electrolyzed water fills the empty space for diving control. Constructed on the distribution shaft of the control shaft to rescue life-saving and shipwrecked ships into the interior of the body (1) of the floating fish reading device body (1) for one-way disaster;
The barge hull first slowly dives into the water while losing buoyancy, and a single vertical state processing hole on one side of the holding tank 590 equipped with a portable lug 607 coupled with a block tank of the barge hull. As the pin connection shafts 606 for coupling lugs connect the connection structure by the operation of the hydraulic rotary cylinder 620 and the hydraulic cylinder 623 to the part, the hydraulic cylinder doors 624 are fully closed while the position movement is controlled and submerged. As the process progresses, the hull is exposed above the sea level and the hull is exposed to the sea level, preventing sinking by disassembling and coupling in the sea in units of floating aquaculture block tanks of offshore hydroelectric power plants with lug hinge sockets 613 located in each part of the holding tank 590 Rescue lifesaving and distressed ships by disassembling and combining the floating dock of the offshore hydroelectric power plant fixed to the marine tunnel transportation device (941) as a block tank unit of the floating dock of the offshore hydro power plant and the floating dock of the individually flexible offshore hydro power plant. It is composed of a floating reading device for earthquake and tsunami disaster prevention.
As shown in FIGS. 65 to 84, the double structure block tank 598 of the offshore tunnel transportation device 941 of the offshore hydroelectric power plant floating fish tank comprising the body 1 of the body 1 for earthquake and tsunami disaster prevention is welded with each. By providing a band jig 621 for a marine safety jig at the top of a semi-submersible work ship in the sea to perform the connection assembling, the welding joint method and the flange coupling method, which are the coupling means of the floating dock, are adjusted, and the double structure block tank (598) ) Combined and separated portable lug 607 and portable lug pin connection shaft 606, each pin connection shaft 606 is connected to one place at sea level, and the welding connection line is welded symmetrically to form a double structure block tank (598) For unit offshore work, the jig tool band jig 621 is provided at the top of the semi-submersible work ship 637, and the large flange 614 at the connection position in the double structure block tank 598 unit is combined with the large flange 614 connection connector. The partial combination of the double structure block tank 598 is made up of a line combination with the lever block 123 and the chain block 648, and the band jig 621 and the semi-submersible work ship 637 are the double structure block tank 598. The welding joint and flange connection of the welding machine and bolts are provided with hand tools, and the double structure block tank (598) of the marine tunnel transportation device (941) of the offshore hydroelectric power plant buoyancy dock can be welded to each other and to save life by connecting the flanges. It is composed of a flotation reading device for tsunami disaster prevention that rescues a ship in distress.
The double structure block tank 598 of the offshore hydroelectric power plant floating fish tank and the offshore tunnel transportation device 941 comprising the body (1) of the tsunami disaster prevention device body (1),
At the top of the floating dock at the upper end of the sea level (SUL), at the top of the center of the floating dock, it is a rope or chain wound around the fuselage inside the block pylon 116 that accommodates several emergency stairs (631). ) to compose the block pylon 116, provide a bond in the unit block pylon connection connector processing hole 615 with the lug rotation shaft coupling bolt 603, and secure the lug shaft coupling nut 604 with the block unit block The pylon 116 is configured and the emergency stair 631 is installed around the upper end of the block pylon 116, and the emergency stair 631 is composed of the airship 78 apron position at the upper end of the mooring tower 644, and the lower center of the lower end of the airship apron. In order to protect the safety of objects while distributing the load of the main body (1) of the distribution system for tsunami disaster prevention from wind waves by installing and configuring an elevator (632) on the crane (861) for transporting the low pipe rack The installation position of the marine tunnel transportation device 941 is adjusted to a position of 40M at the lower end of the sea level (SLL) of the marine tunnel transportation device 941 for buoyancy control composed of the body (1) of the buoyancy reading device for earthquake and tsunami disaster prevention.
The distribution and input device for operation of construction machinery as a connecting structure of the main body of the distribution and input device for typhoon disaster prevention,
As a connecting structure of the marine tunnel transportation device 941, it is provided as a connecting structure equipped with a lead tube weight 107 for controlling the diving buoyancy having a connecting structure of the hull's diving position adjustment moving device, and a seabed mineral resource manganese nodule 909 for buoyancy control. ) Replaced with a connecting structure and provided with manganese nodules (909) as a connecting structure of the diving position control moving device of the barge hull, and the buoyancy hull is provided as a connecting structure for adjusting the buoyancy of landing on the seabed,
Offshore power generation facility located as a connecting structure at the upper end of the sea level upper part (SLU) of the floating dock hull deck (SDU) As a crane boom connecting structure of each crane, it is provided as a weight 107 for maintaining the level of the crane boom An offshore hydro power generation power production control device that produces power as a connecting structure that has a connection structure to continuously provide marine hydroelectric power generation with power generation equipment devices is provided inside the body (1) of the tsunami disaster prevention flotation reading device to save lives A tsunami disaster prevention is configured by equipping the structure and the floating dock hull position movement facility control devices 812 to rescue the ship in distress;
As shown in FIGS. 65 to 84, the distribution and input device of the seafloor mineral manganese nodules 909 as a connecting structure configured inside the body 1 of the floating culture reading device for earthquake and tsunami disaster prevention,
In order to pass the plurality of hatch covers 153 provided on the external bulkhead of each part of the barge hull 592 body of the lower holding tank, it is provided as a connection structure with a connection structure to the automatic pneumatic transport device 916 with a dual structure pipe line as a connection structure. The main switch button (66) for the solenoid valve start switch button is connected to the solenoid valve pressure switch of the connection structure solenoid valve (76) and constitutes a connection structure with the butterfly valve (622) for buoyancy control of the submersible control device of the pipeline line. It is provided as a power transmission control device that transmits the power composed inside the main body (1) of the tsunami flotation reading device for earthquake and tsunami disaster prevention that provides a connection structure with the power wire (71) connection structure to the structure to save lives and rescue ships in distress. A connection structure for a floating poisoning device for earthquake and tsunami disaster prevention is constructed.
As shown in FIGS. 65 to 84, the facility safety control management electric device 816 of the distribution shaft configured in the main body 1 of the floating food reading device for earthquake and tsunami disaster prevention is,
A plurality of nozzles 10 connected to the distribution shaft 357 and connected to the power pump 304, the pipe and the fire hose 9 while opening the valve 409 of the intake dam for water stored in the intake dam 680 on the top of the mountain. ) are provided and wire rope (19) on the winch 137 for the sluice control device of the elevator machine room equipped with the reducer 251 and the motor body 192 on each building and the roof of the building throughout the forest of the lower ridges on the mountaintop. is attached to the driving wheel roller 135 at the top of the pylon 116, and then mounted on the cable car 256 with firefighting and disaster prevention countermeasures that replace all fire engines and firefighting helicopters with a fire sensor pump to achieve initial fire extinguishing within 1 second. To overcome tsunami disasters quickly by establishing a connection between the tsunami and tsunami anti-seismic reading devices for elevators equipped with fire-fighting and disaster-prevention lines at the top of the mountain valley that constituted the disaster prevention line and the seaside. In order to control the tsunami damage prevention device 811 received from the power transmission control device with the power supplied from the control device 813 that produces power with the offshore hydro generator, the power pump 304 provides power to the machine room, and the earthquake The tsunami damage prevention device 811 provides disaster prevention facilities to prevent natural disasters such as forest fires, yellow sand, heavy snow, heat waves, typhoons, floods, droughts, and landslides in advance to rescue lives and rescue ships in distress. Equipment safety control management electronic device ( 816).
As shown in FIGS. 65 to 85, the tsunami damage prevention device 811 connected to the distribution shaft 357 configured inside the body 1
The fire protection water 7 constituting the inside of the body 1 of the tsunami buoyancy reading device body 1 is in the shape of 490 round and straight jetted water 38 or curtain water curtain 39 in the shape of the top of the mountain and each of the buildings and buildings. Equipped with eight water curtain curtains 39 at the installation location of the water collecting pump and fire fighting equipment in the elevator machine room, the body load of the fire fighting cable car 256 is distributed by the buoyancy of the ad balloon 77 and the airship 78, A disaster prevention loess mixture that controls the flow of flow in the cable car connection structure, which extends the lifespan and guarantees safety, is ejected through the pipe nozzle 10, causing global forest fires and large fires inside and outside buildings before and after disaster Rapid movement of equipment that has a tsunami disaster prevention process inside the main body (1) of the tsunami disaster prevention flotation reading device that rescues lifesaving and shipwrecked ships by providing fluid movement to achieve wildfire extinguishing within 1 second while preventing the occurrence of a tsunami In order to do this, the fire sensor pump provided in the fire fighting cable car 256 equivalent to the elevator is composed of a facility safety control management electric device 811e configured to achieve tsunami disaster prevention by attaching a plurality of pumps to the fire sensor pump.
The squirrel cage winch 137 for the sluice gate opening/closing device receives the air supplied from the air compressor 80 and expands the air shut-off valve to inject pressure air. It is provided in the fire fighting cab 394, and the pylon 116 of the high and low mountains 395 constitutes a driving wheel roller 135, and the sluice winch 137 for the sluice door opening and closing control device of the rooftop fire fighting cab 394 has The disc brake device 399 serving as a brake is configured while winding the gear and wire rope of the motor rotation transmission 398 to control the speed with the vibration encryption device 396 and the speed control device 397 in the control box 53. The hydraulic cylinder 126, the pneumatic cylinder 126, the electric motor 192, and the switch are all connected to the distribution shaft 357 that is formed inside the body (1) of the tsunami disaster prevention device to prevent tsunami damage. It is composed of a lifesaving device that controls the flow rate and gas flow with the prevention device 811, and a tsunami disaster prevention buoyancy reading device that rescues a ship in distress.
The heat is dispersed to the oil cooler 151 without the internal cooler 170 and the rear cooler 182 in the air compressor 80 that pumps water 50 times the drop consisting of the non-powered water hammer pump 393 and operates reciprocally with the piston. The air tube 130 for lifesaving is composed of a multi-stage screw air compressor 147 connection device,
It is provided with an inlet 269 and an outlet 270 so as to be combined and detached, so that the air tube 130 has a lifesaving basket 42 and a lifesaving bed nozzle 172 with loess 158 and fire-resistant sand 159 ) and a disaster prevention mechanism installed with a vinyl tube for storing pressure air, the non-powered water hammer pump 393 can move the fluid with the air pressure configured in the pressure tank 303 inside the control operation to control the flow of the fall. It is configured to pump 50 times, and it is composed of a check valve (6) and an isolation valve (5) to provide a simple initial extinguishing of the fire at the top of the mountain. It is a system connection device of the pressure control valve provided in the pipe nozzle movable type of the disaster-free firefighting and disaster prevention product with guaranteed function and the valve classified as a flow control valve to the directional control valve. It is connected to the distribution shaft 357 and is a facility safety control management electric device that controls the flow rate and gas flow to constitute a tsunami disaster prevention system.
In the facility safety control management electronic device 816 connected to the distribution shaft 357 constituting the inside of the main body 1 of the tsunami disaster prevention device,
The flow meter 105 for checking the flow rate for checking the amount of water inflow of the detection sensor in which the yellow sand disaster prevention process is formed detects the level of the amount of water in the detection sensor bimetal 102 and the detection sensor thermocouple thermometer switch 103 In order to open and close the valve located in each partial element with the pressure switches 104 that A high-pressure isolation valve is installed in the middle of the pump suction joint flange (28), and the high-pressure shut-off isolation valve (5) is a control operation part of an automatic pneumatic valve that controls the transport of disaster prevention water. Solenoid valve 76 or butterfly type butterfly valve 305 is a generic name for valves operated by the control operation unit signal. At the flange joint site, a machining hole 20 is installed in a fixed size and suitable for the inlet standard in the iron plate 165 for the stopper, and has a filtering function of a filter that catches this material. It passes through the isolation valve (5) and the non-return valve (6) and is connected to the distribution shaft (357) composed of the inside of the main body (1) of the tsunami disaster prevention flotation reading device to save lives and rescue ships in distress to control facility safety. The tsunami disaster prevention that controls the flow rate and the gas flow is configured with the management electric device 816 .
As shown in FIGS. 65 to 85 , the facility safety control and management electronic device 816 connected to the distribution shaft configured in the body 1 of the floating fish reading device for earthquake and tsunami disaster prevention is,
As a connection structure, a plurality of hatch covers 153 and a plurality of fire doors 154 are provided as a connection structure that constitutes an operation that rotates when the hydraulic rotary cylinder 620 for electronic control is turned on by hand pressing the main switch button 142 as a connection structure. ) The connection structure is open, and the mineral resources provided in the subsea mineral collection site are the connection structure located inside the barge hull 592 at the bottom of the holding tank, and the vacuum pump 635 for the transport lifting device in the empty space The connection structure and the power cable 71 When on-time of the main switch button 66 for the start switch button connected to the connection structure is pressed by hand on the main switch button 66, the vacuum pump 635 constitutes a rotating operation, and the barge hull 592 is outside the body Mineral resources prepared at the subsea mineral collection site located at It is composed of a solid connection structure even if it occurs and is connected to the distribution shaft 357 that is configured inside the body (1) of the floating fish reading device for tsunami disaster prevention. A flotation reading device for tsunami disaster prevention that rescues a ship in distress is constructed.
As shown in FIGS. 65 to 84, in the facility safety control management electronic device 816 connected to the distribution shaft 357 configured inside the main body 1 of the floating fish reading device for earthquake and tsunami disaster prevention,
The basket 42 provided in the firefighting cable car 256, which is put into the fire area where the flame is first generated in the event of a fire in which the typhoon disaster prevention process is formed, is a control device that is a temperature sensor at the top of the valve located at the upper end of the ground surface. When the fire is detected, the valve is opened to apply a constant pressure, and the fire water, which has a constant water pressure inside the disaster prevention pipe, passes through the valve opened in the disaster prevention pipe and reaches a number of the spray nozzles 10 in the fire area. The discharge jet water 38 discharged and jetted by a constant water pressure,
A disaster prevention pipe 89 is provided at the lower end of the rear end of the high-pressure vertical multi-stage pump inside the machine room, and it is attached to the emergency valve 84 and the water pressure sensing control pressure reducing valve 85 at the joint connection part of the head tank 189, which is the first starting area of the pipe line. The first pressure check sensor 86, which is a detection sensor that becomes In (89), the distribution shaft ( 357) is connected to the facility safety control management electric device 816 to control the flow rate and gas flow, and a lifesaving device for tsunami disaster prevention that rescues a ship in distress is composed.
The facility safety control management electric device 816 connected to the distribution shaft 357 constituting the inside of the body (1) of the tsunami disaster prevention device for buoyancy is,
It is composed of a flotation reading device for tsunami disaster prevention that regulates the flow rate and gas flow.
After the tsunami disaster prevention process is integrated with the liquid piping line to the gaseous disaster prevention material piping line and the fuel supply piping line, it refers to a nozzle consisting of a hose of a tube nozzle and a piping body in an orderly double tube structure format. The firefighter nozzle 10 is a spray nozzle body (B) detachably assembled into a lower end (C) of the spray nozzle body and an upper end (C) of the spray nozzle body at the upper end of the body. (Width × length × height; 2500 m m × 2500 m m × 2000 m m consisting of a wire rope or a mesh formed of a rope, 42) is installed and the fuel supplied from the gas fuel supply pipe line is installed inside the basket 42 and configured for emergency use;
The torch or burner 173 is attached to the lower part of the ad balloon (Vinyl tent 77) formed in a double structure in a round sphere shape of 10M×10M×10M, and the gas burner 173 for cooking used is unmanned. As the igniter 187 is installed, the outer circumferential surface of the ad balloon is wrapped with a wire rope 19 or rope 131 like a mesh, and the unmanned camera 184 is entered into the ad balloon 77 after being bound to the lower part of the ad balloon together with the nodes of the rope 131. ) is mounted, a meteorological observation device, radiosonde 134, is mounted to observe the weather situation in a more distant place more quickly from a higher position, and the vertical multi-stage pump control system 150 is located under the injection nozzle body (B). A vertical multi-stage pump (8), a disaster prevention piping line (89), a disaster prevention water channel (17) as an integral piece of equipment, a chimney opening (45) and an electronic control system A plurality of valves that control the flow of flow inside the pipe of the communication equipment of the device microcomputer system, the cylinder 138 and the batting winch ( 137), a bed nozzle 172 for lifesaving, a fire hydrant 179, a jig grinder 185, a tube 188, a head tank 189, a high-pressure hose 190, a steel structure, and an impeller inside the pump (143) The entire area where embers, flames, and pillars of fire are generated from other ignition materials and suffocating gases (163) is referred to as the fire sensor pump body. The total lifesaving and initial recovery of the entire lifespan and the initial All equipment of firefighting and disaster prevention industrial products necessary for firefighting are included in the body (1) of the floating food reading device for tsunami disaster prevention.
In the facility safety control management electronic device 816 connected to the distribution shaft 357 constituting the inside of the main body 1 of the tsunami disaster prevention device,
The fire sensor pump with the typhoon disaster prevention process consisting of tsunami prevention that regulates the flow rate and gas flow is first wrapped in KSD 3507 rolled steel for general piping in terms of material, and the connecting coupling connected to the nozzle body is KSD 2331 die-casting. It is composed of aluminum alloy and heat-resistant plastic material flow tube or KSD 3699 hot-rolled stainless steel rod. To supply liquid and gas at the same time to the solenoid solenoid valve and other standardized general hose piping in a double pipe structure according to the size, the size of the pipe nozzle is classified into 7 types, Silver, diameters of 200mm, 180mm, 150mm, 130mm, 100mm, 80mm, and 50mm are manufactured in the following order. Tube nozzle type 2 has a diameter (200×180)mm, (180×150) mm, (150×130)mm, (130×100)mm, (100×80)mm, (80×50)mm, (50×25)mm 14 types of specifications and tube nozzles that are bound to the hose part It is composed of a pipe nozzle of a number of straight and niche processing holes and is composed of a multi-portable deformable shape and standard, and belongs to the classification of each fire. Fires of general combustible materials such as wood, forest, paper and blankets, which are common fires in buildings, and wildfires or large-scale fires in neighborhood living areas are extinguished in the early stages, and human lives are rescued with fire-fighting countermeasures with multiple ad balloons and airships, resulting in numerous disasters As the installation location is sequentially set within a radius of 1200 km from the center of the Korean Peninsula, the distribution and input device of the facility comprising the main body (1) of the tsunami disaster prevention device safety control management electronic unit A disaster-free global village comprising a tsunami disaster prevention process consisting of a flotation reading device for tsunami disaster prevention that controls the flow rate and gas flow through (816) These are fire-fighting and disaster-preventive countermeasures for disaster prevention, and are properly composed of a tsunami buoyancy reading device for lifesaving and tsunami prevention to rescue ships in distress.
The facility safety control management electric device 816 connected to the distribution shaft 357 constituting the inside of the body (1) of the tsunami disaster prevention device for buoyancy is,
The firefighter nozzle 10, which is provided as a tsunami disaster prevention floating reading device that regulates the flow rate and gas flow, and used as a plurality of pipe nozzles inside the offshore power plant, has a thickness of 2 mm or more, and the pipe body is, in the basic type 1 When installing vertically above the height of a utility pole, the nozzle joint is divided into 7 stages, and for the basic type 1 pipe nozzle, the pipe nozzle designation is "No. 100" (234), "No. 90" (235), "No. 75" (236) and "Nominal 65" (237), "Nominal 50" (238), "No. 40" (239) and "Nominal 25" (240), the firefighter nozzle 10 is configured separately;
While the pipe nozzle 10 is attached to an elbow and a T-elbow 44 to a plurality of fire and disaster prevention pipe lines 168 installed along the mountain shape on the mountaintop, the pipe line (diameter; φ350 mm m of vinyl coated flow pipe, 60 ) and "50×40" (245) to "No. ) and "Nominal 40×25" (246), when the firefighter nozzle is configured at a higher position as in the basic type 1, the pipe nozzle is a reducer 35 configured with the above dimensions as the basic type 2 In the normal position of the spray nozzle, a plurality of 8-bar gaps (15) and machining holes (20) constitute an 8-bar nozzle gap from the 7 joint to the flange (28) joint. Nozzle with rope 131 while temporarily binding with nut 25 to shackle 23 and bolt 24 at two places of T-elbow 44, flange processing hole 20, where it is connected to the disaster prevention pipe to be connected (10) Bind the upper part of the body with a rope and pull it up from both sides in the opposite direction to the binding position with the shackle 23, finish fixing with bolts, and dismantle the bound rope 137 while the worker does not climb to the height of the telephone pole without going up to the rope ( 137) while dismantling the safety work, providing a batted winch 37 and installing the spray nozzle 10 with a jig 22 in the form of a sambari, the firefighter nozzle 10 is a 15m fire hose pipe nozzle (10) is connected in multiple pieces and has a length of 3 km at 1 km, 2 km, and each set. It is a device composed of a flotation read-and-read system for tsunami disaster prevention that rescues rescue and distressed ships.
The facility safety control management electric device 816 connected to the distribution shaft 357 constituting the inside of the body (1) of the tsunami disaster prevention device for buoyancy is,
During operation of the high-pressure piston type disaster prevention pump (8) that supplies disaster prevention water (7) to the upper end of the mooring tower, disaster prevention water (7) is supplied to the disaster prevention hose (9) while several seesaws (935) crane boom stand (651) nozzles ( 10) and the disaster prevention nozzle 10 installed in the middle of the connection part of the fire hose and the water supply pipe connection fixed type disaster prevention nozzle 10, respectively, the disaster prevention water is discharged, and the connecting wire rope 19 of the means for supporting the hose and the nozzle and Floating dock with shackle (23) or disaster prevention nozzle connecting flange (28) to the normal position of weather observation equipment ad balloon (77) or radiosonde (134). The rope 19 and the hose of the gas transport means lighter than air are connected to the inside of the disaster prevention hose in a double structure, so that the floating fish tank hull is positioned to achieve a tsunami disaster prevention composed of the inside of the body (1) of the floating fish tank for tsunami disaster prevention. It is composed of a moving equipment pumping operation device (812).
Accordingly, the marine tunnel transportation device 941 and the offshore hydroelectric power plant buoyancy dock (593,594,595) of each adjustment shaft 231 constituting the main body (1) of the tsunami disaster prevention are connected to one side of each of the adjustment shafts ( 231), the ad balloon 77 and the airship 78 equipped with the water damage control process configured to move and disassemble the hull position of the floating dock (593,594,595) of the offshore hydro power plant of 231) have a hose 109 and a high-pressure hose 190 ) for forest fires and large-scale fires, and for forest protection, which is a function of fire and other functions, and for disaster prevention by integrating yellow soil 158 with compressed air generated from an air compressor before and after typhoons and landslides, cold air and hot air are always compressed. Firefighting equipment that separates and separates the air supply and provides an alternative method of fixing with wire rope and frame, and controls disaster prevention materials with the equipment inside the pump fire extinguisher body composed of a double structure according to weather conditions and combines them with the electronic control of communication means An active and passive disaster prevention device is used with distribution and input devices that connect and operate while being integrated into a system, and the mixer part at the rear of the disaster prevention pump is equipped with a carbon dioxide 174 and a gas cylinder 171 as a T-elbow coupling gas inlet. is a powder and compressed liquid gas with a gas cylinder 171 that stores the Halon gas 175 while ensuring the function of initial firefighting at a rate 15 times faster than that of fire-fighting water. It is provided in the pipe line 89 at the rear of the multi-stage pump and uses a normal port injection method. The above port injection method is the same as the method of injecting the injection solution into the internal blood vessels of the human body. The method of configuring the tsunami disaster prevention control device 816 to control the flow rate and gas flow is the same.
On the other hand, in the facility safety control management electric device 816 connected to the distribution shaft 357 constituting the inside of the main body 1 of the tsunami disaster prevention device,
A pressure suction pipe (3) and a discharge pipe (4) to the left and right around the suction port around the impeller (143) inside the protective cover of the vertical multi-stage disaster prevention pump (8) composed of tsunami disaster prevention that regulates the flow rate and gas flow ) combined is called a head tank 189, and the head tank 189 is in a very high pressure state, and the water pressure of the fire protection water rises, and the head tank is compressed to a pressure that can withstand a capacity of 8 liters and 16 bars. When it is stored and a certain pressure is reached, it is a suitable material that can withstand the high pressure provided by a large pipe 14 of a certain size, an elbow and a tee elbow 44 of each of the pump inlet or pump outlet in the front of the head tank. Floating reading device for tsunami disaster prevention, facility safety control management, electronic device (816) to control the flow rate and gas flow, and flotation for tsunami disaster prevention to rescue ships in distress It consists of a food-reading device.
Accordingly, the facility safety control management electric device 816 connected to the distribution shaft 357 configured in the body 1 of the tsunami disaster prevention device is,
The pipe for water supply (14) composed of tsunami disaster control that regulates the flow rate and gas flow is then connected to the disaster prevention pipe (14) for disaster prevention, and then the spray nozzle joint is standard as a reducer (35) attached to the pipe connection For each type of 7 types of standard size formed as a pipe body to control the After manufacturing in the order of specifications of 40×25" (246) to 50×40 (245), the spray nozzle body is connected in the form of an antenna for easy installation. ) is joined or connected as a set in the middle, and it is a disaster prevention nozzle 10 that is connected to the back of the pipe on the floor surface of the machine room. After the pipe connection reducer (35), the pipe (14) of the disaster prevention nozzle body is combined in the order of the pipe connection reducer (35), and the coupling and separation are in the reverse order, but the bolt (24) and nut (25) for connecting the spray nozzle Connect to the flange connection processing hole 20 inside the circumference of the disaster prevention nozzle flange 28 with a washer 26, and a recess formed by a nozzle gap 15 between the flange 28 and the flange 28 in the middle. The nozzle body ( B) is composed of a basic type 2 connection structure.
As shown in FIGS. 65 to 84, in the facility safety control management electronic device 816 connected to the distribution shaft 357 configured inside the main body 1 of the floating fish reading device for earthquake and tsunami disaster prevention,
Adjust the washer (26) to 0.5 mm or 5 mm at the flange and the middle part of the flange, which is composed of a flotation reading device for tsunami disaster prevention that controls the flow rate and gas flow. The water 38 is the radiation curtain water film 39 or the straight jetted water is the control device, the valve and the high-pressure vertical multi-stage pump 8 are operated to quickly and accurately release the fire water faster, more continuously and continuously through the nozzle gap. The discharge jet water 38 discharged to (15) is,
It is characterized in that it is applied to the scope of precautionary measures to prevent the spread of large fires and prevent disasters. A number of airships 78 and ad balloons 77 are mounted above the surface of the ground with the observation equipment of the meteorological observation system on the upper part of the curtain mulch. It is combined with the air hose 109 and the nipple 110 for connection into the nozzle hose while being belted as a disaster prevention device that transports the air generated by the air compressor 80 into the inside of the tube nozzle body of the double structure type. The pipe nozzle, which is installed and guarantees the installation position to discharge the disaster prevention material farther and higher, is a facility safety control and management electronic device included in the tsunami prevention floating poisoning device composed of the main body (1) of the tsunami disaster prevention device. (816) is composed of a lifesaving device that controls the flow rate and gas flow, and a tsunami disaster prevention flotation reading device that rescues a ship in distress.
The power transmission device (811d) of the adjustment shaft configured in the body (1) of the tsunami disaster prevention floating reading device body (1),
The cable car (256) of the high and low mountains (395) and the pipe bridge (937) of the ocean (937) and the marine tunnel transportation system (941) are connected to the continuous power supply (685), and the bottom of the surface (GLL) of the mountain range at the top of the mountain. Anchor bolts ( 133) to provide the fixing of the pylon 116,
While equipped with a drive wheel roller 135 and pulley 256 coupling that combines several wire ropes 19 to the upper part of the pylon, at the same time, the tagua winch 137 is mounted to the lower part of the pylon 116 to the top of the tower and the building. While installing and connecting to each location of the building rooftop firefighting operator's cab 394 of 46) is supplied with power to the distribution input device of the power transmission device through the transformer 96 and utility poles 95 connected by several wires 71, and an electric motor 192 and several air compressors 80 configured with a micro-control function ) by the sensor detection of several solenoid valves, the vinyl composed of several power motors 192 and control modules 106, and the firefighting cable car 256, the pump fire extinguisher 124 integrally attached to the wire rope 19 While equipping the tent 43-type collection well tank 34 with the weight distribution of the fire water 7 inside the fire hose 9, the firefighter nozzle hole 20 and the lifesaving basket 42 at the top of several The ad balloon 77 is equipped with airships 78 and ropes 131 to provide a fire sensor pump, and the voltage 684 of the transformer 96 of the substation is regulated in the global industry and each house in the global village. Power supply is configured from the power transmission device 815 of the control shaft configured inside the main body 1 of the distributing device for tsunami disaster prevention.
As shown in FIGS. 65 to 84, a vertical multi-stage pump ( 8) and the upper end of the diaphragm pump 144, the power motor 198 of the vertical multi-stage pump 8 is attached, and the diaphragm pump 144 is cranked 248 with a rubber or Teflon film 538 on top. After the piston 127 and the cylinder 126 are attached to the crank handle handle formed of ) and the link rod 249, the receiver storage tank 145, the hose 109, and the nipple 110 are formed of the prime mover 80. The intercooler 170 and the gas cylinder 171 for storing and storing disaster prevention materials in the pump fire extinguisher 124 are mounted on the fire cable car 256 in the configured air piping line 181, and combined with a disaster-free firefighting and disaster prevention countermeasures product. Equipped with generators and equipped with generators to control the flow rate and gas flow with the facility safety control management electronic device (816), which is included in the tsunami disaster prevention distribution and input device configured as the inside of the main body (1) of the tsunami disaster prevention device body (1). A tsunami reading device for tsunami disaster prevention, which is provided as a one-way disaster-proof floating-reading device, is connected to the control shaft and the distribution shaft 357 to save lives and rescue ships in distress.
The control shaft constituting the inside of the main body 1 of the distribution and input device for tsunami disaster prevention does not receive power power 46 from several generators 213 or several engine generators 226 of several hydroelectric power plants 267 A non-powered water hammer pump 393 is provided to extinguish a large fire within 1 second and to prevent a number of natural disasters in a distribution shaft 357 configured on the control shaft to prevent a tsunami. .
The tsunami disaster prevention flotation reading device body (1) composed of a water damage control to control the flow rate and gas flow with the facility safety control management electronic device 816 included in the tsunami disaster flotation reading device for internal use The nozzle gap 15 formed around the circumference of the pipe 14 of the body of the nozzle 10 is a straight-line type of multiple water film jetting water 38 to quickly and accurately extinguish the embers 292 and flames 293 slowly. As a shortcut to prevent large-scale fires in advance, the extinguishing of small embers according to the pipe length of the disaster prevention nozzle (10) body is a straight nozzle gap in two places around the pipe circle, such as in the paddy field around high and low mountains and in the arrangement of electric poles on roads and nearby houses. make up;
Therefore, using a large and small pipe made of iron plate, a small pipe is prepared as a disaster prevention water transfer device, and a pipe that is slightly larger than a small pipe is divided in half at the top of the small pipe, and a straight nozzle gap 15 is filled with a bolt and a nut to the pipe length. Connect the piping parts to a length of 4 meters, connect and operate the high-pressure vertical multi-stage pump 8, and check it. The jet water 38 is ejected. According to the nozzle performance result, 20 times Depending on the installation height of the water curtain, the length of installation, the road does not freeze in winter when the weather conditions deteriorate, and the firefighter nozzle is formed after the firefighter nozzle is formed. To improve and remove fog around the surface of the road, widen the field of vision in front of the road for smooth communication of traffic vehicles for safe driving of vehicle drivers to prevent damage in advance and to properly control the water in the valley on rainy days;
Disaster prevention waterways 17 with an inclination angle 91 of each ridge, and disaster prevention waterways with an inclination angle 91 of 1 degree per ridge during drought and water are properly placed and stored around the disaster prevention pipe as a water collecting well. It prevents hail damage on the sandy beach of the resort, cools it on a hot day, and cools it on a hot day. The fog is removed as a means of preventing the loss of grain by preventing the proximity of sparrows and locusts during the autumn harvest season.
Reducing the damage caused by yellow dust in spring For the preservation of large buildings For the preservation of large-scale bridge management, which is a first-class steel structure, the installation in such a wide area is connected to the distribution shaft 357. The power pump 304 of the control dam is equipped with the underground water and loess mixture stored in the storage tank and the control dam, and the sluice valve 409 is opened to discharge a large amount of the loess mixture to the sea to prevent the occurrence of harmful red tides. It is composed of a prevention control for blocking harmful red tides that is configured as the inside of the main body (1) of the floating fish reading device for earthquake and tsunami disaster prevention.
65 to 84, the water stored in the intake dam 680 on the top of the mountain is connected to the distribution shaft 357 constituting the inside of the body (1) of the floating aquaculture device body (1) for earthquake and tsunami disaster prevention, and the valve of the intake dam ( 409) is opened, and a plurality of nozzles 10 connected to the power pump 304, the pipe and the fire hose 9 are provided to form a connection of facilities throughout the forest of the lower ridges of the mountaintop to quickly save lives and save shipwrecked ships. The tsunami damage prevention device 811 that receives the power supplied from the control unit that produces power with an offshore hydroelectric generator to control overcoming with the tsunami disaster prevention buoyancy reading device that rescues the tsunami
The power pump 304 provides electric power to the machine room, and the tsunami damage prevention device 811 provides facilities to prevent natural disasters such as wildfire, yellow sand, heavy snow, heat wave, typhoon, flood and drought, and landslide in advance. When the fire prevention water (7), which is composed of the control shaft of the facility safety control management electric device, is flowed through the inlet pipe (191) to achieve the tsunami disaster prevention composed of the main body (1) of the tsunami disaster prevention floatation system, the number of each ridge line After being stored through the inlet 269 of the head tank 189 of the dog, the fire protection water 7 is installed in the tank 189, the discharge port inlet pipe 191 is installed, the inside of the tank at the inlet 269 of the water collecting tank 34 formed below. At the front, the spring-type safety valve 473 is completely closed by the flow rate, and the pressure rapidly rises into the water collecting tank 34 in which the safety valve 473 is completely closed, and the lift-type check valve 453 is opened and the pressure While pumping the fire protection water discharged from ) configured to pump fire water (7) with internal air pressure,
When the pressure in front of the safety valve 473 is lowered, the safety valve 473 is opened by the force of the spring 186, and the fire water 7 is introduced into the inlet pipe 191 again while repeating the above operation to continuously pump water. The lug 21 and the shaft 198 from the side of the deck deck and the lug 21 from the side of the deck deck side of the floating aquaculture dock of the offshore hydro power plant while being integrally composed of several water hammer pumps 393 of each part of the ridgeline of the water hammer action 389 ), equipped with a boom for tsunami disaster prevention, is provided with position movement control devices on the adjustment shaft that is made up of the main body (1) of the tsunami disaster prevention system, so that the position movement control of the offshore hydroelectric power plant floatation dock (593,594,595) is configured to save life and save lives. The flotation reading device for tsunami disaster prevention that rescues a ship in distress is equipped with an offshore hydroelectric power plant and constitutes power production.
As shown in FIGS. 65 to 84, a disaster prevention nozzle consisting of a tsunami disaster prevention that controls the flow rate and gas flow as a facility safety control management electric device configured inside the body 1 10),
Disaster prevention hose (9), vertical multi-stage pump (8), high-performance submersible pump (36), disaster prevention pipe (14), portable wireless communication terminal (82) of vertical multi-stage pump system, disaster prevention material transport equipment, and pipe nozzle body A switch button for operation control and a switch button 66 for operation of a high-pressure vertical multi-stage pump for spraying fire prevention water according to the weather forecast of the weather station, a vertical multi-stage pump control board 53 and a power source 46 as a power power supply are the above Configure the installation into the vertical multi-stage pump control box (2);
After reconnecting the inverter 47 and the power source 62 with the power wire 80, and installing the power wire 80 with the brake 61 for an overcurrent breaker, use a switch button for on/off control of each pump in the control room and machine room As equipped inside, the method of using disaster prevention equipment is selected in close cooperation with the transport equipment (73) crew, and an emergency valve (84) is used inside the vertical multi-stage pump for high-pressure cutoff isolation valve (5) and non-return valve (6). As a reciprocating pump that is installed by operating a piston and is installed with an isolation valve 5 for high-pressure cut-off with a plunger and a check valve 6 for a non-return check, the plunger pump 148 is easy to use and suitable for earthquakes in the present invention. It is composed of a facility that regulates the flow rate and gas flow by providing a facility safety control management electronic device that is composed of the main body (1) of the tsunami disaster prevention device.
On the other hand, the tsunami disaster prevention buoyancy reading device main body (1) is equipped as a distribution and input device for facility safety control management as an electric device to control the flow of life and tsunami disaster prevention flotation to rescue ships in distress. Disaster prevention nozzle composed of food poisoning device,
Disaster prevention nozzle upper support frame (11), lower support frame (11) and vertical support frame (11) are installed so that they can be separated and combined, and spray nozzle hook (13) and hook hook (18) or hook hook hook frame (11) and hook hook coupling hook processing hole 20 is formed to protect the spray nozzle and nozzle hose, and the wire rope 11 and wire rope knot hook processing hole 20 binds and mounts the spray nozzle and nozzle hose. Used for protection, the connecting hook lug 21 and the connecting hook lug processing hole 20 or the connecting hook safety pin shackle 23 are used to disassemble and combine the spray nozzle and the nozzle hose. Firefighting equipment coupling female threaded body 30 and disaster prevention equipment coupling male threaded body 31 are manufactured and processed internally and externally, and a coupling joint rubber packing 32 is provided in the middle of the female thread. Paraffin plug is attached as a material to replace the packing 32 as a gap in the nozzle to suppress embers and flames in case of fire. Considering this difficult point, it is equipped with a facility safety control management electronic device that is composed of the main body (1) of the floating fish reading device for earthquake and tsunami disaster prevention so as to guide it in a direction that does not damage the environment at least at a low cost to control the flow rate and gas flow. The technology to construct a floating reading device for tsunami disaster prevention is in progress.
As shown in FIGS. 65 to 84, the water stored in the intake dam 680 on the mountaintop connected to the distribution shaft 357 constituting the inside of the body 1 of the buoyancy reading device body 1 for earthquake and tsunami prevention is transferred to the valve ( 409) is opened, a power pump 304, a plurality of nozzles 10 connected to piping and a fire hose 9 are provided, and a tsunami disaster prevention flotation is provided to rescue people and rescue ships in distress throughout the forests of the lower ridges on the mountaintop. food reading device,
The tsunami damage prevention device ( 811),
The tsunami damage prevention device 811 equipped with electric power in the power pump 304 machine room is an earthquake that provides facilities to prevent natural disasters such as forest fire, yellow sand, heavy snow, heat wave, typhoon, flood and drought, and landslide in advance. It consists of a tsunami anti-seismic anti-seismic anti-tsunami reading device that is equipped with a facility safety control and management electronic device 816 that controls the flow rate and gas flow to the inside of the main body (1) for tsunami disaster prevention. The high-pressure vertical multi-stage pump control box (2) inside the machine room connected with the first fire detection string is the detection sensor 104 that checks the fire water level with the low water level on the inner wall of the inner wall of the water collecting well where the tsunami control process is formed. is transmitted to the detection sensor for electronic control that checks the Attached to the inner wall of the water collecting well with a long wire, the pump operates when the ball tab 499 moves downwards, and stops the pump when the position is fixed horizontally. The sensing string 41 is equipped with a tsunami disaster prevention facility at an operating distance of 90° or 120°, and consists of a tsunami disaster prevention buoyancy reading device that saves lives and ships in distress.
In this way, a large-scale tsunami disaster prevention process consisting of a tsunami reading device for tsunami disaster prevention that controls the flow of flow with the facility safety control management electronic device 816 configured inside the main body (1) of the tsunami disaster prevention device Applied when fire extinguishing is impossible, however, connect an air hose thinner and smaller than the disaster prevention hose 9 into the disaster prevention hose 9 of the level applied to the previous industrial site while installing it inside the disaster prevention hose 9 Equipment consisting of the inside of the main body (1) of the tsunami disaster prevention floatation reading device connected to the electric motor of the elevator reducer 251 and the water collecting tank 34 provided on the top of a number of mountains and on the roof of a number of large buildings along with its accessories The safety control management electric device 816 is a feature of the present invention, which is composed of a facility for controlling the flow rate and the flow of gas.
A pipe nozzle movable type composed of a tsunami prevention flotation reading device composed of a facility for controlling the flow rate and gas flow with the facility safety control management electronic device 816 configured inside the main body (1) for the tsunami prevention Disaster prevention materials carbon dioxide and Halon gas are provided inside the firefighting sensor pump, and the safety control room and machine room inside the industrial site constituting the high-pressure vertical multi-stage pump and communication equipment replace the disaster prevention materials carbon dioxide 174 and Halon gas 175 Natural loess or powdered loess 158 as a material is provided with a mixer to mix with disaster prevention water, and at the same time, carbon dioxide 174 and halon gas 175, combined with gas and natural loess 158, the natural ocher 158 is In today's reality, pest control is used by helicopters as a relief device for pest control by spraying and liquid dispersion by ships and helicopters. desirable.
As shown in FIGS. 65 to 84, the floating food reading device for tsunami disaster prevention controls the flow rate and the flow of gas with the disaster interception prevention control device 816 configured inside the main body 1 The pipe body of the firefighter nozzle installed in each location of high and low mountains and valleys, road paddy fields, and neighborhood buildings where the tsunami disaster prevention process consisting of A total length of 2100mm is standardized as possible, and the distance between the pipe nozzles at the connection part of the fire hose is 600mm. The following 70 halls are divided into 498 halls, so the installation location is configured the same as the telephone pole arrangement at intervals of 50m length, and the height is configured to be adjusted according to the shape of the building and forest;
Transport equipment Ad-balloons and unmanned aerial vehicles have a double tube structure hose and pipe body height adjusted to eliminate a number of disasters. Disaster prevention and control combine air and carbon dioxide with oxygen and helium, which are lighter than Halon gas or air. After the fire protection water, solid loess powder, and fire sand were installed, the fire pump and air compressor were operated immediately after the detection of the heat by the sensor, and a large number of jets of water were discharged outside the pipe nozzle. to display scores on the monitor through the operation of the control server of the vertical multi-stage pump control system received from the unmanned camera or mobile service, and the mobile phone terminal. The sensor pump fixes the tagu a winch on the mountain peak of each place and the roof of the building at each place, and releases the disaster prevention material mixed with liquid and gas in solid into a mountain valley or beach road as a single unit with non-combustible gas (non-combustible gas) Gas that does not contain gas) surrounds the combustible material and cuts off the supply of air to prevent combustion, and provides a cooling action to lower the combustion product to a temperature below the ignition point, while the cooling action by spraying water with a hose The flow rate and gas flow are controlled by the facility safety control management electronic device (816) that is composed of the main body (1) of the tsunami disaster prevention floatation reading device body (1) that reliably guarantees lifesaving and early extinguishment from seasonal wildfires and large-scale fires. The main body of the tsunami-free reading device for disaster-free global tsunami disaster prevention by mounting the fire sensor pump of the tube nozzle moving type on the cable car. ) It is connected to the distribution shaft 357 constituting the inside and transmits the power to the inside of the main body (1) of the tsunami disaster prevention flotation reading device configured in each distribution shaft 357 to deliver the power that constitutes the tsunami disaster prevention. Power is supplied to the fire-fighting sensor pump as the production power of the offshore hydro power plant of the tsunami disaster prevention facility composed of the control device 815 .
The upper part (GLU) on the top of the earth's surface on the top of the ridgeline stepwise several water hammer pumps (393) provided as a facility safety control and management electric device (816) on the control shaft constituting the main body (1) of the tsunami disaster prevention device. At the lower end of the water tank 259 of 14) After inserting the bolt 24 into the flange bolt connection hole 20 to enable disassembly and assembly of several flanges 28 formed from the body, connect the nut 25 to the bolt screw tab to secure the bond with a hand tool monkey penner. The water hammer pump 393 composed of the paraffin nozzle stopper 100 in units of 15 meters of the fire hose while blowing the compressed air supplied from the air compressor 80 into the hole at the bottom of the pumping pipe 89 to raise the water level. Non-powered pump The bubble pump is also composed of a hydraulic machine attached to a wire and rubber with a cloth;
A flexible high-pressure hose 190 is provided to provide pumping water for more than the number of km on the mountaintop, and the discharge jet water 38 and curtain water curtain 39 that are ejected to the outside of the body of the firefighter nozzle 10 configured with the fire-fighting and disaster prevention piping line 168 are provided. An offshore hydroelectric power plant levitation of an adjustable shaft composed of the inside of the main body (1) of the tsunami disaster prevention flotation reading device, which is composed of a non-motorized pump and an unmanned camera 184 of the control system in the water tank tank and a non-powered pump. In the food poison (593,594,595), muddy water is emitted from the firefighter nozzle (10) when damage from forest fires occurs by mixing loess (158) with a mixer of a tube nozzle movable cable car fire sensor pump that constitutes a combination with disaster-free firefighting and disaster prevention products. As it is used as a water gun or water cannon, it can be used as a water gun or water cannon to prevent disasters in advance. The tsunami damage prevention device 811 on the control shaft composed of .
As shown in FIGS. 65 to 84, it is composed of a tsunami disaster prevention floating food poisoning device that controls the flow rate and gas flow as a facility safety control management electric device configured inside the main body (1) of the earthquake and tsunami The double vinyl tent 43 to do,
The detection string 41 provided as a detection sensor in which the tsunami disaster prevention process is formed includes a basket 42 for storage of disaster prevention materials distributed in a vast area, and a tent tent or plastic pack 43 of a double structure Hens. After being stored and loaded in a plastic bag in the basket of A detection string is connected to a detection sensor for electronic control located at the top of an inertia type control valve in which a detection sensor for electronic control is located in a regional unit of (41) is fixed in 8 places in 4 places, so that the installation position of the string knot is clearly hung on the tent fixed frame to install the fixation at the top and bottom of the mountain, and a plastic pack 43 that is easy to move and a tank tank 295 located at the top of the mountain ) and a fire hose (9), the tsunami damage prevention device (811) is used to rescue lives and rescue ships in distress in order to prevent natural disasters such as wildfires, yellow dust, heavy snow, heat waves, typhoons, floods and droughts, and landslides in advance. It is constructed and installed as a floating poisoning device for earthquake and tsunami disaster prevention.
As described above, when a fire engine is usually dispatched after a fire in the past to spray fire water and fire extinguisher through a fire engine window, this type of fire suppression is equivalent to fanning a house on fire because the center of the fire pillar is first sprayed. , Disaster prevention composed of a tsunami disaster prevention buoyancy reading device that regulates the flow rate and gas flow provided as a facility safety control management electronic device (811e) configured inside the main body (1) of the distribution and input device for tsunami disaster prevention of the present invention The equipment of the accident-free pump fire extinguisher for initial firefighting and lifesaving of a large fire with a process formed is markedly distinguished from the prior art. The nozzle body (B) is composed of a standardization exactly on the joint nozzle so that it is composed of a basic type 1 and a basic type 2.
The conventional initial ignition causative material with the water damage control process formed inside the main body (1) of the tsunami disaster prevention device includes the friction of flint between a lighter spark, a match, and a candle (ignition due to the actions of an arsonist) and falling rocks. Due to the friction of leaves and lightning, the fire is ignited by flames, embers and pillars of fire, and then ashes are generated, leading to a large fire. The initial firefighting is ensured by accurately setting the range of occurrence of large-scale fires at each fire site so that embers, flames, and pillars do not spread together with communication equipment within 1 second of suppression and there is no damage to human life. In order to guarantee lifesaving, disaster-free global firefighting and disaster prevention measures are set up as follows.
A building of fire A configured with a yellow sand disaster prevention process, which is provided as a facility safety control management electronic device 816 configured inside the main body (1) of the tsunami disaster prevention device to control the flow rate and gas flow. The most common fires in Korea are wood, forest, and paper, and general combustible materials of textiles are high and low in mountains, thorns, grasses, brushes, and fallen leaves. At the same time, it is the best way to prevent fires in advance. Carbon dioxide and loess powder are mixed with fire water at the site of ignition with a cobweb-type cable car in the machine room on the roof of a large building and on the top of the mountaintop so as not to deviate from the safe area of the fire. Firefighting and disaster prevention measures are taken right before the dispatch of the fire engine and the fire helicopter while enclosing the combustible material with incombustible gas within 1 second to cut off the supply of air, pouring water, and applying ocher mixture to the ignited object in eight layers. A lifesaving system that regulates the flow and gas flow with the tsunami disaster prevention flotation poisoning device facility safety control management electronic unit (816) and It is composed of a flotation reading device for tsunami disaster prevention that rescues a ship in distress.
As shown in FIGS. 65 to 84, the floating food reading device for tsunami disaster prevention is provided as a disaster interception prevention control device 816 configured inside the main body 1 for earthquake and tsunami disaster prevention and controls the flow of flow. In the fire-fighting equipment for yellow dust disaster prevention, where the fire-causing substances formed with a flood control process consisting of A facility to install a pipe nozzle outside a water tank of a double pipe structure at a location where a number of pipe nozzle holes are formed with a paraffin stopper of a paraffin sensor type pipe nozzle that is used as a detection sensor to include a passive disaster prevention method and an active disaster prevention means The tsunami damage prevention device 811, which regulates the flow rate and gas flow to the safety control management battlefield, is used to prevent natural disasters such as wildfires, yellow sand, heavy snow, heat waves, typhoons, floods, droughts, and landslides in advance. It is composed of a flotation reading device for tsunami disaster prevention that rescues a ship in distress.
Before and after the fire, the close relationship between the igniting material and the disaster prevention material at the first fire site where the disaster prevention process was formed to control the flow of flow in the body (1) All of the communication equipment of the Internet control system, the vertical multi-stage pump, the pump electronic control device, the high-performance submersible pump, the air compressor, the air storage tank and the wire rope, the fire-fighting cable car body, and the ad-balloon airship of the fire-fighting disaster prevention measures. By mixing gas and liquid or solid disaster prevention materials quickly and accurately, the pipe nozzle is maintained as a solid nozzle stopper before a fire occurs, and when a fire occurs, the pipe nozzle is composed of a radiation-type nozzle gap and a straight gap in the form of a partition. Fire water is separated into multiple radiation-shaped curtain water membranes and multiple straight-line curtain water membranes with crevice nozzles to ensure that there is no harm to the body and life Firefighting from large-scale wildfires and large-scale fires caused by catastrophic disasters within 1 second, while resolving lifesaving priorities, it was constructed in preparation for floods and droughts, and thoroughly perfect measures to prevent landslides and road loss in advance. It is composed of a device, and it is composed of a floating fish-reading device for tsunami disaster prevention to immediately resolve a number of disasters. A paraffin sensor nozzle stopper installed in the fire-fighting/disaster-prevention nozzle as an integral part of the rescue means, installed in mountains and buildings for fire prevention purposes, and standardized so that there are no disasters in the global village in preparation for other disasters. As the firefighting sensor pump is installed in the ocean, the distribution and dispensing device body for tsunami disaster prevention is equipped with the marine tunnel transportation device 941 in the train 771 operation section inside the block tank 598 configured at the bottom of the barge hull 591. The tsunami damage prevention device 811 is equipped with all fire-fighting equipment of the fire type even at the internal station. To prevent natural disasters such as wildfires, yellow sand, heavy snow, heat waves, typhoons, floods, droughts, and landslides in advance, it consists of a lifesaving device that regulates the flow and gas flow and a tsunami disaster prevention flotation reading device that rescues distressed ships. do.
As shown in FIGS. 65 to 84, a disaster prevention process for regulating the flow of flow in the body (1) of the floating food reading device for earthquake and tsunami prevention is formed. The sensor pump is a motor body inside the firefighting sensor pump, and a rotating body impeller and a guide vane pump on both sides of the outer side of the impeller and the rotating body impeller as a part of the central circumferential surface of the shaft, which is the motor central axis formed on the horizontal center line (MBCL) of the motor body. It is a prime mover pump with a piston attached to it and detachably assembled with a turbine. The pump body has an isolation valve and a check valve to control the pressure and flow of the fluid and control the flow direction with an electronic control device and a flow control sensor and pressure sensing A sensor switch that regulates the flow of gas, liquid, and solids to the sensor inside the pipe, a power wire supplying power energy, and a non-combustible gas of fire water, loess, fire sand, carbon dioxide, carbon dioxide, and halon gas, which are disaster prevention materials suitable for fire A A tsunami consisting of a closed type and an open type, a flexible plastic pack, and a tent tent to be movable and installed in the body (1) of the tsunami disaster prevention buoyancy reading device body (1) with each water tank tank in a high-pressure tank that stores the tsunami The damage prevention device 811 is a tsunami disaster prevention floatation reading device that adjusts the flow rate and gas flow to prevent natural disasters such as wildfire, yellow sand, heavy snow, heatwave, typhoon, flood and drought, and landslide in advance. It consists of a pipe nozzle moving lifesaving device for which the disaster prevention process is assembled, and a flotation reading device for tsunami disaster prevention that rescues a ship in distress.
As shown in FIGS. 65 to 84, the tsunami disaster prevention device 811 that controls the flow rate and gas flow in the body 1 of the floating food reading device body 1 for tsunami disaster prevention is a forest fire, yellow sand, heavy snow, and heat wave. In order to prevent natural disasters such as typhoons, floods, droughts, and landslides in advance, the movable pipe nozzle with a tsunami disaster prevention process composed of a tsunami prevention buoyancy reading device is a basic type 1 and a basic 2 type according to the standard fire hose specifications. The firefighter nozzle formed of a flange joint firefighter nozzle and a coupling joint firefighter nozzle is divided into types and the movable tube nozzle coupled to the firefighting cable car is connected to a telephone pole at a certain inclination angle of each ridgeline at the bottom of the GLL on the high mountain and low mountain peak. Equipped with the same installation interval of 50 m, all high and low mountains and all the ridges at the bottom of the mountain range, and the iron towers for the operation of firefighting cables on the roofs of high and low buildings near the beach and on the tops of nearby mountain peaks After erecting and assembling the pylon, fix the pylon with anchor bolts with a manual tool, install a number of wire rope rollers and pulleys on the top of the pylon, and install the taguar winch at the top of the pylon and on the roof of the building as the firefighting cable A moving firefighter nozzle composed of a number of tube nozzle holes is installed on the peripheral surface of the firefighter nozzle pipe body while being coupled to the fire hose connection part of the disaster prevention material transfer device mounted on the car, and a plurality of power power generated from the generator or engine generator of the power plant After passing through the power supply line of the transformer and the utility pole connected by the electric wire of A flood control facility that controls the flow back to the top of the mountain, and a non-powered pump without power supply from the generator and engine generator of the power plant allow the fire water to flow back to the top of the high mountain, continuously bringing the loess mixture to an appropriate level, belonging to multiple fire types. Fire pillars from embers and flames on wood, forest, and paper, which are common fires in buildings The tsunami damage prevention device 811 comprising the main body (1) of the tsunami disaster prevention buoyancy reading device body (1) is equipped with devices that extinguish the fire at an early stage without approaching the fire site in less than 1 second and save lives. , yellow sand, heavy snow, heat wave, typhoon, flood, drought, landslide, etc., to prevent natural disasters in advance, it is a tsunami damage prevention device 811 composed of typhoon disaster prevention facilities. It is composed of a firefighting device as a lifesaving device that controls the flow rate and gas flow of a firefighter nozzle connected to a fire hose connection part, and a tsunami disaster prevention floating poisoning device that rescues a ship in distress.
As shown in FIGS. 65 to 84, the tsunami damage prevention device 811 for controlling the flow rate and gas flow constituting the inside of the body 1 of the floating food reading device for earthquake and tsunami disaster prevention is forest fire, yellow sand, heavy snow, and heat wave. In order to prevent natural disasters such as typhoons, floods, droughts, and landslides in advance, a fire sensor pump composed of a flotation reading device for earthquake and tsunami disaster prevention. Multiple fire boats and fire hydrants. Discharged and sprayed within 1 second by an agate every turn level hose integrated with an electronic heat sensor and flow control valve installed in the fire and disaster prevention piping line with an air compressor in the nozzle, and a detection string paraffin nozzle stopper that is a fire detection sensor to the firefighter nozzle The suffocation action to prevent combustion by blocking the supply of air by enclosing the combustible material together with incombustible gas, and the cooling action to lower the combustible material to a temperature below the ignition point are ejected into the gap of the fire hose pipe processing hole The cooling action firefighting device for pouring muddy water is configured to evacuate to a safe area with a firefighting cable car by boarding the relief refugees in the basket at the bottom of the ad balloon and the airship at the beginning of the fire;
The ad balloon and airship distribute the load of the object of the fire sensor pump body to ensure the safety of the pump body, and sequentially save lives and initial fire from large wildfires and large fires to a plurality of non-powered pumps in a water tank and a water collecting tank. A tsunami damage prevention device composed of an agate turn-type firefighter nozzle and disaster-free firefighting and disaster prevention countermeasures constituting a firefighting and disaster prevention piping line to an electronic sensor valve and unmanned camera, and the body (1) of the tsunami disaster prevention (811) is a flood control facility consisting of a tsunami prevention buoyancy reading device that regulates the flow rate and gas flow to prevent natural disasters such as wildfires, yellow sand, heavy snowfall, heat waves, typhoons, floods and droughts, and landslides in advance. It is equipped with the floating docks (593, 594,595) of the offshore hydroelectric power plant, and the passageway into which the double tube structure of each ridgeline is inserted is configured inside the body (1) of the floating docking device for tsunami disaster prevention. .
As shown in FIGS. 65 to 84, the tsunami damage prevention device 811 for controlling the flow rate and gas flow constituting the inside of the body 1 of the floating food reading device for earthquake and tsunami disaster prevention is forest fire, yellow sand, heavy snow, and heat wave. In order to prevent natural disasters such as typhoons, floods, droughts, and landslides in advance, it is equipment for fire-fighting and disaster prevention measures for the body of the fire sensor pump of an offshore power plant that has a disaster prevention process consisting of a tsunami disaster prevention facility that regulates the flow rate and gas flow. A hose (9) and a pipe (14) body provided in a plurality of double pipe structures inside the integrally included pipe nozzle, the injection nozzle (10), the gap (15) and the nozzle (10) processing hole (20) are piped ( 14) The distance of the body is set at 300mm, and a plurality of 8 nozzle gaps are formed with the washer (26) on the bolt (24) and nut (25) in 7 parts, and the pipe body has a diameter of 5mm along the circumferential surface of the cylindrical pipe The following plurality of machining holes 20 are 70 places, and the total machining hole gap is 498 places. The injection nozzle body (B) has a multi-stage inflow cylindrical shape,
A plurality of flanges 28 attached to the body of the pipe 14 have eight machining holes at a constant inclination angle 16 of 45°, and the upper end of the pipe body (A) to the upper end of the flange 28 has a stopper iron plate 165. Equipped with an upper end (A) flange (28) at the upper end of the stopper cover disk (165), the upper end (A) flange and the injection nozzle (10), the lower end of the body (A) under the flange, carbon dioxide (174) and Halon gas (175) in oxygen and air ) to the helium 176 and fuel 131 so that the fire water 7 passes through, the coupling (29) body is positioned at the center of the circular plate 165 of the stopper lid. (31) The pumping pipe 89 of the small fire hose and the through hole 20 in which the wire rope 19 are formed inside, the total length combined with a single pipe of 7 parts that is detachably assembled by a hand tool monkey spanner, 2100 m The tsunami damage prevention device ( 811), to prevent natural disasters such as wildfires, yellow sand, heavy snow, heat waves, typhoons, floods and droughts, and landslides in advance, the flow rate and gas flow in the body (1) It is composed of a floating reading device for tsunami disaster prevention.
As shown in FIGS. 65 to 84, the tsunami damage prevention device 811 for controlling the flow rate and gas flow constituting the inside of the body 1 of the floating food reading device for earthquake and tsunami disaster prevention is forest fire, yellow sand, heavy snow, and heat wave. In order to prevent natural disasters such as typhoons, floods, droughts, and landslides in advance, a number of firefighting and disaster prevention product hoses ( 9) and the pipe 14, the firefighter nozzle 10 gap and the nozzle processing hole 20 formed with the paraffin tape 177 for the ignition sensor and the nozzle stopper 100 for connecting the paraffin pipe joint nozzle. On the low mountain (395) and on each ridge below the summit, it is equipped with wire ropes (19) and firefighting cable cars (256) on the roofs of buildings (333) of high and low buildings near the beach. In the past, when a fire by installing a fire sensor pump of The siren sounds and departs from the fire site. At this time, the obstacles of parked and parked vehicles on the road that obstruct the flow of traffic and the fire helicopters in the mountains go back and forth to deliver fire-fighting water. Therefore, in order to eliminate the risk of losing lives as well as in an imminent and urgent situation, where the fire-fighting activity at the fire site is a battle for a moment, it becomes a big fire as it is delayed by one second. The fire sensor pump of the pipe nozzle movable type of the disaster-free firefighting and disaster prevention countermeasures product that forms the In order to prevent natural disasters such as heavy snow, heat waves, typhoons, floods, droughts, and landslides in advance, it consists of a lifesaving device that regulates the flow and gas flow and a tsunami disaster prevention flotation reading device that rescues a ship in distress. It is a firefighting device that extinguishes in less than 1 second.
As shown in FIGS. 65 to 84, the tsunami damage prevention device 811 for controlling the flow rate and gas flow in the body 1 of the floating food reading device for tsunami disaster prevention is forest fire, yellow sand, heavy snow, and heat waves. In order to prevent in advance of natural disasters such as typhoons, floods and droughts, landslides, etc., a number of hoses (9) and nozzles (10) formed inside the sensor pump's hose 9 and nozzle body 10 are formed with a disaster prevention process consisting of a flotation reading device for tsunami disaster prevention. Fire and heat detection sensor that opens the gap hole of the double tube nozzle sealed with the non-disaster paraffin nozzle stopper 100 and paraffin tape 177. Paraffin burns in the ignited object due to the low temperature detection of the match light (166) and the candle. As this does not easily spread into large fires, saves lives, and is extinguished at an early stage, the fire sensor pump of a non-hazardous pipe nozzle movable type is an acid alkali fire extinguisher (124b) and foam fire extinguisher (124b) that adapt to fire A 124e), the suffocation action to prevent combustion by blocking the supply of air (oxygen) by simply enclosing the combustion product with incombustible gas (non-combustible gas) within 1 second of the first fire A pipe of disaster-free firefighting and disaster prevention countermeasures that surely guarantees lifesaving and initial firefighting from large wildfires and large fires that occur in each season while saving lives as it extinguishes in the early stages by the cooling action of spraying water with a hose. The pump fire extinguisher 124 of the nozzle moving type introduces the fire-fighting sand 159 into the fire water 7 and the loess 158 into the water collecting tank 34 with the mixer 73 to the membrane pump 144 and the compressor 80. The tsunami damage prevention device 811, which controls the flow rate and gas flow provided by the firefighting devices of the internal cooler 170, is a natural disaster prevention device such as forest fire, yellow sand, heavy snow, heat wave, typhoon, flood and drought, and landslide. In order to prevent this, the fire sensor pump device of the pipe nozzle moving type is composed of a lifesaving device that regulates the flow rate and gas flow, and a floating food reading device for tsunami disaster prevention that rescues a ship in distress.
As shown in FIGS. 65 to 84, the tsunami damage prevention device 811 for controlling the flow rate and gas flow in the body 1 of the floating food reading device for tsunami disaster prevention is forest fire, yellow sand, heavy snow, and heat waves. In order to prevent natural disasters such as typhoons, floods, droughts, and landslides in advance, the fire sensor pump has a disaster prevention process consisting of a flotation reading device for tsunami disaster prevention. To the evacuation facilities of the Gyean mooring device formed on the route in preparation for disasters of sailing ships, for the problems of forest reforestation, forest fire prevention, and ecological environment restoration projects in the control and rotational disaster prevention waterways that control the flow, reservoir waterways installed in valleys, and dams The present invention is significantly different from the prior art level in that the water supply facilities according to the present invention are converted from a water-scarce country to a water-abundant country because the reason that it can be solved by configuring and assembling a connection structure that regulates the flow of the flow rate to be.
As shown in FIGS. 65 to 84, the tsunami damage prevention device 811 for controlling the flow rate and gas flow constituting the inside of the body 1 of the floating food reading device for earthquake and tsunami disaster prevention is forest fire, yellow sand, heavy snow, and heat wave. In order to prevent in advance of natural disasters such as typhoons, floods, droughts, and landslides, a plurality of pump bodies are formed inside the fire sensor pump with a disaster prevention process consisting of a tsunami disaster prevention buoyancy reading device that regulates the flow rate and gas flow. The impeller 143, which is provided to introduce a certain amount of disaster prevention material formed by the impeller 143 inside the spiral casing 310 of the The head tank 189 on the left and right sides of the pump inside the machine room inside the industrial site that compresses and stores the internal water pressure of the (17), a double-structured water collecting tank 34 that is forwardly disposed at a predetermined distance at a certain inclination angle 16 of the disaster prevention water channel 17, and the fire protection water level inside the water collecting tank 34 A detection sensor ball tap (499) that detects, the fire water (7) intake port (269) that blocks the inflow of foreign substances inside the water collecting tank (34), a flange stopper mesh (28) for the plug filter, and the switch button is turned on when the switch is turned on and configures a full close when the switch button is turned off;
A plurality of solenoid valves 76 and a coupling 29 on the T-elbow 44 of the binding device so that the disaster prevention material carbon dioxide 164 and Halon gas 175 are introduced into the rear of the head tank 189, a coupling 29 and a disaster prevention pipe ( 14) A low-pressure shut-off valve 83 that blocks the supply when guided to the end of the aft, a mixer 73 that mixes the disaster prevention material carbon dioxide 164 and natural loess 158, and a power motor control module 106. It operates as a high-pressure vertical multi-stage pump (8), and the fire water passes through the disaster prevention pipe (14) while being connected to the T-elbow (44) attached to the continuous pipe and the flange (28) to the reducer (35) and the nozzle hose (9). ), a tsunami damage prevention device 811 that regulates the flow rate and gas flow by having a gap 15 around the circumference of a plurality of pipes connected to the processing hole 20 and a gap 15 at the joint portion of a plurality of flanges 28 ) to construct the linkage structure of;
The first pressure check sensor 86 installed in front of the isolation valve 5, the second pressure check sensor 87 integrally installed with the pressure reducing valve, and the isolation valve 5 based on the isolation valve 5 A bypass disaster prevention piping line 168 installed to bypass by connecting the front and rear, and an emergency valve 84 installed to open and close opposite to the isolation valve 5 in the bypass disaster prevention piping line 168; The electronic control unit 88, which controls the operation of the emergency valve 84 by checking the pressure values from the first pressure check sensor 86 and the second pressure check sensor 87, is a flotation reading device for tsunami disaster prevention. It is a tsunami damage prevention device 811 that regulates the flow rate and gas flow constituting the body (1) inside the body (1). It is preferable that it is composed of buoyancy reading devices for one-sided disasters.
Therefore, as shown in FIGS. 65 to 81, the tsunami damage prevention device 811 for controlling the flow rate and gas flow constituting the inside of the body 1 of the tsunami disaster prevention buoyancy reading device 811 is forest fire, yellow sand, In order to save lives by storing air in a plurality of container-sized air tubes 130 in which disaster control processes such as heavy snow, heat waves, typhoons, floods and droughts, landslides, etc. are formed, the ad balloon 77 at the top of the outdoor building is moved to the upper part of the upper part of the earth's surface. A pipe nozzle safety control device that prevents large-scale wildfires in the global village by calmly overcoming the crisis situation after being rescued by disaster relief workers and refugees in the lifesaving basket (42) at the bottom of the ad balloon (77). A paraffin sensor nozzle stopper (100) installed in firefighter nozzles as a facility manufacturing installation method and lifesaving equipment, installed in mountains and buildings for fire prevention purposes and other disasters, fire boats (40) that are standardized so that there is no disaster damage in the global village ) and an air piping line 181 with a longer extension along with the water supply piping line to the fire hydrant 179, the pump fire extinguisher 124 to the fire fighting cable car 256 with the detection sensor switch integrated to each pump and each valve A tsunami disaster prevention device that controls the flow rate and gas flow that simply extinguishes and removes flames and fire pillars within 1 second is a tsunami damage prevention device (811) equipped with a connection structure tube nozzle moving type firefighting sensor pump device. ) is composed of
As shown in FIGS. 65 to 84, the tsunami damage prevention device 811 for controlling the flow of flow constituting the inside of the body 1 of the floating food reading device for earthquake and tsunami disaster prevention is forest fire, yellow sand, heavy snow, heat wave, typhoon. In order to prevent natural disasters such as floods, droughts, and landslides in advance, the pump with a disaster prevention control process consisting of a tsunami buoyancy reading device for earthquake and tsunami disaster prevention is equipped with various electric motors in the roof sump tank 34 inside the machine room located on the roof of a large building. In the reduction gear 251, the motor 192, the fire prevention and disaster prevention piping line 168 as in operation by pressing the switch button on the top and bottom of the building including the elevator on the wire rope 19 of the winch 137. Disaster prevention water (7) is integrated into the equipment inside the pump fire extinguisher body so that it can fire extinguishing activities in all weather regardless of the weather forecast. is put in
As shown in FIGS. 65 to 84, the tsunami damage prevention device 811 for controlling the flow rate and gas flow constituting the inside of the body 1 of the floating food reading device for earthquake and tsunami disaster prevention is forest fire, yellow sand, heavy snow, heat wave, In order to prevent natural disasters such as typhoons, floods, droughts, and landslides in advance, the diamond flame pump 144, in which the yellow sand disaster prevention process is formed, which consists of a yellow sand disaster prevention facility, pumps even water containing a lot of fluid, mud, or sand. It is possible to move the rubber film or the Teflon film 538 up and down to provide suction and discharge, and at the top of the diaphragm pump 144, the crank 248 and the link stand 249 are placed on the rubber film 538. The fact that it is formed and is not easily worn or closed even in the fluid containing sludge particles is suitable for the prevention of the initial fire of wildfires, and it can be completely prevented from leaking without a gland packing. It is suitable for disaster prevention of no disasters.
As shown in FIGS. 65 to 85, the tsunami damage prevention device 811 for controlling the flow rate and gas flow in the main body 1 of the tsunami disaster prevention device body 1 is forest fire, yellow sand, heavy snow, and heat waves. In order to prevent in advance of natural disasters such as typhoons, floods and droughts, landslides, etc., the Century Pooh Girl pump 308 is formed with a disaster prevention process consisting of disaster prevention facilities. Turi Poogirl pump (308) on the inside of the body casing (141) the impeller (143) wing,
The guide vane 142 is attached in the same way as the previous pump driving yaw portion, and on the circumferential surface of the rotating shaft 198 located on the casing 141 center line, the balance between the mechanical seal 156 and the bulkhead 372 of the shaft sealing device The mechanical seal cooler 391 of the hole 376 is configured in the same manner as the shaft portion 390, and the control box of the pump control board 53 is a vertical multi-stage pump control board 53 The function of the control board 53 is A pipe formed as a separate T-elbow 44 in the line pipe 168 of the stop valve 114 above the water outlet 169 line pipe in which the flow meter 105 for checking the amount of waterproofing and the excessive pressure prevention switch 108 are installed in the same way. It is composed of a line sensor and is composed of a facility safety control management electronic device 816 configured to achieve tsunami disaster prevention, which is composed of the inside of the main body (1) of the tsunami reading device body (1).
65 to 84, the tsunami damage prevention device 811 for controlling the flow rate and gas flow constituting the inside of the floating fish reading device body 1 for tsunami disaster prevention is wildfire, yellow sand, heavy snow, and heat waves. In order to prevent natural disasters such as typhoons, floods and droughts, landslides, etc. in advance, the vertical multi-stage pump and the control system pressure tank 189 and the control system inverter ( 47), and the associated line relationship between the control unit inverter 47 and the water collecting tank 34 is that when the fire water is sucked in, the inlet 269 connects the idling prevention device 271 and the check valve of each pump to the inverter 47 ), the installation position is clearly set in front of each pump 8 of the front end of the check valve 6 and the isolation valve 5, which is each valve 5 in the front. After that, the pressure tank 189 and the control unit inverter 47 are integrated with the discharge pressure check sensor 86 and the second pressure check sensor 87 on the discharge confluence pipe 4 line to prevent excessive pressure. Red clay (158) in the mixer 73 so that each fire A is cooled and suffocated in less than 1 second with a plurality of fire-fighting nozzles (10), which are discharge nozzles (270) while controlling a certain amount of fire water pressure with It is equipped with tsunami disaster prevention devices that inject the cable car (256) to prevent large wildfires included in general fires and fires in residential neighborhoods. The configuration of the firefighting cable car 256 in which the tsunami disaster prevention process is formed is each high and low mountain peak and a plurality of buildings with different heights. Or, it is provided as a tsunami damage prevention device 811 configured to achieve tsunami disaster prevention with a tsunami disaster prevention with a mesh hose including a well-shaped wire rope, 401) type hose 9, and the body ( 1) The tsunami damage prevention device 811 composed of the interior includes forest fire, yellow sand, heavy snow, heat wave, typhoon, flood and drought. In order to prevent natural disasters such as landslides and landslides in advance, it is a technical characteristic of the tsunami prevention buoyancy reading device, which has a disaster prevention process, and the tsunami disaster prevention flotation reading device that rescues a ship in distress.
In this way, the vertical multi-stage pump (8) with the disaster prevention process formed inside the tsunami buoyancy reading device body (1) is as follows.
Details of the specification of the vertical multi-stage pump in which the disaster prevention process is formed inside the body (1) of the tsunami flotation reading device for tsunami disaster prevention are as follows.

The details of the control method of such a vertical multi-stage pump system are as follows.
·Pressure control method (Figure 1)
The operating range of the system is formed from the starting point of all pumps (P n) to the stopping point P ff 1 of the full-load operating pump and the stopping point P ff 2 of the main pump. After reaching the operation stop point of P ff 2 of the pressure control system, it stops completely after the minimum operation between 180 seconds and 210 seconds (CO-CR) and 0 to 120 seconds (CO-ER). Although it is not possible to keep the width of ΔP narrower than the inverter control method, it is mainly used for absorption and pressurization of the lower floors by detecting an input change of about 1 bar.

Frequency modulation control decoration (Figure 2)
The operating range of the system maintains the adjustment value range.
When the flow rate of each running pump reaches 100% and the pressure just before the operation standby pump is driven, the operating point P on is the operating point P on, and the pressure at which the individual maximum operating pump stops immediately before stopping the pump becomes the pump stopping point P ff.
Therefore, the frequency modulation method can keep the width of ΔP narrow, and by controlling the rotation speed of the main pump with the frequency modulator, it is composed of a system that compensates for the sudden change in pressure that occurs when the standby pump is in operation or when the maximum operation pump is stopped. do.
In the operation of the system, as soon as the pressure is lowered to the vicinity of the operating point, the main pump starts slowly by the control of the frequency modulator, and if there is no change in the flow rate, it is stopped by the controller, so pressure fluctuations caused by system hunting can be eliminated.

In general, the detailed description of the main function of the vertical multi-stage pump in which the disaster prevention process is formed inside the body (1) of the tsunami disaster prevention device body (1), as shown in the drawing, is detailed as follows.

As shown in FIGS. 65 to 85, the tsunami damage prevention unit 811 that controls the flow rate and gas flow constituting the inside of the body 1 of the floating food reading device for earthquake and tsunami disaster prevention is forest fire, yellow sand, heavy snow, and heat wave. In order to prevent natural disasters such as typhoons, floods, droughts, and landslides in advance, the vertical multi-stage pump with a flood control process consisting of flood control facilities has the main function inside the body of the pipe nozzle gap type pump with a city symbol. In the event of a fire, anyone can easily pump without being near the fire site or near the pumping machine. The tsunami process is formed as a disaster prevention and control device that is configured to prevent disasters inside the main body (1) of the tsunami disaster prevention buoyancy-reading device body (1) that achieves the initial evolution within the first time.
As shown in FIGS. 65 to 85, the tsunami damage prevention device 811 for controlling the flow rate and gas flow in the main body 1 of the tsunami disaster prevention device body 1 is forest fire, yellow sand, heavy snow, and heat waves. In order to prevent natural disasters such as typhoons, floods, droughts, and landslides in advance, an isolation valve (5) that opens at switch-on and closes when switch-off is formed with a disaster prevention process composed of a tsunami reading device for tsunami prevention and , A regulator 136 that reduces the pressure of the disaster prevention water to a certain pressure, a non-return check valve 61 that cuts off the supply when the disaster prevention water is induced below a certain pressure, a disaster prevention material carbon dioxide 164 and natural loess 158 Mixer (73) The high-pressure vertical multi-stage pump (8) consisting of a mixer and a power motor control module is operated, so that disaster prevention water passes through the opening of the shut-off valve and a plurality of pipes (14) connected to the nozzle hose (9) Gap processing around the circumference Fire water with internal water pressure formed through the gap between the hole and the plurality of flanges is discharged into the body (1) of the tsunami disaster prevention buoyancy reading device body (1) as a number of straight jetted water 38 or curtain water film 39 is ejected. In the global village where the disaster prevention process is formed by equipped with the equipment safety control and management electronic device 816,
As shown in FIGS. 65 to 84, the tsunami damage prevention device 811 for controlling the flow rate and gas flow constituting the inside of the body 1 of the floating food reading device for earthquake and tsunami disaster prevention is forest fire, yellow sand, heavy snow, and heat wave. In order to prevent natural disasters such as typhoons, floods, droughts, and landslides in advance, a disaster prevention process consisting of a floating food reading device for tsunami disaster prevention is formed; In the disaster prevention provided with the H beam 149 and the three-tiered wire rope net (safety net, 401) of the mountain road incision, a marine vessel mounted to prevent sinking of marine vessels from wind waves generated in the sea A tube 130 for saving lives, a lifeboat 188, a lifesaving basket 42, a lifesaving bed nozzle 172, a fireproof yarn 159, and an air storage plastic tube. It is formed as a disaster prevention control device for disaster prevention by integrating a sandbag barrier provided as a fireproof house in the event of a gas explosion, including a disaster prevention method, and an undersea pipeline connecting land and sea, and improves future mechanical civilization. Excavation and extraction yard sieve net 910 for collecting iron ore manganese nodules (909), suction and extraction machine 911 of pneumatic transport equipment 916, submarine mineral recollection robot 912, searchlight for search equipment and underwater lighting in yard basket The top and bottom of the barge hull (591) of the offshore hydro power plant in which the disaster prevention process is formed with the tsunami damage prevention device (811) that constitutes the yellow sand disaster prevention inside the main body (1) of the tsunami disaster prevention buoyancy reading device body (1) The mounting component operating device is configured as a first pressure check sensor 86 provided in front of the isolation valve 5, a second pressure check sensor 87 integrally provided with the check valve 6, and the isolation valve A fire and disaster prevention piping line 168 provided to bypass and connect the front and rear sides of the isolation valve 5 based on (5), and in the bypass disaster prevention piping line 168 open and close opposite to the isolation valve (5) An emergency valve 84 provided to operate, the first pressure check sensor 86 and the second pressure check sensor The electronic control unit 88, which controls the operation of the emergency valve 84 by checking the pressure value from the tsunami 86, is integrated into the body (1) of the tsunami disaster prevention device for tsunami disaster prevention. The installation component action device is configured at the top and bottom of the barge hull 591 of the offshore hydro power plant in which the disaster prevention process is formed as the facility safety control management electronic device 816.
As shown in FIGS. 65 to 84, the lower part of the vertical multi-stage pump in which the disaster prevention process is formed by providing the facility safety control management electronic device 816 configured inside the main body 1 of the floating fish reading device for earthquake and tsunami prevention. The fire prevention water provided in the solenoid valve 76 at the connection joint of the suction junction pipe (3) and the flange 28 and the water collection tank 34 outside the pump machine room is detected by the fire water level sensor, and the amount of disaster prevention is detected by the nozzle hose. (9) Male and female socket nipple 110 for connection of hose 109 provided inside, ad balloon 77 for lifesaving before and after a marine disaster, and airship 78 to lift the upper part of the upper part of the sea level Supplying power power to the air compressor 80 and the power motor control module 106 while operating the emergency engine generator 226 on the upper deck of the hull,
Air pressure generated by the operation of the air compressor (80) is stored in the receiver high-pressure storage tank (145) inside the receiver high-pressure storage tank (145) before and after a disaster so that air at a constant pressure is stored inside the receiver high-pressure storage tank (145). When the disaster prevention air piping line 181, emergency valve 84 is opened, air is blown into the hull, and air is stored in a plurality of container-sized tubes 130 attached to the piping frame outside the hull. As the ad balloon 77 at the top of the deck rises to the top of the upper part of the sea level, the rescue of the crew of the disaster ship is confirmed in the lifesaving basket 42 at the bottom of the ad balloon 77. Paraffin 100, which is attached to the spray nozzle as an integral part of the safety control device facility manufacturing and installation method and lifesaving means for preventing disasters on land and at sea, is provided in marine vessels for fire prevention purposes and other disasters for tsunami disaster prevention The tsunami damage prevention device 811 constituted inside the body (1) of the flotation reading device body (1) is a tsunami disaster prevention device to prevent natural disasters such as wildfires, yellow sand, heavy snow, heat waves, typhoons, floods and droughts, and landslides in advance. The fire-fighting control device is provided by the spray nozzle control electronic control pump with a disaster prevention process composed of a food poisoning device, because the pipe nozzle moving type fire-fighting/disaster prevention pump receives the power produced inside the offshore power plant.
65 to 85, the tsunami damage prevention device 811 for controlling the flow rate and gas flow constituting the inside of the tsunami disaster prevention floating culture reading device body 1 is forest fire, yellow sand, heavy snow, and heat waves. In order to prevent natural disasters such as typhoons, floods, droughts, and landslides in advance, the piping hose at the rear of the valve of the electronic control device that opened the sealed spray nozzle composed of the disaster prevention control facility and the circumference of the piping body (B) of the piping line 490 nozzles with a straight gap 15 and a circular gap 15 along the surface, the nozzle diameter of which is a machining hole 20, is adjusted to 5 mm or 10 mm, and a gap nozzle at 8 flange joints. The spray nozzle connected to the fire hose part so that the interfering substances are supplied together and the nozzle connected to the hose part formed inside the fire hose 9 are separated by bolts and nuts, and the spray formed to adjust the flange joint gap nozzle with a washer In the nozzle body (B) inside the nozzle body (B), the ejection water 38 and the curtain water film 39 are formed by a plurality of fire pillars in the spray nozzle 10 released by the disaster prevention material that holds the water pressure resistance of the fire hose 9. It suppresses the algal bloom by dispersing and eradicating the gathering harmful red algae microorganisms (921), and returns the vertical downdraft, which is a mass of cold air over the sea, to the jet stream 10 km above sea level. The tsunami is transmitted to the unmanned camera 184, which is formed with scenes of extinguishing and removing fire, harmful tidal waves and tsunamis, as in the moment of moving to prevent access to land, but with a high-pressure air compressor 80 and vertical multi-stage pump 8 ) of the control system 150, a microelectronic control pump for nozzle control formed to display a score on the monitor through the operation of the control server 51, and an air compressor 80 and cooling with a hose 109 and a nozzle 923 It is connected to the distribution shaft 357 that is mounted and formed with the device, and when a hazardous red tide warning is issued during a drought, the power pump 304 of the dam is provided to control the groundwater and loess mixture stored in the storage tank and the control dam. (409) by opening the ocher mixture By discharging a large amount of control water to the ocean, it is equipped with prevention of harmful red tides, and it is composed of a safety control and management system for tsunami prevention facilities, which is composed of the inside of the main body (1) of the floating fish tank for tsunami disaster prevention. has been
Here, in the detailed configuration description of the firefighting sensor pump device, the firefighting and disaster prevention system for the initial firefighting of a large fire and the rescue of life is a water supply pipe 14 for a single building outdoors and indoors for a neighborhood life Water supply valve 495 for a faucet handle ( 533), after attaching the T-elbow 44 with the elbow socket bushing screw attached to the middle part connection joint, it should be installed as a fire water control device valve as the flow meter 105 for checking the fire water rain resistance, and it is called the fire water control device valve. In case of fire that occurs indoors or outdoors in a house, it is installed by dividing it into indoor and outdoor living quarters, and the water supply pipe 14 is also a nozzle hose and a paraffin (100) stopper on the perforated hose (9) for fire detection sensor detection. It is a configuration that includes that it is possible to prevent fire even with the water pressure of the water supply corresponding to the water pressure inside the hose, and here as well, the air for gas supply and the non-combustible gas 164 pass through, and the fire water is used for the paraffin stopper where the igniting material is installed and placed. The injection hose nozzle is disposed forward to suppress the ignition of the embers 292 and the flame 293, and at the same time, the first ignition detection string 41 that detects the initial ignition point is placed on the upper part of the nozzle body (B) and is a building wood pillar that is an ignition material. It is attached to the interior corners of the east, west, north and south and on the ceiling floor in several places.
65 to 85, after the paraffin tape 177 and non-incendive wire 176 constituting the inside of the body 1 of the buoyancy reading device for earthquake and tsunami prevention is formed, the paraffin tape 177 is ignited and At the same time, the detection string 41 is cut and the detection sensor bimetal 102 connected to the fire water supply control device valve, the thermocouple thermometer switch 103, and the solenoid operation on-off switch button 66 formed in the solenoid valve 76 ) and the switch operation, the emergency siren 93 sounds, and the weight 107 for operating the solenoid valve switch is operated together with the alarm device to open the solenoid valve 76 of the electronic control device and at the same time to spray for stair mounting inside the room. With the nozzle 10 and the wall-mounted spray nozzle 10 and the ceiling-mounted spray nozzle 10, the fire water is quickly supplied and the embers 292, flames 293, and pillars of fire 294 at the ignition point are radiated in the form of radiation. Through the gap 15 and the straight gap 15, the fire water is discharged and sprayed layer by layer with the straight jet water 38 and the radial jet water curtain water curtain 39, gently, slowly, quickly and accurately to the embers, flames and pillars of fire. It is a configuration of a global disaster prevention equipment system to prevent the occurrence of onshore and offshore disasters by removing embers, flames, and pillars of fire in advance before the time of arrival of the fire engine 402 and the dispatch of the fire engine 402 at the same time as the initial evolution. (39) In the present invention, the shape of the weather forecast control system can be identified by the Internet network or the naked eye, and the water level inside the water collecting tank is configured to directly or indirectly detect fire heat with a temperature sensor. is a composition distinguished by a marked difference from the previous technology.
As shown in FIGS. 65 to 85, the tsunami damage prevention device 811 for controlling the flow of flow in the body 1 of the floating food reading device for earthquake and tsunami disaster prevention is forest fire, yellow sand, heavy snow, heat wave, typhoon. , in order to prevent natural disasters such as floods, droughts, and landslides in advance, the micro switch 580 and the limit switch 183 for detecting whether the door is opened or closed or the presence of a workpiece made up of a flood control facility are operated. Contact is required, and such a sensor is called a mechanically operated contact sensor. The difference between these switches is that they are slightly different in structure and use. The micro switch is relatively small, has a built-in contact mechanism in the molded product case, and is not sealed. It is mainly used for measuring devices or detectors of small machines. The switch is sealed with a built-in micro switch in a solid die-cast case, and is put into production facilities and factory automation facilities that require mechanical protection from external forces or places that require durability with a waterproof and rust-proof structure, while sealing the limit switch 183 at the same time. Also called type micro switch.
In the connection configuration of this micro switch 580,
Micro switch is a type of limit switch and refers to a very small one among limit switches. Micro switch is widely used as a major component for operation and control and is an element that can switch large power in a small shape. It has a high repeatability that faithfully repeats a specific operation characteristic while repeating the switching regardless of the speed of operation at which the falling speed of the contact is directly manipulated by force. is called,
As shown in FIGS. 65 to 85, the tsunami damage prevention device 811 for controlling the flow of the flow constituting the inside of the body 1 of the floating food reading device for tsunami disaster prevention is forest fire, yellow sand, heavy snow, heavy rain, In order to prevent natural disasters such as typhoons, floods, droughts, and landslides in advance, the control shaft (231) that controls the storage of the flow of water with the facility (231) Offshore tunnel transportation system (941) Construction of the power generation dam on the marine hydroelectric power plant floating fish tank (593,594,595) The borehole 936 distribution and input device of the machine is provided, and the core drill 917 rotating body for coupling the typhoon disaster prevention facility to the pipe rack 854 equipped with the drilling machine 908 for the borehole 936 of the construction machine. A plurality of boreholes 936 are provided as a distribution input device for disaster prevention,
A power pump 304 is provided to pump groundwater located in the aquifer above the impermeable bedrock and metamorphic rocks of the river bed, and it pumps up a large amount above the precipitation surface and distributes the groundwater spurt. A single double structure block tank 598 constituting two distribution shafts is combined with a single inner block tank 596 and a single outer block tank 599 to the outside of the inner block tank 596 to distribute for tsunami disaster prevention The double structure block tank 598, which is composed of the input device body (1) inside, is configured to be composed of floating aquaculture poisoning devices for tsunami disaster prevention.
As shown in FIGS. 65 to 84, the tsunami damage prevention device for regulating the flow of flow in the main body 1 of the tsunami disaster prevention device body (1) includes forest fire, yellow sand, heavy snow, heat wave, typhoon, flood and In order to prevent natural disasters such as drought and landslide in advance, a large flange is attached to the outside of the external block tank of the floating aquaculture nozzle frame composed of a floating aquaculture device for earthquake and tsunami disaster prevention. It is coupled and fastened to the flange processing hole with a nut 604, and a high-pressure gasket or rubber packing 32 is used in the joint gap. It is connected to the block tank, and the searchlight 232 of the submarine mineral resource search equipment and the underwater lighting lamp 843 of the underwater exploration lens glass are installed at regular intervals on the outer sidewall of the vertical tank and the outer sidewall of the disaster prevention nozzle frame, and the external pipe On the peripheral surface of the outer side wall of the disaster prevention nozzle support frame, it is provided with a portable lug 607 and a disaster prevention nozzle support frame combined and separated lugs 21 to connect the portable lug pin connection shaft 606 or the pin connection with a hydraulic jackkey 623. constitute a binding bond;
The large flange 614 is provided in an offshore assembly type by moving the long hole 616 of the bonding site pin bonding and the block bonding to the sea surface as a combination of the lug 607 and the long hole 616 of the bonding site pin bonding while the large flange 614 is double-blocked. Rubber tires (919) are used to prevent large accidents due to collisions with marine vessels when the objects are exposed to the sea surface according to the fluctuations of currents and spread the load of the object by dispersing the weight of the object as it is connected to the upper part of the floating dock. The marine hydroelectric power plant floatation deck, which is composed of the inside of the main body (1) of the tsunami disaster prevention device body (1), which constitutes the collision prevention with the furnace, adjusts its position to 100M at the upper end of the sea level.
As shown in FIGS. 65 to 84, the tsunami damage prevention device 811 for controlling the flow of flow constituting the inside of the body 1 of the floating food reading device for earthquake and tsunami disaster prevention is forest fire, yellow sand, heavy snow, heat wave, typhoon. In order to prevent natural disasters such as floods, droughts, and landslides in advance, the vertical tank of the floating aquaculture nozzle frame and the vertical and horizontal diagonal or symmetrical lugs and lug pins connecting shafts are located on the sea level line. After connecting and assembling the joint part of the block tank unit, as diving and flotation are repeated, the floating fish dock is air pressure control or water pressure control, and then the pump is operated to the sea level above the sea level. It is discharged with a water curtain curtain to suppress the power of
As global warming is prevented, harmful red tides are controlled in advance, and the power produced by the Francis water wheel 229 and the Pelton water wheel 230 and the marine hydro generator 231 in the head tank and hydraulic pipe of the large generator 213 is transferred to land. Supply and use its power to excavate the seabed to collect crude oil (841) and pollution-free natural gas (922) or to collect manganese nodules (909) loaded on the seabed and piers at 100 points below sea level in the sea (928) Equipment included as a distribution input device for installation and construction of underwater tunnels, characterized in that it is integrally formed with the equipment of the hazardous red tide relief equipment and the comprehensive disaster prevention system for disaster-free global maritime disaster prevention and marine environmental industry development The crane (861) boom stand (651) of the previous construction machine is combined into multiple 500m block units so that it can be used as a long axis according to the depth of the sea, with several seesaws (935) on the side of the deck deck of the barge hull (591) It is manufactured to be 20km long, installed a foundation concrete pier on the seabed, and suppressed the course of a tsunami to achieve zero accidents. ) It is possible to select the equipment of the present invention consisting of the water storage tank of the tsunami prevention flotation reading device for tsunami disaster prevention and the tsunami flotation reading device for the tsunami disaster prevention of the marine hydroelectric dam construction machine in the offshore tunnel transportation device.
As shown in FIGS. 65 to 84, the tsunami damage prevention device 811 for controlling the flow of flow constituting the inside of the body 1 of the floating food reading device for earthquake and tsunami disaster prevention is forest fire, yellow sand, heavy snow, heat wave, typhoon. In order to prevent natural disasters such as floods, droughts, and landslides in advance, the bottom of the bottom of the bottom of the upper part of the deck deck for floating aquaculture is a double of the inner block tank (596) and the outer block tank (599) of the nozzle frame. Equipped with a structural block tank (598) and at the same time equipped with a core drill (917) attached to a pipe rack (854) connected to a crude oil drilling rod with a center of an inner block tank (596) where a drilling machine (908) for oil drilling is located While the rotating body of the drilling machine 908 is operating, it is a pipe that moves the excavated soil and harmful gas of the borehole generated after the operation of the crude oil drilling rod. The double structure block tank 598 is welded to the first auxiliary section steel 600 for the block tank and the second auxiliary iron plate 601 for the block tank supporting the inner block tank 596 and the outer block tank 599 while being equipped. The snap hole 602 that enables bonding is uniformly equipped with the bulkhead manhole 610 of the vertical bulkhead 605, the joint gap of the disaster prevention water passage manhole cover 152, and the horizontal bulkhead 609 welding site, respectively. The tsunami damage prevention device 811 is provided as a tsunami disaster prevention floatation reading device to prevent natural disasters such as forest fires, yellow sand, heavy snow, heat waves, typhoons, floods, droughts, and landslides in advance. The main body (1) is composed of a water storage tank of the tsunami disaster prevention buoyancy poisoning device and an offshore tunnel transportation device, and a tsunami disaster prevention flotation poisoning device of an offshore hydroelectric dam construction machine.
As shown in FIGS. 65 to 84, the tsunami damage prevention device 811 for controlling the flow of flow constituting the inside of the body 1 of the floating food reading device for earthquake and tsunami disaster prevention is forest fire, yellow sand, heavy snow, heat wave, typhoon. In order to prevent natural disasters such as floods, droughts, and landslides in advance, the deck deck helicopter stop (619) located at the bottom of the stability control room and the meteorological observation equipment management room is located on the left side of the block pylon composed of flood control facilities, and the left side of the safety control room Consists of a satellite launch pad 643 and a space rocket 612 inside the satellite launch pad;
It is installed as the upper part of the block pylon at the center of the upper part of the upper part of the deck deck, while providing marine environment protection by injecting oxygen and air into the seabed with an air compressor (80) that blocks the breeding of harmful red tides and a net hose. The pipe rack 854 for oil drilling rod connection operation is,
A drilling machine 908 for oil drilling from the top of the core drill 917 located at the lower end of the pipe rack 854 for excavation and collection by binding with the wire rope 19 of the piercing winch 137 and the crane 861 inside the block pylon ) is located in the machine room to form a transfer arrangement operation and collect the seafloor mineral resource manganese nodules (909), the yard basket (842), the automatic pneumatic suction extraction machine (911), the seabed mineral extraction robot (912), and the mineral It is formed by collecting turpentine (924) and formed in a connection arrangement, and the anode (INode; electrode plate, 938) is used as the outer wall of the hull to prevent barnacles or marine life from inhabiting the outside of the marine tunnel transportation device of the floating dock. (1) It is composed of the water storage tank of the tsunami buoyancy poisoning device for tsunami disaster prevention and distribution input devices for yellow sand disaster prevention of the marine hydroelectric power generation dam construction machine in the offshore tunnel transportation device.
As shown in FIGS. 65 to 85, the tsunami damage prevention device 811 for controlling the flow of flow in the body 1 of the floating food reading device for earthquake and tsunami disaster prevention is forest fire, yellow sand, heavy snow, heat wave, typhoon. , to prevent natural disasters such as floods, droughts, and landslides in advance, the marine power plant floating dock (593,594,595) composed of typhoon disaster prevention facilities; To fill the borehole with loess 158 and cement 931 after the receiver tank 145 and the large generator 213 is provided outside the power generation room, and the BIO skid 918 of the transportation system and the crude oil borehole work The mixing equipment mixer for loess 158 and cement was always placed on standby in the machine room (mud feed room). It is composed of a water storage tank and an offshore tunnel transportation device, a lifesaving device for marine hydroelectric power generation dam construction machinery, and a tsunami flotation device for tsunami disaster prevention that rescues a ship in distress.
As shown in FIGS. 65 to 81, the tsunami damage prevention device 811 for controlling the flow of the flow constituting the inside of the body 1 of the floating food reading device for tsunami disaster prevention is wildfire, yellow sand, heavy snow, heavy rain, In order to prevent natural disasters such as typhoons, floods, droughts, and landslides in advance, the high-pressure piston type disaster prevention pump composed of yellow sand disaster prevention equipment is operated, and disaster prevention water is discharged to the tip of the disaster prevention nozzle, and the Radial discharge jet water is discharged and sprayed in the shape of a water curtain 39, and the portable wireless communication terminal 82 of the high-pressure piston type disaster prevention pump system 150 inside the disaster prevention pump operation machine room or safety control room and the switch 66 for the operation control of the disaster prevention pump ) or the power supply control box (2) to the upper part of the control pump operation switch button (67) for spraying disaster prevention water, and the life of the person composed inside the body (1) of the tsunami disaster prevention device It is composed of a tsunami damage prevention device 811 that rescues a rescue and a ship in distress.
As shown in FIGS. 65 to 81, the tsunami damage prevention device 811 for controlling the flow of the flow constituting the inside of the body 1 of the floating food reading device for tsunami disaster prevention is wildfire, yellow sand, heavy snow, heavy rain, In order to prevent natural disasters such as typhoons, floods, droughts, and landslides in advance, the crane boom unit 651 is formed as a disaster prevention facility. The body, the vertical support frame 11 that supports it, and the upper support frame and the lower support frame are separated and combined and are always arranged at the point of occurrence of red tides. The floating poison that puts the red tide to sleep is moved to a tugboat and organically combined with the high-pressure piston-type control pump and the control nozzle of the air compressor. The air compressor is operated as it is discharged to the outside of the nozzle in the shape of a discharge jet of water or a radial water curtain (39), and before the occurrence of harmful tidal waves, oxygen and air together with the bottom of the seabed in a net-type crisscross type injection nozzle (10) It is a device for the prevention or prevention of harmful red tides by dumping air and control water into the air to prevent marine disasters and the development of the marine environment industry. It is possible to ignore the tsunami, etc., which causes the drought included in the virtuous typhoon to be resolved according to the weather forecast, while minimizing the damage caused by it, but it is desirable to prevent natural and man-made disasters in advance.
As shown in FIGS. 65 to 81, the tsunami damage prevention device 811 for controlling the flow of the flow constituting the inside of the body 1 of the floating food reading device for tsunami disaster prevention is wildfire, yellow sand, heavy snow, heavy rain, In order to prevent in advance of natural disasters such as typhoons, floods and droughts, landslides, a plurality of internal block tanks 596 and a plurality of external block tanks 599 formed inside the body of a dual structure block tank 598 formed as a disaster prevention facility ) has a first auxiliary section steel 600 for a block tank and a second auxiliary iron plate 601 for a block tank with vertical bulkheads 605 and horizontal bulkheads 609 with iron beams 149 for the block tank. Steel beams 149 on vertical bulkheads 605 and horizontal bulkheads 609 on the 1st auxiliary section steel 600 and the second auxiliary steel plate 601 for block tanks are seismic with welded assembly machined by computer laser cutter. Tsunami damage prevention device for double structure block tank (598) floating fish tank hull position movement equipment pumping operation with snap holes 602 and bulkhead manholes 610 composed of the main body (1) of the body (1) for tsunami disaster prevention 811) As a connection structure, it is composed of flotation equipment for tsunami disaster prevention that rescues life-saving and distressed ships.
On the other hand, the tsunami damage prevention device 811 composed of the main body 1 of the tsunami reading device body 1 is used to prevent natural disasters such as forest fire, yellow sand, heavy snow, heat wave, typhoon, flood and drought, and landslide in advance. In order to control the updraft 925 and the downdraft 926 of the typhoon together with the fine dust 927 with a number of water mountain ranges formed with a disaster prevention process composed of a disaster prevention facility, the top of the sea level and harmful algal microorganisms 921 are also air When a number of disasters are destroyed and eliminated by the operation of the compressor 80 and the vertical multi-stage pump 8, the unmanned camera 184 transmits this scene, but the pump control server 51 of the electronic pump control system or control system 150 The fire and disaster prevention control device of the jet nozzle control electronic control pump formed to display the score on the monitor 52 through the calculation of and the iron ore and other manganese nodules 909 to improve future mechanical civilization are collected;
A suction and collection machine (911) of pneumatic transport equipment on a rotary shaft (198) for excavation and extraction, a seabed mineral extraction robot (912), and a mineral collection basket (924) and a seabed exploration lens glass on the garden basket (842) A drilling machine 908 of a rotary table for oil drilling, a large hydroelectric generator or a water wheel generator ( 213), Francis water wheel 229, Pelton water wheel 230, and other tsunami disaster prevention floatation reading device main body (1) connected by mounting, operating, tsunami damage prevention device (811) inside traffic where disaster prevention process is formed The configuration including the bridge bridge post 928 and the marine tunnel transportation device 941 of the device is substantially the same as before.
As shown in FIGS. 65 to 81, the tsunami damage prevention device 811 configured in the main body 1 of the tsunami disaster prevention floating food reading device body 1 includes forest fire, yellow sand, heavy snow, heat wave, typhoon, flood and drought, In order to prevent natural disasters such as landslides in advance, the filter 262 having a disaster prevention process configured as a disaster prevention facility filters foreign substances contained in the gas fuel supplied from the fuel tank so that only pure fuel can be supplied, When the air compressor 80 is operated, it can be installed with a filter 262 stopper and an oil cooler 182 made of oil to block foreign matter in the air intake port, and the pump isolation valve 5 is opened when the switch button is turned on and off (off) is configured to be blocked and at the same time the regulator 136 depressurizes the high-pressure fuel induced through the isolation valve 5 to maintain a constant pressure,
In the low-pressure shut-off valve 83, the fuel supply is cut off when the pressure is too low, and at the same time, the mixer 73 is configured to block fuel or natural gas 922 or crude oil 841 from the seabed or fuel introduced through the low-pressure shut-off valve 83. ), chemical substances 930, and the fuel pressure state on the regulator 136 side of the engine control module 627 induced through the turbine pump 140, which is an external intake system, to operate the warning means if the fuel supply state is abnormal. while the supply of fuel and disaster prevention materials itself is stopped,
At the upper part of the deck deck of the barge hull (591) at the top of the holding tank, a certain amount of electricity is supplied to the body (1) of the tsunami disaster prevention system to supply economic energy to the global village. To prevent natural disasters such as yellow sand, heavy snow, heat waves, typhoons, floods, droughts, and landslides in advance, tsunami protection is provided by a transformer (96) for power regulation in a substation where a disaster prevention process consisting of a tsunami prevention buoyancy reading device is formed. It is supplied with a reusable floating reading device.
As shown in FIGS. 65 to 81, the tsunami damage prevention device 811 into the body 1 of the tsunami disaster prevention floating food reading device body 1 is a forest fire, yellow sand, heavy snow, heat wave, typhoon, flood and drought, landslide, etc. In order to prevent natural disasters in Japan, a large number of disaster prevention nozzles (10) and nozzle gaps (15) in the upper part of a large offshore power plant composed of disaster prevention equipment (595) are located at the North Pole (NP) and the South Pole (NP) even with natural water pressure. SP) By being composed of piping connections with the equatorial wire (EP), the jet nozzle 10 is discharged to the jetting water 38 or the water film 39 falling at the discharge site. A large number of seesaw (935) crane boom stands (a boom stand formed of a variable type steel and a small tube with a minimum length of 15K M and a maximum length of 20K M, 651) with a spray nozzle (10) at the top, 38), attach a hopper doctor ventilation (intake a, outlet b; 585) that can inhale the vertical descending air current (cold air mass of typhoon seeds, 926) at a position more than 10 km above sea level, and attach it to the bottom of the deck deck. On the boom stand (651) of the crane boom to achieve the load balance of the object, the crane boom to level maintenance weight (107) is formed on the wire rope (19) and the guide rail (618) so that it can be adjusted, and the boom to the lowest position In the water hammer pump (non-powered pump, 393), after the inlet pipe 191 formed of a plurality of reducers 35 along the circumference of the boom of the pump 393 is formed, the pumping pipe 89 is installed and The air pipe line 181 is connected to the doctor ventilation 585 hopper along the circumferential surface of the pumping pipe, and the air pressure supply control generated by the heating fan 642 and the cooling fan 641 connected to the air compressor 80 is convection. It is to prevent global warming and change course by controlling the flow of land so that there is no damage to the land of the global village. Island country at the equator as an ellipsoid In that the land is left as it is due to global warming, and catastrophic disasters will come, the tsunami damage prevention device 811 composed of the main body 1 of the tsunami disaster prevention device is used for forest fire, yellow sand, heavy snow, heat wave, typhoon, In order to prevent floods, droughts, and landslides in advance of several natural disasters, it can be selected as a relief measure for sinking island land in places where a tsunami flotation device is formed.
As described above, the tsunami damage prevention device 811 configured inside the main body 1 of the tsunami disaster prevention device body 1 is used to prevent forest fires, yellow sand, heavy snow, heat waves, typhoons, floods and droughts, and landslides in advance of several natural disasters. The lower half of the crude oil rig digging the subsea oil field is submerged in the water inside the body of the offshore hydroelectric power plant composed of yellow sand disaster prevention facilities for Because the ship becomes a wreck or sinking ship due to a storm during sailing, the influence of waves is small at the point 100m below sea level, so it is stabilized by distributing the load of the floating dock itself. In order not to sink, while diving briefly in the water in typhoons and storms, at the same time, several containers 132 sized rubber balloons 914 are air-compression chambers 402 composed of the inside of the body (1) of the tsunami disaster prevention device. It is attached to the hull and used continuously.
As shown in Figures 65 to 81, the tsunami disaster prevention floating food reading device is a tsunami damage prevention device 811 configured in the body 1 of the tsunami disaster prevention floating food reading device body (1) is a forest fire, yellow sand, heavy snow, In order to prevent in advance of natural disasters such as heat waves, typhoons, floods and droughts, and landslides, the vertical multi-stage pump 8, which is composed of the distribution shaft of the control shaft composed of disaster prevention facilities, is inside and outside the vertical multi-stage pump 8. A plurality of isolation valves (5) and non-return valves (6) composed of an electronic control type valve for fluid pressure and flow control and flow direction control, and the electronic control type valve control sensor and first pressure sensor ( 86) a second pressure sensor 87, a sensor switch that controls the flow of a disaster prevention material in the pipe, a carbon dioxide gas 174 in a non-combustible gas 164, a fire extinguisher 124 and loess 158 Several water storage tanks 295 and high water tanks 295 in a gas cylinder 171 and several water collection tanks 34 and several pressure tanks 189 for storing fire sand 159 and helium gas 176 in As the upper part of the sealed tank with each opening, a manhole cover 153 and a hatch cover 154 each with several tank manholes, bolts 24, screw tabs 167, the lid 153, and gaskets in the processing hole 20 ( After attaching 32), the bolts are fixed with a hand tool monkey spanner, and several water tanks 295 are plastic packs or tent tents 43 and the tents 43 ) and a non-incendive material wire 178 to the ignition detection string 41 so that it can be moved and installed with After installing the string 41 as the edge of the tent as several plastic pack tank tanks 295 with each ridge line according to the height of the mountain, which is replaced by the several tanks formed in 4 places and 8 places, respectively, several pressure tanks 189 ) and the pipe nozzle 10 moving type of the fire and disaster prevention piping line 168 and the firefighter nozzle 10 to the inside and outside of the several collecting well tanks 34 According to the standard fire hose (9) standard, it is divided into a basic type 1 and a basic type 2, and the above pipe nozzle 10 connected to the flange 28 joint firefighter nozzle and the coupling part firefighter nozzle 10 is a fire cable car (256) Equipped with a plurality of movable tube nozzle fire sensor pumps in the tsunami disaster prevention buoyancy reading device body (1), a plurality of generators produced power 685 in the marine hydroelectric power plant is first supplied to the distribution shaft. The power transmission device 811d configured in the shaft is configured so that the train 771 inside the bridge bridge 937 and the marine tunnel transportation device 941 can continuously run at a speed of 100 km to 300 km per hour.
As shown in FIGS. 65 to 81, the tsunami damage prevention device 811 configured in the main body 1 of the tsunami disaster prevention floating food reading device body 1 includes forest fire, yellow sand, heavy snow, heat wave, typhoon, flood and drought, In order to prevent natural disasters such as landslides in advance, the water hammer pump 393 is configured on the control shaft to calm the typhoon composed of the floating fish reading device for tsunami disaster prevention,
The power pump is provided with the potential energy of the fluid without a compressor, and it is configured in a water hammer method of water hammer action 389, which generates high pressure when it is rapidly closed while flowing water at a high position, and located on the upper surface of the power plant turbine 267 The lower end of the head tank 189 of each ridge line formed to control the potential energy in the same way as the head tank 189 introduced into the inlet pipe is provided with several inlet pipes 191, each of which is composed of an installation position under the spring of the valley. Flange to simplify repair and maintenance of the book valve 453 at the junction of the lower end of the high-pressure ball tank 303 configured on the upper part of the collecting well tank 34 and the upper end of the collecting well tank 34 after installing the inlet pipe in the water collecting tank 34 (28) While disassembling and assembling with a hand tool, the water hammer pump 393 to the seesaw 935 crane boom 651 in the sea is attached to the crane boom 651 under the sea level (SLL) to act as a water hammer at sea level (389) ), and after pumping water up to several kilometers above the sea level (SLU), it is possible to choose to provide the global village with a tsunami disaster prevention buoyancy reading device that squirts out the flow rate with the nozzle 10 to save lives and rescue ships in distress.
The internal description of the engine operation installed inside the disaster prevention ship as the equipment of the air conditioning system will be omitted below, and the present inventor was hired as a test agent of the marine ship safety system to determine the ship class composed of the production of ten rigs of the past crude oil rig. By checking the safety of equipment in every corner of the top and bottom of the oil drilling rig, defects were pointed out to the person in charge of each production department, thereby strengthening the bond between foreign and domestic engineers. According to the global weather forecast, which removes the seeds of typhoons in advance with air pressure and spray water ejected from the injection nozzle installed in the middle of the connection part of the injection nozzle 10 and the nozzle hose 9 equipped with a safety control means by It is a flotation system for tsunami disaster prevention that rescues lifesaving and distressed ships equipped with marine hydroelectric dam construction machinery in the water storage tank of the flood control facility and the marine tunnel transportation device.
As described above, the most urgent thing is to take measures according to the causes of the occurrence of harmful tidal waves and the causes of the occurrence of yellow dust in which the yellow sand disaster prevention process is formed inside the body (1) of the tsunami disaster prevention device body (1). The occurrence of the fire, which is a part, and the cause thereof will be investigated.
The tsunami damage prevention device 811 constituted inside the main body 1 of the tsunami disaster prevention device is used to prevent natural disasters such as forest fires, yellow sand, heavy snow, heat waves, typhoons, floods and droughts, and landslides in advance. The spray nozzle with a disaster prevention process composed of a flotation reading device for earthquake and tsunami prevention discharges a greater amount of water farther, faster, and higher than the conventional standard spray nozzle. It is a significant difference from the nozzle, and the head distance of a plurality of non-powered water hammer pumps 393 is the lift of the inlet pipe 191, the intake port, and the 50-fold pumping pipe 89. It is connected to and installed in the middle of the injection nozzle 10 connected to the back of the pipe of the high-pressure multi-stage pump 8, the injection nozzle 10 for mounting transport equipment and the connection joint of the disaster prevention hose. A shackle (29) for safety pin and a bolt ( 24) a nut 25 and a washer 26 with a wire mesh or flange 28 for a stopper, a high-performance submersible pump 36 and a high-pressure vertical multi-stage pump control device by a mobile phone terminal of communication means and an engine of a transport equipment A tsunami disaster prevention process is configured by providing a tsunami damage prevention device 811 inside the main body 1 of the tsunami reading device body 1 for tsunami disaster prevention.
As shown in Figures 65 to 84, the present invention provides the global village with a tsunami disaster prevention flotation reading device that rescues lifesaving and shipwrecked ships including a water storage tank.

According to a preferred embodiment, the technical idea of the present invention is to cherish life to prevent casualties from multiple disasters in order to prevent casualties due to tsunami according to a preferred embodiment, to warm the world and at the same time to keep mankind healthy. Although it has been described with respect to a buoyancy reading device for a tsunami disaster of It will be appreciated that the scope of the claims may be reduced as it pertains to other applications described below.

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"자형태의 지그),(23)샤 클,(24)볼트,(25)너트,(26)와샤,(27)외부블록탱크 외부 위치로 결합 분리 해지용 힌지,(27a)힌지용 ㄱ형의 러그 핀 연결축,(27b)힌지용 장축의 연결축,(28)플랜지 또는 선체의 벨러스터 바라싱 탱크 흡입구 이물질 접근 차단용 플랜지마개철망,(29)카플링,(30)카플링 암나사산 몸체,(31)카플링 수나사산 몸체,(32)가스켓트 또는 고무패킹,(33)노즐호스장비거치대,(34)집수정탱크 또는 안전탱크,(35)레듀사,(36)고성능수중펌프,(37)펌프수차,(38)토출분사수,(39)물막 또는 커텐물막,(40)소방정,(41)감지노끈,(42)바스켓,(43)이중비닐텐트 또는 봉지,(44)엘보 또는 티이엘보,(45)소방용 펌프,(46)동력 전원 공급장치인 전원,(47)인버터,(48)인버터 브이오,(49)억세스포인터,(50) 인터넷망,(51)입형다단펌프의 관제서버,(52)모니터,(53)펌프제어보드 또는 타구어윈치 조정박스,(54)근거리무선통신안테나,(55)근거리무선통신장치의무선통신제어모듈,(56)디스플레이,(57)전자제어장치 에이 디이 씨,(58)스위치 입력회로, (59)전자제어장치 엠씨유,(60)전자제어장치 디이 에이 씨,(61)과전류차단기용 브레이크, (62) 전원부,(63)디스플레이 화면,(64)아날로그입력,(65)디지털입력,(66)각 펌프의 온 오프 제어용 메인스위치버턴,(67) 보조스위치 버턴,(68)입형다단펌프 디스플레이 입력 또는 컴퓨터 전산망 입력,(69)현재 압력값 또는 설정 압력값 압력설정수치 인식명판,(70)메모리,(71)동력전선,(73)방재물질 혼합기믹서,(74)이중관 구조 블록배관라인,(74a)내부블록배관,(74b)외부블록배관,(75)헝겊꺼즈,(76)솔레노이드밸브,(77)애드벌룬,(78)비행선,(79)가스통,(80)공기압축기,(81)모바일서비스,(82)휴대용단말기,(83)저압차단 밸브,(84)비상 밸브,(85)감압 밸브,(86)제1압력체크센서,(87)제2압력 체크센서,(88)전자제어유닛,(89)방재배관라인 또는 양수관,(89a)수직 양수관,(89b)수직 하향관,(90)볼밸브 핸들,(91)드렌처헤드,(92)밸브몸체 내부 디스크,(93)비상싸이렌,(94)최초발화원인물질인 스파크 또는 낙뢰,(95)전신주,(96)변압기,(97)레듀사붓싱소켓,(99)점멸경고등,(100)파라핀노즐마개,(101)압력계,(102)감지센서 바이메탈,(102a)열전대의 구성 방식,(102b)열전류 발생,(102c)열기전력 발생, (102d)측정점,(102e)기준점,
(103)감지센서용 열전대 온도계 스위치,(103a)열전대 온도계의 구성방식,(103b)측온한계,(103c)온도 1,(103d)전류계 온도의 눈금,(103e)금속A,(103f)금속B,(103g)전위차가 발생,(103h)열전대와 보상도선,(103i)측온 접점,(103j)열전쌍,(103k)보상 접점,(103l)보상 도선,(103m)기준 접점,(103n)열전대의 종류, (103o)보호관이 없음,(103p)보호관,(103q)고온물체,(103r)보호관이 있음,(103s)시스형,(103t)측온단자,(103u)측온접점,(103v)스텐 금속시스,(103w)보호관 부착 백금 측온 저항체,(103x)마이카,(103y)백금선,(103z)자기,
(104)레벨 또는 압력스위치,(104a)다이어프램식 압력스위치, (104b)공압-센서 압력스위치, (105)방유량 체크용 유량계,(106)전동기제어모듈,(107)밸브스위치작동용 추 또는 크레인 붐대 레벨 유지 웨이트,또는 납덩이 추,(108)과대압력 방지스위치 또는 스위치박스,(109)공기호스,(110)공기호스 연결장치 닛플,(111)스프링 쿨러헤드,(112)반사관,(113)가용금속용 퓨우즈,(114)정지밸브 또는 수도밸브,(115)지하매설관,(116)철탑 또는 블록철탑,(117)부자,(118)부자회로개폐기,(119)벨,
(120)경보밸브,(121)시험밸브,(122)고압수도펌프,(123)레버 블럭,(124)소화기(소화기a, 소화기b, 소화기c, 소화기D, 소화기e, 소화기f) (125) 체인,(126)실린더,(127)피스톤 또는 피스톤펌프,(128)소화기 고정용 핀,(129)빗장 장금장치,(130)인명구조용튜우브,(131)로프,(132)컨테이너,(133)앙카볼트,(134) 라디오존데,(135)구동바퀴 로라 용 도루레,(136)레귤레이트,(137)동체에 감긴 밧줄이나 쇠사슬로 수문개폐 조절장치용 타구어윈치,(138)시린더,(139)철개망태,(140) 터어빈펌프,(141)케싱,(142)베인펌프 또는 가이드베인,(143)임펠러,(144)다이어후렘펌프,(145)고압저장탱크,(146)프로펠러펌프 또는 프로펠러,(147)다단식나사 공기 압축기 그리고 나사펌프,(148)플런저펌프,(148b)사축식 플런저펌프,(148c)레이디얼 플런저펌프,(149)철재빔,(150)방재펌프 제어시스템 또는 관제시스템,(151)오일 냉각기,(152)맨홀덥게,(153)해치카버,(154)방화문,(155)글랜드패킹,(156)매커니컬 시일 또는 각개의 시일,(157)제트펌프,(158)황토,(159)방화사,(160)옥내소화전상자 (161)자동소화전,(162)호스걸이,(163)질식가스,(164)불연성 가스의 이산화탄소, (165)보강철판,(166)성냥불(a) 또는 발화물체(화재유형별의 A급, B급과 C급으로 분류함),(167)나사탭, (168)송수구 또는 소방방재 배관 라인,(169)방수구,(170)내부냉각기,(171)배기가스,(172)인명구조겸용 침대노즐,(173)가스랜지 또는 버너,(174)탄산가스,(175)하론가스,(176)핼륨가스,(177)발화물질 파라핀테이프,(178)비발화물질 철사,(179)소화전(단구형a,쌍구형b),(180)비닐포대,(181)방재공기배관라인,(182)후미냉각기,(183)리밋스위치 또는 리미트스위치,(184)무인카메라,(185)끝이 뾰족한 틈새 결합공구 지그대 쇄기,(186)스프링,(187)무인점화기 스파크라이터,(188)구명정,(189)압력탱크용 헤드탱크,(190)플렉시블고압호스 또는 유압호스,(191)도입관 또는 수압관,
(192)동력모터 전동기 몸체,(193)후드,(194)스냅링,(195)팬,(196)몸체프레임,(197)몸체 전방 보강철판,(198)회전축,(199)회전자조립,(200)전방 회전축받이, (201)고정자조립,(202)모터보호용 주물프레임,(203)단자박스,(204)인양볼트,(205) 단자박스 카버,(206)후방 회전축받이,(207)후방 보강철판,(208)공극,(209)팬 카버 또는 보호 카버,(210)회전자 철심,(211)고정자 철심,(212)고정자 권선,
(225)철근 콘크리트 매트,
(226)엔진발전기, (277)터빈 회전 축받이,
(232)탐조등,
(234)에어 드라이어,(235)불씨,(236)불꽃,(237)불기둥,
(248)크랭크,(249)링크대,(250)푸레,(251)감속기,(252)브이밸트,(253)플런저,(254)고정핀,(255)타임머,(256)케이블카아,(257)공기밸브,(258)안전밸브,(259)자동밸브, (260)드레인밸브,(261)벨트카버,(262)흡입필터,(263)압축기본체,(264)수차 또는 펌프수차,(265)메인밸브,(266)산림,(267)터빈 또는 회전날개,(268)엔진발전기 또는 플라이휠,(269)취수구 또는 흡입구,(270)방수로 또는 토출구,(271)공운전 방지장치,(272)펌프전원,(273)제어전원,(274)비상운전회로,(275)직류파워공급회로,(276)마이크로 콘트롤 유니트,(277)디 아이피 스위치설정회로,(278)디스플레이회로,(279) M/C 구동신호 접점출력회로,(280)모터 과부하 신호입력회로,(281)인버터운전 데이트 입출력회로,(282)압력감지회로,(283)외부상태 입력회로,(284)토출 압력 트랜스미터어,(285) 흡입/토출 스위치,(286)베드 프레임,
(287)냉각수 또는 냉각수 입구,(288)유분리탱크,(289)흡입밸브,(290)기어드라이븐,(291)건조기,(292)물탱크,
(293)수문,(293a)데인터 게이트,(293b)롤링 게이트,(293c)설계수위,(293d)수면,(293e)앵커부문 고정부,(293f)고정부,(294)수로 또는 회전수로,(295)수조탱크,(296)게이트밸브,(297)리턴밸브,(298)부시 또는 트로틀부시,(299)드렌처 헤드(a,b,c,d)의 종류,(300)진동경보장치,(301)드레인,(302)역정지밸브,(303)고압 보울탱크,(304)양수펌프,(305)유량제어용 버터플라이밸브,(306)중탄산소다,(307)재유입구,(308)센튜리 퓨우걸 펌프,(309) 오수펌프,(310)스파이럴 케이싱,(311)블류우트 펌프,(312)후드밸브,(313)양수구, (314)펌프 본체,(315)플로우트,(316)볼 밀어넣기 기기,(317)플랙스블카프링,(318) 플로우트 스위치,(319)뒷날개,(320)퍼올림 밸브,(321)빨아올림 밸브,(322)분출 수면계,(323)실제 양정,(324)분출 양정,(325)제트펌프,(326)기어펌프,(327)윙 펌프, (330)분리 실,(331)마그넷 스위치,(332)핵폐기물건물,(333)빌딩 또는 대형건물,(334) 밸런스,(335) 언밸런스,(336)옥내 소화용 펌프,(337)로터리펌프,(338)로터리 회전자,(339)프라이 밍,(340)자흡식 펌프,(341)축류펌프,(342)혼류펌프,(343)점성펌프,
(344)수력발전소의 이중구조 블록탱크 제조설치 공정의 연결축,
(344a) 가(A B )변의 블록탱크, (344b) 나(B C) 변의 블록탱크, (344c) 다(A C)변의 블록탱크, (344d) 라(A R) 변의 블록탱크, (344e) 마(A Q) 변의 블록탱크, (344f) 바(A P) 변의 블록 탱크, (344g)사(A O) 변의 블록탱크, (344h) 자(A M) 변의 블록탱크, (344i) 아(A N) 변의 블록탱크, (344j)갑(A B C), 삼각형 블록탱크, (344k) 을(A B "C),삼각형 블록탱크, (344l) 병(A R S),삼각형 블록탱크, (344m) 무(A Q T),삼각형 블록탱크, (344n) 갑 자(A O B),삼각형 블록탱크, (344o) 을축(A N W),삼각형 블록탱크, (344p) 병인(A M X),삼각형 블록탱크, (344q)차(D E)변의 블록탱크,(344r)카(B D)변의 블록탱크,(344s)타(C E)변의 블록탱크,
(345)표준형 글랜드패킹 또는 글랜드, (346) 주액랜턴링부착패킹, (347)랜턴패킹, (348) 2중 글랜드형 패킹, (349) 드로틀부시부착패킹, (350) 냉각수출구, (351) 봉수, (352) 냉각수 입구, (353) 슬리이브내면 냉각병용 워터재킷부착패킹, (354) 슬리이브의 내부 냉각실, (355) 보조글 랜드, (356) 누설액의 냉각실, (357) 글랜드 패킹짜는 방법, (358) 여덟가닥짜기, (359) 봉지짜기, (360) 격 자짜기, (361) 플래싱구멍, (362) O링, (363) 스톱더, (364) 중동링, (365) 밀봉단면, (366) 시이트링, (36 7) 피동링, (368) 퀀칭, (369) 쿠울링, (370) 되돌림관, (371) 핸들(Handle), (372) 격벽, (373) 축방향의 드러스트 하중, (374) 임펠러 전면에 작용하는 압력, (375) 임펠러 뒷면에 작용하는 압력, (376) 밸런스호울 ,
(377) 흡입압력, (378) 배면압력, (378) 밸런스구멍, (380) 전면웨어링, (381) 토출압력,(382)배면 베어링 링,(384)뒷날개, (385)뒷날개 설치로 인한 압력분포와 임펠러,(386)다단펌프의 임펠러 배치,(387)수주분리,(388)수주결합,(389)수격작용,(390)축봉부,(391)냉각방식의 매커니컬시일,(392)스트레이너,(393)수격펌프,(394)옥상소방운전실 또는 크레인운전실,(395)높고 낮은 산,(396)폴저엔코 드(Pulse Encoder),(397) 스피드콤멘드(Speed Command),(398) 모터스피드 그리고 변속기,(399) 디스크 브레이크(DISC Brakes),(400) 방파제 겸용 방제탱크,(401) 안전로프그물망, (402)공기 압축실(Air Chamber),
(403) 슬루우브 밸브,(404)밸브몸통,(405)밸브덥개,(406)슬루우스밸브,(407)패킹누르게,(408)패킹누르게 너트,(409)밸브,(410)핸들,(411)핸들너트,(412)패킹, (413)웨지게이트밸브,(414)단체밸브,(415)플렉시블밸브,(416)패럴렐 슬라이드밸브, (417)더블 디스크 게이트밸브,(418)스톱밸브,(419)플랜지형 글로우브밸브,(420)플랜지형 앵글밸브,(421)몸통,(422)본네트 덥개,(423)디스크,(424)덥개붙임밸브 시이트,(425)밸브대,(426)밸브 누르개,(427)핸들,(428)덥개 끼움링,(429)패킹누르개링, (430)패킹 누르개,(431)나사 끼움형,(432)덥개 보울트,(433)패킹 누르개 보울트, (434)핀,(435)덥개 보울트용 너트,(436)패킹 누르개 보울트용너트,(437)핸들 너트, (438)멈춤나사,(439)와셔,(440)패킹,(441)가스킷,(442)밸브누르게,(442a)평면누르게,(442b)원뿔누르게,(442c)구면누르게,(442d))스터트누르게,
(443) 콕1형 (444) 콕2형,(445) 청동나사넣기 메인콕,(446)주철플랜지형 글랜드형,(447)청동나사넣기 글랜드콕,(448) 삼방콕,(449) 사방콕,(450) 핸들콕,
(451)첵 밸브,(452)스윙형 첵밸브,(453)리프트형 첵밸브,(454)첵밸브몸통, (455)덥게,(456)디스크,(457)디스크 핀,(458)플러그,(459)조정밸브,(460)감압밸브, (461)파이로트 작동 자력식감압밸브,(462)2 차측 감지구멍,(463)다이어프램,(464) 파이로트밸브,(465)배기연돌,(466)메인밸브,(467)메인밸브스프링,(468)조정스프링,(469)오 토압력조절밸브,(470)나사형 오토 압력조절밸브(a),(471)플랜지형 압력조절밸브(b)
(472) 안전밸브, (473)스프링식 안전밸브,(474)리리이프식 안전밸브,(475) 증기용 포프 스프링식 안전밸브, (476)포프식 안전밸브,(477)온도조절밸브,(478) 오토 급수기,(479)오토 급수기(a),(480)오토수준 조정기,(481)공기빼기밸브,(482) 오토 열동형증기용 공기 배기밸브,(483)바켓트 온수형 오토공기 배기밸브,(484) 냉매배관용 밸브,(485)냉매스톱 밸브,(486)팩드밸브,(487)팩레스밸브,(488)팩레스 밸브,(489)팽창밸브,(490)다이어후렘형 팽창밸브,(491)벨로우스형 팽창밸브,(492)부자 밸브,(493)냉매용 압력조정밸브,(494)전자밸브,(495)오토 급수밸브,(496)일반형 수전용 수도꼭지,(497)지수선,(498)분수전,(499)볼탭,
(500)해양수력발전소의 선체안전 보존용 피뢰침,
(501)나사 이음형 Y형 스트레이너 외형도(a) 단면도(b), (502) U형 스트레이너,(503)V형 스트레이너,(504)관 고정금속,(505)터언 버클부 지지밴드,(506)지지밴드,(507)로울러부 지지밴드,(508)수직관 매몰용 밴드,(509)철재 안경밴드,(510)바닥밴드,(511)트랩,(522)앵글형 열동식 트랩,(523)스트레이트 열동식 트랩,(524)버 키트 트랩,(525)상향식 버키트 트랩,(526)하향식 버키트 트랩,(527)플로우트 트랩, (528)임펄스 증기트랩,(529)수도꼭지몸통,(530)패킹상자,(531)패킹누르게,(532)꼭지대,(533)핸들,(534)디스크,(535)디스크패킹,(536)내수패킹,(537)내노화성물건 패킹,(538)테프론막,
(539)열팽창이 큰 금속,(540)열팽창이 작은 금속,(541)타임머 또는 레벨스위치,(542)하이레벨 알람,(543)베이컴 페일루어 알람,(544)스멀 릴레이 알람,(545) 알람 리셋트 버턴,(546)로워 레벨스위치,(547)플랩(flap;밸브의 혀),(548)사운 드 캡,(549)첵 노즐,(550)루우버 카버,(551)플로이트 인셔어트 스위치,(552)지시눈금스케일,(553)오우버 플로워 콘넥션,(554)벤트 파이프 콘넥션,(555)플랜지 콘넥션, (556)이중비닐 개방형 침바늘,(557)솔레노이드밸브 몸체,(558)카버,(559)스폴, (560)스플 패킹,(561)파이로트,(562)코일,(563)콘넥터,(564)메니 폴드(L;PTY8"대유량형),(565)매니 폴드(S;M5소유량형),(566)나사볼트,(567)공기호스 결속구 유니온 카플링,(568)유니온 몸체결속 카플링,(569)2위치 싱글,(570)2위치 더블,(571)LL; 중앙 수직형,(572)L; 수직형,(573)수평형; M,(574)F; 피팅 포함,(575)도시기호 싱글,(576)더블,(577)에이 취,(578)아이,(579)제이,(580) 마이크로 스위치,(581) 직접 배관형,(582)베이스 배관형,(583)파이어 댐퍼,(584)댐퍼 스핀들,(585)닥터 벤츄레이션,(585a)닥터 벤츄레이션 흡입구,(585b)닥터 벤츄레이션 배출구,(586) 몽골 피에의 열기구,(587) 블량샤르의 열기구, (588) 켈리의 열기구,(589) 증기비행선,
(590) 교각겸용 이중구조 지주블록탱크,
(591) 지주탱크 상단의 바지선선체,
(592) 지주탱크 하단의 바지선선체,
(593) 소형의 해양수력수력발전소의 부양 식 독,
(594) 중형의 해양수력수력발전소의 부양 식 독,
(595) 대형의 해양수력수력발전소의 부양 식 독,
(596) 이중구조내부블록탱크,
(597) 고장력 스테인레스강의 철판,
(598) 이중구조블록탱크,
(599) 이중구조 외부블록탱크,(600) 블록탱크용 제 1보조형강,(601) 블록탱크용 제 2보조철판 ,(602)제 1보조형강과 제 2 보조철판의 모서리부위 용접 결함을 해소 시키기 위해 절단된 부위 스냅홀,(603)블록탱크 선체 분해결합 휴대용 러그 연결축 볼트,(603a)볼트의 나사산,(604)블록탱크 선체 분해결합 휴대용 러그 연결축 분해결합 너트,(603b)너트의 나사산,
(605)블록탱크 선체 분해결합용 제 2 보조 철판 수직격벽,(606)블록탱크 선체 분해결합 휴대용 러그 핀 연결축,(607)블록탱크 선체 분해결합 휴대용 러그,(608)블록탱크 선체 분해결합 휴대용 러그 핀,(609)블록탱크용 선체 분해결합용 제 2 보조철판 수평격벽,(610)블록탱크 선체 교통장치용 격벽맨홀, (611) 인공위성,(612) 우주로켓,(613)블록탱크 블록단위 선체 분해결합용 러그힌지소켓,(614)블록탱크 블록단위 선체 분해결합용 대형플랜지,(615)대형플랜지 접속연결구 접합부위 가공홀 또는 러그 가공홀작키베드 가공홀,(616)계류장치 부양식독 바지선선체 균형 조절장치용 작키베드,(616a)블록탱크 블록단위 선체 분해결합 위치이동 조절장치용 러그 장공홀,(617)블록탱크 선체 분해결합 이중관 구조 탱크교각 건설용 부교식 새들 형틀,(618)블록탱크 선체 교통장치용 가이드레일, (619) 헬리콥터 정류장,(619)블록탱크 블록단위 선체 분해결합조절장치용 유압회전실린더기계 또는 블록단위 선체의 드릴 선반 로터리 실린더기계의 랙＆ 피니언형(NRP) 실린더기계,
(620)유압회전실린더(로터리 실린더[랙＆피니 언 형-NRP]),
(621)블록탱크 블록단위 선체 분해결합조절장치용 밴드 지그대,
(622)블록탱크 블록단위 선체 부침조절장치용 벨러스터 버터플라이밸브,
(623)블록탱크 블록단위 선체 분해결합조절장치용 유압실린더 유압작키,
(624)블록탱크 선체 교통조절장치용 유압 실린더 도어 또는 블록탱크 블록단위 선체 분해결합조절장치용 유압실린더기계.(625)마개철판,
(626)화력발전소,
(627) 엔진제어시스템용 엔진제어모듈,(628)부이깃대 고무풍선,(629)밧줄용 로프,(630) 로프 매듭갈고리,(631)비상계단,(632)승강기용 앨 리 베 이 트,(633)컨베이어,(634)침몰선박 인양 선의 침몰방지 체류 선,(635)진공펌프,(636)예인선,(637)반 잠수작업선,(638)볼라 드,(639)앙 카,(640)앙 카 용 체인,(641)송풍기 또는 쿨 링 팬,(642)공기 보온용의 히터 팬,(643)인공위성발사대,(644)계류탑,(645)전기 자석 마그넷,(646)우주로켓발사대, (647)헬리콥터,(648)체인 블 럭,(649)황토 세 멘 트 혼합장비 믹서기계,(650)애 자,(651)크레인 붐 대, (652)크레인 붐 걸 고리,
(653)우라늄 239,(653a)우라늄 238,
(654)물,(654a)경수,(654b)중수 또는 가압중수,
(655) 항상 같은 방향으로만 흐르는 전류인 직류, (656) 시소가 오르내릴 때마다 흐름의 방향이 바뀌는 전류인 교류,
(659)전류가 잘 흐르지 않는 니크롬선,(660)전구몸체,(661)베이스,
(663)필라멘트,(664)유리,(665)형광 방전관,(666)점등관,(667)방전,(672a) 어도터널, (673)시이소 중심축 프레임, (675)구름비, (676)깔대기구름, (677)먼지,
(678)하천,(678a)총낙차,(678b)방수로,(678c)유입식 발전소의 개념도,(678d)저수지식 발전소의 개념도,(678e)조정지식 발전소의 개념도,(678f)조력발전의개념도,(678g)취수구,(678h)상부조정지,(678i)하부조정지,(678j)가역식펌프수차,(678k)발전력,(678l)양수전력,(678m)양수,(678n)발전,(678o)조력조정지,(678p)한강수계에서의 각발전소위치구성도,(678q)화천 수력발전소,(678r)소양강 수력발전소,(678s)충주 수력발전소,(678t)춘천 수력발전소,(678u)의암 수력발전소,(678v)청평 수력발전소,(678w)팔당 수력발전소,(678x)소양강,(678y)남한강,(678z)괴산 수력발전소,
(679)제방,(679a)토질차수벽,(679b)상류측 록필,(679c)필터,(679d)본체 록필,(679e)부벽댐,(679f)표면차수판,(679g)부벽,(679h)이용수심,(679i)중공부,(679j)주변전실,(679k)표층콘크리트,(679l)물의위치에너지,(679m)물의운동에너지,(679n)기계에너지,(679o)전기에너지,(679p)이론수력,(679q)수차출력,(679r)발전기출력,(679s)수력발전의 개요도,(679t)댐식 발전소의 개념도,(679u)스크린,(679v)취수탑,(679w)볼탭밸브,(679x)입구밸브,(679y)주요기기,(679z)주요변압기,
(680)댐,(680a)저수지 또는 조정지,(680b)취수댐,(680c)양수댐,(680d)양수식,(680e)양수발전,(680f)댐수로식,(680g)댐식,(680h)수로식,(680i)압력수조,(680j)조압수조,(680k)침사지,(680l)무압수조,(680m)상수조,(680n)취수설비,(680o)도수설비,(680p)발전설비(양수),(680q)방수설비,(680r)고수위,(680s)저수위,(680t)암벽,(680u)상류면보호층,(680v)배수층,(680w)토질재료,(680x)기초암반,(680y)흙댐, (680z)암석댐,
(684) 전압, (685) 전력, (686)전원의 출구, (687)전원의 입구,
(690)초고압 변전소,(691)1차 변전소,(692)송전소 내부 중심에 7가닥의 강철선,(693)54가닥의 알루미늄선,(694) 연료호스,(695)송전선,(696)해양터널 횡단철도 변전소,(697)중간 변전소,(698)대단위 공장,(699)중단위 공장,(700)2차 변전소, (701)소단위 공장,(702)가정(태양열 주택이 포함됨),(703)스탭발판 걸고리,(704) 전선 균형용 케인크의 초고압 전선 균형애자,
(705)관제조공정의 분배축,(706)소구경 전기저항 용접관,(707)원재료,(708)언코일링,(709)레벨링,(710)사이드트리밍,(711)절단과 대강연결,(712)성형,(713)용접과 내외면 비드제거,(714)초음파와 와류탐상시험,(715)용접부열처리,(716)공냉,(717)수냉,(718)진원성형,(719)절단,(720)평평도시험,(721)구조관,(722)교정,(723)중간적재,(724)유도가열로,(725)에스 알엠(SRM),(726)열간절단,(727)면취,(728)수압시험,(729)초음파와 와류탐상시험,(730)무게와 길이측정기,(731)육안 및 치수검사,(732)나사,(733)도유,(734)일반 배관용,(735)아연도금,(736)아연도 강관,(737)보일러 튜브,(738)냉각대,
(739)중구경 케이지 성형 전기저항 용접관,(740)코일마게 철판원재료,(741) 사이드 트라밍,(742)케이지 성형,(743)송유관,(744)초음파 탐상시험,(745)진원성형,(746)송유관(석유산업용 강관),(747) 대구경 강관,(748)엣지 밀링기계,(749)3롤 밴딩기계,(750)포스트 밴딩기계,
(751)가용접,(752)내면용접,(753)백가후징,(754)외면용접,(755)관단 싸이징, (756)관단면취,(757)X-선시험,(758)냉간 익스팬딩,(759)마킹.포장.출하,(760)스파이랄 용접강관,(761)언 코일링,(762)구조관과 강관말뚝,(763)비도복 배관용,(764) 외면 브라스트 크리닝,(765)내면 브라스트 크리닝,(766)내면도장,(767)1차 도장, (768)도장과 도복,(769)도복장 강관,(770)초음파와 X-선검사,
(771)해양터널장치용 내부 전동차,
(772) 터빈발전기,
(773)수력발전기용 회전하지 않는 전기자코일,
(774)수력발전기용 회전하는 회전자전자석코일,
(775)송전선,(776)송전철탑,(777)개폐시설,(778)보일러 또는 주전자,
(779) 증기파이프,(780) 증기 또는 강력한 기체의 고온고압 증기 출입구,
(781)생산전력 중앙제어실 ,
(782)송전측정실 트랜스 포머룸, (783) 보일러 작동 노심, (785) 전자,
(786) 증기건조기,(787) 자석,
(794) 이중구조 블록탱크 집진기 또는 화력발전소의 집진기,
(795) 중유탱크, (796) 중유,
(797) 유조선 또는 화물선,
(811)지진해일피해방지장치,
(812)펌핑 가동장치,
(813)전력 생산제조장치,
(814)건설기계의 교통운송장치,
(815)동력을 전달하는 동력 전달장치,
(816)설비안전 통제 관리 전장장치,
(817)전자제어조절장치 건설기계조절장치,
(818)전자제어조절장치 나사조절장치,
(819)유압탱크,(819a)열판,(819b)유면계(오일 포트장),(819c)드레인(배유구),(819d)탱크밑판,(819e)격판(버플 플레이어),(819f)석션 스트레이너,(819g)위판 패킹(내유고무),(819h)흡입구패킹,(819i)흡입구뚜껑,(819j)탱크위판,(819k)에어 블리저 겸 주유구(콤비네이션 에어 블리저),(819l)탱크각판,(819m)청소창 패킹(내유고무),(820)유압모터,(821)유압펌프,(822)로드앤드피스톤시일,(823)피스톤시일,(824)부프시일,(825)웨어링,(826)스라이드링,(827)디유부시,(828)오링,(829)로드시일,(830)백업시일,(831)로드시일 ＆ 백업시일,(832)다스트시일,(833)핀다스트시일,(834)다스트위프시일,(835)부프링(836)피스톤링,(837)다스트링,
(839)등변산형강 또는 부등변산형강,(840)기상관측장비레이다,(841)원유(기름),(842)해저광물뜰채바스켓,(843)심해저탐색 수중조명,(844)버킷 또는 빠레트,(845)스큐르 드릴의 심해저 굴착장비용 굴착기,(846)앙카 대체용 쇄기 크랭크,(847)착암기 또는 네트,(848)엑츄레이트,(849)해저광물 뜰채용 공기주머니,(850)턴박클,(851)교각용 레벨기초 밑받침대,(852)고정용 쇄기 받침목,(853)아아크용접기 또는 아르곤용접기,(853a)용접연결선,(853b)용접각장,(854)파이프 랙,
(855)불도저,(855a)크롤러형 도저,(855b)휠형 도저,(855c)스트레이트 도저,(855d)딜터 도저,(855e)앵글 도저,(855f)힌지 도저,(855g)트리 도저,(855h)레이크도저,(855i)하이드릭리퍼,(855j)도저의동력전달장치,(855k)캠기타장치용 흡입펌프,(855l)기관,(855m)냉각계통,(855n)최종기어장치,(855o)기동륜의스프로킷, (855p)유동륜의아이들러,(855q)조항클러치,(856)굴삭기,(856a)백호,(856b)파워셔블,(856c)드래그라인,(856d)어스드릴,(856e)크램셸,(856f)스키머,(856g)리퍼와 루터, (857) 로더, (858) 지게차,(859)스크레이퍼,(859a)견인식 스크레이퍼,(859b)동력식 스크레이퍼,(859c)에어프런,(859d)이젝트,(859e)볼,(859f)커팅테지,(860)덤프트럭,(860a)트레일러,
(861)크레인 또는 기중기,(861a)기중기 구조의 각부명칭,(861b)익스턴트케이블,(861c)하중계,(861d)브리들,(861e)붐벡스들,(861f)메이로프,(861g)붐호이스트로프,(861h)상부프레임,(861i)하부프레임,(861j)호이스트로프,(861k)전방드럼,(861l)중간드럼,(861m)후방드럼,(861n)균형추,(861o)케이블크레인,(861p)기중기의 6개 전부장치,(861q)갈쿠리(Hook)장치,(861r)조개(Clamshell)장치,(861s)삽(Shovel)장치,(861t)긁어파기(Dragline)장치,(861u)도량파기(Trenchhoe)장치,(861v)기둥박기(Pile driver)장치
(862)모터그레이더,(862a)머플러,(862b)기관플라이휠,(862c)냉각팬,(862d)전후전달러치,(862e)트랜스러치,(862f)고정기어식변속기,(862g)주차브레이크,(862h)차등기어,(862i)트랜스퍼카아중성기어감속기,(862j)디스크 브레이크,(862k)그레이더의 외부구조,
(863)롤러,(863a)진동 롤러,(863b)소일콤팩터,(864)노상 안전기,
(865)콘크리트배칭플랜트,(865a)콘크리트호퍼,(865b)운반장치차징차트,(865c)조정판,(865d)물멧처,(865e)대칭호퍼,(865f)스케일 프레임,(865g)저장 빈,(865h)종합벨트콘베이어,(865i)턴헤드,(865j)버킷엘리베이트,(865k)운반시멘트차드,(865l)조정판,(865m)기록장치,(865n)원형믹서,(865o)시멘트 사일로,(865p)스쿠르 콘베이어,
(866)콘크리트 피니셔,(866a)스쿠르 스프레이,(866b)제1 스크리드,(866c)진동기,(866d)피니싱 스크리드,(866e)가이드롤러,(866f)가이드레일,(866g)마무리면,
(867)콘크리트스프레더,(868)콘크리트믹서트럭,(869)콘크리트펌프,(870)아스팔트 믹싱 플랜트,(871)아스팔트 피니셔,
(872)아스팔트살포기,(872a)동력피동펌프,(872b)밸브제어,(872c)분무바,(872d)버니,(872e)버림관,(873)골재 살포기,
(874)쇄석기,(874a)자이레토리크러셔,(874b)새시프레임,(874c)피더호퍼, (874d)진동그리스리피터,(874e)파쇄헤드부의 1차 조크러셔, (874f)파쇄실 후미의 2차 조크러셔, (874g)진동스크린,(874h)드럼엘리베이터,
(875)공기압축기,(876)천공기,(877)항타와 항발기,(878)사리 채취기,
(879)준설선,(879a)펌프준설선,(879b)버킷준설선,(879c)스팟드시어,(879d)운전실 또는 조정실,(879e)레드시어,(879f)스팟드,(879g)블러스트탱크,(879h)블러스 트펌프,(879i)레드,(879j)기관실,(879k)디퍼 준설선,(879l)그래브 준설선,(879m)버킷구동장치,(879n)후부스팟드,(879o)스팟드윈치,(879p)버킷,(879q)좌우의전부스 팟 드,(879r)디퍼,(879s)윈치,(879t)닻줄창고,(879u)벨트 컨베이어,(879v)그래브,
(880)별도의 지정 건설기계,(882)파일드라이버,(882a)붐, (883) 디젤파일 해머, (884)증기해머, (885)유압크레인,(885a)피스톤 모터,
(886)타워크레인,(886a)가이 데릭 구조의 각부명칭, (886b)가이 데릭,(886c)주측,(886d)붐,(886e)붐호일,(886f)턴버클,(886g)공망,(886h)3각데릭,(886i)주측,(886j)붐,(886k)붐호일,(886l)레크,
(887)드레그 크레인,(887a)드레그 크레인의 구조,(887b)호이스트케이블,(887c)덤프케이블,(887d)버킷,(887e)하부붐,(887f)레터렉트케이블,(887g)케이블롤러,(887h)붐케이블,(887i)케이블롤러,(887j)붐 호이스트 케이블,(887k)케이블드럼,(887l)케이블드럼,(887m)평행추,
(888)클램셀 부착물을 가진 크레인,(888a)홀딩 라인,(888b)개폐라인, (888c)클램셀버킷,(888d)상부프레임,(888e)하부프레임,(888f)랙라인,(888g)로프가이드,(888h)붐탠던트,(888i)브리들,(888j)붐 호이스트 로프,(888k)전방드럼,(888l)후방드럼,(888m)평행 추,
(889)머캐덤롤러,(890)탠덤롤러,(891)탬핑롤러,(892)타이어롤러,(893)트랙터,(894)트레일러,(895)램,(896)리드,(897)냉각수냉크,(898)파일,(899)헬밋,(900) 연료펌프,(901)캠,(902)연료탱크,(903)기동장치,(904)붐전핀,(905)캐드워크,(906) 어댑터,
(907)어군탐지기 소나,
(908) 원유시추용 드릴링머신의 로터리 테이블선반기계,
(909)망간 단괴,
(910)뜰채그물,(911)흡입채집기계,(912)해저광물채취로봇,
(913) 잠망경,(914)고무풍선,(915)와이어로프 체인,
(916)이중구조 배관라인 자동공압식 밸브운송장치,
(917)코아드릴,
(918)비이오 피이 스키드,(919)고무타이어,(920)버너 붐,
(921)유해적조 미생물,(922)무공해의 천연가스,
(923)공기노즐,
(924)광물채집 뚜레박,(925)황사상승기류,(926)황사하강기류,(927)황사,
(928)이중구조블록탱크 관교각,
(929)이중구조블록탱크 관교량,
(930)화학물질,(931)시멘트,(932)어족자원 확보용 그물,
(933)방재선 또는 방제선,(934)원유시추선,(935)시이소 핸들용 지렛대,
(936)시추공,
(937)이중구조블록탱크 관교량,(938)전극판 아노드,(939)냉각공기방울,(940)비트,
(941)이중구조블록탱크 해양터널 교통장치,
(942)타워크레인 시이소 크레인 붐대.
(943)해양 시이소수력발전소,(943a)수력발전 장치용 펌프 수차,(943b)대형수력발전 장치용 펠톤 수차,(943c)대형수력발전 장치용 프란시스 수차,
(944)대형수력발전기 시이소 수력발전설비,(944a)수력발전장치용 회전속도 검출기,(944b)교류발전기의 전동기 계자 코일에 전류를 공급하는 직류발전기용 여자기,(944c)고리관 깃을 밀어 넣는 기기,(944d)상부 회전축받이,(944e)회전축받이를 밀어넣는 기기,(944f)고정자 코일,(944g)고정자 프레임,(944h)중심부 고정자,(944i)저속냉각기,(944j)제동장치 링,(944k)제동장치 또는 잭,(944l)저속 회전축받이,(944m)엔진발전기,(944n)터빈회전축받이,(944o),(944p)회전축받이,(944q)날개바퀴,
(945)지중선로 방재노즐 또는 공유매립지,
(946)해저선로배선 또는 공유수면매립지,
(947)부침조절장치용 콘 테 이 너 내부용의 공기투입용 고무 튜브,
(948)용광로,(948a)용광로의 노재 벽돌,
(949)선체의 잠수 위치조절 이동장치와 잠수 부력 조절용의 납덩이 추,
(950)온도 자동감지센서용 열전 대 온도계 스위치,
(951)유해적조 흡입 집진기용의 뜰채 바스켓 또는 파 레 토,
(952)물의 위치에너지조절장치용 무동력펌프의 수격펌프,
(953)군사장비 잠수함,
(954)레이저 컴퓨터 절단기,
(955)핵 폭탄보다 더 강력한 무기의 평화 보존형 메시지 포 토 샵,
(957)해양 풍력발전소,(957a)풍력발전기용 풍차,
(958)기상예보관측,
(959)삿대 대체 사용품돛,
(960)인공위성 일기 예보 정보 수집기계,
(961)우주로켓,
(962)인공위성
(964)석유,(965)다이아몬드,(966)철,(967)주석,(968)석탄,
(969)농기구,(994)스위치 작동용 추와 감지센서용의 무게감량용 납덩이추에 잠수원 잠수부력 조절용의 납덩이추,(995)잠수정,(996)침몰선박,(997)맴돌이 수직하강기류,(998)맴돌이 수직상승기류,
(999)지진해일방재,(1000)바다밑,(1001)파도의상부,(1002)파장,(1003)지진해일,(1004)지진해일발생후,
(1005)증기발생기의 증발기구조,(1006)증기출구관,(1007)증기출구실 동체 외관,(1008)습도계 관,(1009)증기출구관,(1010)액면계 관,(1011)나트륨 냉각계 입구 관,(1012)상부 평판,(1013)연결봉,(1014)냉각수 누설 검출관,(1015)2차 아르곤가스관,(1016)스커트,(1017)나선형 열교환 세관,(1018)나트륨 냉각재 출구관,(1019)반구형하부동체,(1020)익수관,(1021)덥개,(1022)동체외관,(1023)나트륨 통로,(1024)나트륨-물 반응 생성물 방출관,(1025)내관,(1026)모니터 링 입구관,(1027)급수 입구관 판,(1028)급수 입구관,(1028a)급수 입구실 외관,
(1078)인명구조용 복원력을 구비한 선박,(1101)거센풍랑파도,
도크선체갑판 상단부(SDU),도크선체갑판 중심부(SDM),도크선체갑판 상단부(S DL),기계실바닥표면 상단부(MFGU),기계실바닥표면(MFG), 기계실바닥표면 하단부(M FGL),지표면 상단부(GLU),지표면(GLL),지표면 하단부(GLD), 적도전선(EL), 북극(N P), 남극(SP),
경도(longitude;ld로 칭함),위도(latitude; lt로 약칭),
분사노즐 상단부(A), 분사노즐 몸체(B), 분사노즐 하단부(C),
도로지표면 상단부(GLU), 도로지표면(GLL), 도로지표면 하단부(GLD),
펌프 몸체(PB), 펌프 몸체 수직 라인(PPVL), 펌프몸체 수평중심라인(PBCL)
밸브 몸체 중심선(VBCL or PBCL),방화수수면 하단(WLD),방화수수면(WLL), 분출 수면(WLU), 해수면 상단부(SLU),해수면(SLL),해수면 하단부(SLD),
기계실 외부(Out of Merchinery Room;OMR)기계실(Merchinery Room ; MR)
기계실 내부(In of Merchinery Room ; IMR)(1) Main body of floating reading device for earthquake and tsunami disaster prevention;
(2) control box of vertical multi-stage pump control panel, (3) suction union pipe, (4) discharge union pipe, (5) pump isolation valve, (6) pump non-return check valve, (7) fire water and water for power generation; Electrolyzed water, (8) Disaster prevention and control pump, vertical multi-stage pump, (9) Double structure nozzle hose and double structure fire hose, (10) Double structure firefighter nozzle,
(10a) Nozzle body "No. 100", (10b) No. "90", (10c) No. "75", (10d) No. "65", (10e) No. 50, (10f) No. "40", (10g) Title "25", (10h) Title "100×90", (10i) Title "90×75" (10j) Title "75×65", (10k) Title "65×50", (10l) Nominal "50×40", (10m) Nominal "40×25",
(11) Fire Nozzle Frame, (12) Detection Sensor, (13) Hook, (14) Piping or Nozzle Pipe, (15) Gap, (16) Inclination Angle, (16a) Blade Propulsion Angle, (16b) Blade Cutting Angle , (17) Disaster prevention waterway, (18) Hook hook, (19) Wire rope, (20) Machining hole, (21) Hook rug or portable rug,
(22) Jigs or various types of jigs ("

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"Shape-shaped jig), (23) shackle, (24) bolt, (25) nut, (26) washer, (27) Hinge for coupling and disengaging to the external location of the external block tank, (27a) L-shaped for hinge Lug pin connection shaft, (27b) Long shaft connection shaft for hinge, (28) Flange or hull ballast balusing tank suction port Flange stopper wire mesh for blocking foreign material access, (29) Coupling, (30) Coupling female thread body, ( 31) Coupling male thread body, (32) Gasket or rubber packing, (33) Nozzle hose equipment holder, (34) Sump tank or safety tank, (35) Reducer, (36) High performance submersible pump, (37) Pump water wheel, (38) Discharge jet water, (39) Water curtain or curtain water curtain, (40) Fire extinguisher, (41) Sensing string, (42) Basket, (43) Double vinyl tent or bag, (44) Elbow or T-elbow , (45) Fire pump, (46) Power as a power supply device, (47) Inverter, (48) Inverter V, (49) Access pointer, (50) Internet network, (51) Control server of vertical multi-stage pump , (52) monitor, (53) pump control board or ball winch control box, (54) short-range wireless communication antenna, (55) wireless communication control module of short-range wireless communication device, (56) display, (57) electronic control Device AC, (58) switch input circuit, (59) electronic control device MCU, (60) electronic control device DC, (61) overcurrent breaker brake, (62) power supply unit, (63) display screen, (64) analog input, (65) digital input, (66) main switch button for on/off control of each pump, (67) auxiliary switch button, (68) vertical multistage pump display input or computer network input, (69) current pressure Value or set pressure value Pressure setting value recognition name plate, (70) memory, (71) power wire, (73) disaster prevention material mixer mixer, (74) double pipe structure block piping line, (74a) inner block piping, (74b) outer Block piping, (75) Cloth plug, (76) Solenoid valve, (77) Ad balloon, (78) Airship, (79) Gas cylinder, (80) Air compressor, (81) Mobile service, (82) Portable terminal, (83) ) low pressure shutoff valve, (84) emergency valve, (85) pressure reducing valve, (86) first pressure check sensor, (87) second pressure check sensor, (88) electronic control unit, (89) disaster prevention piping line or Pumping pipe, (89a) Vertical pumping pipe, (89b) Vertical down pipe, (90) Ball valve handle, (91) Drencher head, (92) Valve body inner disk, (93) Emergency siren, (94) First ignition Spark or lightning that is the cause, (95) Telephone pole, (96) Transformer, (97) Reducer bushing socket, (99) Flashing warning light, (100) Paraffin nozzle cap, (101) Pressure gauge, (102) Bimetallic sensor, (102a) thermocouple configuration method, (102b) thermal current generation, (102c) thermoelectromotive force generation, (102d) measurement point, (102e) reference point,
(103) Thermocouple thermometer switch for detection sensor, (103a) Thermocouple thermometer configuration method, (103b) Temperature limit, (103c) Temperature 1, (103d) Ammeter temperature scale, (103e) Metal A, (103f) Metal B , (103g) potential difference, (103h) thermocouple and compensating wire, (103i) temperature measuring junction, (103j) thermocouple, (103k) compensating junction, (103l) compensating wire, (103m) reference junction, (103n) thermocouple Type, (103o) Without protective tube, (103p) Protective tube, (103q) High temperature object, (103r) With protective tube, (103s) Sheath type, (103t) Temperature measuring terminal, (103u) Temperature measuring contact, (103v) Stainless metal sheath, (103w) platinum resistance thermometer with protective tube, (103x) mica, (103y) platinum wire, (103z) magnetic,
(104) level or pressure switch, (104a) diaphragm-type pressure switch, (104b) pneumatic-sensor pressure switch, (105) flow meter for oil release check, (106) motor control module, (107) weight for valve switch operation or Crane boom level maintenance weight, or lead weight, (108) overpressure prevention switch or switch box, (109) air hose, (110) air hose connector nipple, (111) spring cooler head, (112) reflector, ( 113) Fusible metal fuse, (114) Stop valve or water valve, (115) Underground pipe, (116) Steel tower or block iron tower, (117) Buja, (118) Buja circuit switch, (119) Bell,
(120) Alarm valve, (121) Test valve, (122) High pressure water pump, (123) Lever block, (124) Fire extinguisher (extinguisher a, fire extinguisher b, fire extinguisher c, fire extinguisher D, fire extinguisher e, fire extinguisher f) (125) ) chain, (126) cylinder, (127) piston or piston pump, (128) fire extinguisher fixing pin, (129) latch lock, (130) lifesaving tube, (131) rope, (132) container, ( 133) Anchor bolt, (134) Radio sonde, (135) Pulley for driving wheel rollers, (136) Regulate, (137) Anchor winch for sluice control device with a rope or chain wound around the body, (138) Shirin More, (139) Iron mesh, (140) Turbine pump, (141) Casing, (142) Vane pump or guide vane, (143) Impeller, (144) Diaphragm pump, (145) High pressure storage tank, (146) Propeller Pump or Propeller, (147) Multistage Screw Air Compressor and Screw Pump, (148) Plunger Pump, (148b) Bend Shaft Type Plunger Pump, (148c) Radial Plunger Pump, (149) Steel Beam, (150) Disaster Control Pump System or control system, (151) Oil cooler, (152) Manhole cover, (153) Hatch cover, (154) Fire door, (155) Gland packing, (156) Mechanical seal or individual seal, (157) Jet pump, (158) loess, (159) fire pit, (160) indoor fire hydrant box (161) automatic fire hydrant, (162) hose hanger, (163) suffocating gas, (164) carbon dioxide of non-combustible gas, (165) steel plate , (166) matches (a) or igniting objects (classified as Class A, Class B, and Class C by fire type), (167) Screw taps, (168) Water outlets or fire and disaster prevention piping lines, (169) Water outlets, (170) Internal cooler, (171) Exhaust gas, (172) Lifesaving bed nozzle, (173) Gas stove or burner, (174) Carbon dioxide, (175) Haron gas, (176) Helium gas, (177) Paraffin tape for igniting material, (178) wire for non-incendive material, (179) fire hydrant (single sphere type a, double sphere type b), (180) plastic bag, (181) disaster prevention air piping line, (182) tail cooler, (183) Limit switch or limit switch, (184) unmanned camera, (185) sharp-pointed gap coupling tool jig grinder, (186) spring, (187) unmanned Igniter spark lighter, (188) Lifeboat, (189) Head tank for pressure tank, (190) Flexible high-pressure hose or hydraulic hose, (191) Inlet pipe or hydraulic pipe,
(192) power motor motor body, (193) hood, (194) snap ring, (195) fan, (196) body frame, (197) front reinforcing steel plate, (198) rotating shaft, (199) rotor assembly, ( 200) Front rotating bearing, (201) Stator assembly, (202) Casting frame for motor protection, (203) Terminal box, (204) Lifting bolt, (205) Terminal box cover, (206) Rear rotating bearing, (207) Rear reinforcing steel plate, (208) air gap, (209) fan cover or protective cover, (210) rotor iron core, (211) stator iron core, (212) stator winding,
(225) reinforced concrete mats,
(226) engine generator, (277) turbine rotating shaft,
(232) Searchlight,
(234) air dryer, (235) embers, (236) sparks, (237) pillars of fire,
(248) crank, (249) link stand, (250) pulley, (251) reducer, (252) V-belt, (253) plunger, (254) fixing pin, (255) timer, (256) cable car, (257) Air valve, (258) Safety valve, (259) Automatic valve, (260) Drain valve, (261) Belt cover, (262) Suction filter, (263) Compression body, (264) Water wheel or pump aberration, (265) main valve, (266) forest, (267) turbine or rotor blade, (268) engine generator or flywheel, (269) intake or intake, (270) waterway or discharge, (271) idling prevention device, ( 272) pump power, (273) control power, (274) emergency operation circuit, (275) DC power supply circuit, (276) micro control unit, (277) D IP switch setting circuit, (278) display circuit, (279) ) M/C drive signal contact output circuit, (280) Motor overload signal input circuit, (281) Inverter operation data input/output circuit, (282) Pressure sensing circuit, (283) External state input circuit, (284) Discharge pressure transmitter , (285) Suction/Discharge Switch, (286) Bed Frame,
(287) coolant or coolant inlet, (288) oil separation tank, (289) suction valve, (290) gear driver, (291) dryer, (292) water tank,
(293) sluice gate, (293a) data gate, (293b) rolling gate, (293c) design water level, (293d) water surface, (293e) anchor part fixed part, (293f) fixed part, (294) channel or number of revolutions furnace, (295) water tank tank, (296) gate valve, (297) return valve, (298) bush or throttle bush, (299) type of drencher head (a, b, c, d), (300) vibration Alarm device, (301) Drain, (302) Reverse stop valve, (303) High pressure bowl tank, (304) Pumping pump, (305) Butterfly valve for flow rate control, (306) Soda bicarbonate, (307) Reinlet, ( 308) Century Future Girl Pump, (309) Sewage Pump, (310) Spiral Casing, (311) Blow Pump, (312) Hood Valve, (313) Pumping Port, (314) Pump Body, (315) Float, (316) Ball Pushing Device, (317) Flexible Coupling, (318) Float Switch, (319) Hindwing, (320) Pumping Valve, (321) Sucking Valve, (322) Jetting Water Level Meter, (323) Actual (324) Jet pump, (325) Jet pump, (326) Gear pump, (327) Wing pump, (330) Separation chamber, (331) Magnet switch, (332) Nuclear waste building, (333) Building or Large Building,(334) Balanced,(335) Unbalanced,(336)Indoor Fire Pump,(337)Rotary Pump,(338)Rotary Rotor,(339)Priming,(340)Self-Priming Pump,(341) Axial flow pump, (342) mixed flow pump, (343) viscous pump,
(344) The connecting shaft of the double structure block tank manufacturing and installation process of the hydroelectric power plant,
(344a) Block tank at side A(AB), (344b) Block tank at side B(BC), (344c) Block tank at side C(AC), (344d) Block tank at side D(AR), (344e) E(AQ) ) side block tank, (344f) bar (AP) side block tank, (344g) yarn (AO) side block tank, (344h) ruler (AM) side block tank, (344i) A (AN) side block tank, ( 344j)Ab(ABC), Triangle Block Tank, (344k) B(AB "C),Triangle Block Tank, (344l) Bottle(ARS),Triangle Block Tank, (344m) No (AQT),Triangle Block Tank, ( 344n) Sudden (AOB), Triangular Block Tank, (344o) Eulshaft (ANW), Triangular Block Tank, (344p) Byeongin (AMX), Triangular Block Tank, (344q) Car (DE) Side Block Tank, (344r) Block tank at the car (BD) side, (344s) block tank at the other side (CE),
(345) Standard gland packing or gland, (346) Packing with main liquid lantern ring, (347) Lantern packing, (348) Double gland packing, (349) Packing with throttle bush, (350) Cooling outlet, (351) sealing water, (352) cooling water inlet, (353) inner sleeve cooling bottle with water jacket packing, (354) sleeve internal cooling chamber, (355) auxiliary gland, (356) leaky liquid cooling chamber, (357) Gland packing weave, (358) Eight strand weave, (359) Bag weave, (360) Grid weave, (361) Flashing hole, (362) O-ring, (363) Stop the, (364) Middle ring, (365) Sealing cross section, (366) Seat ring, (36 7) Driven ring, (368) Quenching, (369) Cowling, (370) Return tube, (371) Handle, (372) bulkhead, (373) axial thrust load, (374) pressure acting on the front of the impeller, (375) pressure acting on the back of the impeller, (376) balance hole,
(377) Suction pressure, (378) Back pressure, (378) Balance hole, (380) Front wear ring, (381) Discharge pressure, (382) Back bearing ring, (384) Rear blade, (385) Pressure due to rear blade installation Distribution and impeller, (386) Impeller arrangement of multi-stage pump, (387) Water column separation, (388) Water column combination, (389) Water hammer action, (390) Shaft rod, (391) Cooling mechanical seal, (392) ) Strainer, (393) Water hammer pump, (394) Rooftop fire cab or crane cab, (395) High and low mountains, (396) Pulse Encoder, (397) Speed Command, (398) ) motor speed and transmission, (399) disc brakes (disc brakes), (400) breakwater tank, (401) safety rope mesh, (402) air compression chamber,
(403) slew valve, (404) valve body, (405) valve cover, (406) slew valve, (407) packing press, (408) packing press nut, (409) valve, (410) handle, (411) Handle nut, (412) Packing, (413) Wedge gate valve, (414) Single valve, (415) Flexible valve, (416) Parallel slide valve, (417) Double disc gate valve, (418) Stop valve , (419) Flanged Glove Valve, (420) Flanged Angle Valve, (421) Body, (422) Bonnet Cover, (423) Disc, (424) Cover Valve Seat, (425) Valve Seat, (426) ) Valve press, (427) Handle, (428) Cover ring, (429) Packing press ring, (430) Packing press, (431) Screw-in type, (432) Cover bolt, (433) Packing press bolt, ( (434)Pin,(435)Nut for cover bolt,(436)Nut for packing press bolt,(437)Handle nut, (438)Set screw,(439)Washer,(440)Packing,(441)Gasket,(442) ) valve press, (442a) flat press, (442b) cone press, (442c) spherical press, (442d)) stunt press,
(443) Cock 1 type (444) Cock 2 type, (445) Bronze threaded main cock, (446) Cast iron flanged gland type, (447) Bronze threaded gland cock, (448) Sambangkok, (449) ) Sabangkok, (450) handle cock,
(451) Check valve, (452) Swing type check valve, (453) Lift type check valve, (454) Check valve body, (455) Hot, (456) Disc, (457) Disc pin, (458) Plug, (459) regulating valve, (460) pressure reducing valve, (461) pilot operated magnetic pressure reducing valve, (462) secondary side sensing hole, (463) diaphragm, (464) pilot valve, (465) exhaust stack, ( (466) Main valve, (467) Main valve spring, (468) Adjusting spring, (469) Auto pressure regulating valve, (470) Screw type auto pressure regulating valve (a), (471) Flanged pressure regulating valve (b) )
(472) Safety valve, (473) Spring safety valve, (474) Relief safety valve, (475) Fork spring type safety valve for steam, (476) Pop type safety valve, (477) Temperature control valve, ( 478) Auto water dispenser, (479) Auto water dispenser (a), (480) Auto level regulator, (481) Air bleed valve, (482) Auto thermal steam air exhaust valve, (483) Bucket hot water type Auto air exhaust Valve, (484) Refrigerant piping valve, (485) Refrigerant stop valve, (486) Packed valve, (487) Packless valve, (488) Packless valve, (489) Expansion valve, (490) Diaphragm type expansion Valve, (491) Bellows type expansion valve, (492) Bubo valve, (493) Refrigerant pressure control valve, (494) Solenoid valve, (495) Automatic water supply valve, (496) General type faucet, (497) Exponential Line, (498) Fountain Jeon, (499) Ball Tap,
(500) Lightning rod for hull safety preservation of offshore hydroelectric power plants,
(501) Threaded joint type Y type strainer external view (a) Cross section (b), (502) U type strainer, (503) V type strainer, (504) Pipe fixing metal, (505) Turn buckle part support band, ( 506) Support band, (507) Roller support band, (508) Vertical tube buried band, (509) Steel glasses band, (510) Bottom band, (511) Trap, (522) Angle type thermal trap, (523) )Straight Thermal Trap,(524)Burkit Trap,(525)Bottom-Up Bucket Trap,(526)Top-Down Bucket Trap,(527)Float Trap,(528)Impulse Steam Trap,(529)faucet body,(530) ) packing box, (531) packing press, (532) stopper, (533) handle, (534) disc, (535) disc packing, (536) waterproof packing, (537) aging-resistant packing, (538) teflon membrane,
(539) Metal with high thermal expansion, (540) Metal with low thermal expansion, (541) Timer or level switch, (542) High level alarm, (543) Bakeham Failure alarm, (544) Small relay alarm, (545) ) alarm reset button, (546) lower level switch, (547) flap (the tongue of the valve), (548) sound cap, (549) check nozzle, (550) louver cover, (551) float Insitu switch, (552) Indicating scale, (553) Over-follower connection, (554) Vent pipe connection, (555) Flange connection, (556) Double vinyl open needle needle, (557) Solenoid valve body ,(558)Cover,(559)Spool,(560)Spool Packing,(561)Pilot,(562)Coil,(563)Connector,(564)Manifold(L;PTY8" Large Flow Type),(565) ) Manifold (S; M5 small flow type), (566) Thread bolt, (567) Air hose coupling port union coupling, (568) Union body coupling coupling, (569) 2-position single, (570) 2-position double, ( 571)LL;Central Vertical,(572)L;Vertical,(573)Horizontal;M,(574)F;With Fittings,(575)City Single,(576)Double,(577)A Ch, (578) I, (579) J, (580) Micro Switch, (581) Direct Mounted, (582) Base Mounted, (583) Fire Damper, (584) Damper Spindle, (585) Doctor Ventilation, ( 585a) Dr. Venturation Inlet, (585b) Dr. Venturation Outlet, (586) Mongol Pie's Hot Air Balloon, (587) Blyangshar's Hot Air Balloon, (588) Kelly's Hot Air Balloon, (589) Steam Aircraft,
(590) Double structure post block tank for pier use,
(591) barge hull at the top of the holding tank,
(592) barge hull at the bottom of the holding tank,
(593) Floating docks of small offshore hydroelectric power plants;
(594) Floating dock of medium-sized offshore hydroelectric power plant,
(595) Floating docks of large offshore hydroelectric power plants;
(596) double structure inner block tank,
(597) iron plate of high tensile stainless steel,
(598) double structure block tank,
(599) Double structure external block tank, (600) First auxiliary section steel for block tank, (601) Second auxiliary steel plate for block tank, (602) Eliminate welding defects in the corners of the first auxiliary section steel and the second auxiliary steel plate Snap hole cut to make the cut, (603) block tank hull disassembly and coupling portable lug connection shaft bolt, (603a) bolt thread, (604) block tank hull disassembly coupling portable lug connection shaft disassembly coupling nut, (603b) of the nut thread,
(605) Second auxiliary steel plate vertical bulkhead for disassembling and combining block tank hull, (606) Block tank hull disassembly and coupling portable lug pin connection shaft, (607) Block tank hull disassembly and coupling portable lug, (608) Block tank hull disassembly and coupling portable Lug pins, (609) Second auxiliary iron plate horizontal bulkhead for disassembly and coupling of hull for block tank, (610) Bulkhead manhole for block tank hull transportation device, (611) satellite, (612) space rocket, (613) block tank block unit Lug hinge socket for hull disassembly and coupling, (614) block tank block unit large flange for hull disassembly and coupling, (615) large flange connection connector joint processing hole or lug processing hole small key bed processing hole, (616) mooring device floating fish dock barge Zakky bed for hull balance adjustment device, (616a) block tank block unit hull disassembly and coupling position movement control device long hole hole, (617) block tank hull disassembly and coupling double pipe structure Floating bridge saddle frame for tank pier construction, (618) block Guide rail for tank hull transportation system, (619) Helicopter stop, (619) Block Tank for block unit hull disassembly and coupling control device Hydraulic rotary cylinder machine or block unit hull drill lathe Rotary cylinder machine Rack & pinion type (NRP) cylinder machine,
(620) hydraulic rotary cylinder (rotary cylinder [rack & pinion type-NRP]),
(621) Block tank block unit hull disassembly and coupling adjustment device band jig,
(622) block tank block unit hull up and down control device for ballast butterfly valve,
(623) block tank block unit hull disassembly and coupling control device hydraulic cylinder hydraulic action key,
(624) Hydraulic cylinder door for block tank hull traffic control device or hydraulic cylinder machine for block tank block unit hull disassembly and coupling control device. (625) Stopper plate,
(626) thermal power plant,
(627) Engine control module for engine control system, (628) Rubber balloon for buoys, (629) Rope for rope, (630) Rope knot hook, (631) Emergency stairs, (632) Elevator alley, (633)Conveyor, (634)Sinking prevention retention vessel of sunken vessel salvage vessel,(635)Vacuum pump,(636)Tug,(637)Semi-submersible workboat,(638)Bollard,(639)Anchor,(640) ) Chain for anchor, (641) Blower or cooling fan, (642) Air heater fan, (643) Satellite launch pad, (644) Mooring tower, (645) Electric magnet magnet, (646) Space rocket launch pad, (647) Helicopter, (648) Chain block, (649) Red clay cement mixing equipment Mixer machine, (650) Insulator, (651) Crane boom stand, (652) Crane boom hook,
(653) uranium 239, (653a) uranium 238,
(654) water, (654a) hard water, (654b) heavy water or pressurized heavy water;
(655) DC, which is a current that always flows in the same direction, (656) AC, which is a current whose direction of flow changes whenever the seesaw goes up and down;
(659) nichrome wire that does not flow well, (660) bulb body, (661) base,
(663) Filament, (664) Glass, (665) Fluorescent Discharge Tube, (666) Lighting Tube, (667) Discharge, (672a) Ado Tunnel, (673) See-Iso Central Frame, (675) Cloud Rain, (676) Funnel cloud, (677)dust,
(678) River, (678a) Total fall, (678b) Watershed, (678c) Conceptual diagram of inflow power plant, (678d) Conceptual diagram of reservoir type power plant, (678e) Conceptual diagram of coordination knowledge power plant, (678f) Conceptual diagram of tidal power generation , (678g) Intake port, (678h) Upper control area, (678i) Lower control area, (678j) Reversible pump aberration, (678k) Power generation, (678l) Pumping power, (678m) Pumping, (678n) Power generation, (678o) Tidal control site, (678p) Location diagram of each power plant in the Han River water system, (678q) Hwacheon hydroelectric power plant, (678r) Soyanggang hydroelectric power plant, (678s) Chungju hydroelectric power plant, (678t) Chuncheon hydroelectric power plant, (678u) Uiam hydroelectric power plant ,(678v) Cheongpyeong Hydro Power Plant, (678w) Paldang Hydro Power Plant, (678x) Soyang River, (678y) Namhan River, (678z) Goesan Hydro Power Plant,
(679) Embankment, (679a) Soil barrier wall, (679b) Upstream side rockfill, (679c) Filter, (679d) Main body lockfill, (679e) Buttress dam, (679f) Surface barrier plate, (679g) Buttress, (679h) Depth of use, (679i) Hollow part, (679j) Peripheral chamber, (679k) Surface concrete, (679l) Potential energy of water, (679m) Kinetic energy of water, (679n) Mechanical energy, (679o) Electrical energy, (679p) Theoretical hydraulic power, (679q) water wheel output, (679r) generator output, (679s) hydroelectric power generation schematic diagram, (679t) dam-type power plant concept diagram, (679u) screen, (679v) intake tower, (679w) ball tap valve, (679x) ) inlet valve, (679y) main equipment, (679z) main transformer,
(680) Dam, (680a) Reservoir or control pond, (680b) Intake dam, (680c) Pumped dam, (680d) Pumped water type, (680e) Pumped power generation, (680f) Dam waterway type, (680g) Dam type, (680h) Waterway type, (680i) pressure tank, (680j) pressure tank, (680k) sedimentation pond, (680l) non-pressurized water tank, (680m) water tank, (680n) water intake facility, (680o) water supply facility, (680p) power generation facility (pumping) ), (680q) waterproofing equipment, (680r) high water level, (680s) low water level, (680t) rock wall, (680u) upstream protective layer, (680v) drainage layer, (680w) soil material, (680x) bedrock, (680y) ) earth dam, (680z) rock dam,
(684) voltage, (685) power, (686) power outlet, (687) power inlet,
(690) Extra-High Voltage Substation, (691) Primary Substation, (692) 7 Steel Wires in the Center of the Transmission Station, (693) 54 Aluminum Wires, (694) Fuel Hose, (695) Transmission Line, (696) Offshore Tunnel crossing railway substation, (697) medium substation, (698) large-scale factory, (699) medium-scale factory, (700) secondary substation, (701) small-scale factory, (702) household (including solar houses), (703) ) Step foot hook, (704) ultra-high voltage wire balancing insulator of the cank for wire balancing,
(705) Distribution shaft of pipe manufacturing process, (706) Small diameter electric resistance welded pipe, (707) Raw material, (708) Uncoiling, (709) Leveling, (710) Side trimming, (711) Cutting and rough connection , (712) Forming, (713) Welding and External Bead Removal, (714) Ultrasonic and Eddy Current Inspection Test, (715) Weld Heat Treatment, (716) Air Cooling, (717) Water Cooling, (718) Round Forming, (719) Cutting, (720) Flatness Test, (721) Structural Pipe, (722) Straightening, (723) Intermediate Loading, (724) Induction Furnace, (725) SRM (SRM), (726) Hot Cutting, (727) ) Chamfering, (728) Hydraulic Test, (729) Ultrasonic and Eddy Current Test, (730) Weight and Length Measuring Instrument, (731) Visual and Dimensional Inspection, (732) Screw, (733) Oiling, (734) General Piping (735) Galvanized, (736) Galvanized Steel Pipe, (737) Boiler Tube, (738) Cooling Table,
(739) Medium-diameter cage forming electric resistance welding pipe, (740) Coil Marge iron plate raw material, (741) Side trimming, (742) Cage molding, (743) Oil pipe, (744) Ultrasonic flaw test, (745) Round molding , (746) Oil Pipeline (Steel Pipe for Petroleum Industry), (747) Large Diameter Steel Pipe, (748) Edge Milling Machine, (749) 3 Roll Bending Machine, (750) Post Bending Machine,
(751) Tack Welding, (752) Internal Welding, (753) Back Gauging, (754) Exterior Welding, (755) Pipe End Sizing, (756) Pipe Section Chamfering, (757) X-ray Test, (758) Cold Expanding, (759) Marking, Packing, Shipping, (760) Spiral Welded Steel Pipe, (761) Uncoiled, (762) Structural Pipe and Steel Pipe Pile, (763) For Uncoated Piping, (764) Exterior Blast Cleaning, (765) Internal blast cleaning, (766) Internal painting, (767) Primary painting, (768) Painting and uniform, (769) Coating steel pipe, (770) Ultrasound and X-ray inspection,
(771) Internal trains for marine tunnel devices,
(772) turbine generator,
(773) non-rotating armature coils for hydroelectric generators;
(774) rotating rotor electromagnet coils for hydroelectric generators,
(775) transmission lines, (776) transmission towers, (777) switchgear, (778) boilers or kettles,
(779) steam pipe, (780) high temperature and high pressure steam inlet of steam or powerful gas;
(781) Production Power Central Control Room,
(782) Transformer Room, (783) Boiler Operating Core, (785) Electronic,
(786) steam dryer, (787) magnet,
(794) Double structure block tank dust collector or thermal power plant dust collector;
(795) heavy oil tank, (796) heavy oil,
(797) tankers or cargo ships;
(811) Earthquake and tsunami damage prevention device,
(812) pumping actuator,
(813) electric power production and manufacturing equipment;
(814) Construction machinery transportation equipment;
(815) a power transmission device for transmitting power;
(816) Equipment safety control management electric device,
(817) electronic control control device construction machine control device,
(818) electronic control adjustment device screw adjustment device,
(819) hydraulic tank, (819a) hot plate, (819b) oil level gauge (oil port head), (819c) drain (oil drain hole), (819d) tank bottom plate, (819e) diaphragm (buffle player), (819f) suction Strainer, (819g) Upper plate packing (oil-resistant rubber), (819h) Inlet packing, (819i) Intake lid, (819j) Tank upper plate, (819k) Air blizzer and fuel filler (combination air blizzer), (819l) Tank leg plate , (819m) cleaning window packing (oil resistant rubber), (820) hydraulic motor, (821) hydraulic pump, (822) rod and piston seal, (823) piston seal, (824) buff seal, (825) wear ring, ( 826) slide ring, (827) Dub seal, (828) O-ring, (829) rod seal, (830) backup seal, (831) rod seal & backup seal, (832) dust seal, (833) pin dust seal , (834) Dart Whip Seal, (835) Buff Ring (836) Piston Ring, (837) Dart String,
(839) Equirectangular or unequal variable steel, (840) Weather observation equipment radar, (841) Crude oil (oil), (842) Undersea mineral garden basket, (843) Deep-sea search underwater lighting, (844) Bucket or pallet, (845) Excavator for deep sea excavation equipment of skewer drill, (846) Crank crank for anchor replacement, (847) Rock drilling machine or net, (848) Actuate, (849) Air bag for seabed mineral yard, (850) Turnback ,(851)Level foundation underlay for piers,(852)Standing claw buttress,(853)Arc welder or argon welder,(853a)Welding connecting wire,(853b)Welding leg length,(854)Pipe rack,
(855) Bulldozer, (855a) Crawler Dozer, (855b) Wheeled Dozer, (855c) Straight Dozer, (855d) Dilter Dozer, (855e) Angle Dozer, (855f) Hinged Dozer, (855g) Tree Dozer, (855h) ) Rake Dozer, (855i) Hydric Ripper, (855j) Dozer Power Transmission, (855k) Suction Pump for Cam Other Devices, (855l) Engine, (855m) Cooling System, (855n) Final Gear Device, (855o) ) sprocket of driving wheel, (855p) idler of driving wheel, (855q) clause clutch, (856) excavator, (856a) backhoe, (856b) power excavator, (856c) dragline, (856d) earth drill, (856e) Cramshell, (856f) Skimmer, (856g) Ripper and Rooter, (857) Loader, (858) Forklift, (859) Scraper, (859a) Traction Scraper, (859b) Motorized Scraper, (859c) Air Apron, ( 859d) eject, (859e) ball, (859f) cutting edge, (860) dump truck, (860a) trailer,
(861) Crane or crane, (861a) Part name of crane structure, (861b) Extra cable, (861c) Load system, (861d) Bridle, (861e) Boombexes, (861f) May rope, (861g) Boom hoist rope, (861h) upper frame, (861i) lower frame, (861j) hoist rope, (861k) front drum, (861l) middle drum, (861m) rear drum, (861n) counterweight, (861o) cable crane , (861p) All six cranes, (861q) Hook device, (861r) Clamshell device, (861s) Shovel device, (861t) Dragline device, (861u) ) Trenchhoe device, (861v) Pile driver device
(862) Motor grader, (862a) Muffler, (862b) Engine flywheel, (862c) Cooling fan, (862d) Front-to-rear gear, (862e) Transmission, (862f) Fixed gear type transmission, (862g) Parking brake , (862h) Differential gear, (862i) Transfer car sub-neutral gear reducer, (862j) Disc brake, (862k) External structure of the grader,
(863) roller, (863a) vibrating roller, (863b) soil compactor, (864) road safety device,
(865) Concrete Batching Plant, (865a) Concrete Hopper, (865b) Carrier Charging Chart, (865c) Adjustment Plate, (865d) Water Metcher, (865e) Symmetrical Hopper, (865f) Scale Frame, (865g) Storage Bin, (865h) Comprehensive Belt Conveyor, (865i) Turnhead, (865j) Bucket Elevator, (865k) Conveying Cement Chad, (865l) Control Plate, (865m) Recording Device, (865n) Circular Mixer, (865o) Cement Silo, ( 865p) Skur Conveyor,
(866) Concrete finisher, (866a) Scour spray, (866b) First screed, (866c) Vibrator, (866d) Finishing screed, (866e) Guide roller, (866f) Guide rail, (866g) Finishing surface,
(867) Concrete Spreader, (868) Concrete Mixer Truck, (869) Concrete Pump, (870) Asphalt Mixing Plant, (871) Asphalt Finisher,
(872) asphalt spreader, (872a) power driven pump, (872b) valve control, (872c) spray bar, (872d) bunny, (872e) dump pipe, (873) aggregate spreader,
(874) crusher, (874a) gyreto crusher, (874b) chassis frame, (874c) feeder hopper, (874d) vibrating grease repeater, (874e) primary jaw crusher of crushing head, (874f) 2 at the rear of crushing chamber car jaw crusher, (874g) vibrating screen, (874h) drum elevator,
(875) Air Compressor, (876) Drilling Machine, (877) Driving and Airing Machine, (878) Sari Collector,
(879) Dredge, (879a) Pump Dredger, (879b) Bucket Dredge, (879c) Spot Shear, (879d) Cab or Cockpit, (879e) Red Shear, (879f) Spot, (879g) Blast Tank, (879h) Blast Pump, (879i) Red, (879j) Engine Room, (879k) Dipper Dredge, (879l) Grab Dredge, (879m) Bucket Drive, (879n) Rear Spd, (879o) Spot Winch, (879p) Bucket, (879q) Left and Right Booth Pads, (879r) Dipper, (879s) Winch, (879t) Anchor Line Warehouse, (879u) Belt Conveyor, (879v) Grab,
(880) Separately designated construction machinery, (882) Pile driver, (882a) Boom, (883) Diesel pile hammer, (884) Steam hammer, (885) Hydraulic crane, (885a) Piston motor,
(886) Tower crane, (886a) Names of parts of this derrick structure, (886b) Guy derrick, (886c) Main side, (886d) Boom, (886e) Boom foil, (886f) Turnbuckle, (886g) Gong net, (886h) ) triangular derrick, (886i) main side, (886j) boom, (886k) boom foil, (886l) rack,
(887) drag crane, (887a) drag crane structure, (887b) hoist cable, (887c) dump cable, (887d) bucket, (887e) lower boom, (887f) letter rect cable, (887g) cable roller, (887h) boom cable, (887i) cable roller, (887j) boom hoist cable, (887k) cable drum, (887l) cable drum, (887m) parallel weight,
(888) Crane with clamshell attachment, (888a) Holding line, (888b) Open/close line, (888c) Clamshell bucket, (888d) Upper frame, (888e) Lower frame, (888f) Rack line, (888g) Rope guide, (888h) boom stand, (888i) bridle, (888j) boom hoist rope, (888k) front drum, (888l) rear drum, (888m) parallel weight,
(889) Macadam Roller, (890) Tandem Roller, (891) Tamping Roller, (892) Tire Roller, (893) Tractor, (894) Trailer, (895) Ram, (896) Lead, (897) Water Coolant , (898) Pile, (899) Helmet, (900) Fuel Pump, (901) Cam, (902) Fuel Tank, (903) Starter, (904) Boom Front Pin, (905) Cadwork, (906) Adapter ,
(907)fish finder sonar,
(908) rotary table lathe machine of drilling machine for oil drilling;
(909) manganese nodules,
(910) garden sieve net, (911) suction collecting machine, (912) submarine mineral extraction robot,
(913) Periscope, (914) Rubber Balloon, (915) Wire Rope Chain,
(916) Dual structure piping line automatic pneumatic valve transport device,
(917) Core Drill,
(918) BIO P Skid, (919) Rubber Tire, (920) Burner Boom,
(921) harmful red algae microorganisms, (922) pollution-free natural gas,
(923) air nozzle,
(924) Mineral gathering turpentine, (925) Yellow sand updraft, (926) Yellow sand downdraft, (927) Yellow sand,
(928) Double structure block tank pipe bridge,
(929) double structure block tank pipe bridge,
(930) Chemicals, (931) Cement, (932) Nets for securing fish resources,
(933) Disaster prevention vessel or vessel, (934) Oil drilling vessel, (935) Seeiso handle lever,
(936) borehole,
(937) double structure block tank pipe bridge, (938) electrode plate anode, (939) cooling air bubble, (940) bit,
(941) double structure block tank marine tunnel transportation system,
(942) Tower crane seesaw crane boom stand.
(943) Offshore Shiiso Hydro Power Plant, (943a) Pump aberration for hydroelectric power plants, (943b) Pelton aberration for large hydro power plants, (943c) Francis water wheel for large hydro power plants,
(944) Large hydro generator Shiiso hydro power generation facility, (944a) rotation speed detector for hydro power generation device, (944b) exciter for DC generator that supplies current to the motor field coil of the alternator, (944c) by pushing the ring tube blade Loading machine, (944d) Upper swivel, (944e) Pushing in swivel, (944f) Stator coil, (944g) Stator frame, (944h) Central stator, (944i) Slow cooler, (944j) Brake ring ,(944k)Brake or jack,(944l)Low speed bearing,(944m)Engine generator,(944n)Turbine rotation bearing,(944o),(944p)Rotation bearing,(944q)wing wheel,
(945) Underground railroad disaster prevention nozzles or public landfills,
(946) Undersea line wiring or public waters reclaimed land;
(947) A rubber tube for air input for the inside of the container for the ups and downs adjustment device,
(948) furnace, (948a) furnace brick of furnace,
(949) The hull's diving position control moving device and lead weight for diving buoyancy control,
(950) thermocouple thermometer switch for automatic temperature detection sensor,
(951) yard basket or Pareto for harmful algae suction dust collector,
(952) Water hammer pump of non-powered pump for potential energy control device of water,
(953) military equipment submarines,
(954) laser computer cutting machine,
(955) A peace-preserving message of a weapon more powerful than a nuclear bomb photoshop,
(957) offshore wind power plants, (957a) windmills for wind power generators,
(958) Weather forecasting,
(959) Sail as an alternative to the pole,
(960) satellite weather forecast information collection machine,
(961) space rocket,
(962)Satellite
(964) petroleum, (965) diamond, (966) iron, (967) tin, (968) coal,
(969) Agricultural implements, (994) Switch operation weights and lead tube weights for weight reduction for detection sensors, (995) Submersibles, (996) Sinking ships, (997) Eddy vertical descending currents , (998) eddy vertical updraft,
(999) Tsunami Disaster, (1000) Under the Sea, (1001) Upper Wave, (1002) Wavelength, (1003) Tsunami, (1004) After Tsunami,
(1005) Evaporator structure of steam generator, (1006) Steam outlet pipe, (1007) Steam outlet chamber body appearance, (1008) Hygrometer pipe, (1009) Steam outlet pipe, (1010) Liquid level gauge pipe, (1011) Sodium cooling system Inlet tube, (1012) Upper plate, (1013) Connecting rod, (1014) Coolant leak detection tube, (1015) Secondary argon gas tube, (1016) Skirt, (1017) Spiral heat exchange tube, (1018) Sodium coolant outlet tube, (1019) Hemispherical lower body, (1020) Air tube, (1021) Cover, (1022) Body exterior, (1023) Sodium passage, (1024) Sodium-water reaction product discharge tube, (1025) Inner tube, (1026) Monitor Ring inlet pipe, (1027) water inlet pipe plate, (1028) water inlet pipe, (1028a) water inlet room appearance,
(1078) A ship equipped with resilience for lifesaving, (1101) a strong wind wave,
Dock hull deck upper part (SDU), dock hull deck center part (SDM), dock hull deck upper part (S DL), machine room floor surface upper part (MFGU), machine room floor surface (MFG), machine room floor surface lower part (M FGL), ground surface Upper part (GLU), Earth's surface (GLL), Earth's lower part (GLD), Equatorial Front (EL), North Pole (NP), South Pole (SP),
longitude (referred to as ld), latitude (abbreviated as lt),
The upper part of the spray nozzle (A), the spray nozzle body (B), the lower part of the spray nozzle (C),
The upper part of the road surface surface (GLU), the road surface surface (GLL), the lower part of the road surface surface (GLD),
Pump body (PB), Pump body vertical line (PPVL), Pump body horizontal center line (PBCL)
Valve body centerline (VBCL or PBCL), fire water level lower (WLD), fire water level (WLL), jetting water level (WLU), sea level upper end (SLU), sea level (SLL), sea level lower end (SLD),
Out of Merchinery Room (OMR) Machine Room (MR)
In of Merchinery Room (IMR)

Claims (2)

In the flotation reading device for earthquake and tsunami disaster prevention,
The tsunami disaster prevention buoyancy reading device is at the bottom of the barge hull 591 at the upper end of the holding tank at the upper end of the sea level (SLU) exposed at sea level (SLL) and the double structure post block tank 590 at the bottom of the lower end of the sea level (SLD). The barge hulls 592 at the bottom of the holding tanks located at the bottom of the pier are configured to be combined on both sides by a dual structure holding block tank 590 and a portable lug 607 for disassembling and combining each block tank hull to the inside of the main body of the tsunami buoyancy system. A flotation reading device for tsunami disaster prevention to rescue life-saving components and a ship in distress is formed;
The tsunami disaster prevention buoyancy reading device is configured to be connected to the marine tunnel transportation device and the marine hydroelectric power plant;
The double structure block tank of the floating reading device is a holding tank and an inner block tank, and the outer block tank has a length of 800mm, a diameter of ∮300mm, and an iron plate thickness of the portable lug. is 150mm, the pin connection shaft is connected to the portable lug, and the processing hole of the connection pin connection shaft has a diameter ∮300mm, the length of the portable lug pin is 500mm, the pin thickness is 2mm, and the pin body diameter is 10∮mm. while forming a double-structured block tank constituting a buoyancy-reading device for tsunami disaster prevention that rescues lifesaving and shipwrecked ships by disassembling and coupling with a nut at the screw thread position machined with the pin connection shaft end portion;
The double structure block tank is a barge hull 591 at the top of the holding tank formed by a band jig 621 mounted on a semi-submersible work ship 637 transferred to the tug 636. The volume of the barge hull 591 is horizontal 600M, and the vertical is 800M, the height is 40M, is provided with a steel plate thickness of 18mm, and the volume of the barge hull (592) at the bottom of the holding tank is 15M in the width and 15M in the length of the volume of the pipe bridge, the diameter of the four corners is π15M, and the thickness is 24mm , and the production unit is provided with a volume of 1Km and is individually combined with the outer block tank consisting of the holding tank and the peripheral surface of the inner block tank. The medium-sized floating dock for offshore power plants is 2Km wide, 3.2Km long, and 2Km high, and the large-sized offshore power plant floating dock is 10Km wide, 10Km long, and 10Km high so that it can be installed and operated according to the depth of the ocean. construct a flotation reading device for tsunami disaster prevention to rescue life and rescue ships in distress;
The floating food poisoning device is a portable lug pin 608 is fastened with a bolt and nut in the processing hole of the lug connection shaft, and at the same time, the lug pin 608 is not separated from the lug pin 608. The pedestal control mechanism of the Zakky bed (616) and the core drill are equipped with a hole-cutting excavation drill device with a diameter of 350Ø or 400Ø. to construct a buoyancy-reading device for tsunami disaster prevention that is assembled and equipped at sea by
The spray nozzle connected to the fire pump constituting the buoyancy reading device is the upper deck deck at the top of the barge hull at the top of the holding tank and the deck deck at the bottom of the barge hull at the bottom of the holding tank. In the spray nozzle, the nozzle hole diameter is 3mm to 5mm, and the number of nozzles is 70 places and 7-nozzle gaps in the form of radiation and 490 nozzle holes. The multiple jet nozzles that control the flow of the tsunami while removing the multiple fire pillars at the moment when the jet water and curtain curtain are discharged through the gap between the jet nozzles are combined with the fire hose and inside the body of the floating food poisoning device for tsunami disaster prevention A disaster prevention control device configured to achieve tsunami disaster control, comprising: a lifesaving device configured to achieve damage prevention;
The decomposition of the double structure block tank hull of the floating reading device is,
The lug connection shaft disassembly coupling nut 604 coupled to the bolt thread 603a of the lug connection shaft bolt 603 is provided in the nut thread 603b, and the lug processing hole 615 is inserted into the bolt 603. Fasten with a nut 604, and when combining the block tank hull, first insert it into one lug processing hole 615 and fasten the bolt 603 with the nut 604. Inserted into the hole 615, fastened with a nut 604 to the bolt 603, and fixed with a lug pin 608. A butterfly valve 622 and a hydraulic cylinder for buoyancy control of a hydraulic rotary cylinder 620 and a band jig 621 of a rotary cylinder rack & pinion type-(NRP) provided with buoyancy reading devices for tsunami disaster prevention or Equipped with a door 624 for a hydraulic cylinder in the hydraulic jack 623, a portable lug 607 and a portable lug pin 608 to a vertical bulkhead 605 and a portable lug pin connection shaft 606 for a large flange connection connector The pier 928 and the pipe to the drilling machine 908 for oil drilling consisting of the processing hole 615 of the joint part and the construction machine connection structure pier 928 and the pipe bridge 937 and the interior of the marine tunnel transportation device 941 The bridge 937 is connected to the internal trains 771 of the marine tunnel transportation system to the inside of the marine tunnel transportation system 941 to form the block tank hull disassembly and coupling of the floating fish tank body (1). ) is provided inside and constitutes a flotation reading device for tsunami disaster prevention that saves lives and rescues distressed ships;
The buoyancy poisoning device has a tsunami damage connected to a construction machine crane and a conveyor and an electronic control device at the top of the floating dock deck deck in the barge hull 591 at the top of the holding tank of the upper end of the sea level (SLU) exposed at sea level (SLL). The pumping operation device included in the prevention device and the power transmission device that transmits power to the construction machine traffic transport device and the electric power production and manufacturing device, the facility safety control management electric field device and the electronic control control device, the electronic control control device and the construction machine control device For tsunami disaster prevention so as to form a combination with the barge hull 592 at the bottom of the holding tank located at the bottom of the double structure post block tank 590 for pier double structure at the lower end of the sea level (SLD) provided with screw adjustment devices in the mooring device of the floating dock hull. It is provided inside the body (1) of the floating fish reading device to configure a floating fish reading device for tsunami disaster prevention that saves lives and rescues ships in distress;
The floating docking device is equipped with floating docks of small, medium, and large offshore hydroelectric power plants to prepare apartment buildings and individual houses at a height of 40m above sea level, and to suppress casualties before and after a tsunami. A rope net and safety tube for lifesaving are installed in and around the beach, and roads, playgrounds, apartments and buildings are provided on the top 40m above sea level to form a living ground. ) In order to suppress the casualties inside, the cable car 256 and the floating docking deck deck are equipped with ropes and safety tubes to configure the floating docking device to rescue the lives and rescue the ship in distress;
In the floating food poisoning device, an apartment building that can accommodate 1500 households and a temporary shelter for ships drifting in the sea are provided in the apartment building. ) and a fire hose are provided inside the main body (1) of the tsunami disaster prevention buoyancy reading device to configure the tsunami disaster prevention flotation reading device for saving lives and ships in distress;
According to the long-term weather forecast provided by the artificial satellite, the floating fish tank is equipped with a safety pulley and a wire rope on the lifeboat that connects to the upper part of the sea level at a height of 40 m without any reason, such as a coastal beach, so as not to cause any casualties. The device is provided to the global village, and the hydroelectric power plant is provided inside the main body (1) of the tsunami prevention flotation anti-quadition system on the top 40 m high topography of the sea level, and constitutes a tsunami tsunami flotation poisoning system to save lives and rescue ships in distress;
The buoyancy reading device is separated and coupled with the electronic control control device and screw control device 818 of the dam provided in the tsunami damage prevention device 811, and a lifesaving structure composed of the inside of the body 1 of the tsunami disaster prevention device. And in the flotation reading device for tsunami disaster prevention that rescues ships in distress,
In the tsunami damage prevention device 811, the hull position movement pumping operation device 812 and the power production control power production and manufacturing device 813 and. Construction machinery traffic transport device 814, power transmission control device 815, facility safety control management electric field device 816, and electronic control control device construction machine control device 817 Floating dock hull mooring device and firefighting device A lifesaving cable car is provided in the pump device, and a tsunami damage prevention device 811 is further provided on the floating dock for height adjustment. A device for improving the overcoming of tsunami damage prevention, which is provided as an interconnection structure and is composed of the main body (1) of the floating reading device for tsunami disaster prevention;
A flotation reading device for tsunami disaster prevention, characterized in that it consists of The method of claim 1,
The tsunami damage prevention device 811 that forms the tsunami reading device for tsunami disaster prevention, which is configured inside the body 1 of the tsunami disaster prevention device,
In the hull position movement pumping operation device 812 and offshore hydro power generation power production control power production and manufacturing device 813, the traffic transport device 814 and the power transmission control device 815 of the construction equipment are harmful to the equipment safety control management battlefield The device 816 and the electronic control control device construction machine control device 817 are separated and combined with the electronic control control device screw control device 818 of the dam and the hull mooring device for floating aquaculture docking, and mutually coupled to the tsunami disaster prevention device for floating aquaculture It is composed of a buoyancy-reading device for tsunami disaster prevention that saves lives and rescues ships in distress;
In the hull position movement pumping operation device 812 of the tsunami anti-seismic flotation read-out device for tsunami disaster prevention consisting of the body (1) inside the body,
Hull position movement control of the marine hydroelectric power plant and floating dock (593,594,595) composed of a motor pump for supplying the hydroelectric power plant diesel engine and generator production power to each compressor and pump. In order to do this, the barge hull (591) at the top of the holding tank of the floating dock and the barge hull (592) at the bottom of the holding tank are combined with the block pipe (598) for the tank and the central holding tank and the auxiliary support pin shaft for coupling and separating the portable lug ( 606) and a portable lug (607), a hydraulic rotary cylinder machine (619) for a block tank unit hull disassembly and coupling adjustment device, and a rotary cylinder machine for a block unit hull, which is provided as a construction machine for hull height adjustment at sea In the rack and pinion type cylinder machine (619) of the hydraulic rotary cylinder (620) and the block tank block unit hull disassembly and coupling control device band jig stand (621), the block tank block unit hull ups and downs control device ballast butterfly valve (622) and block tank block unit hull disassembly and coupling control device hydraulic cylinder hydraulic action key (623), block tank hull traffic control device hydraulic cylinder door and block tank block unit hull unit hull disassembly and coupling control device hydraulic cylinder machines (624) are A forklift 858, a dump truck 860, and a trailer are provided in the bulldozer 855 and the loader 857, which are provided as construction machines. It is provided with a hull position shifting pumping operation device 812 and is configured in a tsunami disaster prevention buoyancy reading device for saving lives and rescue boats in distress;
In the offshore hydroelectric power generation and manufacturing device 813 for generating the power of the tsunami flotation reading device for tsunami disaster prevention composed of the body (1) inside the body,
Francis and Pelton aberration provided inside the body of the hydroelectric power plant showing the construction machine position adjustment configuration of the hull position movement control of the offshore hydro power plant floating dock (593,594,595) configured in the upper part (SDU) of the dock hull deck of the offshore power plant. A tsunami damage prevention device ( 811) included in the marine hydroelectric power generation control device 813 is provided with pump aberrations in a turbine and guide vane coupled with a pump aberration to a Francis water wheel and a Pelton water wheel into the body of the hydroelectric generator, and a diesel engine and an electric motor are provided. The body (1) for tsunami disaster prevention is equipped with an offshore hydroelectric power generation control device (813) inside the tsunami disaster prevention device to save lives and ships in distress;
In the tsunami disaster prevention floatation reading device body (1), the traffic transport device (814) of the construction machine for the tsunami disaster prevention floatation reading device is composed of the inside,
A guide rail (618) for the block tank hull transportation device is laid on the floor inside the marine tunnel transportation device, and it is provided as a train that runs on the guide rail (618). configure the machine's transportation device 814;
In the power transmission control device 815 configured in the offshore hydroelectric power plant of the tsunami disaster prevention floating poisoning device body (1) composed of the inside,
Power transmission control of construction machinery that is provided with transformers 96 on the main switch button 66 and the auxiliary switch button 67 for on/off control of each pump connected to the power wire 71 to save lives and rescue ships in distress The device 815 constitutes a buoyancy-reading device for tsunami disaster prevention;
The tsunami buoyancy system for tsunami prevention consists of the main body (1) inside the tsunami tsunami prevention system, which is equipped with an electric field device (816) for the prevention and control of harmful tidal waves, which is provided in offshore hydroelectric power plants. constructing a flotation reading device for tsunami disaster prevention that rescues rescue and distressed ships;
By attaching the main switch button 66 for on-off control connected to the power wire 71 and the anode connecting to the auxiliary switch button 67 to the outer wall of the shunt, the tsunami buoyancy reading device for earthquake and tsunami prevention is integrated with the construction machinery to prevent harmful even cuts. A disaster interception facility safety control management electronic device 816 of adjustment is provided, and constitutes a tsunami disaster prevention floatation reading device to rescue life-saving and shipwrecked ships;
Floating reading device for tsunami disaster prevention The floating reading device for tsunami prevention consisting of the main body (1) inside is,
The power supply 46, which is a power supply device connected to the control box 2 of the control panel, is provided for the construction machine control device 817, which is an electronic control control device that saves lives and a ship in distress, which is provided in the tsunami disaster prevention device. ) and inverter 47, inverter V 48, access pointer 49, Internet network 50 and monitor 52, ADC 53, and switch input circuit 58, electronic control device MCU (59) and the electronic control device DAC (60), the overcurrent circuit breaker brake (61), the power supply unit (62), the display screen (63), the analog input (64), the digital input (65), and the on/off of each pump Equipped with auxiliary switch button (67) vertical multi-stage pump display input or computer network input (68) current pressure value or set pressure value, pressure set value recognition name plate (69) on the main switch button (66) for control, flotation for tsunami disaster prevention Floating reading device for tsunami disaster prevention composed of the inside of the food poisoning device body (1) It is provided as an electronic control control device for construction machinery and a construction machine control device (817) to operate construction machinery that rescues lives and rescues ships in distress. ;
The hull position movement pumping operation device 812 for saving lives and shipwrecked ships has a dryer 291 and water in an oil separation tank 288 and a gear driver 290 coupled to a thermocouple thermometer switch 103 for a detection sensor. The tank 292 is equipped with a sluice gate 293 and vibration alarm devices 300, and the solenoid valve body has a spool packing 560, a pilot 561 and a coil 562 on a cover 558 and a spool 559. On connector (563) and manifold (564) on manifold (565) and on screw bolt (566) on air hose binding hole union coupling (567) and union body binding on coupling (568) 2-position single (569) and 2-position Double (570), center vertical type (571), vertical type (572), single (575) and double (576), H (577), eye (578) and J (579), micro switch (580) ) equipped with a tsunami prevention buoyancy anti-seismic system for tsunami prevention by connecting it with construction machinery to understand the dynamics of a tsunami in advance to reduce damage. composed of floating fish reading devices for tsunami disaster prevention;
The floating fish tank hull mooring device for saving lives and shipwrecked ships in the tsunami disaster prevention floating docking device configured inside the main body (1) of the tsunami disaster prevention device,
Forming a ship mooring device by winding the chain 640 for the anchor on the crank 248 and the link rod 249 with the chain block 648 and the right inch on the bollard 638 and the anchor 639, and the skewer Using the drill as an excavator (845) for deep-sea excavation equipment to form a ship mooring device,
Forming a ship mooring device using the crank crank (846) for replacing the anchor;
Seismic damage consisting of a ship mooring device using a rock drill (847) and a ship mooring device using a level foundation for piers (851). A one-way disaster buoyancy docking device is equipped with a hull mooring device for lifesaving and rescue of a ship in distress, a device that improves the overcoming of tsunami damage prevention;
A flotation reading device for tsunami disaster prevention, characterized in that it is composed of

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