KR200256619Y1 - Waste water heat collector by using heat exchange way - Google Patents

Waste water heat collector by using heat exchange way Download PDF

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KR200256619Y1
KR200256619Y1 KR2020010027263U KR20010027263U KR200256619Y1 KR 200256619 Y1 KR200256619 Y1 KR 200256619Y1 KR 2020010027263 U KR2020010027263 U KR 2020010027263U KR 20010027263 U KR20010027263 U KR 20010027263U KR 200256619 Y1 KR200256619 Y1 KR 200256619Y1
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fresh water
wastewater
pipe
heat
water
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Korean (ko)
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백성룡
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백성룡
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Abstract

본 고안은 폐수열의 열교환방식을 이용한 폐수열의 회수에 관한 것으로서, 특히 폐수열의 열회수가 효과적으로 이루어질 수 있게 함과 동시에 설치장소에 구애됨이 없이 용이하게 설치사용케하고 또한 내구성과 관리가 편리하도록 구성한 것이다.The present invention relates to the recovery of wastewater heat using heat exchange method of wastewater heat, and in particular, the heat recovery of wastewater heat can be made effectively, and it is configured to be easily installed and used without regard to the installation place, and to be durable and easy to manage. .

상기 목적을 달성하기 위하여 본 고안은 본체(20)내에 낙하공(304)이 형성된 청수유도관(300)을 다단으로 적층하여 그 사이에 폐수통로(400)가 구성되게 하고, 상기 청수유도관(300)좌우에는 격판(30)(40)과 청수안내유도판(100)(200)이 구성되게 하여 열을 함유한 폐수는 위에서 아래로, 청수는 아래에서 위로 병류, 역류, 낙차로 순환하면서 열교환되게 하므로서 폐수의 열을 교환한 청수가 가열되게 한 것이다.In order to achieve the above object, the present invention stacks the fresh water induction pipe 300 in which the drop hole 304 is formed in the main body 20 in multiple stages, so that the waste water passage 400 is formed therebetween, and the fresh water induction pipe ( The left and right diaphragms 30 and 40 and the fresh water guide guide plates 100 and 200 are configured so that the waste water containing heat is circulated from the top to the bottom, and the fresh water is circulated from the bottom to the cocurrent, countercurrent, and free fall heat exchange. The fresh water exchanged the heat of the waste water was heated.

Description

폐수열의 열교환방식을 이용한 폐수열 회수기{Waste water heat collector by using heat exchange way}Waste water heat recovery system using heat exchange method of waste water heat {Waste water heat collector by using heat exchange way}

본 고안은 폐수열의 열교환 수단을 이용하여 냉수를 온수로 가열하는 폐수열을 이용한 온수생산을 위한 폐수열회수기에 관한 것으로서, 특히 열을 함유한 폐수와 가열하고자하는 청수의 접촉면적을 동일체적내에 가능한 넓게 하여 폐수열회수율을 높게 하며, 또한 설치장소에 구애됨이 없이 자연 구배설치시. 높이를 자유로이 조절할 수 있고 동시에 내구성과 유지관리가 용이하도록 한 것이다.The present invention relates to a wastewater heat recovery device for producing hot water using wastewater heat that heats cold water to hot water by using heat exchange means of wastewater heat, and in particular, by making the contact area between wastewater containing heat and fresh water to be heated as large as possible within the same volume. The waste water heat recovery rate is high and the natural gradient is installed regardless of the installation site. Its height can be adjusted freely and at the same time it is easy to maintain and maintain.

일반적으로 폐수열의 열교환방식을 이용한 폐수열 회수기는 여러형태의 제품들이 제공된 바 있다.In general, wastewater heat recoverers using heat exchange of wastewater heat have been provided with various types of products.

그러나 대부분의 폐수열 교환방식을 이용한 폐수열 회수기는 각종 산업체에서 일일 수천통이상의 대용량 폐수를 처리할 수 없고 폐열의 회수효율이 낮은 단점이 있는 것이었고, 또한 스테인레스판재를 원형으로 말아 용접제작한 것으로서 압력에 취약하였으며, 열을 함유한 폐수나 청수의 흐름을 유도하는 수로들이 모두 용접방식으로 구성하여 폐수열 회수기내부에 밀폐형으로 구성되어 있어 용접부위가 쉽게 부식되어 내구성이 취약한 등의 문제점이 있었다.However, most of the wastewater heat recovery system using wastewater heat exchange method has a disadvantage in that it can not handle thousands of tanks of large-capacity wastewater in various industries, and the recovery efficiency of waste heat is low. The wastewater containing the wastewater or the fresh water flows were weak, and all of the waterways were formed in a welding method, and the wastewater heat recovery was formed in a sealed type.

본 고안은 이러한 종래의 제반 문제점을 시정하고자 폐수열의 열교환방식을 이용하여 냉수를 온수로 가열되게 하는 폐수열 회수기를 구성함에 있어서, 폐수열의 열교환 효율을 극대화함과 동시에 설치가 용이하도록 하며 또한 내구성과 유지관리가 용이하도록 한 것이다.The present invention is to configure the waste water heat recovery system to heat the cold water to hot water by using the heat exchange method of the waste water heat in order to correct all the conventional problems, to maximize the heat exchange efficiency of the waste water heat and to facilitate the installation and also to maintain durability and maintenance It is intended to be easy to manage.

상기 목적을 달성하기 위하여 본 고안은 폐수열 회수기를 구성하는 본체내면에 다수개의 청수유도관을 일정간격 유지되게 다단으로 설치구성하여, 각 청수유도관사이에 폐수통로가 구성되게 하되, 청수유도관단부에는 낙하공이 좌우교차되게 구성되어 있다.In order to achieve the above object, the present invention consists of installing a plurality of fresh water induction pipes in multiple stages to maintain a constant interval on the inner surface of the main body constituting the waste water heat recovery device, so that the waste water passage is formed between each fresh water induction pipe, but the fresh water induction pipe end part The drop hole is configured to cross left and right.

본체 내에 다단으로 구성된 청수유도관 좌우측단부에는 긴 관통공과 짧은 관통공이 뚫린 격판을 설치하되, 길고 짧은 관통공에 청수유도관의 단부가 끼워지게 하므로서 청수유도관사이에 구성되는 폐수통로는 격판에 의해 차단되나 낙하공을 통하여 서로 연결되게 구성한다.The left and right end portions of the fresh water induction pipe composed of multiple stages in the main body are provided with a plate having long and short through holes, and the end of the fresh water induction pipe is inserted into the long and short through holes so that the waste water passage formed between the fresh water induction pipes is formed by the plates. Blocked but configured to be connected to each other through the drop hole.

상기 좌우격판 외측에는 청수안내유도판을 설치하되, 일측 청수안내유도판에는 수직판에 의해 종방향으로 구획되게 하고, 종방향으로 구획된 격실은 다시 수평판에 의해 지그재그로 수직격실이 구성되게 하며, 타측 청수 안내유도판에는 다수의 횡판을 설치하여 수평격실이 구성되게 한다.The fresh water guide guide plate is installed on the outside of the left and right partition plate, one side of the fresh water guide guide plate to be partitioned in the longitudinal direction by the vertical plate, the compartment partitioned in the longitudinal direction is to make the vertical compartment in a zigzag by the horizontal plate again In addition, a plurality of horizontal plates are installed on the other fresh water guide guide plate so that the horizontal compartment is constructed.

따라서 폐수열 회수기의 본체상부 일측에 구성된 폐수유입관을 통하여 열을 함유한 폐수가 유입되면 폐수는 폐수통로와 낙하공을 통하여 지그재그로 하향 순환하면서 폐수의 열을 청수유도관에 전달되게 하면서 하단에 위치한 배수 배출관을통하여 외부로 배출된다.Therefore, when the wastewater containing heat flows in through the wastewater inlet pipe formed on the upper side of the main body of the wastewater heat recoverer, the wastewater circulates down the zigzag through the wastewater passage and the dropping hole while transferring the wastewater heat to the fresh water induction pipe. It is discharged to the outside through the drain discharge pipe.

또한 좌측청수안내유도판 하단에 위치한 냉수유입구연결공을 통하여 유입된 청수, 즉 냉수는 청수유도관에 구성된 청수통로와 좌우측청수안내유도판에 구성된 수직격실 및 수평격실에 안내되어 지그재그 상향 순환하면서 청수유도관의 가열된 열을 교환하면서 가열되고, 가열된 온수는 상부에 위치한 온수배출구연결공을 통하여 외부로 배출되게 하므로서 온수의 생산이 완료된다.In addition, the fresh water introduced through the cold water inlet hole located at the bottom of the left fresh water guide plate, that is, the cold water is guided to the vertical and horizontal compartments composed of the fresh water passage formed in the fresh water guide pipe and the left and right fresh water guide guide plates, and circulates in a zigzag upward direction. Heated while exchanging the heated heat of the induction pipe, the heated hot water is discharged to the outside through the hot water outlet connection hole located at the top to complete the production of hot water.

상기에서와 같이 본 고안은 동일체적내에 열을 함유한 폐수와 청수가 지그재그로 역방향 순환하면서 가능한 많은 면적의 접촉을 유지시켜 열교환 효율을 증진시킴과 동시에 폐수는 하향 이동되게 하고, 청수는 가열되면서 상향이동되게 하여 보다 이상적인 열교환이 이루어지게 한다.As described above, the present invention improves heat exchange efficiency by maintaining contact with as much area as possible while circulating the wastewater and fresh water in the same volume in a zigzag direction, allowing the wastewater to move downward, and the fresh water is heated upward. To allow for more ideal heat exchange.

본 고안의 폐수열 회수기내에 장치된 청수유도관을 구성함에 있어서, 청수유도관을 다수의 사각관체를 밀착시킨다음 스폿트용접방식으로 점 용접되게 하므로서 사용중 부식에 의한 내구성 단축의 문제는 야기되지 않게 된다.In constructing the fresh water induction pipe installed in the wastewater heat recovery machine of the present invention, the fresh water induction pipe is brought into close contact with a number of square pipes and then spot-welded by spot welding, so that the problem of shortening of durability due to corrosion during use is not caused. .

상기 본 고안을 실시함에 있어서, 폐수열 회수기의 크기, 즉 청수유도관의 길이와 폭 및 중첩설치되는 층수는 설치하고자 하는 산업현장의 장소와 여건에 맞게 설치할 수 있다.In carrying out the present invention, the size of the wastewater heat recovery, that is, the length and width of the fresh water induction pipe and the number of layers to be installed can be installed according to the location and conditions of the industrial site to be installed.

본 고안에서는 폐수열 회수기의 기본원리만을 설명하고자 청수유도관의 층수를 5층으로 구성한 것을 기준으로 도시하였다.In the present invention, only the basic principle of the wastewater heat recovery system is illustrated based on the configuration of five layers of fresh water induction pipes.

본 고안의 폐수열 회수기를 사용하는 과정에서 폐수통로에 주기적으로 청수를 통과시켜 폐수에 함유된 찌거기 등의 청소를 실시하여 주는 것이 이상적이다.In the process of using the wastewater heat recovery device of the present invention, it is ideal to clean the residues contained in the wastewater by periodically passing fresh water through the wastewater passage.

도 1 : 본 고안에서 제공하고자 하는 폐수열 회수기의 사시도.1: perspective view of the waste water heat recovery to be provided in the present invention.

도 2 : 본 고안 폐수열 회수기의 일부를 절개한 상태사시도.Figure 2 is a perspective view of a part of the wastewater heat recovery device invented.

도 3 : 본 고안 폐수열 회수기의 일측에 구성된 격판과 청수안내 유도판의 사시도.3 is a perspective view of the diaphragm and fresh water guide plate configured on one side of the wastewater heat recovery device.

도 4 : 본 고안 폐수열 회수기의 일측에 구성된 격판과 청수안내유도판의 사시도.4 is a perspective view of the diaphragm and fresh water guide plate configured on one side of the wastewater heat recovery device.

도 5 : 본 고안 폐수열 회수기에 장치된 청수유도관의 상태도.5 is a state diagram of the fresh water induction pipe installed in the wastewater heat recovery device of the present invention.

도 6 : 본 고안 폐수열 회수기에 구성된 폐수의 흐름상태도.6 is a flow diagram of the wastewater configured in the wastewater heat recovery device of the present invention.

도 7 : 본 고안 폐수열 회수기에 구성된 청수의 흐름상태도.7 is a flow diagram of fresh water constituted by the wastewater heat recovery device of the present invention.

도 8 : 본 고안 폐수열 회수기에 장치된 제1청수유도관 부분의 청수흐름도.8 is a fresh water flow chart of the first fresh water induction pipe portion installed in the wastewater heat recovery device of the present invention.

도 9 : 본 고안 폐수열 회수기에 장치된 제2청수유도관 부분의 청수흐름도.9 is a fresh water flow chart of the second fresh water induction pipe portion installed in the wastewater heat recovery device of the present invention.

도 10 : 본 고안 폐수열 회수기에 장치된 제3청수유도관 부분의 청수흐름도.10 is a fresh water flow chart of the third fresh water induction pipe portion installed in the wastewater heat recovery device of the present invention.

도 11 : 본 고안 폐수열 회수기에 장치된 제4청수유도관 부분의 청수흐름도.11 is a fresh water flow chart of the fourth fresh water induction pipe portion installed in the wastewater heat recovery device of the present invention.

도 12 : 본 고안 폐수열 회수기에 장치된 제5청수유도관 부분의 청수흐름도.12 is a fresh water flow chart of the fifth fresh water guide pipe portion installed in the wastewater heat recovery device of the present invention.

<도면의 주요부분에 대한 부호의 설명><Description of the symbols for the main parts of the drawings>

(10)--폐수열 회수기 (20)--본체(10)-waste water recovery (20)-body

(30)(40)--격판 (31)(32)--관통공(30) (40)-Plate (31) (32)-Through Hole

(100)--좌측청수안내유도판 (101)--제1횡판(100)-Left Fresh Water Guide Guide Plate (101)-First Cross Plate

(102)--제2횡판 (103)--제3횡판(102)-Second Plate (103)-Third Plate

(104)--제4횡판 (105)--제5횡판(104)-Fourth Plate (105)-Fifth Plate

(111)--제1수평격실 (112)--제2수평격실(111)-First Horizontal Compartment (112)-Second Horizontal Compartment

(113)--제3수평격실 (114)--제4수평격실(113)-Horizontal 3rd Room (114)-Horizontal 4th

(115)--제5수평격실 (200)--우측청수안내유도판(115)-Five Horizontal Compartments (200)-Right Water Guide Guide Plate

(201)--제1수평판 (202)--제2수평판(201)-First Horizontal Plate (202)-Second Horizontal Plate

(203)--제3수평판 (204)--제4수평판(203)-3rd Horizontal Plate (204)-4th Horizontal Plate

(205)--제5수평판 (206)--제6수평판(205)-5th Horizontal Plate (206)-6th Horizontal Plate

(210)--수직판 (211)--제1수직격실(210)-Vertical Plate (211)-First Vertical Compartment

(212)--제2수직격실 (213)--제3수직격실(212)-Number 2 Vertical Room (213)-Number 3 Vertical Room

(214)--제4수직격실 (215)--제5수직격실(214)-Vertical Vertical Room (215)-Vertical Vertical Room

(216)--제6수직격실 (218)--냉수유입구연결공(216)-No. 6 vertical room (218)-Cold water inlet connector

(219)--온수배출구연결공 (220)--냉수유입관(219)-Hot water outlet connector (220)-Cold water inlet pipe

(221)--온수배출관 (300)--청수유도관(221)-Hot water discharge pipe (300)-Fresh water induction pipe

(301)--청수통로 (302)--사각관체(301)-Central Pathway (302)-Square

(303)--간격유지용사각봉 (304)--낙하공(303)-Interval Retaining Square Bar (304)-Drophole

(400)--폐수통로 (401)--폐수유입관(400)-Wastewater passage (401)-Wastewater inflow pipe

(402)--폐수배출관(402)-Wastewater Discharge Pipe

이하 본 고안의 실시예를 첨부도면에 따라 상세히 설명하면 다음과 같다.Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

도1은 본 고안에서 제공하고자 하는 폐수열 회수기(10)의 개략적인 사시도이고, 도2는 폐수열 회수기를 구성하는 커버의 일부를 절개하여 내부를 투시되게한 사시도이며, 도3, 도4는 좌우측 청수안내유도판(100)(200)의 사시도이고, 도6 내지 도12는 열을 함유한 폐수와 청수의 흐름을 도시한 상태로서 이들의 구성을 좀더 상세히 설명한다.1 is a schematic perspective view of the wastewater heat recovery unit 10 to be provided in the present invention, and FIG. 2 is a perspective view of a portion of the cover constituting the wastewater heat recovery unit to cut out the inside, and FIGS. 3 and 4 are left and right fresh water. 6 and 12 are views illustrating flows of wastewater and fresh water containing heat, and their configurations will be described in more detail.

직사각통체형태로 본체(20)를 구성하되, 본체(20)내에는 다수개의 청수유도관(300)이 일정한 간격을 유지시킨 상태로 다단으로 적층 구성되게 하므로서, 그 사이에 폐수통로(400)가 형성되게 한다.The main body 20 is configured in a rectangular cylindrical shape, but in the main body 20, the plurality of fresh water induction pipes 300 are stacked in multiple stages while maintaining a constant interval, so that the wastewater passage 400 therebetween. To form.

상기 청수유도관(300)은 청수통로(301)가 형성된 다수개의 사각관체(302)를 서로 밀착시킨 다음 스폿트용접방식으로 점용접되게 하고, 폭방향의 양측부와 중앙에는 양단부가 믹힌 간격유지용 사각봉(303)을 설치하되, 일측 단부는 청수통로(301)가 형성된 사각관체(302)와 나란한 상태를 유지하게 하고, 타측단부는 사각관체(302)의 단부보다 약간 짧게 구성하여 낙하공(304)이 형성되게 한다.The fresh water induction pipe 300 is in close contact with a plurality of square pipe 302 formed with a fresh water passage 301 and then spot welded in a spot welding method, the gap between both ends in the width direction and the center to maintain the gap For installing the square bar 303, one end is to maintain a parallel state with the square tube body 302 formed with a fresh water passage 301, the other end is configured to be slightly shorter than the end of the square tube body 302 dropping hole 304 is formed.

상기한 구성의 청수유도관(300)을 도7에서와 같이 본체(20)내에 다단으로 적층하되, 최하단에 제1청수유도관(300-1)을 설치하고, 그 위에 일정한 간격을 두고, 제2청수유도관(300-2), 제3청수유도관(300-3), 제4청수유도관(300-4), 제5청수유도관(300-5)을 설치하므로서 각 청수유도관(300)사이와 상하부에 폐수통로(400)가 형성되게 한다.The fresh water induction pipe 300 having the above-described configuration is stacked in multiple stages in the main body 20 as shown in FIG. 7, and the first fresh water induction pipe 300-1 is installed at the lowermost end thereof, and at regular intervals thereon, Two fresh water guide pipes (300-2), the third fresh water guide pipe (300-3), the fourth fresh water guide pipe (300-4) and the fifth fresh water guide pipe (300-5) The waste water passage 400 is formed between the upper and lower portions 300.

상기 폐수통로(400)는 도6에서와 같이 윗쪽에서부터 제1폐수통로(400-1), 제2폐수통로(400-2), 제3폐수통로(400-3), 제4폐수통로(400-4), 제5폐수통로(400-5), 제6폐수통로(400-6)가 형성되게 하되, 제1폐수통로(400-1)와 제6폐수통로(400-6)일측에는 폐수유입관(401)과 폐수배출관(402)이 구성되어 있다.The wastewater passage 400 is a first wastewater passage 400-1, a second wastewater passage 400-2, a third wastewater passage 400-3, and a fourth wastewater passage 400 from above, as shown in FIG. -4), the fifth wastewater passage (400-5), the sixth wastewater passage (400-6) is to be formed, the first wastewater passage (400-1) and the sixth wastewater passage (400-6) on one side of the wastewater The inflow pipe 401 and the wastewater discharge pipe 402 are comprised.

본체(20)내에 다단으로 적층된 청수유도관(300)에 구성된 낙하공(304)은 지그재그로 구성되게 하므로서, 상기 낙하공을 통하여 모든 폐수통로(400)가 서로 연결구성된다.The drop hole 304 formed in the fresh water induction pipe 300 stacked in multiple stages in the main body 20 is configured to be zigzag, so that all the waste water passages 400 are connected to each other through the drop hole.

상기 청수유도관(300)양측단부에는 좌우격판(30)(40)을 설치하되, 격판(30) (40)에 구성된 길고 짧은 관통공(31)(32)(41)(42)에 각 청수유도관의 단부가 끼워지게 하므로서 폐수통로(400)는 격판(30)(40)에 의해 차단되게 한다.Both sides of the fresh water induction pipe 300, the left and right plates 30, 40 are installed, each of the fresh water in the long and short through-holes 31, 32, 41, 42 composed of the diaphragm 30, 40 By allowing the end of the guide pipe to be fitted, the wastewater passage 400 is blocked by the diaphragms 30 and 40.

이때 격판(30)(40)의 짧은 관통공(32)(42)에는 낙하공(304)이 형성된 청수유도관(300)의 단부가 끼워지게 하고, 낙하공(304)이 형성되어 있지 아니한 쪽은 긴 관통공(31)(41)에 끼워지게 구성한다.At this time, the end of the fresh water induction pipe 300 having the dropping hole 304 is fitted into the short through-holes 32 and 42 of the diaphragm 30 and 40, and the dropping hole 304 is not formed. Is configured to fit in the long through-holes 31 and 41.

상기 좌우격판(30)(40) 외측부에는 좌우청수안내유도판(100)(200)이 일체형으로 구성되게 하되, 상기 각 청수안내유도판(100)(200)의 구성은 다음과 같다.The left and right fresh water guide guide plates 100 and 200 are integrally formed on the outer side of the left and right partition plates 30 and 40, but the constitutions of the fresh water guide guide plates 100 and 200 are as follows.

즉 우측 청수안내유도판(200)은 도3에서와 같이 내측 중앙을 수직으로 반분하는 수직판(210)을 구성하되, 수직판(210)을 기준으로 좌우에 제1수평판(201)과 제2수평판(202), 제3수평판(203), 제4수평판(204), 제5수평판(205) 및 제6수평판(206)이 엇갈리게 구성하므로서 제1수직격실(211), 제2수직격실(212), 제3수직격실(213), 제4수직격실(214), 제5수직격실(215) 및 제6수직격실(216)이 구성되게 한다.That is, the right fresh water guide guide plate 200 constitutes a vertical plate 210 that vertically divides the inner center vertically as shown in FIG. 3, but the first horizontal plate 201 and the left and right sides are formed based on the vertical plate 210. The second horizontal plate 202, the third horizontal plate 203, the fourth horizontal plate 204, the fifth horizontal plate 205 and the sixth horizontal plate 206 are composed of the first horizontal chamber 211, The second vertical room 212, the third vertical room 213, the fourth vertical room 214, the fifth vertical room 215, and the sixth vertical room 216 are configured.

상기 제1수직격실(211)과 제6수직격실(216)에는 냉수유입구연결공(218)과 온수배출구연결공(219)가 구성되어 있고, 냉수유입구연결공(218)에는 냉수유입관 (220)이, 온수배출구연결공(219)에는 온수배출관(221)이 연결된다.The first water vertical chamber 211 and the sixth vertical chamber 216 are configured with a cold water inlet connection hole 218 and a hot water outlet connection hole 219, and the cold water inlet connection hole 218 has a cold water inlet pipe 220. ), The hot water outlet connection hole 219 is connected to the hot water discharge pipe (221).

상기에서와 같이 본체(20)측부에 우측청수안내유도판(200)이 고정설치되면 제1수직격실(211)에는 제1청수유도관(300-1)의 일측입구부가 위치하게 되고, 제2수직격실(212)에는 제1청수유도관(300-1)의 일부와 제2청수유도관(300-2)의 일부가 위치되게 하며, 제3수직격실(213)에는제2청수유도관(300-2)의 일부와 제3청수유도관(300-3)의 일부가 위치되게 한다.As described above, when the right fresh water guide guide plate 200 is fixedly installed at the side of the main body 20, one side entrance of the first fresh water guide pipe 300-1 is positioned in the first vertical water chamber 211, and the second A part of the first fresh water induction pipe 300-1 and a part of the second fresh water induction pipe 300-2 are positioned in the vertical compartment 212, and a second fresh water induction pipe ( A part of 300-2) and a part of the third fresh water induction pipe 300-3 are positioned.

또한 제3수직격실(214)에는 제3청수유도관(300-3)의 일부와 제4청수유도관 (300-4)의 일부가 위치되게 하고, 제5수직격실(215)에는 제4청수유도관(300-4)의 일부와 제5청수유도관(300-5)의 일부가 위치되게 하고, 제6수직격실에는 제5청수유도관(300-5)의 일부가 위치되게 한다.In addition, a part of the third fresh water induction pipe 300-3 and a part of the fourth fresh water induction pipe 300-4 are positioned in the third vertical water room 214, and the fourth fresh water is located in the fifth vertical water room 215. A part of the induction pipe 300-4 and a part of the fifth fresh water guide pipe 300-5 are positioned, and a part of the fifth fresh water guide pipe 300-5 is located in the sixth vertical space.

좌측청수안내유도판(200)은 도4에서와 같이 횡방향으로 일정한 간격유지되게 제1횡판(101)과 제2횡판(102), 제3횡판(103), 제4횡판(104), 제5횡판(105)이 구성되게 하므로서, 각 횡판사이에 제1수평격실(111)과 제2수평격실(112), 제3수평격실(113), 제4수평격실(114), 제5수평격실(115)이 구성되게 한다.The left fresh water guide guide plate 200 is the first horizontal plate 101 and the second horizontal plate 102, the third horizontal plate 103, the fourth horizontal plate 104, the first horizontal plate so as to maintain a constant interval in the horizontal direction as shown in FIG. The fifth horizontal plate 105 is configured so that the first horizontal compartment 111, the second horizontal compartment 112, the third horizontal compartment 113, the fourth horizontal compartment 114, and the fifth horizontal compartment between each horizontal plate. Let 115 be configured.

따라서 좌측청수안내유도판(100)에 구성된 제1수평격실(111)에는 제1청수유도판(300-1)의 단부가 위치되게 하고, 제2수평격실(112)에는 제2청수유도관(300-210)이 위치되게 하며, 제3수평격실(113)에는 제3청수유도관(300-3)이, 제4수평격실(114)에는 제4청수유도관(300-4)이, 제5수평격실(115)에는 제5청수유도관(300-5)의 단부가 각각 위치되게 한다.Therefore, an end of the first fresh water guide plate 300-1 is positioned in the first horizontal compartment 111 configured in the left fresh water guide guide plate 100, and a second fresh water guide pipe is formed in the second horizontal compartment 112. 300-210 is positioned, the third fresh water guide pipe 300-3 in the third horizontal compartment 113, the fourth fresh water guide pipe 300-4 in the fourth horizontal compartment 114, In the five horizontal compartment 115, so that the ends of the fifth fresh water induction pipe (300-5) are located.

따라서 폐수열 회수기(10)의 본체(20)상단 측부에 구성된 폐수유입관(401)으로 뜨거운 폐수가 공급되면 도6에서와 같이 폐수통로(400) 즉, 제1폐수통로(400-1)를 따라 화살표(A)방향으로 진행하면서 제5청수유도관(300-5)의 단부에 구성된 낙하공(304)을 통하여 제2폐수통로(400-2)로 낙하하여 상기와는 반대방향으로 이동하게 된다.Therefore, when hot wastewater is supplied to the wastewater inflow pipe 401 configured at the upper side of the main body 20 of the wastewater heat recovery unit 10, as shown in FIG. 6, along the wastewater passage 400, that is, along the first wastewater passage 400-1. While proceeding in the direction of the arrow (A) through the drop hole 304 formed at the end of the fifth fresh water induction pipe (300-5) to fall to the second wastewater passage (400-2) to move in the opposite direction to the above .

제2폐수통로(400-2)를 통하여 일측으로 이동한 폐수는 다시 제4청수유도관 300-4)단부에 구성된 낙하공(304)을 통하여 아래로 낙하하면서 제3폐수통로(400-3)로 낙하하고, 상기 제3폐수통로(400-3) 이동한 폐수는 다시 제3청수유도관(300-3) 단부에 구성된 낙하공(304)을 통하여 제4폐수통로(400-4), 제5폐수통로(400-5) 및 제6폐수통로(400-6)로 지그재그 순환되게 되며, 제6폐수통로(400-6)에 안내된 폐수는 일측에 구성된 폐수배출관(402)을 통하여 외부로 배출된다.The wastewater moved to one side through the second wastewater passage 400-2 falls down through the drop hole 304 formed at the end of the fourth fresh water induction pipe 300-4, and the third wastewater passage 400-3. The wastewater that has fallen to the third wastewater passage 400-3 and passes through the drop hole 304 formed at the end of the third fresh water induction pipe 300-3, the fourth wastewater passage 400-4. The wastewater passage 400-5 and the sixth wastewater passage 400-6 are zigzag-circulated, and the wastewater guided to the sixth wastewater passage 400-6 is discharged to the outside through the wastewater discharge pipe 402 formed at one side. Discharged.

또한 청수유도관(300)을 통하여 순환하면서 폐수의 열을 교환하는 청수의 이동은 다음과 같다.In addition, the movement of fresh water circulating through the fresh water induction pipe 300 exchanging heat of wastewater is as follows.

즉 냉수유입관(220)을 통하여 우측안내유도판(200)의 제1수직격실(211)로 유입된 냉수는 도8에서와 같이 제1청수유도관(300-1)의 사각관체(302)에 구성된 청수통로(301)를 통하여 좌측안내유도판(100)의 제1수평격실(111)로 유입되고, 제1수평격실(111)로 유입된 냉수는 측부로 이동한 다음 제1청수유도판(300-1)의 타측사각관체(302-1)을 통하여 이동하면서 우측안내유도판(200)에 구성된 제2수직격실(212)하단에 유입된다.That is, the cold water introduced into the first vertical space 211 of the right guide guide plate 200 through the cold water inflow pipe 220 is a rectangular pipe 302 of the first fresh water induction pipe 300-1 as shown in FIG. Cold water flowing into the first horizontal compartment 111 of the left guide guide plate 100 through the fresh water passage 301 configured in the first horizontal compartment 111 moves to the side, and then the first fresh water guide plate. While moving through the other square tube body 302-1 of 300-1, it flows into the lower end of the second vertical chamber 212 configured in the right guide guide plate 200.

제2수직격실(212)하단에 유입된 청수는 도9에서와 같이 제2수직격실(212) 윗쪽으로 이동하여 제2청수유도관(300-2)의 사각관체(302')의 청수통로(301')를 통하여 이동하면서 좌측안내유도판(100)의 제2수평격실(112)로 유입되고, 제2수평격실 (112)로 유입된 청수는 일측으로 이동하여 다시 제2청수유도관(300-2)의 사각관체 (302)에 구성된 청수통로(301)로 유입된다.The fresh water flowing into the bottom of the second vertical water chamber 212 moves upwards of the second vertical water chamber 212 as shown in FIG. 9, and the fresh water passage of the square pipe body 302 ′ of the second fresh water induction pipe 300-2 ( 301 ′) is introduced into the second horizontal compartment 112 of the left guide guide plate 100, and the fresh water introduced into the second horizontal compartment 112 moves to one side and is again moved to the second fresh water guide tube 300. -2) flows into the fresh water passage (301) configured in the square tube (302).

제2청수유도관(300-2)의 사각관체(302)의 청수통로(301)로 유입된 청수는 우측안내유도판(200)의 제3수직격실(213)하단으로 유입되고, 상기 청수는 다시 윗쪽으로 이동하여 도10에서와 같이 제3청수유도관(300-3)의 사각관체(302)에 구성된 청수통로(301)로 유입되어 좌측안내유도판(100)의 제3수평격실(113)으로 유입된다.The fresh water flowing into the fresh water passage 301 of the square pipe 302 of the second fresh water guide pipe 300-2 flows into the bottom of the third water straight chamber 213 of the right guide guide plate 200, and the fresh water is Moving upwards again, as shown in FIG. 10, a third horizontal compartment 113 of the left guide guide plate 100 is introduced into the fresh water passage 301 configured in the square pipe 302 of the third fresh water induction pipe 300-3. Inflow).

제3수평격실(113)로 유입된 청수는 일측으로 이동하여 다시 제3청수유도관 (300-3)의 사각관체(302')에 구성된 청수통로(301')로 유입되고, 우측안내유도판 (200)에 구성된 제4수직격실(214)하단으로 유입된다.The fresh water introduced into the third horizontal compartment 113 is moved to one side and flows back into the fresh water passage 301 'configured in the square pipe 302' of the third fresh water guide pipe 300-3, and the right guide guide plate Inflow to the bottom of the fourth vertical vertical chamber 214 (200).

제4수직격실(214)하단으로 유입된 청수는 상부로 이동한 다음 도11에서와 같이 제4청수유도관(300-4)의 사각관체(302')에 구성된 청수통로(301')를 통하여 좌측안내유도판(100)에 구성된 제3수평격실(114)일측으로 유입되고, 제4수평격실 (114)에 유입된 청수는 일측으로 이동하여 다시 제4청수유도관(300-4)의 사각관체 (302)에 구성된 청수통로(301)를 통하여 제5수직격실(215)하단으로 유입된다.The fresh water flowing into the bottom of the fourth vertical water chamber 214 moves to the upper side, and then, through the fresh water passage 301 'formed in the square pipe 302' of the fourth fresh water induction pipe 300-4, as shown in FIG. The fresh water flowing into one side of the third horizontal compartment 114 configured in the left guide guide plate 100, and the fresh water flowing into the fourth horizontal compartment 114 moves to one side and is again square of the fourth fresh water guide pipe 300-4. The water flows into the bottom of the fifth vertical chamber 215 through the fresh water passage 301 formed in the pipe 302.

제5수직격실(215)로 유입된 청수는 윗쪽으로 이동한 다음 도12에서와 같이 제5청수유도관 (300-5)의 사각관체(302)에 구성된 청수통로(301)를 통하여 이동하면서 좌측안내유도판(100)에 구성된 제5수평격실(115)일측으로 유입되고, 상기 청수는 다시 제5청수유도관(300-5)의 사각관체(302')에 구성된 청수통로(301')를 통하여 우측청수안내유도판(200)에 구성된 제6수직격실(216)로 이동하고 상기 청수는 온수배출관 (221)을 통하여 외부로 배출된다.The fresh water introduced into the fifth vertical chamber 215 moves upwards and then moves through the fresh water passage 301 formed in the square pipe 302 of the fifth fresh water guide pipe 300-5, as shown in FIG. The fresh water flows into one side of the fifth horizontal compartment 115 configured in the guide guide plate 100, and the fresh water passes through the fresh water passage 301 ′ formed in the square pipe 302 ′ of the fifth fresh water guide pipe 300-5. It moves to the sixth vertical chamber 216 configured on the right fresh water guide guide plate 200, and the fresh water is discharged to the outside through the hot water discharge pipe (221).

이상과 같이 본 고안에서 제공하고자 하는 폐수열을 이용한 폐수열 회수기(10)는 열을 함유한 폐수는 폐수열 회수기(10)의 윗쪽으로 공급되어 폐수통로(400)를 통하여 좌우 지그재그로 낙하 순환하면서 청수유도관(300)과 가능한 많은 면적으로 접하게 되고, 청수는 폐수열 회수기(10)하단에서 유입되어 청수유도관(300)을 통하여 지그재그 순환하면서 폐수열을 흡수하여 가열되면서 상부로 배출되는 원리를 이용하여 폐수의 열을 효과적으로 열교환할 수 있게 된다.Wastewater heat recovery system using wastewater heat to be provided in the present invention as described above is a wastewater containing the heat is supplied to the top of the wastewater heat recovery machine 10 is dropped into the left and right zigzag through the wastewater passage 400 while the fresh water induction pipe (300) and as much of the area as possible, fresh water is introduced from the bottom of the waste water heat recovery system 10, the zigzag circulation through the fresh water induction pipe 300 while absorbing the waste water heat is heated by using the principle that is discharged to the top while discharged to the top. It is possible to heat exchange effectively.

사용중 폐수통로(400)를 세척하고자 할 경우에는 폐수의 유입을 정지시킨 다음 청수를 순환시키면 폐수통로(400)에 잔류하는 찌꺼기 등을 간단히 씻어낼 수 있다.If you want to wash the wastewater passage 400 during use, stop the inflow of wastewater and then circulate the fresh water can simply wash away the residues remaining in the wastewater passage 400.

상기 본 고안을 구성함에 있어서, 청수유도관의 길이나 폭 및 적층수는 사용자의 필요에 따라 적절히 조정하여 사용할 수 있다.In constructing the present invention, the length or width of the fresh water induction pipe and the number of laminated water can be appropriately adjusted according to the needs of the user.

이상 설명한 바와 같이 본 고안은 폐수열 회수기를 구성함에 있어서, 본체내에 청수유도관을 다단으로 적층하므로서 그 사이에 폐수통로가 구성되게 하고, 상기 청수유도관 좌우에는 안내유도판을 설치하여 폐수와 청수가 서로 지그재그 엇갈리게 순환하면서 동일한 용적내에 가능한 많은 접촉면적을 제공하여 효과적인 온수의 제조가 가능하게 되는 등의 효과가 있는 것이다.As described above, in the construction of the wastewater heat recovery system, the wastewater passage is formed in the main body by stacking the freshwater induction pipes in multiple stages. It is possible to effectively produce hot water by providing as many contact areas as possible in the same volume while staggering zigzag with each other.

Claims (3)

폐수열의 열교환방식을 이용한 폐수열 회수기를 구성함에 있어서, 본체(20)내에 낙하공(304)이 형성된 청수유도관(300)을 다단으로 적층하여 그 사이에 폐수통로(400)가 지그재그로 구성되게 하고, 상기 청수유도관(300) 양측에는 격판(30)(40)을 설치하여 폐수통로(400)가 서로 연결되게 하고, 상기 격판(30)(40) 외측에는 청수안내유도판(100)(200)를 설치하여 청수유도관(300)으로 유입되는 청수가 선별적으로 이동되게 하고, 상기 폐수통로(400) 상하부에는 폐수유입관(401)과 폐수배출관(402)을 구성하고, 일측 청수안내유도판(200)상하에는 냉수유입관 (220)과 온수배출관(221)을 구성하므로서, 열을 함유한 폐수가 폐수 유입관(401)을 통하여 폐수통로(400)로 유입된 다음 지그재그 하향순환하면서 폐수배출관(402)을 통하여 외부로 배출되게 하고, 동시에 냉수유입관(220)을 통하여 유입된 청수는 청수유도관(300) 및 청수안내유도판(100)(200)을 통하여 지그재그 상향 순환하면서 가열된 다음 온수배출관(221)을 통하여 외부로 배출되게 함을 특징으로 하는 페수열의 열교환 방식을 이용한 폐수열 회수기.In constructing the wastewater heat recovery system using the heat exchange method of the wastewater heat, the fresh water induction pipe 300 having the drop hole 304 formed in the main body 20 is stacked in multiple stages so that the wastewater path 400 is zigzag in between. On both sides of the fresh water induction pipe 300, a diaphragm 30 and 40 are installed on both sides of the fresh water induction pipe 300 so that the waste water passages 400 are connected to each other. ) To selectively move the fresh water flowing into the fresh water induction pipe 300, the upper and lower parts of the waste water passage 400 constitutes a waste water inlet pipe 401 and waste water discharge pipe 402, one side fresh water guide induction By forming the cold water inlet pipe 220 and the hot water discharge pipe 221 on the top and bottom of the plate 200, the wastewater containing heat is introduced into the wastewater passage 400 through the wastewater inlet pipe 401 and then circulated downward in a zig-zag. Discharge to the outside through the discharge pipe 402, at the same time cold water inlet pipe 220 The fresh water introduced is heated while zigzag upwardly circulating through the fresh water guide pipe 300 and the fresh water guide guide plates 100 and 200, and then discharged to the outside through the hot water discharge pipe 221. Wastewater heat recovery system using heat exchange method. 제1항에 있어서, 우측청수유도판(200)의 내면 중앙에 수직판(210)을 구성하고, 상기 수직판(210) 좌우에는 다수의 수평판을 지그재그로 배시되게 하므로서 제1,2,3,4,5,6 수직격실(211)(212)(213)(214)(215)(216)이 형성되게 하고, 좌측청수안내유도판(100)의 내면에는 다수의 횡판을 설치하여 제1,2,3,4,5수평격실(111)(112)(113)(114)(115)이 구성되게 하므로서 냉수유입관(220)을 통하여 유입된 청수는 청수유도관(300)을 지그재그로 순환하면서 가열되게 한 다음 온수 배출관(221)을 통하여 외부로 배출되게 하여서 됨을 특징으로 하는 폐수열의 열교환방식을 이용한 폐수열 회수기.According to claim 1, wherein the vertical plate 210 is formed in the center of the inner surface of the right fresh water induction plate 200, and the left and right of the vertical plate 210, so that a plurality of horizontal plates are arranged in a zigzag pattern 1, 2, 3 And 4,5,6 vertical compartments 211, 212, 213, 214, 215, and 216 are formed, and a plurality of horizontal plates are installed on the inner surface of the left fresh water guide guide plate 100 to provide a first Fresh water introduced through the cold water inlet pipe 220 is zigzag in the fresh water induction pipe 300, so that the 2,3,4,5 horizontal compartments 111, 112, 113, 114, and 115 are configured. Waste water heat recovery using the heat exchange method of waste water heat characterized in that it is heated while circulating and then discharged to the outside through the hot water discharge pipe (221). 제1항에 있어서, 청수유도관(300)은 청수통로(301)가 구성된 사각관체(302)를 다수개 근접 설치한 다음 스폿트 용접하여 일체화되게 하고, 양측부와 중앙에는 입구부가 막힌 간격유지용 사각봉(303)을 구성하되, 간격유지용 사각봉(303)은 일측이 짧게 구성하여 낙하공(304)이 구성되게 하여서 됨을 특징으로 하는 폐수열의 열교환방식을 이용한 폐수열 회수기According to claim 1, The fresh water induction pipe 300 is installed by a plurality of square pipe body 302 is composed of a fresh water passage 301 in close proximity and then welded to be integrated, maintaining the gap between the inlet portion at both sides and the center Comprising a rectangular bar 303, the interval maintaining square bar 303 is a waste water heat recovery system using a heat exchange method of the waste water heat, characterized in that one side is configured to be short so that the drop hole 304 is configured.
KR2020010027263U 2001-09-06 2001-09-06 Waste water heat collector by using heat exchange way KR200256619Y1 (en)

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR100417538B1 (en) * 2001-09-06 2004-02-05 백성룡 Waste water heat collector by using heat exchange way
KR100760856B1 (en) 2007-02-05 2007-09-27 백성룡 Apparatus for cellecting the waste-water heat
KR101458022B1 (en) 2014-04-24 2014-11-12 주식회사 세기 Waste Water Recovery System Adapted Automatic cleaning methods using the height difference

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR100417538B1 (en) * 2001-09-06 2004-02-05 백성룡 Waste water heat collector by using heat exchange way
KR100760856B1 (en) 2007-02-05 2007-09-27 백성룡 Apparatus for cellecting the waste-water heat
KR101458022B1 (en) 2014-04-24 2014-11-12 주식회사 세기 Waste Water Recovery System Adapted Automatic cleaning methods using the height difference

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