KR820001710Y1 - Heat circulation type hot-water boiler - Google Patents
Heat circulation type hot-water boiler Download PDFInfo
- Publication number
- KR820001710Y1 KR820001710Y1 KR2019810000006U KR810000006U KR820001710Y1 KR 820001710 Y1 KR820001710 Y1 KR 820001710Y1 KR 2019810000006 U KR2019810000006 U KR 2019810000006U KR 810000006 U KR810000006 U KR 810000006U KR 820001710 Y1 KR820001710 Y1 KR 820001710Y1
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- South Korea
- Prior art keywords
- water
- chamber
- heat
- exhaust pipe
- water boiler
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H1/00—Water heaters, e.g. boilers, continuous-flow heaters or water-storage heaters
- F24H1/22—Water heaters other than continuous-flow or water-storage heaters, e.g. water heaters for central heating
- F24H1/44—Water heaters other than continuous-flow or water-storage heaters, e.g. water heaters for central heating with combinations of two or more of the types covered by groups F24H1/24 - F24H1/40 , e.g. boilers having a combination of features covered by F24H1/24 - F24H1/40
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24H—FLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
- F24H9/00—Details
- F24H9/18—Arrangement or mounting of grates or heating means
- F24H9/1809—Arrangement or mounting of grates or heating means for water heaters
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- Engineering & Computer Science (AREA)
- Physics & Mathematics (AREA)
- Thermal Sciences (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Heat-Pump Type And Storage Water Heaters (AREA)
Abstract
내용 없음.No content.
Description
제1도는 본 고안의 종단면도.1 is a longitudinal sectional view of the present invention.
제2도는 제1도의 A-A선 단면도.2 is a sectional view taken along the line A-A of FIG.
본 고안은 원통형 가정용 보일러에 관한 것으로 열효율을 최대한으로 활용되게 한 고안에 관한 것이다.The present invention relates to a cylindrical household boiler and to a design that makes the best use of thermal efficiency.
종래의 연탄 보일러에는 대개가 소르관 또는 단순한 가열수조로 구성하여 이들 가열수조 내벽에는 연탄의 발화에 의하여 화덕 외면에서 발하는 열과 가열수조 외벽에는 연탄의 연소화력을 받아서 가열되어 왔으나 이는 연탄연소 화력의 화진로(火進路)가 간단하여 화열이 채 식기도 전에 연통으로 빠져 나감으로 열의 낭비는 물론 이러한 화실(火失)의 결점은 실로 다대한 것이어서 보일러의 열효율이 현저히 떨어졌던 것이다.Conventional briquette boilers are usually composed of a sorbent tube or a simple heating bath. The inner walls of these heating tanks have been heated by the combustion of coal briquettes on the inner wall of the furnace by the ignition of briquettes and the heating of the briquettes. Because the furnace is simple and the heat of fire is lost, the waste heat of course, as well as the waste of heat, as well as the flaw of the firebox is so great that the thermal efficiency of the boiler was significantly reduced.
본 고안은 공지된 원통형 내측 수실과 외측 수실로 원착시켜 이들 쌍 수실 사이엔 순환관을 상착(相着)수로를 연결 상통되게 하고 이들 내측 수실과 외측수실의 상면 내(相面內)를 내측 배기관으로 하여 외측 수실 내부에는 열 회로관을 동수조 하공벽(下孔壁)에 부착 시켜서 동 수조 내부에서 상공벽으로 원형상승되게 삽입 원착 시켜서 연탄의 연소 화력이 하공벽을 통하여 열회로관을 발열하고는 공벽으로 나오는 과정을 코일형 배기관으로 하여 외측 수실 밖에는 다시 커버가 둘러 쌓여 있어서 코일형 배기관에서 나온 연소 화력은 다시 동 수실의 외면을 돌아 가면서 동 외측 수실을 가열 하고는 연통으로 배설되게 한 과정을 외측배기관으로 했다.The present invention is made of a known cylindrical inner chamber and an outer chamber so as to make the circulating pipe between the paired chambers and the upper channel connected to each other, and the upper surface of the inner chamber and the outer chamber is connected to the inner exhaust pipe. Then, inside the outer chamber, a heat circuit tube is attached to the water tank lower wall, and inserted into the upper wall of the water tank so as to be circularly elevated to the upper wall. The combustion power of briquettes heats the heat circuit tube through the lower wall. The process of exiting the empty wall is the coil-type exhaust pipe, and the cover is surrounded outside the outer chamber, so that the combustion heat from the coil-type exhaust pipe is returned to the outer surface of the chamber, heating the outer chamber, and being discharged in communication. The outside exhaust pipe was used.
따라서 본 고안은 열의 회로 과정을 누차에 걸쳐서 발열되게 함으로서 열 효율을 최대한으로 이용한 것으로서 그 구성 상태를 첨부된 도면에 의하여 설명하면 다음과 같다.Therefore, the present invention is to maximize the thermal efficiency by allowing the circuit process of heat to generate heat over the leakage cycle as follows.
본 고안은 온수 보일러의 열회로관과 수실의 온수 유통 과정을 설명하면 내측수실(1)인 원통수조저면에 장착한 급수관(8)으로 급수된 물이 등, 수실(1)에 내장되면 흡입관(10)으로 공기가 들어와서 연탄(4)이 발화되면 화덕(5)에서 발하는 화기는 내측 수실내벽면(6)을 데워주고 연탄(4)의 연소 화력이 내측 배기관인 화진로(a)로 들어오게 되면 여기엔 동수실 외벽면(6')과 외측수실(1') 내벽면(7)이 넓고 화력을 서로 반사하면서 흡수하여 내측 수실(1)에서 물이 데워지면 순환관(1")을 통하여 그 밖에는 다시 원착된 외측수실(1')로 들어가사 동수실(1')내를 회류하게 된다.The present invention describes the hot water distribution process of the heat circuit tube of the hot water boiler and the water chamber. When the water supplied by the water supply pipe 8 mounted on the bottom of the cylindrical water tank 1, which is the inner water chamber 1, is built into the water chamber 1, the suction pipe ( 10) When the air enters the briquette 4 to ignite, the fire that is emitted from the oven 5 warms the inner wall of the inner chamber 6, and the combustion power of the briquette 4 enters the burner furnace a, which is an inner exhaust pipe. When it comes to this, the outer wall surface 6 'of the hydraulic chamber and the inner wall surface 7 of the outer chamber 1' are wide and absorb the heat while reflecting each other, so that the water is heated in the inner chamber 1 and the circulation pipe 1 " Through the other, enters the outer outer chamber (1 ') which is displaced again to flow inside the hydraulic chamber (1').
이때에 내측 배기관인 화진로(a)로 회전한 연소화력은 하공벽부(3)로 들어가서 코일형 배기관(b)인 열회로관(2)이 직접 물속에서 회전 상승되여 있어서 코일형 배기관으로 들어온 연소 화력은 열의 회전 상승의 원리와 열 회로관 내부에서 사방으로 뿜는 열을 받아 외측 수실내의 물도 고온이 되여 역시 회전 상승의 원리에 따라 냉, 저, 온상 즉 물의 순환 과정을 고착시킨 것이며 따라서 회전 상승한 연소 화력은 상공벽부(3')로 나와서 다시 연소 화력은 외측 배기관(c)인 외측수실(1')의 외벽면(7')과 커버(12) 사이로 회전하며 가열함으로 등 수실(1')의 물은 더욱 가열촉진 되어 온수 공급관(9)으로 고온의 온수를 공급하게 되며 이러한 과정을 거친 연소 화력은 연통(11)으로 빠져 나가게 되는 것이며 도면중 미설명부호(13)은 뚜껑이다.At this time, the combustion thermal power rotated by the inner exhaust pipe (a) enters the lower wall part (3), and the heat circuit tube (2), which is the coil type exhaust pipe (b), is directly rotated in the water so that combustion enters the coil type exhaust pipe. The thermal power receives heat from all directions inside the thermal circuit tube and heat from the inside of the thermal circuit tube, so that the water in the outer chamber becomes high temperature. Combustion thermal power comes out of the upper wall part 3 ', and the combustion thermal power rotates between the outer wall surface 7' of the outer chamber 1 ', which is the outer exhaust pipe c', and the cover 12, and heats the back chamber 1 '. The water is further promoted by heating to supply hot water at a high temperature to the hot water supply pipe (9), and the combustion thermal power after such a process will be discharged to the communication (11) and the reference numeral 13 in the drawing is a lid.
이리하여 본 고안은 종래의 화실을 보다 효율적으로 최대한 이용하기 위하여 내측 수실(1)의 내벽면(6)에는 연탄(4)에서 직접 발하는 화덕(5)의 열을 받고 내측 배기관(a)인 등수조 외벽면(6')을 발열 함으로 가열수는 고온 상승되어 순환관(1")을 통하여 외측 가열수조(1')로 넘어오게 되고 여기엔 내측 배기관(a)인 등수조 내벽면(7)과 코일형 배기관의 화진로(b)인 열 회로관(2)과 외측배기관의 화진로(c)인 등수조의 외벽면(7')을 발열하는 등 수차에 걸쳐서 물을 더욱 가열촉진 시킴으로서 보다 고온의 온수를 얻고자 하였고 따라서 대개의 가열 수조의 가열수는 수직교류 하는데 반하여 본 고안의 가열수는 내측 가열 수실에는 수직 교류하여 순환관(1")을 통하여 외측수실로 넘어오게 되면 동 외측수실엔 열회로관(2)이 직접 물속에서 원형 상승 원착되어 있으며 외측수 실내에는 코일형 배기관에서 물을 직접적으로 데워주게 하였고 열 회로관이 동 수실 저면에서 상면까지 원형상승 회로로 되어 있어서 물의 순환회로 작용에 있어서도 등 외측 수실에서는 회류 상승의 원리를 고착시킨 것이다.Thus, the present invention receives the heat of the oven 5 directly emitted from the briquettes 4 on the inner wall surface 6 of the inner chamber 1 in order to make the most of the conventional firebox more efficiently. By heating the outer wall surface 6 'of the bath, the heated water rises to a high temperature and is transferred to the outer heating water tank 1' through the circulation pipe 1 ", and the inner wall surface of the backwater tank 7 which is an inner exhaust pipe a is here. The heat is further increased by heating the water over the aberration, such as heating the heat circuit tube (2), which is the burner path (b) of the overheated and coil type exhaust pipe, and the outer wall surface (7 ') of the kerosene tank which is, In general, the heating water of the heating tank is vertically exchanged, whereas the heating water of the present invention is vertically exchanged with the inner heating chamber, and is transferred to the outer chamber through the circulation pipe (1 "). The heat circuit tube (2) is directly circular Outer be indoors, were dropped directly to heat up the water in the coil-like exhaust pipe to which the column circuits tube this also including the outer Susilo on the upper surface circuit functional water according the a circular raised circuit up from the bottom such Susilo fixing the principles of hoeryu rise.
Claims (1)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
KR2019810000006U KR820001710Y1 (en) | 1981-01-05 | 1981-01-05 | Heat circulation type hot-water boiler |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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KR2019810000006U KR820001710Y1 (en) | 1981-01-05 | 1981-01-05 | Heat circulation type hot-water boiler |
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KR820001710Y1 true KR820001710Y1 (en) | 1982-08-12 |
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KR2019810000006U KR820001710Y1 (en) | 1981-01-05 | 1981-01-05 | Heat circulation type hot-water boiler |
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1981
- 1981-01-05 KR KR2019810000006U patent/KR820001710Y1/en active
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