KR200421783Y1 - Heating medium boiler - Google Patents

Abstract

The present invention relates to a heat medium boiler, wherein a water tank is formed between the outer wall and the inner wall, a combustion chamber is formed in the lower part of the center surrounded by the inner wall, and a space for filling the heating medium is formed in the upper part of the combustion chamber. Pipes that are plumbing are installed vertically to form a flue, and pipes, which are water pipes connected horizontally with the water tank, are installed between the plumbing to form a heat exchange system.

When the burner is operated in the combustion chamber, the heat medium filled in the upper part of the combustion chamber is heated to a high temperature, and the water in the water pipe formed horizontally between the heat medium heated to the high temperature is heat-exchanged, so that the temperature of the water in the tank increases, and the burner is operated. Even if this is stopped, it is related to the heat medium boiler which can save fuel because heat medium contains high temperature and can heat water continuously for a certain time.

Heating medium, water tank, water pipe, plumbing

Description

Heat carrier boiler {omitted}

1 is a cross-sectional view of the subject innovation

2 is a side cross-sectional view of the present invention

3 is a cross-sectional view taken along the line A-A of FIG.

Explanation of symbols on the main parts of the drawings

100 water tank 110 water pipe 120 outer wall

200 ... thermal media 210 ... inner wall 220 ...

300 ... combustion chamber 310 ... ceiling

400 ... 410 Communication ... Year 420 ... Edition 2

500... Burner 510... tunnel

600 ... exit 610

700 ... Thermal medium inlet 710 Thermal medium outlet

The present invention relates to a heat medium boiler, wherein a water tank is formed between an outer wall and an inner wall, a combustion chamber is formed in a lower portion of a central part of a space surrounded by an inner wall, and a space for filling a heat medium is formed in an upper portion of the combustion chamber. On the left and right of the pipe, the pipe is installed vertically to form a flue, and a pipe, which is a water pipe connected horizontally with the water tank, is installed in the center between the pipes installed vertically on the left and right to constitute a heat exchange system.

When the burner is operated in the combustion chamber, the heat medium filled in the upper part of the combustion chamber is heated to a high temperature, and the water in the water pipe formed horizontally between the heat medium heated to the high temperature is heated, and the water in the tank is heated, and then the inlet and drain holes formed outside the boiler body are heated. Through the heat supply and drainage, even if the burner is stopped, the heat medium contains a high temperature for a certain time to heat the water because it can continuously save the heat medium boiler to save fuel.

In the conventional heat medium boiler, a combustion chamber is formed in the lower part of the central part of the body, and a plumbing periphery installed vertically on the upper part of the combustion chamber is formed in a water tank (structure like an oil boiler). Because of heating, the heating medium has a high viscosity when the temperature drops sharply, causing circulation problems. Also, in order to maintain the heating temperature, the fuel boiler is not saved because the oil boiler heats the water. It is.

The present invention is to solve the above problems, the tank is formed between the outer wall and the inner wall, the combustion chamber is formed in the lower portion of the center of the space surrounded by the inner wall, the combustion chamber is formed in the upper space to fill the heat medium In addition, the pipe is installed vertically to the left and right of the space, and the water pipe is connected to the water tank horizontally in the center between the pipe to form a heat exchange system.

When the fuel is combusted in the combustion chamber, the heat medium filled in the upper part of the combustion chamber is heated, the water in the water pipe formed horizontally between the heated heat medium is heated, and the water in the tank is also heated to circulate smoothly through the inlet and the drain. Even if the burner is shut down, the heat medium contains a high temperature for a certain time, so that the water can be continuously heated to save fuel.

To this end, a water tank is formed between the outer wall and the inner wall, as well as a combustion chamber is formed in the lower portion of the center portion of the space surrounded by the inner wall. It is combined with the perforated plate, and the plate is combined with the upper surface surrounded by the inner wall to form a space for filling the heating medium between the ceiling of the combustion chamber and the plate, and the plate connected to the communication on the upper surface of the inner wall is discharged from the flue. The combustion gas is collected and discharged into the communication.

By forming a hole in the front and back of the inner wall so that the water pipe is horizontally connected with the water tank in the front and rear directions, the heat exchange system is configured to heat the heat medium and heat the water of the water pipe.

A burner is installed in the tunnel formed through the front outer wall and the inner wall of the combustion chamber to heat the heating medium in the upper part of the combustion chamber while the fuel-burned gas passes through the flue, and heat the water in the water pipes installed between the heating medium. It is to provide a thermal medium boiler characterized in that the water is heated to circulate.

Next, the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1 and FIG. 2, the present invention forms a water tank 100 between the outer wall 120 and the inner wall 210, and the combustion chamber 300 is disposed below the space surrounded by the inner wall 210. It is formed, the pipe 300, which is an association 410 by installing a hole in the left and right of the ceiling 310 of the combustion chamber 300, the upper surface of the association 410 is coupled with the perforated plate 1 (220), plate 1 (220) ) Is combined with the upper surface surrounded by the inner wall 210 to form a space for filling the heating medium 200 between the ceiling 310 of the combustion chamber 300 and the plate 1 (220), the upper end of the inner wall 210 Plate 2 420 connected to the communication 400 is connected to the surface to form a space for collecting the combustion gas.

Holes are formed in the front and back of the inner wall 210 and the water pipe 110 is horizontally connected to the water tank 100 to form a heat exchange system.

The burner 500 is installed in the tunnel 510 formed through the outer wall 120 and the inner wall 210 in front of the combustion chamber 300 so that fuel is combusted in the combustion chamber 300.

Looking at the operation of the present invention, filling the water tank, and also filling the heat medium 200 with the heat medium inlet 700 and then operating the burner 500, the fuel is burned by the burner 500 in the combustion chamber 300 The heating medium 200 is heated in the process of the combustion gas is discharged to the communication 400 through the pipe 410, the water in the water pipe 110 formed horizontally between the heating medium 200 is heated, and the water tank The water of the 100 is also warmed to smoothly circulate through the inlet 610 and the drain 600, and the heat medium 200 contains a high temperature for a predetermined time even when the burner 500 of the combustion chamber 300 is stopped. Because you can keep warming water, you can save fuel.

FIG. 3 is a plan view of the A-A line of FIG. 1 showing a state diagram of the present invention. 710 in the figure is an outlet for discharging the heat medium.

As described above, the present invention heats the heating medium to heat the water in the water pipe installed in the heating medium to circulate the water, so that the water can be circulated smoothly even when the temperature drops sharply, and since the heated heating medium contains high temperature, the burner is stopped. Water can be heated continuously for a certain amount of time to save fuel.

Claims (1)

In the thermal medium boiler, A water tank 100 is formed between the outer wall 120 and the inner wall 210, The combustion chamber 300 is formed below the central portion surrounded by the inner wall 210, and the heating medium 200 is filled between the plate 1 220 coupled to the top surface of the inner wall 210 and the ceiling of the combustion chamber 300. A space is formed, and right and left of the space, an association 410 penetrating the ceiling 310 of the combustion chamber 300 and the plate 1 220 is installed vertically, and penetrates the front and rear surfaces of the inner wall 210. The heat medium boiler characterized in that the water pipe 110 is formed to be connected to the water tank (100) horizontally.

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