KR200210525Y1 - Bypass pipe for gas boilers - Google Patents

Abstract

The present invention relates to a bypass tube for a gas boiler, by coupling one side end of the bypass tube 40 to the three-way side 70 provided in the outlet side circulation pipe 20 of the heat exchanger 10, the bypass The other end of the pipe 40 is coupled to the separator 60 adjacent to the expansion tank, so as to maintain the pressure balance of the heating side and the heat dissipating and returning side with the heat exchanger during the heating and hot water supply function. By constructing the furnace, when manufacturing the gas boiler, one side end of the bypass pipe 40 is not required to perform a separate welding operation to be coupled to the circulation pipe 20, thereby reducing the work maneuver and simplifying the assembly. The manufacturing cost is to be reduced.

Description

Bypass pipe for gas boilers

The present invention relates to a bypass tube for a gas boiler, and more particularly, the heat exchanger is heated and discharged to the expansion tank side through the bypass pipe as much as the volume of the heating water increases, and the heat exchanger cools down When the body volume decreases again, the bypass tube for the gas boiler to be replenished to the heat exchanger through the heating supply pipe by the amount of heating water discharged to the expansion tank side through the bypass pipe.

In general, domestic gas boilers that use gas with heating and hot water functions as fuel are used for heating the room or using hot water. The heating water filled in the heat exchanger is heated by the combustion heat of the burner, which is a combustion device. This hot water is supplied to a heating line through a circulation pipe to be heated.

The heat exchanger, which is a source that can generate heating water or hot water, is heated up by combustion to increase its own volume of water, and the amount of heat is increased. Therefore, the expansion tank that can achieve this is installed in the boiler.

Therefore, as shown in FIG. 1, one end of the bypass pipe 40 'is coupled to the outlet-side circulation pipe 20' of the heat exchanger 10 ', and the bypass pipe 40' Is coupled to the expansion tank 30 '.

The conventional gas boiler bypass tube is introduced into the expansion tank 30 'through the bypass tube 40' by the heat exchanger 10 'and increases as the volume of the heating water increases. When the heat exchanger cools down and the volume of the heating water decreases, the amount of heating water flows back into the heat exchanger 10 'through the heating supply pipe 50' by the amount introduced into the expansion tank 30 'through the bypass pipe 40'. It is being replenished.

However, such a conventional gas boiler bypass pipe couples the other end of the bypass pipe 40 'to the expansion tank 30', and the bypass pipe 40 'having one end coupled to the expansion tank 30'. One side end of the) to be coupled to the outlet side circulation pipe 20 'of the heat exchanger (10'), as well as increase the work process when manufacturing the boiler,

There was a problem in that a separate welding operation should be performed so that one end of the bypass pipe 40 'is coupled to the circulation pipe 20'.

An object of the present invention is to solve the problems as described above, the one end of the bypass pipe is coupled to the three sides of the outlet side circulation pipe of the heat exchanger, the other end of the bypass pipe is adjacent to the expansion tank When the heat exchanger is heated and the volume of the heating water itself is increased, the heat exchanger is discharged to the separator through the bypass pipe, and when the heat exchanger cools and the body volume of the heating water is reduced, the heating water is again By replenishing the heat exchanger through the heating supply pipe by the amount discharged to the separator through the pass pipe, it is not necessary to perform separate welding work so that one end of the bypass pipe is coupled to the circulation pipe when manufacturing the gas boiler. In addition to providing a bypass tube for gas boilers that reduces manufacturing costs as well as reduces assembly costs. There is.

1 is a system diagram showing a state in which a conventional bypass pipe is installed

Figure 2 is a schematic diagram showing a state in which the bypass pipe of the present invention is installed

Explanation of symbols on the main parts of the drawings

10: heat exchanger 20: circulation tube

30: expansion tank 40: bypass pipe

50: heating pipe 60: water separator

70: three-way side 71: bypass pipe assembly means

Hereinafter, the technical configuration of the present invention by the accompanying drawings in detail.

As shown in FIG. 2, the bypass pipe for the gas boiler according to the present invention has one side end portion of the bypass pipe 40 at a three-way side 70 installed at the outlet side circulation pipe 20 of the heat exchanger 10. The other end of the bypass pipe 40 is coupled to the separator 60 is connected to the expansion tank in close proximity to the technical features of the technical configuration.

According to the present invention configured as described above, the heat exchanger 10 is heated and discharged to the separator 60 through the bypass pipe 40 by an amount that increases as the volume of the heating water increases, and the heat exchanger cools down the heating water. When the volume of the vehicle is reduced, the heating water is replenished to the heat exchanger 10 through the heating supply pipe 50 by the amount discharged to the separator 60 through the bypass pipe 40.

On the other hand, the three-way side (70) is formed by the bypass pipe assembly means (71) for one side end of the bypass pipe 40 is firmly coupled, one side end of the bypass pipe (40) three-sided (70) Note that it is easy to make it firmly coupled to

Therefore, the present invention configures the water passage of the boiler to maintain the pressure balance between the heating side and the heat dissipating and returning side with the heat exchanger 10 during the heating and hot water supply function, thereby bypassing the tube when manufacturing the gas boiler. One end of the 40 does not have to perform a separate welding operation to be coupled to the circulation pipe 20, the work maneuver is reduced, as well as the assembly is simple, there is an effect that the manufacturing cost is reduced.

As described above, the present invention couples one end of the bypass pipe to three sides installed in the outlet-side circulation pipe of the heat exchanger, and the other end of the bypass pipe is coupled to an instrument separator, and the heat exchanger is heated and heated. As the volume of water increases, the amount of water is discharged to the separator through the bypass pipe, and when the heat exchanger cools down and the body volume of heating water decreases, the amount of heating water is discharged to the separator through the bypass pipe again. By replenishing with a heat exchanger through the production of gas boilers, one side end of the bypass pipe does not need to be separately welded to be coupled to the circulation pipe, thereby reducing workability and simplifying assembly. It's a very useful design that will save you money.

Claims (2)

The one end of the bypass pipe 40 is coupled to the three-way side 70 installed in the outlet side circulation pipe 20 of the heat exchanger 10, and the other end of the bypass pipe 40 is a radiator 60. Bypass pipe for gas boilers, characterized in that coupled to. The bypass pipe according to claim 1, wherein the three-way side (70) has a bypass pipe assembly means (71) formed so that one end of the bypass pipe (40) is firmly coupled.