KR0178185B1 - Structure for connecting the flow switch and the automatic valve for supplementary water to the heat exchanger of a gas furnace - Google Patents

Abstract

The present invention relates to a heat exchanger connection structure of a flow switch and an automatic refill water valve of a gas boiler, and more particularly, an automatic replenishment for automatically replenishing water when water is insufficient in a flow switch and a heating pipe for detecting hot water use. The present invention relates to a heat exchanger connection structure of a gas boiler flow switch and an automatic refill water valve, in which water valves are concentrated in one place and these parts are directly connected to a heat exchanger to exert an effect of simplifying piping and facilitating assembly.

The present invention is an automatic refill water valve 12; Flow switch 15 for detecting the use of hot water; And a second outlet (23) having an inlet (21) connected to the direct water supply pipe (13) and having a first outlet (22) on which the automatic refill water valve (12) is installed, and also connected to a heat exchanger (9). As having, the flow switch 15 includes a first injection cap 20 coupled to the side.

Description

Heat exchanger connection structure of gas boiler flow switch and automatic refill water valve

The present invention relates to a connection structure of a flow switch and an automatic refill water valve of a gas boiler, and more particularly, an automatic refill water valve that automatically replenishes water when there is insufficient water in a flow switch and heating pipe for detecting hot water use. And a heat exchanger connection structure of a gas boiler flow switch and an automatic refill water valve, which concentrates the parts and directly connects these parts to a heat exchanger to exert an effect of simplifying piping and facilitating assembly.

In general, a gas boiler burns gas using fuel, heats water using heat generated during the combustion process, and circulates the heated water along a heating pipe in a room to heat the bathroom, sink, and the like. It has a function of supplying hot water.

Among the gas boilers having the above function, there is a bidirectional circulating pump for circulating the heating water. FIG. 1 is a schematic diagram of a conventional gas boiler using a bidirectional circulating pump.

As shown, the gas boiler is a gas inlet pipe 1 through which external gas is introduced, a gas valve 2 installed on the gas inlet pipe 1 to regulate the pressure of the gas supplied to the burner, and the gas inlet. The burner 3 which mixes and combusts the gas and air which flowed in through the pipe 1, the flue 4 which discharges the burned exhaust gas, and the burner 3 inhales air, An exhaust fan 5 forcibly discharged is included.

In addition, the gas boiler is a water tank for temporarily storing the heating water returned as installed on the heating return pipe (6), the heating return pipe (6) to return the heating water from the heating pipe (not shown) in the room to be heated. (7), a circulating pump (8) for circulating the heating water and selecting and changing the flow of the heating water when using heating and hot water, a heat exchanger (9) for heating the heating water, and supplying the heated heating water to the heating pipe. Heating water supply pipe (10), water replenishment pipe (11) to replenish the heating water, automatic refill water valve (12) installed on the water replenishment pipe (11), direct water supplying direct water to the heat exchanger (9) when using hot water Supply pipe 13, a hot water supply pipe 14 for discharging the heated hot water from the heat exchanger, and a flow switch (15) for detecting the flow of direct water when using hot water.

In addition, a bypass tube 16 is connected between any one outlet 8a of the bidirectional circulation pump 8 and the water tank 7, and an inlet pipe 17 is provided between the water tank 7 and the heat exchanger 9. ) Is connected, and an outlet pipe 18 is provided between the heat exchanger 9 and the inlet port 8b of the bidirectional circulation pump 8. The heating water supply pipe 10 is connected to another outlet 8c of the bidirectional circulation pump 8.

The bidirectional circulating pump 8 changes the discharge direction of the heating water according to the rotational direction. The structure of the bidirectional circulation pump 8 has already been filed with a patent application (application number: 96-13427) on April 29, 1996. As a result, a detailed description thereof will be omitted.

As described above, the gas boiler using the bidirectional circulation pump 8 functions as follows.

The heating water returned through the heating return pipe (6) enters the heat exchanger (9) through the water tank (7) and the inlet pipe (17) by the bidirectional circulation pump (8), and is heated in the heat exchanger (9). Heating water is supplied to the heating pipe of each room through the outflow pipe 18, the circulation pump 8 and the heating water supply pipe 10.

At this time, the bidirectional circulating pump 8 closes the outlet 8a of the bypass pipe 16 and opens the outlet 8c of the heating water supply pipe 10 to supply the heating water to the heating water supply pipe 10.

In addition, when using hot water, the heating water is circulated only in the boiler instead of flowing to the heating pipes in each room in order to increase the heat exchange efficiency with the hot water.

That is, when the hot water is used, the direction of rotation of the bidirectional circulating pump 8 is changed. In this case, the bidirectional circulating pump 8 opens the discharge port 8a on the bypass pipe 16 side and discharge port on the heating water supply pipe 10 side. Block (8c) to supply the heating water to the bypass pipe (16).

Therefore, the heating water circulates through the passage consisting of the heat exchanger 9, the outlet pipe 18, the circulation pump 8, the bypass pipe 16, and the inlet pipe 17.

In this way, the gas boiler is capable of heating and using hot water. The use of hot water, that is, a direct flow of water in the direct water supply pipe 13 is detected by the flow switch 15, and the flow switching of the heating water is performed as described above. It is made by the circulation pump 8 is changed in the rotation direction in accordance with the hot water use state detection of (15).

On the other hand, the amount of heating water in the heating pipe decreases little by little due to evaporation, etc. If the amount of heating water decreases above a certain level, the float switch 7a in the water tank 7 detects this and automatically replenishes it. Open the water valve (12). When the automatic refill water valve 12 is opened, water is replenished in the heating pipe. When the water is replenished to a certain level, the float switch 7a detects this again and closes the automatic refill water valve 12.

As described above, in the conventional gas boiler, the flow switch 15 for detecting the use of hot water and the automatic refill water valve 12 for refilling the heating water are configured independently of each other and are operated independently of each other. .

Therefore, the conventional gas boiler has a problem in that the piping structure inside the boiler is complicated and the assembling work takes a lot of assembly time, thereby increasing the manufacturing cost.

In addition, there is a problem that a defect occurs that frequent leaks due to the large number of piping connection.

The present invention has been made to solve the above-described problems of the prior art, by simplifying the piping structure and smooth assembly work by concentrating the flow switch and the automatic refill water valve in one place and connecting these parts directly to the heat exchanger, It is an object of the present invention to provide a heat exchanger connection structure of a gas boiler flow switch and an automatic refill water valve, which reduces the location of the connection portion, thereby reducing the possibility of water leakage.

Heat exchanger connection structure of the flow switch and automatic refill water valve of the gas boiler of the present invention for achieving the above object is an automatic replenishment valve for replenishing water in the heating pipe; Flow switch for detecting the use of hot water; And a first injection cap having an inlet connected to the direct water supply pipe, having a first outlet for installing the automatic supplementary water valve, and a second outlet for connecting to a heat exchanger, including a first injection cap coupled to the side. It features.

1 is a schematic configuration diagram of a conventional gas boiler using a bidirectional circulating pump;

2 is a schematic configuration diagram of a gas boiler configured with a heat exchanger connection structure of a flow switch and an automatic refill water valve of a gas boiler according to the present invention;

3 is a cross-sectional view showing the configuration of a heat exchanger connection structure of a flow switch and an automatic refill water valve of a gas boiler according to the present invention.

* Explanation of symbols for main parts of the drawings

1: gas inlet pipe 2: gas valve

3: burner 4: year

5: exhaust fan 6: heating return pipe

7: water tank 7a: float switch

8: circulation pump 9: heat exchanger

10: heating water supply pipe 11: water supplement pipe

12: Automatic refill water valve 13: Direct water supply pipe

14: hot water supply pipe 15: flow switch

16: bypass pipe 17: inlet pipe

18: outlet pipe 20: first injection cap

21: inlet 22: the first outlet

23: second outlet 30: second injection cap

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

2 is a schematic configuration diagram of a gas boiler configured with a heat exchanger connection structure of a flow switch and an automatic refill water valve of a gas boiler according to the present invention, and FIG. 3 is a flow switch and an automatic refill water valve of a gas boiler according to the present invention. It is sectional drawing which shows the structure of a heat exchanger connection structure.

As shown in the present invention, the flow switch 15 and the automatic refill water valve 12 are integrated.

The heat exchanger connection structure of the flow switch and the automatic refill water valve of the gas boiler according to the present invention includes an automatic refill water valve 12, a flow switch 15, and an inlet 21 connected to the direct water supply pipe 13. The first injection port having the first outlet port 22 in which the automatic refill water valve 12 is installed and the second outlet port 23 connected to the heat exchanger 9 are coupled to the side. The cap 20 is included.

In addition, the present invention also includes a second injection cap 30 that serves as an adapter to couple the first injection cap 20 to the heat exchanger 9. One side of the second injection cap 30 has a shape that can be coupled to the heat exchanger 9 and the other side has a shape that can be coupled to the second outlet 23 of the first injection cap 20. .

And between the first injection cap 20 and the flow switch 15, between the first outlet 22 of the first injection cap 20 and the automatic refill water valve 12, the first injection cap 20 and the second Seal rings are provided between the injection caps 30 and between the second injection cap 30 and the heat exchanger 9 to prevent leakage of water.

When the flow switch 15 flows directly into the first injection cap 20, the movable part 15a rotates so that the magnet is attached to the magnet of the fixing part 15b. At this time, water flows due to the influence of the magnet. It is to detect and generate an electrical signal corresponding thereto. Since such a flow switch is well known in the art, a detailed description thereof will be omitted.

The automatic refill water valve 12 may be used in various forms. For example, a solenoid valve that opens and closes by electricity may be used.

The heat exchanger connection structure of the flow switch and the automatic refill water valve of the gas boiler of the present invention configured as described above functions as follows.

When hot water flows out through the hot water supply pipe 14 during the use of hot water, direct water flows into the direct water supply pipe 13, where the direct water flows into the inlet 21 of the first injection cap 20, and heat exchanges through the second outlet 23. Enter the machine (9). The cold direct water is heated by the heat exchange action with the heating water in the heat exchanger (9), turns into hot water, and then flows out through the hot water supply pipe (14). And since the direct flow passes through the first injection cap 20, the flow switch 15 is operated to input the hot water used facts to the control device.

In addition, when the water is insufficient in the heating pipe by the operation of the float switch (7a) of the water tank (7) below a certain level, the automatic refill water valve 12 is automatically opened and the direct flow of the first injection cap (20) Through the first outlet 22, the automatic refill water valve 12, the water refill pipe (11) enters the water tank (7) to replenish the water in the heating pipe.

The heat exchanger connection structure of the flow switch and the automatic refill water valve of the present invention as described above is provided with the flow switch 15 and the automatic refill water valve 12 concentrated in one place, and are directly connected to the heat exchanger. The assembly work is very easy in the assembly line, and the piping structure is simplified. Therefore, it takes less assembly time and lowers the manufacturing cost.

In addition, the present invention has the effect of reducing the possibility of water leakage and the occurrence of defects due to the leakage by reducing the pipe connection.

Although the invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that various changes or modifications can be made within the spirit and scope of the invention, and such changes or modifications are consequent to the appended claims. You will have to belong to the range.

Claims (3)

In the gas boiler having a function of heating and hot water supply, Automatic refill water valve 12 for replenishing water in the heating pipe; Flow switch 15 for detecting the use of hot water; And a second outlet (23) having an inlet (21) connected to the direct water supply pipe (13) and having a first outlet (22) on which the automatic refill water valve (12) is installed, and also connected to a heat exchanger (9). Heat exchanger connection structure of the flow switch and automatic refill water valve of the gas boiler, characterized in that it comprises a first injection cap 20 is coupled to the flow switch 15 side. According to claim 1, In order to couple the first injection cap (20) to the heat exchanger (9), it has a shape that can be coupled to the heat exchanger (9) and the other side of the first injection cap (20) The heat exchanger connection structure of the gas boiler flow switch and automatic refill water valve, characterized in that it further comprises a second injection cap (30) is formed in a shape that can be coupled to the second outlet (23). The method according to claim 1 or 2, wherein between the first injection cap 20 and the flow switch 15, between the first outlet 22 of the first injection cap 20 and the automatic refill water valve 12, Gas, characterized in that the sealing is installed between the first injection cap 20 and the second injection cap 30, and between the second injection cap 30 and the heat exchanger (9) to prevent leakage of water. Heat exchanger connection structure of boiler flow switch and automatic refill water valve.