KR200213893Y1 - A water valve combination structure of tank for gas boiler - Google Patents

Abstract

The present invention reduces the cost by directly combining the volume of the water in accordance with the temperature change of the water and the water tank where the water is stored in the water tank where the water is stored and the water heater directly controlling the water supply in the gas boiler and heating pipes. It is characterized by providing the coupling structure of the water tank for the gas boiler to achieve a high productivity by achieving easy construction and easy disassembly and coupling.

Description

WATER VALVE COMBINATION STRUCTURE OF TANK FOR GAS BOILER}

The present invention relates to the coupling structure of the water transformer for the gas boiler, and more specifically, the inside of the gas boiler in the water tank in which the water is stored in order to maintain a constant pressure and volumetric pipe according to the temperature change of the water The present invention relates to a coupling structure of a water heater for a gas boiler that achieves cost reduction by directly coupling a water heater to control a water supply in a heating pipe, thereby maximizing productivity.

As shown in FIG. 1, in order to replenish water in the water tank 20 of the conventional gas boiler, the user directly refills the water by using the manual water heater 20b installed in the connection pipe 20a. Checking whether there is water in the tank 20, if it is insufficient, it has caused inconvenience and inconvenience to replenish the water and installs the water heater valve 20b between the connecting pipes 20a. And the problem of lowering the construction efficiency and the receiver side 20b are difficult to disassemble and repair from the connecting pipe 20a even if a failure occurs, thereby increasing the cost and lowering the productivity. .

The present invention has been made to solve the problems of the prior art as described above has the following object.

The present invention reduces the cost by directly combining the volume of the water in accordance with the temperature change of the water and the water tank where the water is stored in the water tank where the water is stored and the water heater directly controlling the water supply in the gas boiler and heating pipes. The purpose of the present invention is to provide a coupling structure of the water tank for the gas boiler to maximize the productivity by achieving a simple construction work and easy disassembly and coupling.

1 is a schematic configuration diagram showing a conventional water tank and a receiver side;

2 is a configuration diagram showing an entire system of a gas boiler applied to the present invention;

3 is an exploded perspective view for explaining the present invention,

4 is a combined configuration to show the present invention.

<Explanation of symbols for the main parts of the drawings>

1: gas boiler 20: water tank

20a: connection piping 20b: receiver side

201: groove 202: through hole

203: pipe 204: connection

205: insertion portion 206: rubber ring

Hereinafter, with reference to the accompanying drawings for a preferred embodiment for achieving the above object of the present invention will be described in detail.

That is, Figure 2 shows a gas boiler (1) to which the present invention is applied, it is installed in a casing (Casing, 2) of the gas boiler (1) is a combustor for burning the gas to heat the hot water for heating or hot water ( 10), a water tank 20 for replenishing the heating circulating water, and a secondary heat exchanger exchanging heat through different paths with the heating water that has already been heated to heat the hot water coming from the outside with hot water ( 30) are constructed by combining with each other.

At this time, a burner group 12 including a plurality of burners is formed in the casing 11 of the combustor 10, and a primary heat exchanger 14 is installed in the upper direction thereof to prevent overheating and the water passing therethrough. The burner group 12 is heated, and a fan 13 for supplying combustion air is installed at the bottom of the combustor casing 11, and the burner group 12 is provided near the burner group 12. A spark plug 15 for ignition and a flame detector 16 for detecting ignition of the burner group are installed, and an exhaust unit 18 for discharging waste gas is disposed on an upper surface of the combustor casing 11. ) Is formed through the case 2 of the gas boiler 1.

In addition, a lower portion of the burner group 12 is provided with a gas pipe 50 for supplying gas, which includes two electromagnetic valves 51 and 52 for passing gas at the time of energization and a proportional valve for adjusting the gas supply amount. 53 is provided from the upstream of the gas pipe 50 with respect to the gas supply path.

Meanwhile, the water tank 20 has a high water level sensor 21 for detecting the quantity of water in the water tank, an overflow pipe 22 for discharging excess water, and whether the water is empty or filled in the pipeline. Low water level detection sensor 32 to detect, the heating return pipe 24 is installed with a separator 23 for recovering the heating water rotated on the floor and the water supply pipe 25 for supplying water to the primary heat exchanger (14) ) Is provided with a circulation pump 26 for adjusting the circulation of water in the downward direction.

In addition, thermistor 1 (TH1) which detects the temperature of the heated hot-water flowing out from the primary heat exchanger 14 and the temperature of the heating return which enters to exchange heat with the primary heat exchanger 14 are detected. Thermistor2 (TH2) is attached to measure the temperature of each hot water and heating return, and the flow switch (Folw Swith: FLS, 33) and direct water temperature to detect the presence of water flow when cold water flows in from the outside of the gas boiler. Direct water inlet pipe 34 and the water supply pipe 25 is installed through the three-way valve 36 is a mechanical automatic quantity control device is installed to ensure a stable temperature characteristics by passing a certain amount according to It is connected to the heating hot water supply pipe (37).

In addition, between the heating return pipe 24 and the direct inlet pipe 34 is provided with a water supply valve 35 for replenishing the water when the water tank 20 is insufficient, clogging of the heating filter, heating By-pass pipe (38) is provided for making and circulating the internal closed circuit of the gas boiler (1) when the distributor and the heating distribution pipe are blocked.

The present invention, as shown in Figures 3 and 4 when water shortage in the gas boiler and heating pipes in the water tank 20 in which water is stored in order to maintain the volume and the pipe according to the temperature change of the water at a constant pressure. In the structure in which the water receiver side 20b for controlling the water supply is coupled, the water tank 20 is formed with a groove portion 201 for installing the water receiver side 20b on one side of the lower portion and the groove portion 201. A through hole 202 is formed in one side of the water tank 20 so as to penetrate into the water tank 20, and one end of the receiver 20b is connected to an end portion of the pipe 203 through which water is supplied. 204 is formed and an inserting portion 205 is formed at the other side of the receiver 20b so as to be inserted into the through hole 202 of the water tank 20, and the inserting portion 205 has the water tank. (20) The rubber ring 206 is pinched so that the water supplied to the inside does not leak into the through hole 202. It becomes accomplished.

According to the present invention configured as described above, an end of a pipe 203 through which water is supplied to one connection portion 204 of the receiver side 20b is inserted and the other side insertion portion 205 of the receiver side 20b is the rubber The ring 206 is inserted into the through hole 202 formed in the groove 201 below the water tank 20, and is coupled to the through hole 202.

As described above, the present invention provides a hydraulic valve that controls the water supply in the gas tank and the heating pipe in the water tank in which the water is stored in order to maintain the volume loss and the pipe at a constant pressure according to the temperature change of the water. It is obvious that it is a very useful design that can achieve various effects such as cost reduction, direct construction work, and easy disassembly and easy coupling, thereby maximizing productivity.

Claims (1)

In order to maintain the volume and the pipe according to the temperature change of water at a constant pressure, the water tank 20 in which the water is stored is coupled to the water heater 20b for controlling the water supply in the gas boiler and the heating pipe when the water is insufficient. In the losing structure, The water tank 20 has a groove portion 201 for installing the receiver side 20b on one side of the lower portion thereof, and a through hole so as to penetrate into the water tank 20 on one side surface of the groove portion 201. 202 is formed, a connection portion 204 is formed on one side of the receiver side 20b is inserted into the end of the pipe 203 is supplied water, and the other side of the receiver side 20b An insertion part 205 is formed to be inserted into the through hole 202 of the 20, and the insertion part 205 is provided such that water supplied into the water tank 20 does not leak into the through hole 202. The coupling structure of the water receiver for the gas boiler, characterized in that the rubber ring 206 is fitted.