KR19990030899A - Direct Water Detection Filling Valve of Gas Boiler - Google Patents

Abstract

The present invention relates to a direct water detection supplement water valve of a gas boiler, and more particularly, a flow switch and a supplemental water valve are integrally formed and installed in a direct water supply pipe, thereby improving workability and reducing cost by improving workability. The present invention relates to a direct sensing fill water valve of a gas boiler.

The direct water detection supplement water valve of the gas boiler according to the present invention is installed in a flow pipe 21 connected to the direct water supply pipe 6 and an opening 22 formed at one side of the flow pipe 21 and detecting a magnetic force ( Switch housing 24 having a built-in 23, the hinge member is coupled to the lower side of the switch housing 24, the rotary member 26 is installed by the magnetic 25 on the surface approaching the detector 23 is rotated by the direct number Replenishment water housing 28 for receiving direct water from the direct water supply port 27 formed on the side of the flow pipe 21 and flowing out, intermittent member installed in the replenishment water housing 28 to control the flow of the direct water. (29), and the solenoid 30 is installed on one side of the intermittent member 29 to move the intermittent member 29.

Description

Direct Water Detection Filling Valve of Gas Boiler

The present invention relates to a direct water detection supplement water valve of a gas boiler, and more particularly, a flow switch and a supplemental water valve are integrally formed and installed in a direct water supply pipe, thereby improving workability and reducing cost by improving workability. The present invention relates to a direct sensing fill water valve of a gas boiler.

In general, a gas boiler has a function of using the heat of combustion of gas as heating water or using direct water (cold water) directly as hot water.

1 is a schematic configuration diagram showing an example of a conventional gas boiler.

As shown, the gas boiler heats the combustion heat of the gas to heat the heat exchanger 1, and the heating water circulating in the heat exchanger 1 is heated to the water tank 2 or the hot water heat exchanger 3 along the hose. The heating water is discharged through the heating water supply pipe 5 for heating by the rotation direction of the bidirectional pump 4 or directly into the hot water heat exchanger 3.

For example, when hot water is used, direct water is introduced into the hot water heat exchanger 3 through a direct water supply pipe 6, and in the hot water heat exchanger 3, the direct water is heated with hot water to be discharged to the hot water discharge pipe 7.

That is, when the user opens the hot water valve (not shown) in the hot water mode, the flow switch 10 installed in the direct water supply pipe 6 operates to operate the bidirectional pump 4 in the direction of using hot water.

Then, the heating water of the heat exchanger 1 flows into the hot water heat exchanger 3 via the water tank 2 and the bidirectional pump 4 by driving the bidirectional pump 4, and heat exchanges again in the hot water heat exchanger. It flows into the group (1).

Here, the heating water flows in isolation from the direct water, and the direct water receives the heat from the heating water, becomes hot water, and flows out into the hot water discharge pipe (7).

On the other hand, when the height of the water in the water tank 2 is lowered due to vaporization, etc., the water is replenished. At this time, the controller operates the replenishment water valve 11 to supply water directly to the water tank 2.

The make-up water valve 11 is installed on the make-up water supply pipe 12 connected to the direct water supply pipe 6 through the hot water heat exchanger 3, and the make-up water supply pipe 12 is connected to the water tank 2. Connected.

In the conventional gas boiler, since the flow switch 10 is installed on the water supply pipe 6 and the supplemental water valve 11 is installed in the supplemental water supply pipe 12, the flow switch 10 and the supplemental water valve 11 are provided. Since it is separately installed, it is inconvenient to work, and in particular, since the wires connected to the replenishment water valve 11 and the wires connected to the flow switch 10 are spaced apart, there is a problem that the inside of the gas boiler becomes complicated.

The present invention has been made to solve the above-mentioned problems of the prior art, by forming a flow switch and a supplementary water valve integrally installed in the direct supply pipe to improve the workability and to reduce the cost by improving the workability It is an object of the present invention to provide a direct sensing fill water valve of a gas boiler.

In order to achieve the above object, a direct flow sensor supplement water valve of a gas boiler according to the present invention is installed in a flow pipe connected to a direct water supply pipe, an opening formed at one side of the flow pipe, and a switch housing having a sensor for detecting a magnetic force. A hinge member coupled to the lower side of the switch housing and rotated by direct water, a rotating member having a magnetic installed on a surface approaching the detector, and a supplemental water housing receiving direct water from a direct water supply port formed at a side of the flow pipe. It is provided in the replenishment water housing is made up of an intermittent member for regulating the flow of direct water, and a solenoid to act on the side of the intermittent member to move the intermittent member.

1 is a configuration diagram showing an example of a conventional gas boiler;

2 is a configuration diagram of a gas boiler to which the direct water detection supplement water valve of the gas boiler according to the present invention is applied;

Figure 3 is a front view showing a direct water detection supplement water valve of the gas boiler according to the present invention,

4 is a cross-sectional view taken along the line AA of FIG.

<Explanation of symbols for main parts of the drawings>

1: heat exchanger 2: water tank

3: hot water heat exchanger 4: bidirectional pump

5: heating water supply pipe 6: direct water supply pipe

7: hot water discharge pipe 10: flow switch

11: replenishment water valve 12: replenishment water supply pipe

21: flow pipe 22: opening

23: detector 24: switch housing

25: magnetic 26: rotating member

27: direct water supply port 28: supplement water housing

29: intermittent member 30: solenoid

BEST MODE Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

FIG. 2 is a configuration diagram of a gas boiler to which the direct water detection supplement water valve of the gas boiler according to the present invention is applied, FIG. 3 is a front view showing the direct water supply supplement valve of the gas boiler according to the present invention, and FIG. A-A cross-sectional view of the.

As shown, the gas boiler heats the combustion heat of the gas to heat the heat exchanger 1, and the heating water circulating in the heat exchanger 1 is heated so that the water tank 2 or the hot water heat exchanger 3 is connected along the hose. The heating water is discharged through the heating water supply pipe (5) for heating by the rotation direction of the bidirectional pump (4), or flows directly into the hot water heat exchanger (3), the direct water when using hot water The hot water heat exchanger (3) is introduced into the hot water heat exchanger (3), and the hot water heat exchanger (3) heats the direct water with hot water and flows out to the hot water discharge pipe (7).

In addition, in the present invention, the direct water detection supplement water valve 20 integrating the conventional flow switch and the supplementary water valve is installed between the supplemental water supply pipe 12 and the direct water supply pipe 6.

The direct water detection supplement water valve 20 is installed in the flow pipe 21 and the opening 22 formed at one side of the flow pipe 21 connected to the direct water supply pipe 6 and detect a magnetic force 23. Built-in switch housing 24, the hinge member is coupled to the lower side of the switch housing 24, the rotation member 26, the magnetic member 25 is installed on the surface approaching the sensor 23 is rotated by the direct flow, the flow Replenishment water housing 28 which receives direct water from the direct water supply port 27 formed on the side of the pipe 21 and flows out, and the intermittent member 29 installed in the replenishment water housing 28 to regulate the flow of direct water. And, and is provided on one side of the intermittent member 29 consists of a solenoid 30 to move the intermittent member (29).

Here, the direct water supply port 27 of the refill water housing 28 has a structure formed on the direct water inflow side of the rotating member 26 so as to be performed independently of the operation of the rotating member 26 when supplying the refill water. The direct water supply port 27 of the supplemental water housing 28 may be formed at the direct outlet port side of the rotating member 26.

The direct water detection supplement water valve of the gas boiler according to the present invention configured as described above acts as follows.

In the hot water mode, when the user opens the valve to use hot water, when the water flows along the direct water supply pipe 6, the direct water detection supplement water valve 20 is operated.

That is, when the direct water flows along the flow pipe 21 connected to the water supply pipe 6, the rotating member 26 rotates, and the magnetic 25 rotates on the sensor 23 by the rotation of the rotating member 26. Approached.

Then, the detector 23 detects the approach of the magnetic 25 and outputs water flowing directly through the flow pipe 21 to the controller (not shown) of the gas boiler.

Accordingly, the controller changes the rotation direction of the bidirectional pump 4, and the bidirectional pump 4 circulates the hot water of the hot water to the hot water heat exchanger 3 to realize heat exchange between the heating water and the direct water.

On the other hand, when the water in the water tank 2 is lowered due to vaporization or the like, the water is replenished. At this time, the controller outputs electricity to the solenoid 30 of the direct water detection and supplemental water valve 20.

Then, the intermittent member 29 is opened by the action of the solenoid 30, and the direct water flows out through the water supply port 27 to supply water to the water tank 2 along the supplemental water supply pipe 12. Done.

As described above, the flow switch and the supplementary water valve are integrally formed and installed in the direct water supply pipe, thereby reducing the work of connecting the hose or the pipe, thereby improving the workability and reducing the cost caused by the improved workability. There is an advantage that it can.

It is apparent to those skilled in the art that the present invention is not limited to the described embodiments, and that various modifications and changes can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to belong to the claims of the present invention.

Claims (2)

Flow pipe 21 is connected to the water supply pipe (6), A switch housing 24 installed in an opening 22 formed at one side of the flow pipe 21 and having a sensor 23 for detecting a magnetic force; Rotating member 26 is hinged to the lower side of the switch housing 24 and the magnetic member 25 is installed on the surface approaching the detector 23 is rotated by the direct number, Replenishment water housing 28 to receive the direct water from the direct water supply port 27 formed on the side of the flow pipe 21 and outflow; An intermittent member 29 installed in the replenishment water housing 28 to control the flow of direct water; and Directly sensing supplementary water supply valve of the gas boiler, characterized in that the solenoid 30 is installed on one side of the intermittent member (29) to move the intermittent member (29). The water supply port 27 of the refill water housing 28 is formed on the water inflow side of the rotary member 26 so as to be independent of the operation of the rotary member 26 at the time of replenishment water supply. Direct water detection supplement valve of the gas boiler, characterized in that.