KR19980023169A - Method for preventing overheating of heating water of gas boiler and device - Google Patents

Abstract

The present invention detects the presence or absence of heating water in the heat exchanger and performs combustion and pumping of the burner only when there is enough heating water in the heat exchanger, and replenishes water when there is not enough heating water in the heat exchanger. The present invention relates to a method for preventing overheating of heating water of a gas boiler and a device for preventing overheating of heating water in a heat exchanger by performing combustion and pumping of a burner.

The present invention provides another electrode 9c in the heat exchanger 9 to determine whether there is actually enough heating water in the heat exchanger 9;

A first step of determining whether electrical conduction is made between two electrode rods (7a) (7b) installed up and down in the water tank (7); In the first step, when electrical conduction is made between the two electrodes 7a and 7b, electrical conduction is made between any one electrode 7a or 7b in the water tank and another electrode 9c installed in the heat exchanger. Determining whether there is a second step; When electrical conduction is not established between the two electrodes in the first or second step, the combustion operation is stopped and at the same time, the automatic replenishment water valve 12 is opened and a pumping operation is performed to replenish the heating water. The third step; A fourth step of determining whether the automatic refill water valve 12 is open when electrical conduction is made between the two electrode rods in the first and second steps; A fifth step of closing the automatic refill water valve 12 when the automatic refill water valve 12 is opened in the fourth step; And a sixth step of performing normal combustion and pumping operations to prevent overheating of the heating water of the gas boiler.

Description

Method for preventing overheating of heating water of gas boiler and device

The present invention relates to a gas boiler having a heating and hot water supply function, and more particularly, to detect the presence or absence of heating water in the heat exchanger and to detect whether there is enough heating water in the heat exchanger so that the burner burns and pumps. How to prevent the overheating of the heating water of the gas boiler to prevent the overheating of the heating water in the heat exchanger by performing the operation, and if the heating water in the heat exchanger does not have enough heating water to perform the combustion and pumping action of the burner after replenishing water. And to the apparatus.

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

An example of such a conventional gas boiler is shown in FIG. 1.

The conventional gas boiler is a gas inlet pipe (1) to the outside gas is introduced as shown, a gas valve (2) for adjusting the pressure of the gas supplied to the burner installed on the gas inlet pipe (1), The burner 3 which mixes and combusts the gas and the air which flowed in through the gas inlet pipe 1, the flue 4 which discharges the burned exhaust gas, and the burner 3 inhales air, and exhausts the flue at the same time. An exhaust fan 5 for forcibly discharging gas 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), three-way valve (20) for changing the flow of heating water according to the use of heating and hot water, circulation pump (8) for circulating heating water, heat exchanger (9) for heating heating water and hot water, heated heating Heating water supply pipe (10) for supplying water to the heating pipe, water supplement pipe (11) for replenishing the heating water, automatic supplement water valve (12) installed on the water supplement pipe (11), direct water when using hot water heat exchanger (9) consists of a direct water supply pipe 13 to supply the hot water supply pipe 14 for discharging the heated hot water from the heat exchanger 9, and a flow switch 15 for detecting the flow of direct water when using hot water. It is. Between the heating water supply pipe 10 and the three-way valve 20, the bypass pipe 16 is connected to the use of hot water bypasses the heating water.

The three-way valve 20 opens the inlet 20a of the water tank 7 and closes the inlet 20b of the bypass pipe 16 when heating, thereby transferring the heating water from the heat exchanger 9 to the heating pipe of each room. When the hot water is used, the water tank 7 side inlet 20a is closed and the bypass pipe 16 side inlet 20b is opened to serve to circulate the heating water in the boiler.

On the other hand, two electrode rods 7a and 7b are provided in the water tank 7 up and down. This heats the heating water by performing the combustion and pumping action of the burner 3 only when the water in the water tank 7 is above a certain level and electricity is conducted between the two electrodes 7a and 7b. It is to.

Reference numeral 17 is an overflow tube, and 18 is a control unit for controlling the entire boiler.

The gas boiler as described above works as follows.

The heating water returned through the heating return pipe (6) enters the heat exchanger (9) through the water tank (7), the three-way valve (20) and the circulation pump (8) by the circulation pump (8), and the heat exchanger ( Heating water heated in 9) is supplied to the heating pipe of each room through the heating water supply pipe (10).

At this time, the three-way valve 20 blocks the inlet 20b of the bypass pipe 16 and opens the inlet 20a of the water tank 7 so that the heating water flows from the heating water supply pipe 10 to the heating pipe of each room. do.

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.

When the hot water is used, the three-way valve 20 opens the inlet 20b of the bypass pipe 16 and closes the inlet 20a of the water tank 7 so that the heating water flows from the heating water supply pipe 10 to the heating pipe of each room. Instead of flowing, it flows through the bypass tube 16 to the heat exchanger 9 via the three-way valve 20.

As such, when the hot water is used, the heat exchange efficiency with the hot water in the heat exchanger 9 increases because the heating water circulates only inside the boiler instead of flowing into the heating pipe.

In this way, the gas boiler is capable of heating and using hot water. The use of hot water, that is, the 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 by the flow switch as described above. It is made by a three-way valve 20 according to 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 or the like. When the amount of heating water decreases above a certain level, the electric conduction between the two electrodes 7a and 7b in the water tank 7 is reduced. Since the control unit 18 detects the lack of heating water by this, the automatic refill water valve 12 is opened. 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 two electrode electrodes 7a and 7b are turned on again so that the controller 18 determines that there is enough water. After closing the replenishment water valve 12, the combustion of the normal burner 3 and the action of the pump 8 are performed.

As described above, the conventional gas boiler is configured to detect only a shortage of heating water by two electrode rods 7a and 7b installed in the water tank 7. However, even though air is introduced into the heating pipe and there is not enough heating water, the water tank 7 may have a certain level of water, so that the two electrode rods 7a and 7b are conducted. That is, although there is not enough heating water in the heat exchanger 9, there exists a case where sufficient heating water is considered and normal combustion action and the action of the pump 8 may be performed.

In such a case, the heat exchanger 8 is overheated, causing damage, and the pump 8 is damaged due to overheating of the heating water.

However, the conventional gas boiler is not provided with a means for judging whether or not there is actually sufficient water in the heating pipe, in particular the heat exchanger 9, and no method of preventing the heating water overheating on the premise of the existence of this means.

The present invention has been made to solve the above-described problems of the prior art, by detecting the presence or absence of heating water in the heat exchanger to perform the combustion and pumping action of the burner only when there is actually enough heating water in the heat exchanger. If there is not enough heating water in the heat exchanger, the object of the present invention is to provide a method of preventing overheating of the heating water of the gas boiler which allows the burner to perform combustion and pumping operations after replenishing the water.

It is another object of the present invention to detect the presence or absence of heating water in the heat exchanger and to perform combustion and pumping of the burner only when there is actually enough water in the heat exchanger, and when there is not enough water in the heat exchanger. It is to provide a heating water overheating prevention device of a gas boiler to perform combustion and pumping of a burner after replenishing water.

Method for preventing the heating water overheating of the gas boiler of the present invention for achieving the above object comprises a first step of determining whether electrical conduction is made between the two electrode rods installed up and down in the water tank; A second step of determining whether electrical connection is made between any one electrode in the water tank and another electrode installed in the heat exchanger when the electrical connection is made between the two electrodes in the first step; A third step of replenishing the heating water by stopping the combustion operation and opening the automatic replenishment water valve and operating the pump when electrical conduction is not established between the two electrodes in the first or second step; A fourth step of determining whether the automatic refill water valve is open when electrical conduction is made between the two electrode rods in the first and second steps; A fifth step of closing the automatic refill water valve when the automatic refill water valve is open in the fourth step; And a sixth step of performing normal combustion and pumping operations.

The heating water overheating prevention device of the gas boiler of the present invention for achieving the above another object is to perform the heating of the heating water in the heat exchanger, the circulation pump is installed on the heating pipe to circulate the heating water, the heating In the gas boiler where two electrodes are installed up and down in the water tank to determine whether there is a lack of heating water in the pipe, another electrode is installed in the heat exchanger to determine whether the heating water is actually sufficient in the heat exchanger. It is characterized in that normal combustion and pumping operations are performed only when electrical conduction is made between any one electrode in the water tank and the electrode in the heat exchanger.

1 is a schematic configuration diagram of a conventional gas boiler;

2 is a schematic configuration diagram of a gas boiler configured with a heating water overheating prevention device according to the present invention;

3 is a flowchart for carrying out the heating water overheat prevention method of the gas boiler of 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, 7b: electrode

8: circulation pump 9: heat exchanger

9c: electrode 10: heating water supply pipe

11: Water refill tube 12: Automatic refill water valve

13: direct water supply pipe 14: hot water supply pipe

15: flow switch 16: bypass tube

17: Overflow Hall 18: control unit

20: three-way valve 20a, 20b: inlet

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 heating water overheat prevention device according to the present invention, and FIG. 3 is a flowchart for implementing a heating water overheat prevention method of a gas boiler according to the present invention.

As shown, the gas boiler according to the present invention is provided with another electrode 9c in the heat exchanger 9. The heating water overheating prevention device of the present invention is provided with another electrode (9c) installed in the heat exchanger (9) and any one electrode (7) in the water tank (7) in order to determine whether the heating water is actually sufficient in the heat exchanger (9). Only when electrical conduction is made between 7a or 7b) will normal combustion and pumping be carried out.

The electrode 9c in the heat exchanger 9 may be in electrical communication with either electrode 7a or 7b in the water tank 7. The water tank 7 may be used to determine whether the heating water is insufficient. ) And when the heating water is filled in the heat exchanger 9, electrical conduction is made between another electrode 9c in the heat exchanger 9 and the electrode 7a provided in the upper portion of the water tank 7.

The heating water overheating prevention method of the gas boiler of the present invention is performed as follows.

First, the control unit 18 determines whether or not electrical conduction is made between two electrode rods 7a and 7b disposed up and down in the water tank 7 (first step, S1).

If water is filled in the water tank 7 above a certain level, electrical conduction is made between the two electrode rods 7a, 7b installed up and down. Therefore, sufficient heating water is contained in the water tank 7 according to the electrical conduction. It can be determined whether there is.

Next, in the first step, when electrical conduction is made between the two electrodes 7a and 7b, the electrode 7a installed on the upper portion of the water tank 7 and another electrode 9c installed in the heat exchanger 9 are provided. It is determined whether the electrical conduction is made between the (step 2, S2).

Even if there is enough water in the water tank (7), there may be a case where there is no heating water in the heat exchanger (9) due to excessive air flow into the heating pipe, so in the present invention, in the present invention, the heat exchanger (9) Check that the water is actually enough.

When sufficient water is contained in the heat exchanger 9, electrical conduction occurs between the electrode 7a in the water tank 7 and the electrode 9c in the heat exchanger 9. It is possible to judge whether there is enough heating water in the

The electrode 9c in the heat exchanger 9 may be in contact with any of the electrodes 7a or 7b in the water tank 7, and the electrode 7a provided above the electrode 9c and the water tank 7 is provided. It is desirable to allow the conduction between the two to be more complete and to determine whether the heating water is insufficient.

In the first or second stage, when no electrical conduction occurs between the two electrodes, the combustion operation is stopped and at the same time, the automatic replenishment valve 12 is opened and the pump is operated to provide heating water in the heat exchanger. Replenish (Step 3, S3).

In the first step, no electrical conduction occurs between the two electrodes 7a and 7b in the water tank 7 or the electrode 7c in the water tank 7 and the electrode 9c in the heat exchanger 9. When no electrical conduction is made between, it means that the heating water is insufficient, respectively, so that the automatic replenishment water valve 12 is opened and the circulation pump 8 is operated. This process stops combustion.

Opening the automatic replenishment water valve 12 and operating the circulation pump 8 circulates while supplementing the heating water. Therefore, if there is air in the heat exchanger and heating pipes, the air is discharged and the appropriate amount of heating water is replenished.

In the first step and the second step, it is determined whether the automatic refill water valve 12 is opened when electrical conduction is made between the two electrode rods (step 4, S4).

Since the automatic refill valve 12 opens and closes under the control of the controller 18, whether the automatic refill water valve 12 is opened or closed can be easily determined by the controller 18.

When the automatic refill water valve is open in the fourth step, the automatic refill water valve is closed (step S5).

When the water level in the water tank 7 is low or the water is not filled in the heat exchanger 9, the automatic refill water valve 12 is opened in the third step to replenish the heating water. The valve 12 is controlled and closed.

Then, normal combustion and pumping are performed (sixth step S6).

After passing through the first to fifth steps, the heat exchanger 9 is actually in a state in which the heating water is sufficiently filled, so that the combustion operation of the burner 3 and the operation of the circulation pump 8 are normally performed to normalize the boiler. To work.

According to the method and apparatus for preventing overheating of the heating water of the present invention as described above, only the heating water in the heat exchanger 9 performs the combustion and normal operation of the normal burner 3 and thus the heating water. By preventing overheating of the heat exchanger 9 and the circulation pump 8 due to the shortage, it is possible to prevent the damage of these components and also to perform a smooth heating action and hot water supply.

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 (2)

A first step of determining whether electrical conduction is made between two electrode rods (7a) (7b) installed up and down in the water tank (7); In the first step, when electrical conduction is made between the two electrodes 7a and 7b, electrical conduction is made between any one electrode 7a or 7b in the water tank and another electrode 9c installed in the heat exchanger. Determining whether there is a second step; When electrical conduction is not established between the two electrodes in the first or second step, the combustion operation is stopped and at the same time, the automatic replenishment water valve 12 is opened and the circulation pump 8 is operated to turn on the heating water. A third step of replenishing; A fourth step of determining whether the automatic refill water valve 12 is open when electrical conduction is made between the two electrode rods in the first and second steps; A fifth step of closing the automatic refill water valve 12 when the automatic refill water valve 12 is opened in the fourth step; And Sixth step of normal combustion and pumping Method for preventing overheating of the heating water of the gas boiler comprising a. The heating water is heated in the heat exchanger (9), and a circulation pump (8) is installed on the heating pipe to circulate the heating water, and to determine whether there is a lack of heating water in the heating pipe. In the gas boiler in which two electrode rods 7a and 7b are provided in the tank 7 up and down, In order to determine whether there is actually enough heating water in the heat exchanger 9, another electrode 9c is installed in the heat exchanger 9 so that the electrode 7a or 7b in the water tank 7 and the heat exchanger in the heat exchanger 9 are installed. An apparatus for preventing overheating of heating water of a gas boiler, characterized in that normal combustion and pumping operations are performed only when electrical conduction is made between electrodes 9c.