KR0157001B1 - Method of preventing biling noise of heat exchanger of a gas boiler - Google Patents

Abstract

The present invention relates to a method for removing boiling noise generated in a heat exchanger of a gas boiler, and more particularly, a flow rate between a heating supply pipe, which is a passage through which heating water flows out of a heat exchanger, and a heating return pipe in which the heating water returns. The present invention relates to a method of preventing a boiling sound of a heat exchanger by directly controlling the flow rate so that a larger quantity flows into the heat exchanger.

In the gas boiler including the gas valve, the feed water temperature sensor, the return temperature sensor, and the microcomputer, the method for preventing the boiling of the heat exchanger of the gas boiler according to the present invention is characterized in that the increased gas output increase for a predetermined time is greater than or equal to the set value. Sensing a first step; A second step of detecting whether a difference between a temperature T _S of the heating supply water and a heating return temperature T _R is equal to or greater than a predetermined level; A third step of detecting whether a temperature of the heating supply water T _S is greater than or equal to a predetermined value; And a fourth step of adjusting the flow rate between the heating return pipe and the suction pipe according to the control signal generated in the step.

Description

How to prevent boiling noise of heat exchanger of gas boiler

1 is a schematic configuration diagram of a gas boiler conventionally used.

2 is a schematic configuration diagram of a gas boiler provided with a flow control valve used in the present invention.

3 is a partial block circuit diagram of a gas boiler used in the present invention.

4 is a flowchart for explaining the method of the present invention.

* Explanation of symbols for main parts of the drawings

1: gas valve 2: burner

3: heat exchanger 4: heating return pipe

5: water tank 6: discharge pipe

7: suction pipe 8: heating supply pipe

9: circulation pump 10: direct water supply pipe

11: hot water supply pipe 12: flow valve

13: three-way 14: exhaust hood

15: exhaust fan 19: pipe

20: flow control valve 21: microcomputer

22: heating water temperature sensor 23: water return temperature sensor

The present invention relates to a method for removing boiling noise generated in a heat exchanger of a gas boiler, and more particularly, a flow rate between a heating supply pipe, which is a passage through which heating water flows out of a heat exchanger, and a heating return pipe in which the heating water returns. It relates to a method that can prevent the boiling sound of the heat exchanger by directly controlling the.

Gas boilers use clean fuel gas to prevent environmental pollution and are increasingly being used due to their convenience in operation.

1 shows a schematic configuration of a conventionally used gas boiler, and an operation state thereof will be described with reference to this. The gas whose gas supply amount is controlled by the gas valve 1 is supplied to the burner 2 through the gas supply pipe 1-1. The gas supplied to the burner 2 is combusted after being ignited by the spark discharged from the spark igniter operated by the control signal output from the main controller M. The hot heat generated by the combustion heats the heat exchanger 3 located on the upper side.

The gas valve 1 is determined by the main controller (M) according to the temperature set by the user, and the gas valve 1 is opened by applying a predetermined current value to the gas valve 1 to generate the determined gas pressure. do. Thereafter, the main controller M outputs a control signal to the exhaust fan 15 to rotate the exhaust fan 15 at a predetermined rotation speed in order to supply the air volume suitable for the gas pressure.

The heating water is configured to return to the water tank 5 through the heating return pipe 4 connected to the heating pipe of each room, and is temporarily stored in the water tank 5. The heating water stored in the water tank 5 is sucked back into the heat exchanger 3 through the discharge pipe 6 and the suction pipe 7. The heating water is heated to the set temperature in the heat exchanger 3 and then supplied to the heating pipe of each room through the heating supply pipe 8. The heating water circulates forcibly in the pipe by the circulation pump 9.

On the other hand, during hot water supply, the direct water (cold water) flows into the heat exchanger 3 through the direct water supply pipe 10 and is heated by heat exchange with the heating water in the heat exchanger 3, and then, through the hot water supply pipe 11. Supplied to the user. Reference numeral 12 denotes a flow valve that detects the inflow of direct water and informs the main control unit (M), 13 is a triangular valve used to switch the heating water movement path when heating or hot water is used, and 14 is a discharge of burned gas to the outside. Exhaust hood is used to.

In a conventional gas boiler having the above-described configuration, boiling sounds are sometimes generated in a heat exchanger. First of all, when the output of the boiler increases sharply, the heating water boils due to the rapid rise in temperature. Secondly, if the total length of the pipe is too long and the difference between the temperature of the feed water and the temperature of the return water is severe (e.g. 25 ° C or more), boiling heat or noise is generated in the heat exchanger. Third, when the flow rate circulating inside the boiler pipe is small, boiling noise is also generated by rapid temperature rise and bubbles contained therein. Fourthly, when the temperature of the heating supply water is equal to or higher than the predetermined temperature, there is a problem that boiling sound, noise, etc. are generated in the heat exchanger 3.

The present invention has been made to solve the above problems, an object of the present invention is to provide a method for preventing the heat exchanger boiling noise of the gas boiler to prevent this when the boiling sound or noise occurs in the heat exchanger of the gas boiler. It is.

Another object of the present invention is to provide a heat exchanger boiling noise prevention method of a gas boiler which can remove the boiling sound of the heat exchanger by directly controlling the flow rate between the heating return pipe and the heating supply pipe.

Heat exchanger boiling noise prevention method of the gas boiler of the present invention for achieving the above object, in the gas boiler comprising a gas valve, supply water temperature sensor, return water temperature sensor, and a microcomputer, the increased gas output for a predetermined time Detecting whether the increase is greater than or equal to a set value; A second step of detecting whether a difference between a temperature T _S of the heating supply water and a heating return temperature T _R is equal to or greater than a predetermined level; A third step of detecting whether a temperature of the heating supply water T _S is greater than or equal to a predetermined value; And a fourth step of adjusting a flow rate between the heating return pipe and the heating supply pipe according to the control signal generated in the step.

Hereinafter, a method of preventing boiling noise of a heat exchanger of a gas boiler according to the present invention will be described in detail with reference to the accompanying drawings.

First, the principle of the present invention will be described. Boiling sound or noise is generated in the heat exchanger of the gas boiler as in the above case. The main reason for this is due to the rapid temperature rise of the heating water, especially the heating water supply, due to the sudden increase in power output. The present invention solves the above-mentioned causes and prevents boiling noise in the heat exchanger, and is achieved by increasing the flow rate through the heat exchanger.

There are various means that can be used to increase the flow rate, and in the present invention, a part of the heating water introduced through the heating supply pipe is re-introduced into the heating return pipe. For this purpose, in the present invention, the heating return pipe and the heating supply pipe are connected by separate pipes, and a flow control valve is installed in the middle of the pipes.

2 is an embodiment of the flow control means as described above, the heating return pipe (4) and the heating supply pipe (8) by connecting a separate pipe 19, in the middle of the flow rate that can be turned on / off from the microcomputer The control valve 20 is installed. The flow control valve 20 may use a conventional on / off valve. In addition, the pipe 19 uses a pipe having a diameter smaller than that of the heating return pipe 4 or the heating supply pipe 8 so as not to affect the flow rate of the heating water too much, and 1/3 to 1/4 of the diameter of the heating return pipe It is desirable to have a diameter of the degree. In the present invention, for example, a pipe having a diameter of Φ 4.7 may be used based on a heating pipe installed at home.

The method of the present invention carried out using the gas boiler configured as described above comprises the following steps: a first step of detecting whether the increased gas output increase for a predetermined time is above a set value; A second step of detecting whether a difference between a temperature T _S of the heating supply water and a heating return temperature T _R is equal to or greater than a predetermined level; A third step of detecting whether a temperature of the heating supply water T _S is greater than or equal to a predetermined value; And a fourth step of adjusting a flow rate between the heating return pipe and the suction pipe according to the control signal generated in the step.

The method of the present invention as described above will be described in detail using the block diagram of FIG. 3 and the flowchart of FIG.

When the gas boiler starts to operate, the control microcomputer 21 first detects the output change value of the gas valve 1. In general, if the gas supply amount is changed rapidly, the amount of gas supplied to the burner 2 is rapidly increased and the temperature of the heating water is rapidly increased, which is one factor of the occurrence of boiling sound. At this time, the change value of the gas supply amount is measured in advance by the experiment the degree of boiling sound according to the change amount, and stored in the memory of the microcomputer 21 or a separate memory.

If the change value of the gas supply amount is greater than or equal to the set value stored in the memory, the microcomputer 21 detects this signal and outputs a control signal to prevent boiling. The control signal is output to the flow control valve 20, the flow control valve 20 is opened. Then, a part of the heating water introduced through the heating supply pipe 8 flows into the heating return pipe 4. Accordingly, the total amount of the heating water flowing into the heat exchanger 3 is increased, and the boiling sound is removed.

In the second step, the temperature (T _R ) of the heating return water and the temperature (T _S ) of the heating supply water are respectively measured by using the temperature sensors 22 and 23, and the difference (T _S -T _R ) is greater than or equal to a predetermined level. Detect authorization. For example, when the temperature difference is 25 ° C. or more, it is determined that boiling sounds are generated and the flow control valve 20 is also controlled. That is, if the change in temperature is higher than the level stored in the memory, the microcomputer 21 detects this signal and outputs a control signal to prevent boiling.

The control signal is output to the flow control valve 20, the flow control valve 20 is opened. Then, a part of the heating water introduced through the heating supply pipe 8 flows into the heating return pipe 4. Accordingly, the total amount of the heating water flowing into the heat exchanger 3 is increased, and the boiling sound is removed.

In the third step, if the temperature T _S of the feed water is equal to or greater than a predetermined value, for example, when the temperature reaches a temperature that is overheated to 70 ° C. or more, the microcomputer 21 detects this and the flow control valve 20 The control signal is output to. That is, when the temperature of the heating supply water T _S measured by the supply water temperature sensor 22 is greater than or equal to the predetermined value T _O stored in the memory, the microcomputer 21 detects this signal and controls to prevent boiling. Output the signal.

The control signal is output to the flow control valve 20, the flow control valve 20 is opened. Then, a part of the heating water introduced through the heating supply pipe 8 flows into the heating return pipe 4. Accordingly, the total amount of the heating water flowing into the heat exchanger 3 is increased, and the boiling sound is removed.

Each of the above steps may be performed in the order as described or by changing the order. That is, each step may be divided as a separate measuring step or may be separated as a completely separate method.

However, since the ultimate goal of each stage is a factor of the boiling sound or noise of the heat exchanger, when an abnormality is detected in at least two or more stages by the data sensed in each stage, for example, the amount of gas in one stage Is suddenly outputted to be above a set value, and at the same time, when the value of (T _S -T _R ) becomes a predetermined level or more, the microcomputer 21 detects this and performs the fourth step, which is a flow control step. It will be apparent to those skilled in the art that the present invention may be made without departing from the scope of the present invention.

As described above, according to the method of the present invention, when boiling sounds are generated in the heat exchanger of the gas boiler, the boiling noise of the heat exchanger can be removed by controlling the flow rate between the heating return pipe and the suction pipe.

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 modifications and variations can be made within the spirit and scope of the invention, and such variations or modifications will belong to the appended claims. .

Claims (3)

Gas valve 1 for controlling the amount of gas supplied to the burner 2, supply water temperature sensor 22 for measuring the temperature (T _S ) of the heating supply water discharged from the heat exchanger (3), which is introduced into the water tank In a gas boiler comprising a return temperature sensor 23 for measuring the temperature T _R of the heating return, and a control microcomputer 21, the output value of the gas valve 1 is read and the increased gas for a predetermined time. A first step of detecting, by the microcomputer 21, whether the output increment is greater than or equal to a set value; The microcomputer 21 detects whether the difference between the temperature T _S of the heating supply water supplied through the heating supply pipe 8 and the heating return temperature T _R flowing through the heating return pipe 4 is greater than or equal to a predetermined level. Second step; A third step of detecting whether a temperature of the heating supply water T _S discharged from the heat exchanger 3 is greater than or equal to a predetermined value T _O ; And a fourth step of adjusting a flow rate between the heating return pipe (4) and the heating supply pipe (8) according to the control signal generated in the step. The pipe according to claim 1, wherein the means for adjusting the flow between the heating return pipe (4) and the heating supply pipe (8) in the fourth step is connected between the heating return pipe (4) and the heating supply pipe (8). 19) and a flow control valve (20) installed in the middle of the pipe (19) and operated according to an on / off control signal from a microcomputer (21). 3. The heat exchanger of claim 2, wherein the diameter of the pipe 19 is 1/3 to 1/4 of the diameter of the heating return pipe 4 or the heating supply pipe 8, or 4.7 mm in diameter. How to prevent boiling.