KR100286138B1 - Control method to prevent malfunction when switching from hot water of gas boiler to heating - Google Patents

Abstract

According to the present invention, even when the water flow switch is turned off within a predetermined time due to an external factor on the pipe during the heating operation or the hot water operation standby state, the operating time of the heating operation system is delayed and the hot water is turned off by the momentary off operation of the water flow switch. The present invention relates to a method for preventing malfunctions when switching to hot water so that the operation is prevented for several seconds.

There is still a problem of malfunction due to a quick and agile response to a malfunction occurring when switching to heating. That is, when switching from the hot water side to the heating side, a water hammer occurs due to the operation of a float switch composed of a reed switch, and a malfunction occurs due to a sudden change in on / off due to the change of the conventional three-way valve. Delay time was given to not recognize the problem, but he also had a problem that the operation was delayed by the time to recognize the water hammer phenomenon.

Therefore, the control method for preventing malfunction when switching from hot water to heating of the gas boiler of the present invention, after the operation switch is turned on, when the hot water tap is turned off, the water flow switch is turned off and accordingly the output according to the time is determined by the ratio of the output area per unit time When the predetermined output area is smaller than the total output area, the three sides are transferred to the heating side. If the predetermined output area is larger than the total output area, the output is continuously detected, and an answer signal is generated to check the switching of the three sides. If the response is not confirmed, the process is performed in error mode, and if it is confirmed, the hot water operation is performed.

Description

Control method to prevent malfunction when switching from hot water of gas boiler to heating

The present invention relates to a control method for preventing malfunction when switching from hot water to heating in a hot water combined gas boiler, and in particular, when the water flow switch is turned on within a predetermined time due to an external factor during piping standby and hot water operation. The present invention relates to a method for preventing a malfunction during a changeover of a heating furnace to delay the operation time of the hot water operation system even if the water is turned off and then to prevent the hot water operation for a few seconds due to the instantaneous on operation of the water flow switch. .

In the related art, most of the taps for mixing hot water and cold water are configured in the form of a handle, so that some time is required to open and close the faucet to use hot or cold water, so that no water flow back occurs.

However, in recent years, due to the high quality of sanitary equipment, a cold-hot water mixing valve with a single lever has been developed, and the use time has increased so that the time for opening / closing water has been greatly shortened.

Therefore, a water flow switch that detects the use of hot water is generated when water hammering occurs in the waste water or when the water flows backward due to the condition of the cold water (direct water) pipe (for example, when the internal snow pipe is filled with air). It turns off for a short time. At this time, when the boiler is in hot water operation or waiting for heating operation, the heating system is temporarily turned on and shut off, which not only wastes unnecessary gas but also generates a closed end that unwanted heating is momentarily activated. It became.

In order to prevent such closing, when the water flow switch is turned off, the water flow switch on / off duration judging unit in the microcomputer determines whether the water flow switch off time lasts a predetermined time. When off, it was provided to achieve by maintaining hot water operation or heating operation standby state.

1 is a timing diagram showing a time for determining a heating mode according to a conventional method. However, this method still has a problem of malfunction due to a quick and agile response to the malfunction (Chattering) generated when switching to heating. That is, when the water switch is switched from the hot water side to the heating side, water hammer occurs due to the operation of the float switch composed of the reed switch, and a malfunction occurs due to the sudden change of the on-off due to the change of the conventional three-way valve (FIG. 1B). In response to this, a delay time was given in order not to recognize the water hammer (FIG. 1c), but there was also a problem in that the operation was delayed by the time for recognizing the water hammer.

In addition, the microcomputer instructed to switch the three sides to the heating side, but there is a problem that the heating system is unstable because the normal completion of the operation can not be confirmed.

The present invention was devised to solve the problems of the prior art operating as described above, and an object of the present invention is to analyze the output according to the time when switching from hot water to heating and to determine the ratio of the output area per unit time accordingly It is to prevent malfunctions in advance and to quickly determine the use of heating and hot water.

In addition, another object of the present invention is to determine whether the trilateral changeover indicated by the microcomputer is performed using the answer signal mounted inside the gas boiler.

1 is a timing diagram showing a determination process of hot water and heating according to the output of a conventional flow switch,

2 is a flow chart showing a process for controlling to prevent malfunctions when switching hot water in the heating according to the present invention,

3 is a timing diagram showing a determination process of hot water and heating according to the output of the flow switch of the present invention;

4 is a timing diagram showing the speed of judgment by comparing the output graph of the present invention with the conventional output graph.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will be more apparent from the following detailed description based on the accompanying drawings in order to achieve the above object.

The control method of the present invention will be described with reference to the accompanying drawings. When the operation switch is turned on by the user's operation (S1), and the hot water tap is turned off after use (S2), the water flow switch mounted on the water pipe is turned off (S3). Accordingly, the output according to time is determined as the ratio of the output area per unit time. The equation for the total output area is expressed by Equation 1 below.

Where t represents time and V (t) represents the output voltage of the flow switch with respect to the water flow. That is, it represents the value obtained by integrating the area of the graph showing the output over time. The predetermined output area of the present invention is as shown in Equation 2 below.

Here, a is a determination level coefficient calculated as a constant constant as a criterion for judging the use of hot water when the three sides are transferred from the heating side to the hot water side.

If the predetermined output area is smaller than the total output area, the three sides are transferred to the hot water side (S5), and if the predetermined designated output area is larger than the total output area, the output is continuously detected (S6). In order to check the switching of the three-way, an answer signal is generated from the microcomputer inside the gas boiler (S6). If the response is not confirmed, the process is performed in the error mode (S7) and if it is confirmed, the heating operation is performed (S8).

3 shows the resulting timing diagram for it. When the flow switch composed of the reed switch is turned off, water hammer occurs and when the output is integrated, a continuous decrease occurs as shown in FIG. 3B, and the total level is already determined by a predetermined constant level coefficient. By hot water or heating is determined.

In the above judged method, FIG. 4 is a view comparing the conventional method and the method of the present invention with the passage of time.

It can be easily seen that the conventional determination time is late, based on the three-way driving time operated by the predetermined determination level coefficient according to the integrated output area in FIG. 4B.

In addition, in the embodiment of the present invention, in order to confirm the operation of the three-way operation performed by the determination, an answer signal is sent using a microcomputer built in the gas boiler. Due to such a signal, more reliable hot water tapping can be performed by reconfirming the operation of the three-way toilet.

The present invention can be variously modified and can take various forms and only the specific embodiments thereof are described in the detailed description of the invention. However, it is to be understood that the present invention is not limited to the particular forms mentioned in the detailed description of the invention.

According to the present invention configured and operated as described above, it is possible to prevent errors due to malfunction by accurate and rapid judgment on conventional heating, and to increase the reliability of the heating operation by confirming the switching of the three-sided directions already indicated by the microcomputer. Got it.

Claims (3)

In the gas boiler which combines the hot water function and the heating function, when the hot water tap is turned off after the operation switch is turned on, the water flow switch is turned off, and accordingly, the output according to time is determined as the ratio of the output area per unit time, so that the predetermined output area is totally output. If it is smaller than the area, the three-sided side is transferred to the hot water side, and if the predetermined output area is larger than the total output area, the output is continuously detected.The three-sided side generates an answer signal to confirm the transfer, and if the response is not confirmed, the error mode is processed. And a control method for preventing malfunction when switching from hot water to heating of a gas boiler, characterized in that the heating operation is performed when the response is confirmed. The method of claim 1, wherein the total output area is And a predetermined output area is calculated as a · │ΔV × Δt│. Here, a denotes a determination level coefficient, t denotes time, V (t) denotes an output voltage of a flow switch for water flow, and ΔV denotes an output. The control method of claim 1, wherein the answer signal for confirming the trilateral changeover is controlled by a microcomputer in the gas boiler.