KR20200043681A - Boiler and water supplement method thereof - Google Patents

Abstract

Provided in the present invention are a boiler and a water replenishing method of a boiler. To this end, the boiler comprises: a boiler case; a pipe which is disposed in the boiler case, and communicates with a heating flow path which is disposed on the outside of the boiler case to provide heating; a circulation pump which is disposed to circulate water in the pipe; a water pressure detecting unit which is connected to the pipe at the downstream of the circulation pipe in order to detect the water pressure in the pipe; a water replenishing valve which is installed at a replenishing water introduction pipe connected to the pipe, and is opened to replenish water into the pipe; and a control unit which controls the operation of the water replenishing valve based on the water pressure in the pipe detected by the water pressure detecting unit. Here, when a condition for opening the water replenishing valve because water needs to be replenished to the pipe is considered as a valve opening condition, and when a condition for closing the water replenishing valve because water does not need to be replenished to the pipe is considered as a valve closing condition, the control unit, after the water replenishing valve is closed for the first time because the valve closing condition is satisfied after the water replenishing valve is opened because the valve opening condition is satisfied, controls to open the water replenishing valve until the valve closing condition is satisfied again, when the valve closing condition is not satisfied during a predetermined water replenishing time. In addition, the control unit controls to open the water replenishing valve until the valve closing condition is satisfied after the valve opening condition is satisfied without the valve closing condition being satisfied after the water replenishing time has passed. Therefore, time required for removing air remaining in the pipe can be shortened.

Description

BOILER AND WATER SUPPLEMENT METHOD THEREOF}

The present invention relates to a boiler and a method for replenishing water in a boiler, and more particularly, to a boiler and a method for replenishing water in a boiler that is safely operated by sufficiently replenishing water in a pipe.

In general, water is accommodated in a water pipe in a boiler product, and water replenishment is performed when the boiler is initially installed or when there is no water or insufficient to operate the boiler during boiler use.

In the case of a closed boiler using an air-tight expansion tank, a device for detecting a water shortage condition and a pressure gauge to display the water shortage condition are provided, and the user recognizes the water shortage condition through the pressure gauge and automatically or manually adds water. Is performed. A water pressure switch or a heating water flow detection switch may be used as a device for detecting a water shortage condition in the pipe.

In general, the hydraulic switch is mounted on the upstream side of the circulation pump inside the product. Therefore, the conventional water replenishment method is often used in boilers in which the water pressure switch is mounted on the upstream side of the circulation pump.

However, when the water pressure switch is mounted on the downstream side of the circulation pump for reasons such as lack of design space, if the conventional water filling method is used, air may not be discharged smoothly to the heating pipe and normal water filling may not be performed. In addition, when the water replenishment valve is opened to replenish water and the water pressure increases to a certain extent, the circulation pump starts. At this time, the water pressure detection unit is located downstream of the circulation pump, which may cause a problem that is recognized as higher than the actual water pressure by the pump operation. have. Accordingly, even when the second water pressure has not been reached, it may be detected as the second water pressure or higher, and in this case, the water filling operation may be completed without sufficient water in the actual pipe. At this time, when the boiler is operated, problems such as overheating may occur.

The present invention has been devised to solve the above-mentioned problems, so that even when the water pressure sensing unit is mounted on the downstream side of the circulation pump, the piping is replenished with water enough to safely operate the boiler, causing overheating or circulation abnormality. It is an object of the present invention to provide a boiler and a water replenishing method for blocking the gas.

In addition, it is an object of the present invention to provide a boiler and a method for replenishing water in a boiler in which the time for removing residual air in the pipe is shortened.

In order to achieve the above object, the boiler according to the present invention is provided in the boiler case, the inside of the boiler case, the outside of the boiler case, the pipe communicating with the heating flow path for providing heating, and the inside of the pipe The circulation pump is provided to circulate the water, and is connected to the piping on the downstream side of the circulation pump, a water pressure sensing unit for sensing the water pressure inside the piping, and is installed in a supplemental water inlet pipe connected to the piping , A water replenishment valve that is opened to replenish water into the piping, and a control unit that controls the operation of the water replenishment valve based on the water pressure inside the piping sensed by the water pressure sensing unit, wherein the control unit comprises: The condition for opening the water replenishment valve because water replenishment is required for the piping is called a valve opening condition, and the water replenishment for the piping is When the condition for closing the water filling valve is unnecessary, the valve closing condition is satisfied, the valve opening condition is satisfied, and after the water filling valve is opened, the valve closing condition is satisfied and the water filling valve is first After closing, if the valve closing condition is not satisfied for a predetermined water filling time, control is performed to open the water filling valve again until the valve closing condition is satisfied, and after the water filling time has elapsed, When the valve closing condition is not satisfied and the valve opening condition is satisfied, control is performed to open the water filling valve until the valve closing condition is satisfied.

On the other hand, the water replenishment method of the boiler according to the present invention includes a water pressure detection step of detecting whether the water pressure inside the pipe provided inside the boiler case is the degree to which water replenishment is required, and the water pressure detection step When it is sensed that the water pressure inside is required to replenish the water, the water replenishment valve opening step of replenishing the water into the piping by opening the water replenishment valve connected to the pipe, and after opening the water replenishment valve, When it is detected that the water pressure is unnecessary, the water filling valve closing step of closing the water filling valve includes a step in which the water pressure detecting unit is connected to the downstream side of the circulation pump provided to circulate the water inside the pipe, The condition for opening the water replenishment valve because water replenishment is required for the piping is called a valve opening condition, and the water replenishment for the piping When the condition for closing the water filling valve is unnecessary, the valve closing condition is satisfied, and after the valve opening condition is satisfied to open the water filling valve, the valve closing condition is satisfied and the water filling valve is first opened. After closing, if the valve closing condition is not satisfied for a predetermined water filling time, the water filling valve is opened again until the valve closing condition is satisfied, and after the water filling time has elapsed, the valve closing condition If this is not satisfied and the valve opening condition is satisfied, the water filling valve is opened until the valve closing condition is satisfied.

On the other hand, the boiler according to the present invention is provided in the boiler case, the inside of the boiler case, the pipe provided outside the boiler case to communicate with the heating flow path for providing heating, and the hydraulic pressure to detect the water pressure inside the pipe A water supply valve installed in the supplementary water inlet pipe connected to the detection unit, the pipe, and opened to replenish water into the pipe, and the water based on the water pressure inside the pipe detected by the water pressure detection unit It includes a control unit for controlling the operation of the replenishment valve, the control unit, the condition for opening the water replenishment valve because the water replenishment is necessary for the piping is called a valve opening condition, and water replenishment for the piping is unnecessary. When the condition for closing the water filling valve is called a valve closing condition, the valve opening condition is satisfied and the water filling valve is closed. After releasing, if the valve closing condition is satisfied and the water filling valve is closed, if the valve closing condition is not satisfied, the control for opening the water filling valve until the valve closing condition is satisfied is preset. It is carried out during the water replenishment time.

According to the present invention, even when the water pressure sensing unit is mounted on the downstream side of the circulation pump, it is possible to replenish enough water to the pipe to safely operate the boiler, so that overheating or occurrence of circulation abnormality can be prevented. In addition, since sufficient water is replenished to the piping, the time to remove residual air in the piping may be shortened.

1 is a view showing the configuration of a boiler according to an embodiment of the present invention.
Figure 2 is a time chart showing the change in the state of the water pressure detection unit and the water replenishment valve and the circulation pump over time.

Hereinafter, preferred embodiments of the present invention will be described in detail according to the accompanying drawings.

First, the embodiments described below are examples suitable for understanding the technical features of the present inventors boiler and the water filling method of the boiler. However, the technical features of the present invention are not limited by the embodiments in which the present invention is applied or described only in the embodiments described below, and various modifications can be implemented within the technical scope of the present invention.

Referring to Figure 1, the boiler 100 according to an embodiment of the present invention, the boiler case 101, the pipe, the circulation pump 120, the water pressure detection unit 170, and the water replenishment valve 190 ) And a control unit. In addition, the boiler 100 according to the present invention may further include a heat exchanger 110 and a three-way valve 130.

The piping is provided inside the boiler case 101, but is provided outside the boiler case 101 and communicates with a heating channel for providing heating.

The circulation pump 120 may be provided to circulate water inside the pipe. Specifically, the heat exchanger 110 may exchange heat with combustion heat of the burner, and the circulation pump 120 may supply heating water heated in the heat exchanger 110 to a heating requirement. When the circulation pump 120 is operated, residual air in the pipe may be removed.

In addition, the boiler 100 according to the present invention may further include a hot water heat exchanger 140 and a three-way valve 130. The hot water heat exchanger 140 can supply hot water by heat exchange between the heating water heated in the heat exchanger 110 and direct water, and the three-way valve 130 heats the heating water supplied from the heat exchanger 110. And one of the hot water heat exchangers 140 may operate to supply alternatively.

In addition, the present invention may further include an expansion tank 150. The expansion tank 150 is provided inside the boiler case 101 but is provided to be blocked from the atmosphere, connected to the pipe, and heating water may be stored therein. Specifically, the expansion tank 150 applied to the present invention may be a sealed expansion tank 150 that is blocked from contact with the atmosphere, and when the temperature of the heating water is increased, it can absorb the volume of the expanded heating water.

Here, as the piping connecting the above-described components, the heat exchanger 110 and the heating supply pipe 181 connecting the heating passage connected to the heating element, and the heating water passing through the heating element to be returned to the heat exchanger 110 It may include a heating return pipe (182). Here, the expansion tank 150 may be installed on the heating supply pipe 181, but is not limited thereto. In addition, the hot water heat exchanger 140 may include a direct water inlet pipe 183 through which direct water flows, and a hot water outlet pipe 184 through which the heated hot water is discharged while passing through the hot water heat exchanger 140. Here, a supplemental water inlet pipe 185 may be connected between the direct water inlet pipe 183 and the heating return pipe 182. Then, the hot water heat exchanger inlet pipe 186 connecting between the three-way valve 130 and the inlet of the hot water heat exchanger 140, and the hot water heat exchanger connecting the outlet of the hot water heat exchanger 140 and the heating return pipe 182. Old tube 187 may be provided.

The water pressure detecting unit 170 is connected to the pipe at the downstream side of the circulation pump 120 to detect the water pressure inside the pipe. Here, the water pressure sensing unit 170 is not limited in type as long as it can sense the water pressure inside the pipe, and a water pressure switch or a water pressure sensor may be applied.

The water replenishment valve 190 is installed in the replenishment water inlet pipe 185 connected to the piping, and may be opened to replenish water into the piping. As described above, since the supplemental water inlet pipe 185 is connected between the direct water inlet pipe 183 and the heating return pipe 182, when the water replenishment valve 190 is opened, the direct water flowing in from the outside is the heating return pipe 182. ), And water may be replenished into the above-described pipes.

Meanwhile, the control unit may control the operation of the water filling valve 190 based on the water pressure inside the pipe sensed by the water pressure sensing unit 170. Here, the control unit may be electrically connected to the water pressure sensing unit 170 to receive a signal transmitted by the water pressure sensing unit 170 by sensing the water pressure and operate the water replenishment valve 190 based thereon.

Specifically, the condition for opening the water replenishment valve 190 due to the need for water replenishment to the piping is called the valve opening condition, and the condition for closing the water replenishment valve 190 is unnecessary because the water replenishment for the piping is unnecessary. It is defined as a condition.

At this time, after the valve opening condition is satisfied and the water filling valve 190 is opened, after the valve closing condition is satisfied and the water filling valve 190 is closed for the first time, the control unit is operated for a predetermined water filling time (T). If the valve closing condition is not satisfied, control is performed to open the water filling valve 190 again until the valve closing condition is satisfied again.

In addition, after the elapse of the water replenishment time T, the controller performs control to open the water replenishment valve 190 until the valve closing condition is satisfied when the valve closing condition is not satisfied and the valve opening condition is satisfied.

More specifically, the control unit determines that the valve opening condition is satisfied when the water pressure detected by the water pressure sensing unit 170 is less than a predetermined first water pressure, and the water pressure detected by the water pressure sensing unit 170 is higher than the first water pressure. If the pressure is greater than the second water pressure, it can be determined that the valve closing condition is satisfied. Here, if it is less than the first water pressure, it is a low water pressure state that requires water replenishment to the piping, and if it is above the second water pressure, it is a high water pressure state that does not require water replenishment to the pipe. However, the valve opening condition and the valve closing condition are not limited to the above.

The hydraulic pressure sensing unit 170 is a first sensing member 171 that transmits a first detection signal to the control unit when the water pressure in the pipe is greater than or equal to the first water pressure, and the control unit when the water pressure in the pipe is greater than or equal to the second water pressure. It may include a second sensing member 172 for transmitting a detection signal. In addition, if the first detection signal is not received for a predetermined period of time, the control unit may determine that the valve opening condition is satisfied, and when the second detection signal is received for a predetermined period of time, the valve closing condition may be satisfied.

2 is a time chart showing changes in the state of the water pressure sensing unit 170, the water filling valve 190, and the circulation pump 120 over time. In FIG. 2, A denotes the on / off operation of the boiler 100, B denotes the operation of the first sensing member 171, and C denotes the operation of the second sensing member 172. The ON state in B is a state above the first water pressure, and the ON state in C is a state above the second water pressure. In addition, D and E are time charts showing the states of the water replenishment valves 190, D and the circulation pumps 120 and E that fluctuate according to the control based on the signal of the water pressure sensing unit 170 of the control unit. F is a chime chart showing the operation of a three-way valve.

Referring to FIG. 2, first, when the controller 100 detects a state below the first water pressure after the boiler 100 is operated, the controller may perform control to open the water filling valve 190 after receiving the first detection signal (a1) Reference). The controller may close the water replenishment valve 190 for the first time after receiving the second detection signal when the water replenishment valve 190 becomes greater than the second water pressure after opening (see a4).

Then, the controller closes the water replenishment valve 190 for the first time (a4), and if the second water pressure is not reached during the preset water replenishment time T, until the second water pressure is reached again, the water replenishment valve 190 ). That is, if the second water pressure is not reached even if the water pressure is greater than or equal to the first water pressure during the water filling time, control to open the water filling valve 190 may be performed. Even when the water pressure sensing unit 170 is disposed at the rear end of the circulation pump 120 by the control during the water replenishment time, it is possible to sufficiently replenish water to the pipe.

For example, referring to FIG. 2, if the pressure is less than the second water pressure during the water replenishment time T, the control unit determines that the valve closing condition is not satisfied and opens the water replenishment valve 190. (See b1, b2, b3, b4). And it is possible to maintain the open state of the water replenishment valve 190 until the second water pressure is reached again (see sections b5, b6, b7, b8).

After the elapse of the water replenishment time T, the control unit may perform control to open the water replenishment valve 190 when the valve closing condition is not satisfied and the valve opening condition is satisfied. That is, after the water replenishment time T, the water replenishment valve 190 may be opened only when it is less than the first water pressure. Then, the water replenishment operation may be performed until the second water pressure or higher is reached (see a9).

The water replenishment operation is performed by the control of the control unit, so that the water replenishment operation of the pipe can be sufficiently performed even when the water pressure sensing unit 170 is located downstream of the circulation pump 120.

Specifically, when the water pressure detecting unit 170 such as a water pressure switch is mounted on the downstream side of the circulation pump 120 due to a lack of design space in the sealed boiler 100 as in the present invention, the air in the heating pipe is smooth. It is not discharged properly and may not be a normal water supplement. In addition, when the water replenishment valve 190 is opened and the water is replenished and the first water pressure or higher is reached, the circulation pump 120 is operated. At this time, the water pressure detecting unit 170 is located downstream of the circulation pump 120, so that the pump is operated. This causes a problem that is recognized as a water pressure higher than the actual water pressure. Accordingly, even when the second water pressure has not been reached, it may be detected as the second water pressure or higher, and in this case, the water filling operation may be completed without sufficient water in the actual pipe. At this time, when the boiler 100 is operated, problems such as overheating may occur.

Accordingly, if the control unit of the present invention does not reach the second water pressure even if the first water pressure is greater than or equal to the first water pressure during the water replenishment time, the water replenishment valve 190 is opened and the water replenishment control is performed until the second water pressure is reached. Despite the operation of (120), it is possible to ensure that the water filling operation is sufficiently performed during the water filling time. Therefore, according to the present invention, even when the water pressure sensing unit 170 is mounted on the downstream side of the circulation pump 120, it is possible to replenish the pipe with water sufficient to safely operate the boiler 100. The occurrence of an abnormality can be blocked in advance. In addition, since sufficient water is replenished to the piping, the time to remove residual air in the piping may be shortened.

Meanwhile, referring to FIG. 2, when the valve opening condition is satisfied, the control unit may stop the operation of the circulation pump 120 and open the water filling valve 190 when the circulation pump 120 is operating. Specifically, when the circulating pump 120 is operating due to the first water pressure or higher (see a2), when the valve opening condition is satisfied because the circulating pump 120 is less than the first water pressure, the operation of the circulating pump 120 is stopped and the water filling operation is performed. Can be done (see a3).

Meanwhile, a burner for heating the water inside the pipe may be further included. In addition, when the valve opening condition is satisfied, the control unit may stop the operation of the burner when the burner is in operation and open the water filling valve 190. Accordingly, it is possible to prevent a problem due to overheating.

The control unit may operate the circulation pump 120 when the water pressure inside the pipe reaches the first water pressure by opening the water filling valve 190 (see a2 in FIG. 2).

In addition, when the water pressure inside the pipe reaches the second water pressure by opening the water filling valve 190, the control unit closes the water filling valve 190 (see a4 in FIG. 2), and the residual air inside the pipe is discharged. As much as possible, the circulation pump 120 may be further stopped for a predetermined time and then stopped (see section a5 in FIG. 2).

On the other hand, the control unit calculates the water replenishment time from the time when the water pressure sensing unit 170 first detects the first water pressure or less after the water replenishment valve 190 is closed, or detects the water pressure after the water replenishment valve 190 is opened. The water replenishment time may be calculated from the time when the first 170 senses the first water pressure. However, the method in which the control unit calculates the water replenishment time is not limited to the above.

Meanwhile, a method for replenishing water in the boiler 100 according to another aspect of the present invention will be described below. The water replenishment method of the boiler 100 according to the present invention uses the above-described configuration and control of the boiler 100, and a detailed description of the same configuration as described above will be omitted below.

The water filling method of the boiler 100 according to the present invention includes a water pressure sensing step, a water filling valve 190 opening step, and a water filling valve 190 closing step.

The water pressure detection step detects whether the water pressure inside the pipe provided inside the boiler case 101 is the degree to which water replenishment is required by the water pressure detection unit 170.

In the water filling valve opening step, when it is sensed that the water pressure inside the pipe is the degree to which water filling is necessary in the water pressure sensing step, the water filling valve 190 connected to the pipe may be opened to replenish water into the pipe.

The water filling valve closing step may close the water filling valve 190 if the water pressure inside the pipe is detected to be an unnecessary level after opening the water filling valve 190.

Here, the water pressure sensing unit 170 may be connected to the downstream side of the circulation pump 120 provided to circulate the water inside the pipe. In addition, the condition for opening the water filling valve 190 because the water filling for the piping is required is called a valve opening condition, and the condition for closing the water filling valve 190 because the water filling for the piping is unnecessary is the valve closing condition. It is defined as

After the valve opening condition is satisfied and the water filling valve 190 is opened, after the valve closing condition is satisfied and the water filling valve 190 is closed for the first time, the valve closing condition is not satisfied for a predetermined water filling time. Otherwise, the water filling valve 190 is opened again until the valve closing condition is satisfied. After the water filling time has elapsed, the valve closing condition is not satisfied, and when the valve opening condition is satisfied, water is added until the valve closing condition is satisfied. The replenishment valve 190 may be opened.

More specifically, the water pressure sensing unit 170 includes a first sensing member 171 that transmits a first detection signal when the water pressure inside the pipe is equal to or greater than a predetermined first water pressure, and the water pressure inside the pipe is higher than the first water pressure. It may include a second sensing member 172 for transmitting a second detection signal when the second pressure or more.

And in the opening step of the water filling valve 190, if the first detection signal is not sensed for a predetermined period of time, it is determined that the valve opening condition is satisfied and the water filling valve 190 can be opened. In addition, in the closing step of the water replenishment valve 190, when the second detection signal is sensed for a predetermined time, the valve replenishment condition is determined to be satisfied and the water replenishment valve 190 may be closed.

According to the present invention, even when the water pressure sensing unit is mounted on the downstream side of the circulation pump, it is possible to replenish enough water to the pipe to safely operate the boiler, so that overheating or occurrence of circulation abnormality can be prevented. In addition, since sufficient water is replenished to the piping, the time to remove residual air in the piping may be shortened.

Above, specific embodiments of the present invention have been described above, but the spirit and scope of the present invention are not limited to these specific embodiments, and are described in the claims by those skilled in the art to which the present invention pertains. Various modifications and variations are possible within a range that does not change the gist of the present invention.

100: boiler 101: boiler case
110: heat exchanger 120: circulation pump
130: three-way valve 140: hot water heat exchanger
150: expansion tank 160: flow sensor
170: water pressure sensing unit 171: first sensing member
172: second sensing member 181: heating supply pipe
182: heating return pipe 183: direct inflow pipe
184: hot water outlet pipe 185: supplementary water inlet pipe
186: hot water heat exchanger entrance pipe 187: hot water heat exchanger exit pipe
190: water filling valve

Claims (12)

Boiler case;
A pipe provided inside the boiler case and provided outside the boiler case to communicate with a heating flow path for providing heating;
A circulation pump provided to circulate the water inside the pipe;
A water pressure sensing unit connected to the pipe at a downstream side of the circulation pump to sense water pressure inside the pipe;
A water replenishment valve installed in the replenishment water inlet pipe connected to the pipe, and opened to replenish water into the pipe; And
It includes a control unit for controlling the operation of the water filling valve on the basis of the water pressure inside the pipe detected by the water pressure detection unit,
The control unit,
When the water filling for the piping is required, the condition for opening the water filling valve is called a valve opening condition, and when the water filling for the piping is unnecessary, the condition for closing the water filling valve is called a valve closing condition. ,
After the valve opening condition is satisfied and the water filling valve is opened, after the valve closing condition is satisfied and the water filling valve is first closed, if the valve closing condition is not satisfied, the valve closing condition is satisfied again. Control to open the water filling valve until it is performed for a predetermined water filling time,
After the water replenishment time has elapsed, when the valve closing condition is not satisfied and the valve opening condition is satisfied, the boiler performs control to open the water filling valve until the valve closing condition is satisfied. According to claim 1,
The boiler is provided to be blocked from the atmosphere in the interior of the boiler case, further comprising an expansion tank connected to the piping and the heating water is stored therein. According to claim 1,
The controller determines that the valve opening condition is satisfied when the water pressure detected by the water pressure sensing unit is less than a predetermined first water pressure, and the water pressure detected by the water pressure sensing unit is greater than or equal to a second water pressure higher than the first water pressure. If it is determined that the valve closing condition is satisfied, the boiler. According to claim 3,
The hydraulic pressure sensing unit includes a first sensing member that transmits a first detection signal to the control unit when the water pressure in the pipe is greater than or equal to the first water pressure, and a second control unit when the water pressure in the pipe is greater than or equal to the second water pressure. It includes a second sensing member for transmitting a detection signal,
The control unit determines that the valve opening condition is satisfied when the first detection signal is not received for a predetermined time, and determines that the valve closing condition is satisfied when the second detection signal is received for a predetermined time. . According to claim 3,
The control unit, when the valve opening conditions are satisfied,
When the circulation pump is operating, the operation of the circulation pump is stopped, and the water filling valve is opened, the boiler. According to claim 3,
Further comprising a burner for heating the water in the pipe,
The control unit, when the valve opening conditions are satisfied,
When the burner is operating, the operation of the burner is stopped, and the water filling valve is opened. The method of claim 5,
The control unit, when the water pressure inside the pipe reaches the first water pressure by the opening of the water filling valve, to operate the circulation pump, the boiler. The method of claim 7,
The control unit closes the water filling valve when the water pressure inside the pipe reaches the second water pressure by opening the water filling valve, and further closes the circulation pump to discharge residual air inside the pipe for a predetermined time. Boiler after starting and stopping. According to claim 3,
The control unit calculates the water replenishment time from the point in time when the water replenishment valve first detects less than the first water pressure after the water replenishment valve is closed, or the water pressure detection part is the first time after the water replenishment valve is opened. A boiler for calculating the water replenishment time from the time when the first water pressure is sensed. A water pressure sensing step of detecting, by the water pressure detecting unit, whether the water pressure inside the pipe provided inside the boiler case is the degree to which water replenishment is necessary;
A water filling valve opening step of opening the water filling valve connected to the piping to replenish water into the piping when the water pressure inside the piping is sensed to the extent that water filling is necessary in the water pressure sensing step; And
If the water pressure inside the piping is detected to be an unnecessary degree of water replenishment after opening the water replenishment valve, a step of closing the water replenishment valve, including closing the water replenishment valve,
The water pressure detecting unit is connected to the downstream side of the circulation pump provided to circulate the water inside the pipe,
When the water filling for the piping is required, the condition for opening the water filling valve is called a valve opening condition, and when the water filling for the piping is unnecessary, the condition for closing the water filling valve is called a valve closing condition. ,
After the valve opening condition is satisfied and the water filling valve is opened, after the valve closing condition is satisfied and the water filling valve is first closed, if the valve closing condition is not satisfied for a predetermined water filling time, The water filling valve is opened again until the valve closing condition is satisfied.
After the water replenishment time has elapsed, if the valve closing condition is not satisfied and the valve opening condition is satisfied, the water filling valve is opened until the valve closing condition is satisfied. The method of claim 10,
The pressure sensing unit includes a first sensing member that transmits a first detection signal when the water pressure in the pipe is equal to or greater than a predetermined first water pressure, and a second when the water pressure in the pipe is greater than or equal to a second water pressure higher than the first water pressure. It includes a second sensing member for transmitting a detection signal,
In the step of opening the water replenishment valve, if the first detection signal is not sensed for a predetermined time, the valve replenishment condition is determined to be satisfied and the water replenishment valve is opened,
In the closing step of the water filling valve, when the second detection signal is sensed for a predetermined period of time, it is determined that the valve closing condition is satisfied, thereby closing the water filling valve. Boiler case;
A pipe provided inside the boiler case and provided outside the boiler case to communicate with a heating flow path for providing heating;
A water pressure sensing unit that senses water pressure inside the pipe;
A water replenishment valve installed in the replenishment water inlet pipe connected to the pipe, and opened to replenish water into the pipe; And
It includes a control unit for controlling the operation of the water filling valve on the basis of the water pressure inside the pipe detected by the water pressure detection unit,
The control unit,
When the water filling for the piping is required, the condition for opening the water filling valve is called a valve opening condition, and when the water filling for the piping is unnecessary, the condition for closing the water filling valve is called a valve closing condition. ,
When the valve opening condition is satisfied and the water filling valve is opened, and after the valve closing condition is satisfied and the water filling valve is closed, if the valve closing condition is not satisfied, the valve closing condition is satisfied again. Boiler that performs control for opening the water filling valve until a preset water filling time.

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