KR101616558B1 - Boiler and control method thereof - Google Patents

Abstract

The present invention relates to a boiler and a control method of the boiler, and more particularly, to a boiler and a control method for the boiler and a control method thereof, And a plurality of circulation pumps provided respectively on a water outlet side and a water return side of the heating water line, wherein a manifold is provided on the heating water line to separate the hydraulic pressure, A circulation pump is separately provided on the water outlet side and the water return side of the heating water line so that the disturbance of the heating water flow is minimized and the pressure drop occurring on the water outlet side and the water return side of the heating water line can be minimized .

Description

BOILER AND CONTROL METHOD THEREOF

The present invention relates to a boiler and a control method thereof, and more particularly, to a boiler for supplying heating and hot water by independently controlling a plurality of circulation pumps provided in a boiler and a control method thereof.

A boiler is a device that uses a burner to burn fuel and supply hot water to a heating facility.

Boilers can be divided into gas boilers, coal boilers, oil boilers, etc. depending on the fuel used.

Among them, the gas boiler supplies gaseous fuel to a burner installed inside the combustion chamber which is shut off from the outside and burns it, and uses the high temperature generated in the combustion process to heat the heating water to a predetermined temperature.

The gas boiler heats the heated water by circulating the heating pipe installed in the room, or converts the cold water into hot water through the heat exchange between the heating water and the direct water (cold water) and supplies it to the sink, the bath, and the like.

For example, Patent Literature 1 and Patent Literature 2 disclose a gas boiler technology for controlling a circulation flow rate and a flow rate by controlling a circulation pump.

Patent Document 1 discloses a circulating pump control of a gas boiler for driving a circulation pump by determining the temperature difference between the outflow side of the gas boiler and the hot water on the return water side, the amount of gas input, the theoretical air amount and the number of revolutions of the exhaust fan, Method is disclosed.

In Patent Document 2, a pump temperature detecting means for measuring the temperature occurring in accordance with the operation of the pump is attached to the surface of the circulation pump, and the temperature change of the pump is measured during operation of the boiler. When the temperature reaches the overheat temperature, Disclosed is a circulating pump failure detection method of a gas boiler for stopping a function of the boiler to protect the boiler.

Korea Patent Registration No. 10-0279885 (issued on February 1, 2001) Korean Patent Publication No. 10-1999-0038876 (published on June 5, 1999)

However, since the boiler according to the prior art supplies heating and hot water by using one circulation pump, the load to be added to the circulation pump is very large, so a large-capacity circulation pump must be applied, and even if a large- There is a problem that a pressure drop occurs at the final stage of the water circulation circuit.

The boiler according to the related art has a problem in that the circulation pump frequently breaks down or fails.

Thus, the boiler according to the related art has a temperature sensing means for detecting a failure or abnormality of the circulation pump as in Patent Document 2. However, there is a limitation in removing the root cause for preventing the failure or abnormality of the circulation pump .

In addition, when the boiler according to the prior art selectively operates the three sides provided with the solenoid valve during the initial installation to perform the heating operation or the hot water supply operation, there arises a problem that the abnormal back flow is caused by driving the pumps installed in the piping line outside the boiler .

An object of the present invention is to solve the above-mentioned problems, and to provide a boiler and a control method thereof for preventing pressure drop during circulation of heating water by applying a plurality of circulation pumps and a manifold to a heating water circulation line.

Another object of the present invention is to provide a boiler and a control method thereof that can smoothly circulate heated water by independently controlling a plurality of circulation pumps.

It is still another object of the present invention to provide a boiler and a control method thereof that can selectively perform heating and hot water supply operations using three sides and a shutoff valve.

In order to achieve the above object, a boiler according to the present invention includes a combustion unit for heating water by burning gaseous fuel, a three-way valve for selectively supplying water heated by the combustion unit to a heating water line or a hot water line, And a plurality of circulation pumps provided on the manifolds connected to the outflow side and the refluxed side of the heating water line, respectively, and the outflow side and the reflux side of the heating water line, respectively.

The boiler according to the present invention controls the operation of the three sides to supply heating or hot water, a sensing unit that senses the heating water and the temperature of the hot water, and controls the operation of the three sides based on the temperature sensed by the sensing unit and the heating water flow filled in the manifold. Wherein the plurality of circulation pumps include a first circulation pump provided at a rear end of a return water joining point of the heating water line and the hot water line, And the second circulation pump installed on the water-return side, and the control unit independently controls the driving of the first and second circulation pumps so that the heating water filled in the manifold is kept in a stopped or mixed state do.

The boiler according to the present invention may include a first shut-off valve for shutting off the hot water circulation during the heating operation and a second shut-off valve for shutting off the heating water circulation during the hot water supply operation, Wherein the first shut-off valve is installed at a front end of a joining point of the hot water line and the hot water line on the water-return side on the hot water line, and the second shut-off valve is provided on the water- And the second line is disposed at the front end of the line joining point.

The heating water circulating through the heating water line is supplied to the hot water tank through the hot water line, and the heating water is circulated through the hot water line to the hot water tank The hot water supplied to the hot water tank flows back to the heating part through the heating water line when the hot water supply operation is performed by the operation of the three sides on one side of the second shut-off valve And a second check valve is provided to prevent the second check valve from being opened.

In order to achieve the above object, the present invention provides a method of controlling a boiler, comprising the steps of: (a) burning gaseous fuel in a combustion unit to generate a high temperature to heat water; (b) (c) supplying the hot water to the hot water tank to heat the hot water during the hot water supply operation, wherein the step (a) includes heating the hot water through the heating water line, the step b) separates the hydraulic pressure using a manifold connected to both the outgoing side and the return side of the heating water line and controls the flow rate and the flow rate on the outgoing side and the returned side of the heated water line.

The step (b) independently controls a plurality of circulation pumps installed on the water outlet side and the water return side of the heating water line so that the heating water filled in the manifold is stopped or mixed into either side, .

The method of controlling a boiler according to the present invention is characterized in that (d) the three sides that selectively supply the heating water to the heating water line or the hot water line during the initial installation of the boiler are adjusted to perform only one operation; (e) (d) a step of shutting off the hot water line by using a first shut-off valve installed on the hot water line if the three sides are adjusted to operate heating, and (f) The heating water line is shut off by using a second shut-off valve installed on the heating water line, so that hot water supply operation is performed.

As described above, according to the boiler according to the present invention and the control method thereof, a manifold is provided on the heating water line to separate the hydraulic pressure, and a circulation pump is provided on the water outlet side and the water return side of the heating water line, It is possible to control the flow rate and the flow rate on the return side of the heating water line to be mixed into either side according to the same or the boiler operating condition.

According to the present invention, by providing the manifold inside the boiler, it is possible to minimize the disturbance of the flow of the heating water and to minimize the pressure drop occurring on the water outlet side and the water return side of the heating water line.

Therefore, according to the present invention, it is possible to reduce the manufacturing cost of the boiler by applying the low-capacity circulation pump, minimize the flow resistance of the heating water, thereby reducing the amount of electricity used to minimize the operation cost, Can be maximized.

1 is a schematic view of a gas boiler according to a preferred embodiment of the present invention;
Fig. 2 is a detailed configuration diagram of the gas boiler shown in Fig. 1,
Figs. 3 and 4 are diagrams illustrating an example of a heating operation and a hot water supply operation, respectively. Fig.
FIG. 5 is a flowchart illustrating steps of a method for controlling a gas boiler according to a preferred embodiment of the present invention.

Hereinafter, a gas boiler according to a preferred embodiment of the present invention and a control method thereof will be described in detail with reference to the accompanying drawings.

In the present embodiment, the configuration of the gas boiler is used. However, the present invention is not limited to this, and it should be noted that the present invention can be applied to various boilers using other fuels such as coal boilers and oil boilers as well as gas boilers.

FIG. 1 is a configuration diagram of a gas boiler according to a preferred embodiment of the present invention, and FIG. 2 is a detailed configuration diagram of the gas boiler shown in FIG.

1 and 2, a gas boiler 10 according to a preferred embodiment of the present invention includes a combustion section 11 for burning gaseous fuel to heat water, water heated in the combustion section 11 The three sides 12 which selectively supply the heating water line 13 or the hot water line 14, the manifold 20 and the heating water line 13 provided on the heating water line 13 and the water outlet side of the heating water line 13, And a plurality of circulation pumps 30 to 32,

The gas boiler 10 according to the preferred embodiment of the present invention is connected to the heating water line 13 and connected to the heating unit 15 and the hot water line 14 for heating the room using the heating water, A hot water tank 14 for supplying hot water heated through heat exchange, a sensing unit 40 for sensing the temperature of the heating water and the hot water, an operation unit for controlling the operation of the three sides to supply heating or hot water, (50) for controlling the operation of the plurality of circulation pumps (30-32) based on the temperature and the heating water flow inside the manifold (20).

The gas boiler 10 according to the preferred embodiment of the present invention is installed on the water return side of the heating water line 13 and the three sides 12 are adjusted to perform only one of the heating operation or the hot water supply operation The first shut-off valve 33 and the second shut-off valve 34, which manually shut off the heating water or the hot water supply, respectively, may be further included.

2, the combustion unit 11 includes a burner 17 for burning gaseous fuel to generate heat at a high temperature and a heat exchanger 18 for heating water using heat generated from the burner 17 can do.

One side of the three sides 12 is connected to the combustion unit 11 to receive heated water from the combustion unit 11 and a hot water line 14 connected to the other side in accordance with a control signal of the control unit 50, And selectively supplies heated water to the water line (13).

The manifold 20 hydraulically separates the hydraulic pressure between the front end and the rear end of the manifold 20 on the heating water line 13 to control the flow rate and the flow rate on the water outlet side and the water return side of the heating water line 13 Function.

For this purpose, the manifold 20 is formed in a substantially cylindrical shape, and inlet ports and outlet ports for heating water, which are outgoing and returning, respectively, are provided on the front and rear sides of the manifolds 20 at both side ends thereof.

That is, in this embodiment, the flow of the heating water flow rate in the manifold 30 can be controlled in three ways.

First, when the heating water flow rate and the flow rate to be delivered are equal to the heating water flow rate and the flow rate to be returned, the stationary state is obtained in which there is no flow of the heating water filled in the manifold 20.

Next, the flow rate and the flow rate of the return water on the basis of the pumping operation of the first circulation pump 30 installed in the gas boiler 10 are discharged by the pumping operation of the second circulation pump 31 provided outside the gas boiler 10 The heated water in the manifold 20 is heated by the heat exchanger 18 and flows into the inlet side inlet port of the manifold 20 through the three sides 12, Flows to the return side of the manifold 20 and flows to the first circulation pump 30 side through the return port on the manifold 20 side.

Finally, when the flow rate and the flow rate on the return side due to the pumping operation of the first circulation pump 30 are smaller than the flow rate and the flow rate on the outflow side due to the pumping operation of the second circulation pump 31, The water flows into the second circulation pump 31 through the heating section 15 and then flows into the second circulation pump 31 through the inlet port of the manifold 20.

The flow of the heating water flow inside the manifold 20 can be set according to the use conditions at the initial installation of the gas boiler 10. [

Here, the use condition of the gas boiler 10 is a condensing function using the operation mode of the gas boiler including the heating and hot water supply operable state, the heating operation only state, the hot water supply operable state, and the latent heat of the exhaust gas And the like.

As described above, the present invention minimizes the disturbance of the heating water flow and minimizes the pressure drop occurring on the water outlet side and the water return side of the heating water line by providing the manifold in the boiler.

For this purpose, a flow rate sensor 21 for sensing the flow of the heating water filled in the manifold 20 may be installed.

The flow rate sensor 21 senses the flow rate of the heating water filled in the manifold 20 and outputs a sensing signal corresponding to the sensed flow rate.

The control unit 50 receives the sensing signal output from the flow rate sensor 21 and checks the flow rate and the flow rate of the heating water line 13 on the water outlet side and the flow rate on the water return side, The heating water flow can be controlled according to the control conditions of the gas boiler 10 by driving the first to third circulation pumps 30 to 32 to be described below.

The gas boiler 10 is provided with a first circulation pump 30 which is provided at the rear side of the confluence point of the heating water line 13 and the hot water line 14 and pumped so as to supply the circulating heated water to the combustion unit 11 side And a second circulation pump 31 installed on the outflow side of the manifold 20 and pumping so as to discharge the heated water.

When a plurality of heating units 15 are provided, the gas boiler 10 is provided at a rear end of an auxiliary heating unit connected in parallel to the main heating unit, and the third circulation unit And may further include a pump 32.

The control unit 50 controls the first to third circulation pumps 30 to 40 in accordance with the detection signal of the flow rate sensor 21 so that the flow rate and flow rate of the heating water on the outgoing side and the flow rate on the return side can be controlled based on the control conditions of the boiler. 32 can be independently controlled.

As described above, according to the present invention, the manifold is provided on the heating water line to separate the hydraulic pressure, and the circulation pump is separately provided on the water outlet side and the water return side of the heating water line to independently control the flow- And the flow rate can be controlled.

Accordingly, the present invention can reduce the manufacturing cost of the gas boiler by applying a low-capacity circulation pump, minimize the flow resistance of the heating water, reduce the amount of electricity used to minimize the operation cost, Can be maximized.

The first and second shutoff valves 33 and 34 function to manually shut off the circulation of hot water or hot water according to the use conditions of the gas boiler 10, respectively.

For example, FIG. 3 and FIG. 4 illustrate heating operation and hot water supply operation, respectively.

The first shut-off valve 33 may be installed on the water-return side of the hot water line 14 at the junction of the hot water line 13 and the hot water line 14.

The first shut-off valve 33 cuts off the hot water line 14 according to a manual operation of the user when only the heating operation is continuously performed.

As a result, the circulation of the heating water through the hot water line 14 is interrupted.

3, the heating unit is circulated only through the heating water line 13, and the control unit 50 controls the combustion unit 11 and the first to third circulation pumps (not shown) so as to continuously perform the heating operation 30 to 32 can be controlled.

The second shutoff valve 34 may be provided on the return side of the heating water line 13 at the upstream side of the confluence point of the heating water line 13 and the hot water line 14.

The second shut-off valve 34 cuts off the heating water line 13 in accordance with the manual operation of the user when only the hot water supply operation is to be continuously performed.

As a result, the circulation of the heating water through the heating water line 13 is interrupted.

4, the heating unit is circulated only through the hot water line 14, and the control unit 50 can control the driving of the combustion unit and the first circulation pump 30 to continuously supply the hot water have.

On one side of the first shut-off valve 33 and the second shut-off valve 34, first and second check valves 35 and 36 may be provided to prevent back flow, respectively.

The first check valve 35 is a pipe that is installed in the hot water tank 16 circuit through the hot water line 14 when the three sides 12 are adjusted to perform heating operation And functions to prevent backflow to the heating mechanism.

When the second and third circulation pumps 31 and 32 are driven in a state where the three sides 12 are controlled to supply hot water, the second check valve 36 controls the amount of heating water supplied to the hot water tank 16 To prevent the backflow to the heating section (15) through the line (13).

The sensing unit 40 includes first to fourth temperature sensors 41 to 44 installed on the heating water line 13 for sensing the temperature of the heating water, A fifth temperature detection sensor 45 for detecting the temperature inside the hot water supply pipe, a sixth temperature detection sensor 46 installed in the cold water supply pipe for sensing the temperature of the direct water (cold water), and a hot water supply pipe And a seventh temperature sensor 47 for sensing the temperature of the hot water to be discharged.

The first to fourth temperature sensors 41 to 47 are respectively connected to the outlet side of the combustion section 11, the outlet side of the manifold 20, the return side of the manifold 20, And the temperature of the heating water can be sensed.

The first to seventh temperature sensing sensors 41 to 47 provided in the sensing unit 40 respectively output sensed signals corresponding to the sensed temperatures and the controller 50 senses the first to seventh temperature sensing sensors 41 to 47, The hot water tank 16 and the first to third circulation pumps 30 to 32 based on the detection signals of the first and second circulation pumps 47 and 47 so as to perform the heating and hot water supply operation.

The control unit 50 is provided as a central processing unit for controlling the operation of the gas boiler 10 and is provided with a control unit 50 for controlling the operation of the gas boiler 10 in accordance with the heating temperature of the user or the set temperature of the hot water inputted through the input unit The driving of each device can be controlled.

Next, a control method of a gas boiler according to a preferred embodiment of the present invention will be described in detail with reference to FIG.

5 is a flowchart illustrating steps of controlling a gas boiler according to a preferred embodiment of the present invention.

5, the installer can open and close the first and second shut-off valves 33 and 34 in accordance with the use conditions in a state where the gas boiler 10 is initially installed.

For example, depending on the use condition of the gas boiler 10, that is, whether the operation mode is set to the heating or hot water supply mode, the heating mode, or the hot water supply mode, the installer can set the first and second shutoff valves 33 , 34 can be opened or manually operated.

If the gas boiler 10 is set to the heating and hot water supply mode, the first shut-off valve 33 and the second shut-off valve 34 are manually operated in an open state.

On the other hand, when the gas boiler 10 is set to the heating mode, the first shut-off valve 33 is manually operated to close the hot water line.

Then, the gas boiler 10 can perform only the heating operation as the hot water line 14 is shut off.

Further, when the gas boiler 10 is set in the hot water supply mode, the second shut-off valve 34 is manually operated to shut off the heating water line 13.

Then, the gas boiler 10 can perform only the hot water supply operation as the heating water line 13 is shut off.

Hereinafter, the case where the gas boiler 10 is set to the heating and hot water supply mode in the initial installation will be described.

When power is supplied to the gas boiler 10 in step S12, the controller 50 supplies gas fuel and air to the burner 16 to generate high temperature heat to drive the combustion unit 11 .

At this time, the control unit 50 checks whether the setting mode input from the user through the input unit is the heating mode (S14).

If it is determined in step S14 that the heating mode is set, the control unit 50 controls the operation of the three sides 12 so as to supply the heating water heated by the combustion unit 11 to the heating water line 13 (S16).

When the heating water is supplied to the heating water line 13 through the three sides 12, the first to fourth temperature sensors 41 to 44 installed in the heating water line 13 respectively sense the temperature of the heating water, And outputs a sensing signal corresponding to the sensed temperature.

At this time, the manifold 20 separates the hydraulic pressure between the front end and the rear end about the manifold 20 on the heating water line 13, and stops the flow rate and the flow rate of the water outlet side and the water return side of the heating water line 13 State or any other side.

The flow rate sensing sensor 21 installed in the manifold 20 senses the flow rate of the heating water filled in the manifold 20 and outputs a sensing signal corresponding to the sensed flow rate at step S18.

Accordingly, the control unit 50 compares the detected heating water temperature with the heating set temperature set by the user, and controls the driving of the combustion unit 11 to maintain the heating water temperature at the heating set temperature.

The control unit 50 controls the first to third circulation pumps 30 to 32 according to the flow rate of the heating water filled in the manifold 20 so as to control the flow rate and flow rate of the manifold 20 on the water- (S20).

For example, when the flow rate of the flowing water from the water outlet side to the water return side of the heating water line 13 is detected within the manifold 20 through the flow rate sensor 21, the controller 50 controls the first and third circulation pumps 30 and 32 to increase the flow rate and the flow velocity on the return side and lower the driving velocity of the second circulation pump 31 so as to reduce the flow rate and the flow velocity on the outgoing side.

The control unit 50 controls the flow rate of the first and third circulation pumps 30 and 30 when the flow rate of the flow of the flow from the water return side to the water outlet side of the heating water line 13 is detected in the manifold 20 through the flow rate sensor 21, 31 to reduce the flow rate on the return side or to increase the flow rate and flow rate on the outflow side by increasing the drive speed of the second circulation pump 31. [

As described above, the present invention minimizes the disturbance of the heating water flow by providing a manifold in the heating water pipe and controlling the driving of the plurality of circulating pumps so that the flow of the heated water filled in the manifold meets the conditions for using the boiler , It is possible to minimize the pressure drop occurring on the water outlet side and the water return side of the heating water line.

On the other hand, if it is determined in step S12 that the hot water supply mode is set, the controller 50 controls the operation of the three sides 12 to supply the hot water to the hot water line 14 (S22).

When the heating water is supplied to the hot water line 14 through the three sides 20, the first to fourth temperature sensors 41 and 44 and the hot water tank 16, the fifth to seventh The temperature sensors 45 to 47 output sensed signals corresponding to the sensed temperatures, respectively (S24).

The control unit 50 compares the sensed temperature of the hot water, the hot water, and the cold water with the set temperature set by the user, and controls the combustion unit 11 and the hot water tank (not shown) to maintain the heating water, 16 to control the operation of the heating mechanism.

The control unit 50 controls the driving of the first circulation pump 30 so as to smoothly circulate the heating water (S26).

In step S28, the control unit 50 checks whether or not a driving stop instruction of the gas boiler 10 is inputted through the input unit, and controls to repeat steps S14 to S28 until a driving stop instruction is input.

If the stop command is input in step S28, the control unit 50 stops driving the devices provided in the gas boiler 10 and terminates the process.

According to the present invention, a manifold is provided on the heating water line to separate the hydraulic pressure, and a circulation pump is installed on the water outlet side and the water return side of the heating water line to independently control the heating water flow It is possible to minimize the pressure drop occurring on the water outlet side and the water return side of the heating water line.

Although the invention made by the present inventors has been described concretely with reference to the above embodiments, the present invention is not limited to the above embodiments, and it goes without saying that various changes can be made without departing from the gist of the present invention.

That is, although the above embodiment has been described using the configuration of the gas boiler, the present invention is not necessarily limited thereto, and the present invention can be applied to various boilers using other fuels such as coal boilers and oil boilers as well as gas boilers. have.

Although the first and second shut-off valves are manually operated by the user in the above-described embodiment, the present invention can be applied to an electronic shut-off valve that operates the first and second shut- .

However, instead of the flow rate sensor, the present invention may include a hydraulic pressure sensor for sensing the hydraulic pressure on the outflow side and the hydraulic pressure side, or a differential pressure sensor It may be changed to install a sensor.

A manifold is provided on a heating water line to separate the hydraulic pressure. A circulation pump is provided on the water outlet side and the water return side of the heating water line to independently control the heating water line to prevent disturbance of the heating water flow. The present invention is applied to a boiler and a control method of the boiler which minimizes the pressure drop occurring on the outlet side and the return water side of the boiler.

10: Gas boiler 11: Combustion part
12: Three sides 13: Heating number line
14: hot water line 15: heating part
16: hot water tank 17: burner
18: Heat Exchanger 20: Manifold
21: Flow sensor 30: First circulation pump
31: second circulation pump 32: third circulation pump
33, 34: first and second shut-off valves 35, 36: first and second check valves
40: sensing unit 41 to 47: temperature sensing sensor
50:

Claims (7)

A combustion section for burning fuel to heat water,
A three-way valve for selectively supplying heated water from the combustion section to the heating water line or the hot water line,
A manifold that is connected to the water outlet side and the water return side of the heating water line so as to separate the hydraulic pressure of the heating water and has a flow rate sensor for sensing the flow of the heating water filled therein,
A plurality of circulation pumps provided respectively on the water outlet side and the water return side of the heating water line,
A sensing unit for sensing the heating water and the temperature of the hot water,
And a controller for controlling operations of the three sides to supply heating or hot water, and controlling operations of the plurality of circulation pumps based on the temperature sensed by the sensing unit and the heating water flow sensed by the flow sensor,
Wherein the control unit independently controls driving of the plurality of circulation pumps so that the heating water filled in the manifold is kept in a stopped or mixed state. The method according to claim 1,
Wherein the plurality of circulation pumps include a first circulation pump installed at a rear end of the return water joining point of the heating water line and the hot water line,
And a second circulation pump provided on an outlet side or a return side of the manifold. 3. The method according to claim 1 or 2,
A first shutoff valve for shutting off the hot water circulation in the heating operation when the heater is used under only one of the conditions of heating or hot water supply in the initial installation
Further comprising a second shut-off valve for shutting off the heating water circulation in the hot water supply operation,
The first shut-off valve is installed on the water-return side of the hot water line at the junction of the hot water line and the hot water line,
And the second shut-off valve is installed at a front end of the joining point of the heating water line and the hot water line on the water-return side on the heating water line. The method of claim 3,
The heating water circulating through the heating water line is supplied to the hot water tank through the hot water line, and the heating water is circulated through the hot water line to the hot water tank A first check valve is provided to prevent backflow,
And a second check valve is installed on one side of the second shutoff valve to prevent the heating water supplied to the hot water tank from flowing back to the heating part through the heating water line when the hot water supply operation is performed by the operation of the three sides. The boiler. (a) burning fuel in a combustion section to generate a high temperature to heat water,
(b) supplying the heating water heated in the step (a) to a heating unit through a heating water line in a heating operation,
(c) heating the hot water by supplying the hot water to the hot water tank during the hot water supply operation,
The step (b) includes the steps of: (b1) separating the hydraulic pressure using a manifold having both ends connected to the water outlet side and the water return side of the heating water line,
(b2) sensing a flow rate of the heating water filled in the manifold using a flow rate sensor
(b3) the controller controls the heating water line to be installed on the water outlet side and the water return side of the heating water line, respectively, so that the heating water filled in the manifold is stopped or kept in a mixed state on either side based on the flow rate sensed in the step (b2) And controlling the flow rate and the flow rate of the heating water line to the water outlet side and the water return side independently of each other. delete 6. The method of claim 5,
(d) when the boiler is initially installed, the three sides that selectively supply the heating water to the heating water line or the hot water line are adjusted to perform only one operation,
(e) heating and shutting off the hot water line by using a first shut-off valve installed on the hot water line when the three sides are adjusted to operate in heating in the step (d)
(f) a step of shutting off the heating water line by using the second shut-off valve installed on the heating water line and supplying hot water when the three sides are adjusted to supply hot water in the step (d) The control method of the boiler.

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