KR101902227B1 - Water supplement apparatus and water supplement method of closed type boiler - Google Patents

Abstract

An object of the present invention is to provide a water replenishing device and a water replenishing method of an enclosed boiler which can prevent the phenomenon of repeated water replenishment operation in replenishing water and shorten the residual air removal time in the pipe. The water replenishing device of the present invention for realizing this is a water replenishing device of a closed boiler having an enclosed expansion tank (150), characterized in that the water pressure of water flowing in the piping connected to the closed expansion tank (150) A water pressure sensing unit 170 for sensing whether or not the water pressure reaches a first water pressure required for replenishment of water; A water replenishment valve 190 opened and closed to replenish the water inside the pipe; A circulation pump (120) circulating water inside the pipe; A control unit for controlling the circulation pump 120 to operate in a state that the water replenishment valve 190 is opened and water is replenished when the water pressure detected by the water pressure sensing unit 170 is the first water pressure; .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a water replenishing apparatus and a water replenishing method for a closed-

The present invention relates to a water replenishing device and a water replenishing method of an enclosed boiler, and more particularly, to a water replenishing device and a water replenishing method of an enclosed boiler in which water replenishing operation is prevented, Device and a water replenishing method.

Generally, there is water in the water pipe in the heating pipe and boiler product in the boiler which can use both heating and hot water. When the boiler is installed at the initial stage or when the boiler is in use, do.

In an enclosed boiler using an atmospheric barrier type expansion tank, a device for detecting a water shortage state and a pressure gauge for indicating a pressure in the piping are provided, whereby the user can recognize a water shortage state and manually perform water replenishment , And in the case of a boiler equipped with an electronic water replenishment valve, water replenishment is automatically performed.

In most cases, the water replenishing piping for replenishing water is connected between the direct water pipe into which the direct water flows and the water return pipe through which the heating return flows, and a manual valve or an electromagnetic valve, which is a water replenishing valve, , And the replenishing water is supplied by opening and closing the water replenishment valve.

As a device for detecting the water shortage state, a water pressure switch or a heating water flow sensing switch may be used.

When the water pressure switch is used, when the switch input is turned off according to the operation pressure of the fixed water pressure switch, the combustion operation is stopped, and the user is informed that the heating water supplement is necessary and the water replenishment is performed manually or automatically.

When the heating water flow detection switch is used, when the circulation pump of the boiler is operated, if the switch input is kept in the OFF state, the combustion operation is stopped and the user is informed that the heating water supplement is necessary. .

A process of replenishing water to an enclosed boiler using an atmospheric barrier type expansion tank using an electronic water replenishing valve and a water pressure switch will be described as follows.

First, when the water pressure of the water in the pipe becomes lower than the proper pressure and the input of the water pressure switch is turned off, the boiler stops the combustion operation and opens the water replenishment valve to perform water replenishment from the water to the heating pipe and the water pipe in the boiler product.

When the pressure in the pipe rises above the appropriate level by the water replenishment, the water replenishment valve is closed and the circulating pump is operated to discharge the residual air in the pipe. When the pressure in the piping drops below the appropriate level in the process of discharging the residual air, the circulation pump is stopped, and the water replenishment valve is opened again to perform water replenishment. The above procedure is repeated until the appropriate level of pressure is maintained.

However, according to this method, when the direct water pressure to be replenished with water is equal to the pressure of the hydraulic pressure switch, and the water pressure switch installation position is before the inlet of the circulation pump, the circulation pump As soon as the pump is started, the pressure inside the pipe is lowered. As a result, the water pressure switch is turned off, the circulation pump is stopped, and then the water replenishment valve is opened again. Under such a condition, there arises a problem that the water replenishing operation is repeated infinitely unless there is no special process. That is, during the water replenishment, the pressure in the pipe is judged to be an appropriate level, but when the circulating pump is operated to remove the residual air, the water pressure switch is turned OFF and the water replenishment is repeated infinitely.

Korean Patent No. 10-1172160 discloses a conventional technology in which a technique for automatically replenishing water in a sealed boiler is disclosed. Although the pressure in the expansion tank is measured in the above-mentioned Japanese Patent No. 10-1172160, the expansion tank is located at the outlet side of the circulation pump, and when the circulation pump is operated, the water pressure rises quickly, There is a problem that it is difficult to raise the pressure of the entire piping sufficiently.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a water replenishing device and a water replenishing device of an enclosed boiler which can prevent the replenishment of water during replenishment of water, The present invention has been made in view of the above problems.

In order to achieve the above object, the present invention provides a closed water boiler replenishing device having an enclosed expansion tank (150), wherein the water pressure of the water flowing in the pipe connected to the enclosed expansion tank (150) A hydraulic pressure sensing unit 170 for sensing whether or not a first hydraulic pressure required to be replenished is reached; A water replenishment valve 190 opened and closed to replenish the water inside the pipe; A circulation pump (120) circulating water inside the pipe; A control unit for controlling the circulation pump 120 to operate in a state that the water replenishment valve 190 is opened and water is replenished when the water pressure detected by the water pressure sensing unit 170 is the first water pressure; .

The water pressure sensing unit 170 includes a first water pressure switch 171 for sensing the first water pressure and a second water pressure sensor 173 for sensing the water pressure in the pipe as a water pressure sufficient to operate the boiler, And a second water pressure switch 172 for detecting whether or not the water pressure is reached.

The water pressure sensing unit 170 may be installed at a front end of the inlet of the circulation pump 120.

When the water pressure sensed by the water pressure sensing unit 170 is higher than the first water pressure, the circulation pump 120 can be operated in a state where the water supplement valve 190 is opened.

The present invention relates to an air conditioner comprising an enclosed expansion tank (150), a water pressure sensing part (170) for sensing the water pressure of water flowing in the piping connected to the enclosed expansion tank (150) A water replenishing method of a closed boiler having a water replenishing valve (190) and a circulating pump (120) for circulating water in the pipe, comprising: a) a first water pressure Sensing by the hydraulic pressure sensing unit 170 that the hydraulic pressure has been reached; b) opening the water replenishment valve (190) to replenish water in the pipe, and circulating the water inside the pipe by operating the circulation pump (120); and closing the water replenishment valve (190) if it is determined that the water pressure inside the pipe is sufficient for the operation of the boiler.

If the water pressure reaches the first water pressure in step a), the combustion operation of the boiler is stopped, and the circulation pump 120 is stopped, and then step b) may be performed.

When the water replenishment is performed in step b) and the water pressure sensed by the water pressure sensing part 170 becomes higher than the first water pressure, the circulation pump 120 can be operated.

In the step c), the water replenishment valve 190 is closed and the circulation pump 120 is operated to circulate the water in the pipe.

If the water pressure sensed by the water pressure sensing unit 170 during the operation of the circulation pump 120 in the step c) becomes the first water pressure, the operation of the circulation pump 120 is stopped and the water replenishment valve 190 Can be opened.

In the step c), the water pressure inside the pipe which is determined to be sufficient for the operation of the boiler may be detected by the water pressure sensing unit 170 as a second water pressure higher than the first water pressure.

According to the present invention, by simultaneously operating the circulation pump in a state in which the water replenishment valve is opened, the internal pressure of the pipe can be temporarily raised to prevent the replenishment operation of the water from being repeated.

Further, by operating the circulation pump in the course of water replenishment in the piping, it is possible to shorten the residual air removal time in the piping.

1 is a view showing the construction of a boiler according to the present invention;
2 is a flowchart showing a water replenishing process of the boiler according to the present invention;

Hereinafter, a water replenishing device and a water replenishing method of a closed type boiler according to the present invention will be described in detail with reference to the accompanying drawings.

1, the closed type boiler 1 according to the present invention includes a heat exchanger 110 for performing heat exchange with the combustion heat of a burner, a circulation loop for supplying heating water heated by the heat exchanger 110 to a heating destination, A pump 120, a three-way valve 130 for selectively supplying the heating water supplied from the heat exchanger 110 to one of the heating source and the hot water heat exchanger 140, A hot water heat exchanger 140 for supplying hot water by heat exchange between the hot water and the direct water, an expansion device for storing water flowing inside the pipe connecting the heat exchanger 110 and the heating destination and the circulation pump 120, A water replenishment valve 190 which is opened and closed to replenish water by introducing direct water when the water inside the pipe is insufficient, a circulation pump 120 and a three-way valve 130 and a water replenishment valve 190 And a control unit (not shown) for controlling the operation of the apparatus.

The piping connecting the respective components includes a heating supply pipe 181 connecting between the outlet of the heat exchanger 110 and a heating source, and a heating pipe 181, which passes through the heating source, returns to the heat exchanger 110 A hot water inflow pipe 184 through which hot water heated while passing through the hot water heat exchanger 140 is discharged, a hot water inflow pipe 184 through which the heated hot water is discharged through the hot water inflow pipe 182, a straight water inflow inlet 183 into which the hot water flows into the hot water heat exchanger 140, A supplementary water supply inlet pipe 185 connecting the direct oil inflow pipe 183 and the heating water pipe 182, a hot water heat exchange inlet pipe 186 connecting between the three-way valve 130 and the inlet of the hot water heat exchanger 140, , And a hot water heat exchanger outlet port (187) for connecting the outlet of the hot water heat exchanger (140) and the heat return pipe (182).

A water pressure sensing unit 170 for sensing a water pressure of water passing through the heating water return pipe 182 is provided at a front end of the inlet of the circulation pump 120. The water pressure sensing unit 170 includes a first water pressure switch 171 for detecting whether the water pressure of the water reaches the first water pressure (low water pressure), a water pressure sensor for detecting whether the water pressure of the water is higher than the first water pressure And a second hydraulic pressure switch 172 for detecting whether the hydraulic pressure reaches the hydraulic pressure switch 172 or not.

If the water pressure in the pipe is lower than the first water pressure, the first water pressure switch 171 is turned off, indicating that the water in the pipe is insufficient for performing heating. When the water pressure in the pipe reaches the first water pressure, the first water pressure switch 171 is turned on to indicate that the water is replenished to the minimum level in the pipe. When the water pressure in the pipe is between the first water pressure and the second water pressure, a certain amount of water is replenished in the pipe, and when the second water pressure is reached, sufficient water is replenished in the pipe.

The expansion tank 150 is shut off from the atmosphere and absorbs the volume of the expanded heating water when the temperature of the heating water becomes high.

The direct-flow-in-oil inlet 183 is provided with a flow rate sensor 160 for detecting the flow of direct water at the time of supplying hot water.

(Not shown) may be provided on the heating water return pipe 182 to remove air contained in the water inside the pipe.

A water pressure sensor (not shown) may be used to sense the first water pressure and the second water pressure instead of the first / second water pressure switches 171 and 172 described above. The hydraulic pressure sensor measures the hydraulic pressure at a continuous value and transmits the measured value to the control unit when the measured hydraulic pressure reaches the first hydraulic pressure and the second hydraulic pressure.

When the second water pressure is sensed in this manner, it is possible to clearly confirm that the inside of the pipe has reached the appropriate water pressure by replenishing the water, so that it is possible to prevent the water pressure inside the pipe from being supplemented sufficiently or supplemented with overpressure more than necessary.

However, the hydraulic pressure sensing unit 170 may include only the first hydraulic pressure switch 171 for sensing the first hydraulic pressure. In this case, the first water pressure is sensed and the water replenishment valve 190 is opened, and water replenishment is performed for a predetermined time.

The hydraulic pressure sensing unit 170 is provided at a front end of the circulation pump 120 so that when a second hydraulic pressure of a desired hydraulic pressure is sensed at a front end of the inlet of the circulation pump 120, It can be seen that the water pressure has been reached. Therefore, the water pressure of the entire piping can be sufficiently raised to the second water pressure.

Reference numeral 195 denotes a check valve.

A method of replenishing water in a closed boiler of the present invention having the above-described configuration will be described with reference to FIG.

Step S10 is a step of operating the boiler 1.

Step S11 is a step in which the first water pressure switch 171 detects that the water pressure of water in the pipe during operation of the boiler 1 is lowered to the first water pressure and is in a low water pressure state. The first water pressure is a reference pressure that requires water replenishment because the water pressure of the water in the pipe is low.

When the water pressure of the water in the pipe falls to the first water pressure, steps S12 and S13 are performed to stop the combustion operation of the boiler 1 and to stop the circulation pump 120 by determining that water replenishment is necessary.

Step S14 is a step of opening the water replenishment valve 190 for replenishment of water in the pipe. When the water replenishment valve 190 is opened, direct water is introduced through the direct milk feed inlet 183 and the supplementary milk feed inlet 185, and then filled in the heat return pipe 182 and the heating feed pipe 181.

Step S15 is a step of determining whether or not the water pressure in the pipe becomes higher than the first water pressure based on the low water pressure and the low water pressure state is released as a result of opening the water replenishment valve 190 and replenishing water. As a result of the determination, if the low water pressure state is released, the process proceeds to step S16; otherwise, step S15 is repeated.

Step S16 is a step of activating the circulation pump 120. [ The circulation pump 120 circulates water in the pipe through the heating pipe 181, the heating destination, and the heating water return pipe 182, and the air contained in the circulating water can be removed from the water separator have.

When the circulation pump 120 is operated in a state where the water replenishment valve 190 is opened and the water replenishment is proceeding as described above, the water pressure in the pipe can be increased to some extent, The problem of repeating the process can be solved. Further, since the air contained in the water together with the water replenishment is simultaneously removed from the water separator, the time for removing the residual air in the pipe is shortened.

In this case, the circulation pump 120 may be configured to operate for a certain period of time for discharging residual air while the water pressure in the pipe reaches the second water pressure and after the second water pressure is reached.

Step S17 is a step of determining whether the water pressure in the pipe reaches the second water pressure, which is a criterion of high water pressure, by sensing the second water pressure switch 172. [ As a result of the determination, if it is detected that the water pressure is high, the process proceeds to step S18; otherwise, the process repeats step S17.

In step S18, it is determined that the water replenishment is completed as the water pressure in the pipe reaches the second water pressure, the water replenishment valve 190 is closed, and the circulation pump 120 is kept in operation for a certain period of time until the residual air in the pipe is discharged .

Step S19 is a step of determining whether the first water pressure switch 171 detects the first water pressure by lowering the water pressure in the pipe by the operation of the circulation pump 120. [ As a result of the determination, if the first water pressure switch 171 detects the first water pressure, the process proceeds to step S13, and the process described above is repeated. Otherwise, the water supplement process ends.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And this also belongs to the present invention.

1: sealed boiler 110: heat exchanger
120: circulation pump 130: three-way valve
140: hot water heat exchanger 150: expansion tank
160: Flow sensor 170: Water pressure sensor
171: first pressure switch 172: second pressure switch
181: Heating supply pipe 182: Heating return pipe
183: direct milk infusion 184: hot water outlet tube
185: supplementary feeding infusion 186: hot water heat exchange entry hole
187: Hot Water Heat Exchanger Exit 190: Water Replacement Valve

Claims (10)

In a water replenishing device for a closed boiler having an enclosed expansion tank (150)
A water pressure sensing unit 170 for sensing whether the water pressure of the water flowing inside the pipe connected to the closed expansion tank 150 reaches a first water pressure requiring water replenishment;
A water replenishment valve 190 opened and closed to replenish the water inside the pipe;
A circulation pump (120) circulating water inside the pipe;
A control unit for controlling the circulation pump 120 to operate in a state that the water replenishment valve 190 is opened and water is replenished when the water pressure detected by the water pressure sensing unit 170 is the first water pressure; Lt; / RTI >
The water replenishing valve 190 of the closed type boiler in which the circulation pump 120 is operated when the water pressure sensed by the water pressure sensing unit 170 is higher than the first water pressure, The method according to claim 1,
The water pressure sensing unit 170 includes a first water pressure switch 171 for sensing the first water pressure and a second water pressure sensor 173 for sensing the water pressure in the pipe as a water pressure sufficient to operate the boiler, And a second water pressure switch (172) for detecting whether or not the water is supplied to the boiler The method according to claim 1,
Wherein the water pressure sensing unit (170) is installed at a front end of the inlet of the circulation pump (120) delete A closed type expansion tank 150, a water pressure sensing part 170 sensing the water pressure of water flowing in the piping connected to the closed expansion tank 150, a water replenishment valve (not shown) 190), and a circulation pump (120) for circulating water in the pipe, the method comprising:
a) sensing by the water pressure sensing unit 170 that the water pressure inside the pipe has reached the first water pressure judged to be necessary for water replenishment;
b) opening the water replenishment valve (190) to replenish water in the pipe, and circulating the water inside the pipe by operating the circulation pump (120);
and closing the water replenishment valve (190) if it is determined that the water pressure inside the pipe is sufficient for the operation of the boiler,
When the water replenishment is performed in step b) and the water pressure sensed by the water pressure sensing part 170 becomes higher than the first water pressure, the water replenishment method of the closed type boiler in which the circulation pump 120 is operated 6. The method of claim 5,
Characterized in that in the step a), when the water pressure reaches the first water pressure, the burning operation of the boiler is stopped, the circulation pump (120) is stopped and then step b) Supplementary method delete 6. The method of claim 5,
Wherein the circulation pump (120) is operated after the water replenishment valve (190) is closed in the step (c) to circulate the water inside the pipe. 9. The method of claim 8,
If the water pressure sensed by the water pressure sensing unit 170 during the operation of the circulation pump 120 in the step c) becomes the first water pressure, the operation of the circulation pump 120 is stopped and the water replenishment valve 190 The method for replenishing water in an enclosed boiler 6. The method of claim 5,
Wherein the water pressure detected in step c) by the hydraulic pressure sensing unit 170 as a second water pressure higher than the first water pressure is judged to be sufficient for the water pressure inside the pipe to be sufficient for the operation of the boiler. Water replenishment method

Images