KR20090050448A - Method for controling energy saving type boiler - Google Patents

Abstract

A low boiling water boiler control method is disclosed. In the direct water temperature comparison step, the temperature of the direct water flowing from the water flow switch is compared with a preset direct water set temperature, and a seasonal value is calculated. When the heating / hot water mode is set in the heating / hot water mode control step, the heating and heating of the hot water tank are controlled according to the preset low temperature and high temperature setting temperature. According to the low-water boiler control method according to the present invention, since the fresh water in the hot water tank is kept warm in the hot water tank, it can supply abundant hot water through this, hot water sandwich phenomenon does not occur, and according to the season Since the hot water of the temperature is drained, the user can conveniently use the hot water. In addition, by controlling the flow control valve, the heating water is properly distributed to the plate heat exchanger and the hot water tank, and the hot water discharged is heated and discharged through the plate heat exchanger, so that the temperature of the hot water can be raised to a set temperature in a short time and kept constant. And according to the boiler setting mode it is possible to properly distribute the amount of heat used to heat the hot water can use energy efficiently and thereby reduce the waste of gas costs.

Water heater, boiler, hot water tank, plate heat exchanger, heating water, hot water

Description

Control method of low boiling water boiler {METHOD FOR CONTROLING ENERGY SAVING TYPE BOILER}

The present invention relates to a low temperature boiler control method, and more particularly, to a low temperature boiler control method for smoothly supplying heating and hot water.

In general, boilers provide the heating of houses and buildings, as well as hot water used by residents. The boiler heats and supplies the direct water supplied to the boiler to the set temperature according to the temperature of the hot water set by the user.

11 is a block diagram showing a conventional instant boiler configuration.

Referring to FIG. 11, the existing instant boiler 1 includes a water tank 10 for storing water used as heating water, heat generating means 20 for heating water supplied from the water tank 10, and The pump 30 supplies water stored in the water tank 10 to the heat generating means 20, and circulates the heating water heated by the heat generating means 20, and direct water is supplied by the water flow switch 40. A heat exchanger 60 in which heat exchange is performed between the direct water supplied from the direct water pipe 50 to be supplied and the heating water, and a triangular valve 80 selectively supplying the heating water to the heat exchanger 60 or the heating pipe 70; The entire apparatus of the boiler is controlled according to a hot water pipe 90 through which hot water heat exchanged by the heat exchanger 60 is discharged, an operation unit 95 for receiving a user's operation command, and an operation command input from the operation unit 95. It is configured to include a controller 97.

In order to explain the hot water supply process according to the use of hot water in the existing instant boiler (1), first of all the existing instant boiler (1) by the control of the controller 97 with the water flow switch 40 is turned on three-way Suppose that 80 is connected to a passage of hot water pipes 90 to supply hot water. Here, the water flow switch 40 is a component used to electrically detect the flow of fluid such as water or oil inside the pipe. The state of the water flow switch 40 is transmitted to the controller 97, and the controller 97 ) Controls the passage connection of the three sides 80 to the hot water pipe (90) side so that the user can use hot water. The water supplied from the water tank 10 is supplied to the heat generating means 20 by the pump 30 and the heating water (heating water), which is the water heated by the heat generating means 20, is passed through the three-way valve 80. Flow to heat exchanger (60). In the heat exchanger 60, as already known, heat is exchanged with the water heated in the heat generating means 20 and the direct water supplied from the straight pipe 50. The direct water supplied from the direct pipe 50 is elevated in temperature by the heat exchanger 60 and is supplied through the hot water pipe 90.

Existing instant boiler (1) by detecting the flow of hot water to operate the boiler when necessary, there is a limit to the use of abundant hot water and there is a problem that a hot water sandwich phenomenon occurs until the reuse after using hot water. That is, when the boiler is operated at the initial use of hot water, the boiler is turned off when the hot water is stopped, and the hot water is restarted and the boiler is started again, the hot water is lukewarm or cold As the hot water is reused, a hot sandwich phenomenon occurs in which cold water is tapped for a predetermined time after the initial warm water is tapped and the hot water is tapped again.

The technical problem to be achieved by the present invention is to provide a low-water boiler control method that can use abundant hot water, prevent the occurrence of hot water sandwich phenomenon, and to supply hot water of the appropriate temperature according to the season.

Another technical problem to be achieved by the present invention is to provide a low-boiling boiler control method for increasing the temperature of hot water to a set temperature in a short time and maintain a constant.

Another technical problem to be achieved by the present invention is to provide a low-boiling boiler control method that can efficiently use the energy used to heat the direct water according to the season and the boiler setting mode.

In order to achieve the above technical problem, the low-water boiler control method according to the present invention includes a direct water temperature comparison step of calculating a seasonal value by comparing the temperature of the direct water flowing from the water flow switch with a preset direct water set temperature; And a hot water heating control step of controlling heating of the hot water tank and the plate heat exchanger according to the calculated seasonal value.

The hot water heating control step may include: a low temperature control step of controlling heating of the hot water tank according to a preset low temperature and high temperature preset temperature when the seasonal value is a summer value; And an integrated control step of selectively heating the plate heat exchanger and the hot water tank according to the state of the water flow switch if the seasonal value is a winter value.

And the integrated control step, the step of controlling the heating of the plate heat exchanger according to the preset hot water high temperature set temperature when the state of the water flow switch is on; And controlling the heating of the hot water tank according to the preset low temperature low temperature setting temperature and the low temperature high temperature setting temperature when the water flow switch is in the off state.

Preferably, the low temperature boiler control method further includes a heating / hot water mode control step of controlling heating and heating of the hot water tank according to a preset low temperature and high temperature setting temperature and low temperature and low temperature setting temperature when the heating / hot water mode is set. In the heating / hot water mode control step, it is preferable to control the heating and heating of the hot water tank by adjusting the flow rate of the heating water.

According to the low-water boiler control method according to the present invention, since the fresh water in the hot water tank is kept warm in the hot water tank, it can supply abundant hot water through this, hot water sandwich phenomenon does not occur, and according to the season Since the hot water of the temperature is drained, there is an effect that the user can conveniently use the hot water.

In addition, according to the method of controlling the low temperature boiler according to the present invention, the heating water is properly distributed to the plate heat exchanger and the hot water tank by the control of the flow regulating valve, and the hot water discharged is heated and discharged through the plate heat exchanger, thereby shortening the temperature of the hot water. The effect is to increase the set temperature and keep it constant.

In addition, according to the low-water boiler control method according to the present invention, it is possible to properly distribute the amount of heat used to heat the hot water according to the season and the boiler setting mode, it is possible to use energy efficiently, thereby reducing the waste of gas costs There is.

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

Figure 1 is a block diagram showing the configuration of a preferred embodiment of a low-water boiler according to the present invention.

Referring to Figure 1, the low-water boiler 100 according to the present invention is a water tank 110, heat generating means 120, pump 130, water flow switch 140, water pipe 150, plate heat exchanger 160, a hot water tank 165, a heating pipe 170, a flow control valve 180, a hot water pipe 190, a controller 197, and an operation unit 195.

The water tank 110 stores water used as heating water, and the heat generating means 120 heats the water supplied from the water tank 110. The pump 130 supplies heating water, which is water stored in the water tank 110, to the heat generating means 120, and supplies the heating water heated by the heat generating means 120 to the flow control valve 180 and the heating pipe 170. Circulate through

The water flow switch 140 supplies direct water used as hot water from the direct water pipe 150 and flows it into the hot water tank 165. The hot water tank 165 receives fresh water from which the water flow switch 140 flows. The size of the hot water tank 165 is preferably less than 10 liters (L). By reducing the size of the hot water tank 165, the hot water tank 165 has a small amount of fresh water, so it is possible to reduce the energy used to heat the fresh water is hot water, and the cost of installing the hot water tank 165 is Less. Therefore, the low-boiling boiler 100 according to the present invention has an effect that the installation cost is low, and can efficiently use the energy used to heat the hot water to reduce the waste of gas costs.

In addition, the hot water tank 165 uses the heat of the heating water supplied from the flow control valve 180 to heat the fresh water. That is, the hot water tank 165 heats the fresh water and heats the heating water by performing heat exchange between the fresh water and the heating water. Therefore, fresh water is kept at a predetermined temperature. Here, the temperature of the fresh water is adjusted according to the temperature and the amount of heating water supplied.

And the hot water tank 165 sends fresh water to hot water. Since the fresh water in the hot water tank 165 is kept warm in the hot water tank 165, the low-boiling boiler 100 according to the present invention can supply abundant hot water through this, hot water sandwich does not occur The user can use hot water conveniently.

The flow control valve 180 receives the heating water heated by the heat generating means 120 and selectively supplies the introduced heating water to the hot water tank 165. The heating water supplied by the flow control valve 180 to the hot water tank 165 is heat-exchanged with the fresh water in the hot water tank 165. The flow control valve 180 may receive direct water directly from the heat generating means 120 or may receive direct water through another three-way valve. Here, the flow control valve 180 is a kind of three-sided inlet of the flow control valve 180 may be connected to the heat generating means 120 or other three-sided, the outlet side of the flow control valve 180 is a hot water tank The other side of the outlet 165 may be connected to the heating pipe 170, the plate heat tube 160, or other three sides according to various embodiments.

The plate heat exchanger 160 heats the hot water sent by the hot water tank 165 through heat exchange with the heating water and drains it to the hot water pipe 190. Plate heat exchanger 160 is effective to increase the hot water temperature in a short time and maintain a constant, the hot water boiler 100 according to the present invention to increase the temperature of the hot water to the hot water set temperature set in accordance with the user's operation command in a short time And hot water maintained at a constant temperature.

The hot water pipe 190 discharges the hot water sent by the hot water tank 165 or the hot water heated by the plate heat exchanger 160 to the outside of the boiler.

The operation unit 195 performs a function of receiving a user's operation command. As an example, the operation unit 195 is a hot water high temperature for controlling the temperature of the hot water settled in the hot water tank 165 to control the temperature of the hot water and low temperature low temperature set temperature or the hot water drained from the plate heat exchanger 160. It performs the function of receiving set temperature or inputting operation command to set them.

 The controller 197 controls the overall apparatus of the boiler in accordance with an operation command input from the operation unit 95. In other words, the controller 197 controls the flow of the heating water by controlling the flow rate control valve 180 and the three-way outlet change based on the low hot water high temperature, the low hot water low temperature, and the hot hot high temperature temperature. In addition, the controller 197 controls the heating of the plate heat exchanger 160 and the hot water tank 165 by controlling the inflow of heating water into the plate heat exchanger 160 and the hot water tank 165, and the plate heat exchanger 160. And controlling the temperature of the hot water tank 165 to adjust the temperature of the hot water.

Figure 2 is a block diagram showing the structure of a preferred embodiment of the water-type boiler according to the present invention.

2, the inlet of the flow control valve 280 is connected to the outlet side of the three-way side 282 connected to the heat generating means 220, the outlet side of the flow control valve 280 is a hot water tank 265 It is connected with, the other side of the outlet is connected to the plate heat exchanger (260). Here, the other side of the three-way side 282 is connected to the heating pipe 270.

Hot water supply process according to the use of hot water in the water-type boiler 200 according to the present invention will be described. In the low boiling water boiler 200 according to the present invention, the flow rate switch 140 is turned on, and the flow rate control valve 280 is connected to the plate heat exchanger 260 by the control of the controller 197 to supply hot water. Assume that it is a state. The water supplied from the water tank 210 is supplied to the heat generating means 220 by the pump 230 and the heating water I ₀ , which is the water heated by the heat generating means 220, passes through the three-way valve 282. Flow to the flow control valve 280. The heating water I ₂ introduced into the flow control valve 280 from the three-way valve 282 flows into the plate heat exchanger 260. In the plate heat exchanger 260, as described above, heat exchange is performed between the heating water I ₃ introduced from the flow control valve 280 and the hot water L ₁ sent from the hot water pipe 265. Accordingly, the hot water L ₁ supplied from the hot water tank 265 is elevated in temperature by the plate heat exchanger 260 and is drained through the hot water pipe 290.

When the water flow switch 140 is turned off, the flow control valve 280 is connected to the hot water tank 165 by the control of the controller 197, and the heating water I ₄ flows into the hot water tank 265. As described above, in the hot water tank 265, heat exchange is performed between the fresh water L ₀ and the introduced heating water I ₄ . In addition, when the water flow switch 140 is turned off, the three-way side 282 is connected to the heating pipe 270 side by the control of the controller 197 so that the heating water I ₁ flows into the heating pipe 270. It may be. That is, the inflow of the heating water I ₄ into the hot water tank 265 is controlled by the controller 197. Therefore, in the low temperature boiler 200 according to the present invention, when a sufficient amount of heat is maintained to maintain the hot water temperature, the hot water tank 265 is returned to the hot water tank 265 when a part of heat remaining under the control of the controller 197 is controlled. By slightly heating the water in advance, more flow rate of hot water can be ensured, and thus hot water sandwiching can be prevented.

Figure 3 is a block diagram showing the structure of another preferred embodiment for the water-type boiler according to the present invention.

Referring to FIG. 3, the inlet of the flow control valve 380 is connected to the plate heat exchanger 360, the outlet side of the flow control valve 380 is connected to the hot water tank 365, and the outlet of the flow control valve 380 is the pump 330. ). In addition, when the inlet of the three-way side 382 is connected to the heat generating means 320 and one side of the outlet of the three-way side 382 is connected to the plate heat integrator 360, the other side of the outlet is connected to the heating pipe 370.

Hot water supply process according to the use of hot water in the low-water boiler 300 according to the present invention will be described. In the low-water boiler 300 according to the present invention, the three-way valve 382 is connected to the plate heat exchanger 360 side by the control of the controller 197 with the water flow switch 140 turned on to supply hot water. Assume that The water supplied from the water tank 310 is supplied to the heat generating means 320 by the pump 330 and the heating water I ₀ , which is the water heated by the heat generating means 320, passes through the three-way valve 382. Flow into plate heat exchanger (360). That is, the heating water I ₂ flows into the plate heat exchanger 360 from the three-way side 382. In the plate heat exchanger 360, as described above, heat exchange is performed between the heating water I ₂ introduced into the three-way side 382 and the hot water L ₁ sent out from the hot water pipe 365. Accordingly, the hot water (L ₁ ) supplied from the hot water tank 365 is elevated in temperature by the plate heat exchanger 360 is drained through the hot water pipe 390.

And the heating water (I ₃ ) heat exchanged in the plate heat exchanger (360) is introduced into the flow control valve 380, as described above in the hot water tank (365) fresh water (L ₀ ) and the introduced heating water Heat exchange takes place between (I ₃ ). At this time, when the water flow switch 140 is turned off, the three-way side 382 is connected to the heating pipe 370 by the control of the controller 197 and the heating water I ₁ flows into the heating pipe 370. do. Therefore, the low-temperature boiler 300 according to the present invention uses the heating water flowing from the plate heat exchanger 360 in the hot water tank 365, so that separate energy is required to warm the fresh water in the hot water tank 365. Therefore, energy can be used efficiently and gas waste can be reduced.

Figure 4 is a block diagram showing the structure of another preferred embodiment for the water-heat boiler according to the present invention.

Referring to Figure 4, the inlet of the flow control valve 480 is connected to the three-way side 482, the outlet side of the flow control valve 480 is connected to the hot water tank 465, the other end of the heating pipe 470 ). And when the inlet of the three-way 482 is connected to the heat generating means 420 and one side of the outlet of the three-way 482 is connected to the plate-type heat integrator 460, the other side of the outlet is connected to the inlet of the flow control valve 480 do.

Hot water supply process according to the use of hot water in the low-water boiler 400 according to the present invention will be described. In the low-temperature boiler 400 according to the present invention, the three-way valve 482 is connected to the plate heat exchanger 460 by the control of the controller 197 with the water flow switch 140 turned on to supply hot water. Assume that The water supplied from the water tank 410 is supplied to the heat generating means 420 by the pump 430 and the heating water I ₀ , which is the water heated by the heat generating means 420, passes through the three-way valve 482. Flow through plate heat exchanger (460). That is, the heating water I ₂ flows into the plate heat exchanger 460 from the three-way side 482. In the plate heat exchanger 460, as described above, heat exchange is performed between the heating water I ₂ introduced into the three-way 482 and the hot water L ₁ sent out from the hot water pipe 465. Accordingly, the hot water (L ₁ ) supplied from the hot water tank 465 is elevated in temperature by the plate heat exchanger 460 is drained through the hot water pipe 490. In addition, the heating water I _{3 that} has undergone heat exchange in the plate heat exchanger 460 flows into the pump 430.

At this time, when the water flow switch 140 is turned off, the three-way side 382 is connected to the flow control valve 480 side by the control of the controller 197 so that the heating water I ₁ flows through the flow control valve 480. Flows into. When the flow rate control valve 480 is connected to the hot water tank 465 by the control of the controller 197, the heating water I ₄ flows into the hot water tank 465. Then, as described above, in the hot water tank 465, heat exchange is performed between the fresh water L ₀ and the introduced heating water I ₄ . Therefore, the low-temperature boiler 400 according to the present invention may appropriately distribute the heat amount between the heating water and the hot water by adjusting the flow control valve 480 under the control of the controller 197.

Figure 5 is a block diagram showing the structure of another preferred embodiment for the water-type boiler according to the present invention.

Referring to Figure 5, the inlet of the flow control valve 580 is connected to the heat generating means 520, the outlet side of the flow control valve 580 is connected to the hot water tank 565, the outlet side is the three-sided ( Connected to the inlet of 582). And one side of the outlet of the three-sides (582) is connected to the heating pipe 570, the other end is connected to the plate heat exchanger (560).

Hot water supply process according to the use of hot water in the water-type boiler 500 according to the present invention will be described. In the low water type boiler 500 according to the present invention, the flow rate control valve 580 is turned on and the flow rate control valve 580 is connected to the three-way side 582 by the control of the controller 197, and the three-way side 582 is connected. It is assumed that the passage is connected to the plate heat exchanger 560 and is supplying hot water. The water supplied from the water tank 510 is supplied to the heat generating means 520 by the pump 530, and the heating water I ₀ , which is the water heated by the heat generating means 520, passes through the flow control valve 580. To the three-sided direction 582. The heating water I ₁ introduced from the flow control valve 580 into the three-way valve 582 flows into the plate heat exchanger 560. In the plate heat exchanger 560, as described above, heat exchange is performed between the heating water I ₃ introduced into the three-way side 582 and the hot water L ₁ sent out from the hot water pipe 565. Accordingly, the hot water L ₁ supplied from the hot water tank 565 is elevated by the plate heat exchanger 560 and is drained through the hot water pipe 590.

When the water flow switch 140 is turned off, the flow control valve 580 is connected to the hot water tank 165 by the control of the controller 197 so that the heating water I ₂ flows into the hot water tank 565. As described above, in the hot water tank 565, heat exchange is performed between the fresh water L ₀ and the introduced heating water I ₂ .

In addition, when the water flow switch 140 is turned off, the three-sided direction 582 is connected to the heating pipe 570 side by the control of the controller 197 so that the heating water I ₄ flows into the heating pipe 570. It may be. That is, the inflow of the heating water between the heating pipe 570 and the hot water tank 565 is controlled according to the control of the controller 197. Therefore, the low-temperature boiler 500 according to the present invention receives the heating water I ₀ heated from the heat generating means 520 under the control of the controller 197 when the heat amount sufficient to maintain the hot water temperature comes out of the boiler. Can be introduced directly into the hot water tank 565 to properly decompose the heat amount between the heating water and the fresh water in the hot water tank, it is possible to use abundant hot water and maintain a constant temperature of the hot water.

Figure 6 is a flow chart showing a preferred embodiment of a method for controlling a water boiler according to the present invention.

Referring to FIG. 6, the controller 197 checks whether the mode of the low-heat boiler 100 according to the present invention is a heating / hot water mode or a hot water exclusive mode (S600). When the mode of the low-heat boiler 100 according to the present invention is a hot water only mode, the controller 197 detects the state of the water flow switch 140 (S610). When the state of the water flow switch 140 is in the on state, the controller 197 calculates a seasonal value by comparing the temperature of the water flowed in from the water flow switch 140 with a preset water set temperature. For example, the controller 197 calculates the seasonal value as the summer value when the temperature of the direct water is greater than or equal to the direct water set temperature, and otherwise calculates the seasonal value as the winter value. If the state of the water flow switch 140 is in the off state, the controller 197 performs step S600 again.

The controller 197 checks whether the calculated seasonal value is a summer value or a winter value (S630). If the calculated seasonal value is a summer value, the controller 197 controls the heating of the hot water tank 165 according to the preset low temperature and high temperature preset temperature (S640). That is, the controller 197 performs a water drop control step. If the calculated seasonal value is a winter value, the controller 197 selectively heats the plate heat exchanger 160 and the hot water tank 165 according to the state of the water flow switch 140 (S650). That is, the controller 197 performs an integrated control step. Here, the heating of the hot water tank 165 and the plate heat exchanger 160 is controlled by changing the outlet of the flow regulating valve 180 and the three-way valves 282, 382, 482, and 582 to block the inflow or inflow of heating. Can be executed. The low-pressure boiler control method according to the present invention by heating the plate heat exchanger 160 and the hot water tank 165 alternately according to the direct water temperature in summer and winter, the amount of water but the summer and the amount of water is required Small but high temperature hot water is required in winter, such as winter season can supply the appropriate temperature of hot water and hot water.

When the mode of the low temperature boiler 100 according to the present invention is a heating / hot water mode, the controller 197 heats and heats the hot water tank 165 according to a preset low hot water high temperature and low hot water low temperature preset temperature. To control (S660). That is, the controller 197 performs a heating / hot water mode control step. Here, the heating heating means that the heating water heated by the heat generating allowance 120 is circulated through the heating pipe 170. The low temperature boiler control method according to the present invention controls the heating and heating of the hot water tank 165 according to the low hot water high temperature and low hot water temperature setting temperature, when the temperature of the fresh water in the hot water tank 165 falls Preheating can be maintained at a temperature above the low temperature low temperature set temperature, and thus hot water can always be supplied above a certain temperature so that the user can use hot water conveniently.

7 is a flowchart illustrating an exemplary embodiment of a water storage control step of the water storage boiler control method according to the present invention.

Referring to FIG. 7, the controller 197 heats the hot water tank 165 (S700). In addition, the controller 197 compares the temperature of the fresh water in the hot water tank 165 with a preset low hot water set temperature (S710). When the temperature of the fresh water in the hot water tank 165 is equal to or higher than the low temperature set temperature, the controller 197 turns off the low temperature boiler 100 according to the present invention (S720). In addition, the controller 197 compares the temperature of the fresh water in the hot water tank 165 with a preset low temperature low temperature setting temperature (S730). If the temperature of the fresh water in the hot water tank 165 is equal to or higher than the low temperature low temperature setting temperature, the controller 197 turns off the low temperature boiler 100 according to the present invention (740).

8 is a flowchart illustrating a preferred embodiment of the integrated control step of the low-water boiler control method according to the present invention.

Referring to FIG. 8, the controller 197 heats the plate heat exchanger 160 (S800). The controller 197 detects the state of the water flow switch 140 (S810). When the state of the water flow switch 140 is in the on state, the controller 197 compares the temperature of the hot water with a preset hot water high temperature setting temperature (S820). When the temperature of the hot water is equal to or higher than the hot water set temperature, the controller 197 turns off the low-boiling boiler 100 according to the present invention (S830).

When the state of the water flow switch 140 is in the off state, the controller 197 compares the temperature of the fresh water in the hot water tank 165 with a preset low temperature low temperature setting temperature (S840). The controller 197 heats the hot water tank 165 when the temperature of the fresh water in the hot water tank 165 is low in the low temperature low temperature setting temperature (S850).

The controller 197 detects the state of the water flow switch 140 (S860). When the state of the water flow switch 140 is in the on state, the controller 197 performs step S820 again. When the state of the water flow switch 140 is in the off state, the controller 197 compares the temperature of the fresh water in the hot water tank 165 with a preset low temperature high temperature setting temperature (S870). The controller 197 turns off the low-heat boiler 100 according to the present invention when the temperature of the fresh water in the hot water tank 165 is equal to or higher than the low-temperature high temperature set temperature (S880). Alternatively, the controller 197 performs step S860 again when the temperature of the fresh water in the hot water tank 165 is lower than the low hot water set temperature.

9 is a flowchart illustrating a preferred embodiment of the heating / hot water mode control step of the low-water boiler control method according to the present invention.

Referring to FIG. 9, the controller 197 performs heating and heating (S900). The controller 197 compares the temperature of the fresh water in the hot water tank 165 with a preset low temperature low temperature setting temperature (S910). When the temperature of the fresh water in the hot water tank 165 is low, the low temperature low temperature setting temperature, the controller 197 heats the hot water tank 165 (S920). When the temperature of the fresh water in the hot water tank 165 is equal to or higher than the low temperature low temperature setting temperature, the controller 197 performs step S900 again.

The controller 197 compares the temperature of the fresh water in the hot water tank 165 with a preset low hot water set temperature (S930). When the temperature of the fresh water in the hot water tank 165 is equal to or higher than the low hot water set temperature, the controller 197 performs heating and heating (S940). When the temperature of the fresh water in the hot water tank 165 is smaller than the low hot water set temperature, the controller 197 performs step S920 again.

10 is a flow chart showing another preferred embodiment of the heating / hot water mode control step of the low-water boiler control method according to the present invention.

Referring to FIG. 10, the controller 197 performs heating and heating (S1000). The controller 197 compares the temperature of the fresh water in the hot water tank 165 with a preset low temperature low temperature setting temperature (S1010). If the temperature of the fresh water in the hot water tank 165 is low, the low temperature low temperature set temperature, the controller 197 controls the flow rate of the heating water to heat the hot water tank 165 (S1020). When the temperature of the fresh water in the hot water tank 165 is equal to or higher than the low temperature low temperature setting temperature, the controller 197 performs step S1000 again.

The controller 197 compares the temperature of the fresh water in the hot water tank 165 with a preset low hot water set temperature (S1030). When the temperature of the fresh water in the hot water tank 165 is equal to or higher than the low hot water set temperature, the controller 197 heats the heating (S1040). When the temperature of the fresh water in the hot water tank 165 is smaller than the low hot water set temperature, the controller 197 performs step S1020 again. The low-water boiler control method according to the present invention is heated in the hot water tank 165 by adjusting the flow rate of the heating water in step S1020, there is an advantage of using a fluid and continuous calories.

Although the preferred embodiments of the present invention have been shown and described above, the present invention is not limited to the specific preferred embodiments described above, and the present invention belongs to the present invention without departing from the gist of the present invention as claimed in the claims. Various modifications can be made by those skilled in the art, and such changes are within the scope of the claims.

Figure 1 is a block diagram showing the configuration of a preferred embodiment for a water boiler according to the present invention,

Figure 2 is a block diagram showing the structure of a preferred embodiment of a low-water boiler according to the present invention,

Figure 3 is a block diagram showing the structure of another preferred embodiment for a water boiler according to the present invention,

Figure 4 is a block diagram showing the structure of another preferred embodiment for the water-heat boiler according to the present invention,

Figure 5 is a block diagram showing the structure of another preferred embodiment for the water-heat boiler according to the present invention,

Figure 6 is a flow chart showing a preferred embodiment of a water heater control method according to the invention,

Figure 7 is a flow chart showing a preferred embodiment of the water storage control step of the water storage boiler control method according to the present invention,

8 is a flow chart showing a preferred embodiment of the integrated control step of the water boiler control method according to the present invention;

9 is a flow chart showing a preferred embodiment of the heating / hot water mode control step of the low-water boiler control method according to the present invention,

10 is a flowchart showing another preferred embodiment of the heating / hot water mode control step of the low-water boiler control method according to the present invention, and

11 is a block diagram showing a conventional instant boiler configuration.

Claims (5)

A direct water temperature comparing step of calculating a seasonal value by comparing the temperature of the direct water flowing from the water flow switch with a preset direct water setting temperature; Hot water heating control step of controlling the heating of the hot water tank and the plate heat exchanger in accordance with the calculated seasonal value. The method of claim 1, The hot water heating control step, A low temperature control step of controlling heating of the hot water tank according to a preset low temperature high temperature setting temperature and a low temperature low temperature setting temperature if the seasonal value is a summer value; And Integrated control step of selectively heating the plate heat exchanger and hot water tank according to the state of the water flow switch if the seasonal value is the winter value. The method according to claim 1 or 2, The integrated control step, Controlling heating of the plate heat exchanger according to a preset hot water high temperature set temperature when the state of the water flow switch is on; And And controlling the heating of the hot water tank according to a preset low temperature low temperature setting temperature and a low temperature high temperature setting temperature when the state of the water flow switch is in an off state. The method of claim 1, The low-water boiler control method, When the heating / hot water mode is set, the low-temperature boiler control further comprises a heating / hot water mode control step of controlling the heating and heating of the hot water tank according to the preset low temperature high temperature setting temperature and low temperature low temperature setting temperature. Way. The method of claim 4, wherein In the heating / hot water mode control step, A low-water boiler control method, characterized in that for controlling the heating and heating of the hot water tank by adjusting the flow rate of the heating water.

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