KR102069795B1 - Hot water supply apparatus - Google Patents

Abstract

The present invention is to install a plurality of temperature sensors in various locations in the hot water tank in which hot water is stored to control the heater to heat the appropriate amount of hot water to the set temperature according to the amount of hot water, hot water supply device that can reduce unnecessary energy waste It is to provide. The hot water supply apparatus according to the present invention, a hot water tank for storing hot water, a heater for heating the hot water stored in the hot water tank, an inlet pipe connected to the hot water tank so that water can be introduced into the hot water tank, Outlet pipe connected to the hot water tank at a position higher than the heater and the inlet pipe so as to discharge the hot water from the tank, and a plurality of tank temperatures disposed at different heights to detect hot water stored in the hot water tank at different heights by being spaced vertically apart from the hot water tank. And a control unit for receiving a detection signal from the plurality of tank temperature sensors and controlling the heater, wherein the control unit reaches a preset temperature at which the hot water temperature detected by any one of the tank temperature sensors selected from the plurality of tank temperature sensors is reached. To control the heater.

Description

Hot water supply device {HOT WATER SUPPLY APPARATUS}

The present invention relates to a hot water supply device, and more particularly, to a hot water supply device that can control the heater according to the amount of hot water required by measuring the temperature of the hot water heated by the heater in the hot water tank at various positions.

An electric boiler or water heater has a hot water supply for supplying hot water produced by heating a constant. The hot water generated by the hot water supply device may be used as heating water circulating the heating pipe, or may be used as hot water for daily living.

In general, the hot water supply can be divided into electric and gas type depending on the heat source. In the case of gas type, personal installation is impossible due to strict installation regulations, and in the case of electric type, personal installation is relatively easy.

Unlike the gas type, the method of heating water by using electricity does not generate carbon monoxide, so the installation location is limited. The electric hot water supply can be divided into instantaneous heating and storage. Instantaneous heating is a method of heating the water as soon as it receives a constant water supply, like gas, has a drawback that the hot water production is relatively low despite the high electricity consumption. Storage is a method of making hot water in advance and storing it in a tank, which consumes less electricity than instant heating.

As an example of an electric hot water supply device, Korean Laid-Open Patent Publication No. 2012-0110314 (October 10, 2012) discloses a hot water supply device used as a boiler. The hot water supply device disclosed in the publication includes a tank in which hot water is stored, an electric heater installed inside the tank to heat hot water in the tank, a water supply pipe connected to the tank, a heating water outlet pipe, and a heating water inlet pipe; And a temperature sensor for measuring the temperature of the hot water stored in the tank, a water level sensor for detecting the water level in the tank, and a controller for controlling the electric heater. The electric hot water supply device may maintain the hot water in the tank at a set temperature by controlling the electric heater according to the signal of the water level sensor and the temperature sensor.

However, in the conventional hot water supply device as described above, the controller receives the measurement signal from a temperature sensor installed at a specific position to operate the electric heater, so that regardless of the amount of hot water required, the electric heater supplies the entire hot water in the tank to the set temperature. Heated to reach. Therefore, even when the amount of hot water required is small, since all the hot water in the tank is heated to a set temperature, unnecessary energy is wasted.

Published Patent Publication No. 2012-0110314 (October 10, 2012)

The present invention is to solve the problems of the prior art as described above, by installing a plurality of temperature sensors in various locations in the hot water tank in which the hot water is stored so that the heater to heat the appropriate amount of hot water to the set temperature according to the required amount of hot water By controlling, it aims at providing the hot water supply apparatus which can reduce unnecessary energy waste.

Hot water supply apparatus according to the present invention for solving the above object, a hot water tank for storing hot water; A heater for heating hot water stored in the hot water tank; An inlet pipe connected to the hot water tank so that water is introduced into the hot water tank; An outlet pipe connected to the hot water tank at a position higher than the heater and the inlet pipe so as to discharge hot water from the hot water tank; A plurality of tank temperature sensors disposed in the hot water tank in a vertical direction to detect hot water stored in the hot water tank at different heights; And a controller configured to receive a detection signal from the plurality of tank temperature sensors and to control the heater, wherein the controller is configured to preset a hot water temperature detected by any one tank temperature sensor selected from the plurality of tank temperature sensors. The heater is controlled to reach temperature.

The inner space of the hot water tank is an inlet part connected to the inlet pipe from a lower side according to a height, at least one intermediate part disposed above the inlet part, and an outlet part disposed above the middle part so as to be connected to the outlet pipe. The tank temperature sensor may be divided into the inlet, the one or more intermediate parts, and the outlet.

The hot water supply apparatus according to the present invention, the diffusion unit body is connected to the inlet pipe and the water so as to enable the flow of water flowing along the inlet pipe to the inside of the hot water tank is disposed in the inlet, and And a diffuser having a plurality of through holes provided in the diffuser body to allow the water inside the diffuser body to flow into the inlet.

The diffuser body may be arcuate, and the plurality of through holes may be disposed at an inner curved portion of the diffuser body to face the bottom of the hot water tank.

The hot water supply apparatus according to the present invention, the preheating of the water flowing along the inlet pipe and the flow of the inlet pipe and water so as to be introduced into the hot water stored in the hot water tank is connected to the inside of the hot water tank It may include; a preheating unit disposed adjacent to the heater.

The hot water supply apparatus according to the present invention may include an operation unit generating a user input signal for selecting a tank temperature sensor used for the heater control among the plurality of tank temperature sensors according to a user operation and transmitting the generated user input signal to the controller. have.

The hot water supply device according to the present invention includes an outdoor temperature detector for detecting an outdoor temperature and transmitting a detection signal to the control unit, wherein the control unit includes, among the plurality of tank temperature sensors according to a detection signal of the outdoor temperature detector. The heater is controlled by selecting a tank temperature sensor used to control the heater, but as the outdoor temperature is lower, a tank temperature sensor disposed at a lower side among the plurality of tank temperature sensors may be used to control the heater.

The outlet pipe is connected to the heating pipe to supply hot water to the heating pipe for heating the heating zone, and the inlet pipe is connected to the heating pipe to collect hot water passing through the heating zone, and the control unit The controller may control the heater by selecting a tank temperature sensor used for controlling the heater from among the plurality of tank temperature sensors according to a signal of a temperature controller for setting a heating temperature of the heating zone.

The hot water supply apparatus according to the present invention selects an appropriate tank temperature sensor used for controlling the heater according to the usage of hot water from a plurality of tank temperature sensors spaced vertically spaced in the hot water tank, the temperature of the hot water detected by the tank temperature sensor Control the heater to reach the preset temperature. Therefore, the hot water heated to the required temperature can be prepared by the required amount, so that efficient operation is possible and energy consumption according to the heater operation can be reduced.

Figure 1 schematically shows a hot water supply apparatus according to an embodiment of the present invention.
2 is a front cross-sectional view showing a diffusion part of a hot water supply device according to an embodiment of the present invention.
3 shows a modification of the diffusion part.
Figure 4 schematically shows a hot water supply apparatus according to another embodiment of the present invention.
Figure 5 shows a part of the configuration of the hot water supply apparatus according to another embodiment of the present invention.

Hereinafter, the hot water supply apparatus according to the present invention will be described in detail with reference to the drawings.

1 is a schematic view of a hot water supply apparatus according to an embodiment of the present invention, Figure 2 is a front cross-sectional view showing a diffusion portion of the hot water supply apparatus according to an embodiment of the present invention.

As shown in the figure, the hot water supply device 100 according to an embodiment of the present invention is a hot water tank 110, the heater 115 for heating the hot water, and the inside of the hot water tank 110, the hot water is stored Inlet pipe 120 for introducing water into the outlet, outlet pipe 125 for discharging hot water from the hot water tank 110, and a plurality of tank temperature sensors for measuring the temperature of the hot water in the hot water tank 110 ( 135, 136, 137, and a controller 140 for controlling the heater 115. The hot water supply device 100 may be applied to a boiler or a water heater, and by appropriately controlling the heater 115 according to the amount of hot water required, it is possible to reduce energy due to the operation of the heater 115. The hot water supply device 100 shown in FIG. 1 is used as a boiler to supply hot water to a heating system.

The hot water tank 110 stores a predetermined amount of hot water. The hot water tank 110 may take a variety of structures, such as a single wall structure, a double wall structure that can heat the stored hot water. The internal space of the hot water tank 110 in which the hot water is stored may be divided into an inlet 111, an intermediate part 112, and an outlet 113 from the lower side according to the height. An inlet pipe 120 is connected to the inlet 111, and an outlet pipe 125 is connected to the outlet 113. The hot water supplied through the inlet 111 is introduced into the inlet 111 and heated in the inlet 111, and then flows to the outlet 113 through the middle portion 112, and the outlet 113. May be discharged through the outlet pipe (125).

The inlet 111, the middle 112, and the outlet 113 are not physically partitioned spaces, but each may be set to have an appropriate volume in which a preset amount of hot water can be stored. Each of the inlet 111, the middle 112, and the outlet 113 may have various volumes depending on the capacity or height of the hot water tank 110. Although the figure shows that one middle portion 112 is provided between the inlet portion 111 and the outlet portion 113, the number of the intermediate portions 112 may be variously changed.

The heater 115 is disposed in the inlet 111 inside the hot water tank 110 to heat the hot water stored in the hot water tank 110. Hot water heated at the inlet 111 by the heater 115 is raised to the outlet 113 side by the convection phenomenon. Therefore, the hot water temperature of the outlet portion 113 is the highest, the hot water temperature of the middle portion 112 is lower than the hot water temperature of the outlet portion 113, the hot water temperature of the inlet portion 111 may appear to be the lowest. have. For example, when the heater 115 heats the hot water of the inlet portion 111 to 90 degrees, the hot water temperature of the middle portion 112 may rise to 92 degrees, and the hot water temperature of the outlet portion 113 may rise to 94 degrees. Can be.

The heater 115 may be used in a variety of structures having a heat generating function, such as using electrical energy, as shown in various locations to heat the hot water stored in the hot water tank 110, such as the inlet 111 Can be installed. The heater 115 may be controlled by the control unit 140 to operate to heat the required amount of hot water up to a predetermined temperature. Here, the preset temperature may be selected by the user or automatically selected according to heating conditions or the like.

The inlet pipe 120 is connected to the inlet 111 of the hot water tank 110 so that water can be introduced into the hot water tank 110. The inlet pipe 120 may be connected to the hot water return header 20 of the heating system, and the hot water collected in the hot water return header 20 may be returned to the hot water tank 110 through the inlet pipe 120.

The hot water return header 20 is disposed in the plurality of heating zones H and is connected to the heating tube 30 for heating the heating zone H. Hot water passing through the heating zone (H) along each heating pipe (30) can be collected and returned to the hot water return header (20). Each heating tube 30 may be provided with a hot water control valve 40 for controlling the flow of hot water through the heating tube (30).

The outlet pipe 125 is connected to the hot water tank 110 at a position higher than the heater 115 and the inlet pipe 120 so as to discharge hot water from the hot water tank 110. Specifically, the outlet pipe 125 is connected to the outlet 113 of the hot water tank 110 to discharge hot water from the outlet 113. The outlet pipe 125 is connected to the hot water supply header 10 of the heating system to supply hot water of the hot water tank 110 to the hot water supply header 10. The hot water supplied to the hot water supply header 10 may be distributed to the plurality of heating tubes 30 to heat the respective heating zones H and then returned to the hot water return header 20.

1 and 2, the diffusion part 130 is connected to the inlet pipe 120. The diffusion unit 130 is disposed at the inlet 111 of the hot water tank 110 and serves to diffuse water flowing along the inlet pipe 120 into the hot water tank 110. The diffusion part 130 is a diffusion part body 131 which allows the flow of water to be connected to the inlet pipe 120 and the diffusion part so that the water inside the diffusion part body 131 can be introduced into the inlet part 111. It includes a plurality of through holes 132 provided in the body 131. The diffuser body 131 has an arcuate shape that is convex upwardly. The plurality of through holes 132 are disposed in the inner curved portion of the diffusion body 131 to face the bottom of the hot water tank 110. Therefore, hot water flowing along the inlet pipe 120 may pass through the plurality of through holes 132 and flow toward the bottom of the hot water tank 110.

The water flowing into the inlet 111 by the action of the diffusion unit 130 may not flow directly to the outlet 113, but may be sufficiently reheated at the inlet 111 and then flow to the outlet 113. Since the hot water introduced from the inlet pipe 120 to the inlet 111 is relatively low in temperature, the hot water flowing into the inlet 111 immediately flows to the middle 112 or the outlet 113. The temperature of the hot water may be lowered in the portion 112 or the outlet portion 113. And when the hot water is lowered through the outlet pipe 125 is supplied to the heating system, the heating efficiency of the heating system is reduced. The diffusion unit 130 guides the water flowing into the inlet 111 to be reheated by the heater 115 while sufficiently mixed with the hot water of the inlet 111, and then flows to the middle 112 and the outlet 113. As a result, the temperature drop problem may be reduced in the intermediate part 112 or the outlet part 113 due to the water flowing into the inlet part 111.

As shown in FIG. 3, the diffusion part 130 may be disposed above the heater 115 to spray water introduced into the hot water tank 110 toward the heater 115. As such, when water is injected into the heater 115 through the diffusion unit 130, the water flowing into the hot water tank 110 may be heated more quickly by using the heat of the heater 115.

In addition, the position of the diffusion unit 130 may be changed to various positions in the hot water tank 110. The structure of the hot water tank 110 may be changed to various other structures capable of diffusing hot water into hot water in the hot water tank 110 in addition to the arched structure as shown.

Tank temperature sensors 135, 136, 137 are spaced apart in the vertical direction in the hot water tank 110 to detect the hot water stored in the hot water tank 110 at different heights. These tank temperature sensors 135, 136, 137 are respectively disposed at the inlet 111, the middle 112 and the outlet 113 of the hot water tank 110, the inlet 111 and the middle portion The temperature of the hot water stored in the 112 and the outlet 113 may be detected. The detection signals of the tank temperature sensors 135, 136 and 137 are transmitted to the control unit 140, and the control unit 140 according to the detection signals of the tank temperature sensors 135, 136 and 137. Can be controlled.

As described above, the hot water heated by the heater 115 in the inlet 111 is relatively hot water is located above the hot water tank 110 by the convection phenomenon, each tank temperature sensor 135 The temperature of the hot water detected by 136 and 137 may appear differently. That is, the hot water detection temperature of the tank temperature sensor 135 disposed in the inlet 111 is the lowest, the hot water detection temperature of the tank temperature sensor 136 disposed in the middle 112 is higher than this, and the outlet portion The hot water detection temperature of the tank temperature sensor 137 disposed at 113 may be the highest. Tank temperature sensors 135, 136 and 137 are arranged outside the hot water tank 110 to measure the temperature of the hot water stored in the hot water tank 110, the temperature of the hot water inside the hot water tank 110 Various structures, such as the structure to measure, can be taken.

The controller 140 receives detection signals from the plurality of tank temperature sensors 135, 136 and 137 and controls the heater 115. Specifically, the controller 140 controls the heater 115 to reach the preset temperature of the hot water temperature detected by any one tank temperature sensor selected from the plurality of tank temperature sensors 135, 136, 137. .

For example, when the tank temperature sensor 135 disposed in the inlet 111 is selected to be used to control the heater 115, the controller 140 may include the tank temperature sensor 135 disposed in the inlet 111. The heater 115 is controlled to receive the hot water detection signal from the hot water detection signal to reach a preset temperature. In this case, since the hot water heated by the heater 115 rises to the middle portion 112 and the outlet portion 113, the hot water stored in the middle portion 112 and the outlet portion 113 is also at a temperature higher than a preset temperature. Will rise. Therefore, when the tank temperature sensor 135 disposed at the inlet 111 is used to control the heater 115, the entire hot water inside the hot water tank 110 is heated to a predetermined temperature or higher, thereby heating the heater ( 115) Energy consumption due to operation is relatively increased. When the required amount of hot water is relatively large, the maximum amount of hot water that can be used immediately can be secured by setting the detection temperature of the tank temperature sensor 135 disposed in the inlet 111 as a reference temperature for controlling the heater 115. have.

On the other hand, when the tank temperature sensor 136 disposed in the intermediate portion 112 is selected to be used to control the heater 115, the control unit 140 from the tank temperature sensor 136 disposed in the intermediate portion 112. The heater 115 is controlled to receive the hot water detection signal so that the hot water temperature of the intermediate part 112 reaches a preset temperature. In this case, since the hot water stored in the outlet 113 also rises to a temperature higher than or equal to a preset temperature, hot water stored in the outlet 113 and the middle 112 may be directly used as heating water.

On the other hand, when the tank temperature sensor 137 disposed in the outlet 113 is selected to be used to control the heater 115, the control unit 140 from the tank temperature sensor 137 disposed in the outlet 113. The heater 115 is controlled to receive the hot water detection signal so that the hot water temperature reaches the preset temperature at the outlet 113. Since the hot water heated by the heater 115 and the temperature rises to the preset temperature fills the outlet 113 first, the hot water temperature of the outlet 113 may be increased to the preset temperature within a relatively short time. When the amount of hot water is relatively small, by setting the detection temperature of the tank temperature sensor 137 disposed in the outlet 113 as a reference temperature for controlling the heater 115, the energy consumption of the heater 115 is reduced. can do.

The tank temperature sensor used to control the heater 115 among the plurality of tank temperature sensors 135, 136 and 137 may be selected by the user. To this end, the hot water supply device 100 according to the present embodiment includes an operation unit 145 for user operation. The manipulation unit 145 may include various input units capable of generating a user input signal according to a user manipulation such as a switch or a knob. The user may select the tank temperature sensor used to control the heater 115 among the plurality of tank temperature sensors 135, 136, 137 through the operation unit 145 by predicting the usage amount of hot water. In this case, the controller 140 may control the heater 115 to increase the hot water temperature to a preset temperature while receiving the detection temperature from the tank temperature sensor selected by the user.

In addition, a tank temperature sensor used to control the heater 115 may be selected according to the outdoor temperature. To this end, the hot water supply device 100 according to the present embodiment includes an outdoor temperature detector 150 that detects the outdoor temperature and transmits a detection signal to the controller 140. When the outdoor temperature detector 150 detects the outdoor temperature and transmits a detection signal to the controller 140, the controller 140 controls the plurality of tank temperature sensors 135 and 136 according to the detection signal of the outdoor temperature detector 150. The heater 115 is controlled by selecting a tank temperature sensor used for controlling the heater 115 from 137.

For example, the controller 140 may use a tank temperature sensor disposed at a lower side among the plurality of tank temperature sensors 135, 136, 137 to control the heater 115 as the outdoor temperature is lower. The lower the outdoor temperature, the greater the amount of hot water can be used for heating, so it is advantageous to secure the maximum amount of hot water suitable for heating.

The controller 140 may select a tank temperature sensor used to control the heater 115 by receiving a signal from the temperature controller 50 of the heating system. Like a normal heating system, the thermostat 50 is used to set the heating temperature of each heating zone H. As shown in FIG. When the heating temperature of each heating zone H is set through the temperature controller 50, the amount of hot water required for heating may be estimated. Accordingly, the controller 140 selects a tank temperature sensor used for controlling the heater 115 from among the plurality of tank temperature sensors 135, 136, and 137 according to the amount of hot water required for heating the heating zone H, thereby heating the heater. By controlling the 115, an appropriate amount of hot water that can be used as heating water can be ensured.

As described above, the hot water supply device 100 according to an embodiment of the present invention is the required amount of hot water from the plurality of tank temperature sensors 135, 136, 137 spaced apart in the vertical direction to the hot water tank 110 In accordance with the present invention, an appropriate tank temperature sensor used to control the heater 115 may be selected, and the heater 115 may be controlled so that the temperature of the hot water detected by the tank temperature sensor reaches a preset temperature. Therefore, it is possible to prepare the hot water heated to a predetermined temperature as necessary amount, it is possible to operate efficiently, and reduce the energy consumption according to the operation of the heater 115. In addition, by using a temperature gradient of water without installing a separate partition, etc., energy consumption can be reduced by a simple structure.

On the other hand, Figure 4 schematically shows a hot water supply apparatus according to another embodiment of the present invention.

The hot water supply device 200 shown in FIG. 4 includes a hot water tank 110 in which hot water is stored, a heater 115 for heating hot water, and an inlet pipe 120 for introducing water into the hot water tank 110. ), An outlet pipe 125 for discharging hot water from the hot water tank 110, a plurality of tank temperature sensors 135, 136 and 137 for measuring hot water temperature inside the hot water tank 110, And a control unit 140 for controlling the heater 115 and an operation unit 145 for user operation. The hot water supply device 200 is applied to the water heater, the inlet pipe 120 is connected to the water pipe, the outlet pipe 125 may be connected to the faucet or shower. In addition, the specific structure and operation of each component are as described above.

On the other hand, Figure 5 shows a part of the configuration of the hot water supply apparatus according to another embodiment of the present invention.

In the hot water supply device shown in FIG. 5, the preheating part 310 is connected to the inlet pipe 120 instead of the diffusion part 130 as compared to the hot water supply device 100 described above. The preheater 310 is for preheating the water flowing along the inlet pipe 120, and then introduced into the hot water stored in the hot water tank 110. The inlet pipe 120 and the water are connected to each other. The hot water flowing into the hot water tank 110 through the inlet pipe 120 is preheated while flowing along the preheating part 310 inside the hot water tank 110, and is provided at the end of the preheating part 310. It is introduced into the hot water tank 110 through the outlet (311).

When the hot water flowing into the inlet 111 immediately flows into the inside of the hot water tank 110 and flows to the middle portion 112 or the outlet portion 113, the hot water flows from the middle portion 112 or the outlet portion 113. The temperature may drop. The preheater 310 may reduce the temperature drop problem in the intermediate part 112 or the outlet part 113 by the water flowing into the inlet part 111 by preheating the water to the inlet part 111. have. In addition, when the water is preheated to the preheater 310 and then introduced to the inlet 111, the scale formed on the surface of the heater 115 may be reduced.

Although the preheating unit 310 is shown in the form of a coil tube partially wrapped around the heater 115, the preheating unit is configured to supply water flowing into the hot water tank 110 to the hot water inside the hot water tank 110. The heat or the heat of the heater 115 can be changed to various other structures that can be preheated.

As mentioned above, although the preferable example was demonstrated about this invention, the scope of the present invention is not limited to the form demonstrated and shown before.

For example, in the drawing, the inner space of the hot water tank 110 is divided into three regions of the inlet 111, the middle 112, and the outlet 113 from the lower side, and three tank temperature sensors 135 ( Although 136 and 137 are shown to be disposed in each region, the region between the inlet 111 and the outlet 113 of the hot water tank 110 may be divided into two or more intermediate portions. In addition, the number of installation of the tank temperature sensor may be variously changed according to the divided area inside the hot water tank 110.

While the invention has been shown and described in connection with preferred embodiments for illustrating the principles of the invention, the invention is not limited to the configuration and operation as such is shown and described. Rather, those skilled in the art will appreciate that many modifications and variations of the present invention are possible without departing from the spirit and scope of the appended claims.

100, 200: hot water supply device 110: hot water tank
111: inlet 112: middle
113: outlet 115: heater
120: inlet pipe 125: outlet pipe
130: diffuser 131: diffuser body
132: through hole 135, 136, 137: tank temperature sensor
140: control unit 145: operation unit
150: outdoor temperature detector 310: preheater

Claims (8)

An inner space for storing hot water, wherein the inner space is divided into an inlet disposed at a lowermost side according to a height, at least one intermediate portion disposed above the inlet, and an outlet disposed above the intermediate portion; Hot water tank;
A heater disposed at the inlet to heat hot water stored in the hot water tank;
An inlet pipe connected to the inlet for introducing water to the inlet;
An outlet pipe connected to the outlet to discharge hot water of the outlet;
A plurality of tank temperature sensors disposed in the hot water tank in a vertical direction to detect temperatures of the inlet, the one or more intermediate parts, and the outlet;
A control unit which receives a detection signal from the plurality of tank temperature sensors and controls the heater; And
The inlet pipe and the flow of the water is connected to the diffusion part body disposed in the inlet portion so as to be placed on the upper side of the heater, and the diffusion part body is provided in the diffusion body so that the water inside the diffuser body into the inlet portion Is provided with a plurality of through holes, the diffusion body is made of an arcuate shape surrounding the upper portion of the heater, the plurality of holes are disposed in the inner curved portion of the diffuser body to inject water toward the heater It includes a diffusion;
The controller may be configured to control the heater such that the hot water temperature detected by any one of the plurality of tank temperature sensors selected from the plurality of tank temperature sensors reaches a preset temperature according to the amount of hot water stored in the hot water tank. The heater is operated based on the hot water temperature detected by the tank temperature sensor disposed at a lower side among the plurality of tank temperature sensors as the increase, and the relatively hot water is disposed at the upper side as the hot water usage decreases. Hot water supply device characterized in that for operating the heater based on the hot water temperature detected by the tank temperature sensor.
delete delete delete The method of claim 1,
A preheater configured to be connected to the inlet pipe and the water so as to be adjacent to the heater in the inside of the hot water tank so as to preheat the water flowing along the inlet pipe and to flow into the hot water stored in the hot water tank; Hot water supply device comprising a.
The method of claim 1,
And an operation unit for generating a user input signal for the hot water consumption according to a user operation and transmitting the generated user input signal to the controller.
The method of claim 1,
An outdoor temperature detector configured to detect an outdoor temperature and transmit a detection signal to the controller;
The control unit determines hot water consumption according to the detection signal of the outdoor temperature detector to control the heater, but the hot water supply device is characterized in that the hot water consumption increases as the outdoor temperature is lower.
The method of claim 1,
The outlet pipe is connected to the heating tube to supply hot water to the heating tube for heating the heating zone, the inlet pipe is connected to the heating tube to recover the hot water passing through the heating zone,
The control unit is a hot water supply device characterized in that for controlling the heater by determining the amount of hot water in accordance with the signal of the temperature controller for setting the heating temperature of the heating zone.

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