JP2012002377A - Hot water supply device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hot water supply device which can discharge high-temperature hot water suited to cooking of beverage, and preventing abnormal heating.SOLUTION: The hot water supply device includes: a tank body 22 for storing hot water; a water supply port 23 for discharging and supplying drinking water to the bottom part 22a of the tank body 22; a hot water discharge port 24 disposed above the side plate 22c of the tank body 22 and configured to discharge stored high-temperature hot water when a hot water valve 25 is opened; an electric heater 27 attached to the top plate 22b of the tank body 22 and suspended to the vicinity of the bottom part 22a; and temperature sensors 29 and 30 for detecting the temperatures of hot water to be used for electric heater energization control that energizes the electric heater 27. When the electric heater 27 is energized to raise the temperature of the hot water, and one of the temperature sensors 29 and 30 detects a temperature of 97°C or higher, a control part 50 stops the energization the electric heater 27.

Description

  The present invention relates to a hot water supply apparatus provided in a cup-type vending machine or a tea dispenser that stores hot hot water obtained by heating drinking water, cooks a drink with the hot water, and sells it.

  2. Description of the Related Art Conventionally, a hot water supply device provided in a cup-type vending machine or a tea machine is known. For example, in FIG. 2 of Patent Document 1, a coffee bean canister for storing roasted coffee beans, coffee beans supplied from the coffee bean canister are pulverized to a predetermined particle size with a pulverizing blade (powdered coffee beans ( (Hereinafter referred to as “coffee ground beans”), a mixture of ground coffee beans supplied from the mill and hot water supplied through the hot water pipe by opening the hot water tank's hot water valve is filtered through a paper filter. Coffee brewer that extracts coffee liquid containing coffee ingredients, powder raw material canister for storing sugar and cream, etc., coffee liquid extracted from coffee brewer is mixed with sugar and cream supplied from powder raw material canister, coffee drink A schematic configuration of a cup-type vending machine including a mixing bowl and the like is disclosed.

  As shown in FIG. 4, a hot water supply device 60 that supplies hot water to a coffee brewer or a mixing bowl includes a hot water tank 61 and a control unit 70. The hot water tank 61 is attached to a tank main body 62 for storing hot water, a bottom plate 62d of the tank main body 62, a water supply port 23 for discharging drinking water to the bottom 62a, a hot water discharge port 24 provided on the side plate 62c of the tank main body 62, A hot water pipe 26 communicating with the hot water discharge port 24 through the hot water valve 25, a float 31 that moves up and down in conjunction with a change in the amount of hot water, and a top plate 62b of the tank body 62 are arranged in conjunction with the up and down movement of the float 31. An operating high water level switch 32 and a low water level switch 33 are provided.

  In addition, an electric heater (for example, a sheathed heater) 63 attached to the top plate 62b of the tank body 62 and suspended to the vicinity of the bottom portion 62a generates heat when energized to heat the hot water. Is continuously provided from the vicinity of the water level of the hot water discharge port 24 to the vicinity of the bottom 62a.

  Further, the temperature of hot water displayed on a hot water temperature display (not shown) provided on the front door of the cup-type vending machine, the temperature of hot water for beverage sold-out display control, and heater energization control for energizing the electric heater 63 A temperature sensor 65 for detecting the temperature of the hot water is disposed in the vicinity of the water level of the hot water discharge port 24, and a temperature sensor 66 for detecting the temperature of the hot water for heater energization control for energizing the electric heater 63 is disposed above the water supply port 23. Has been.

  When the hot water valve 25 is opened and hot water is discharged from the hot water discharge port 24 at the time of selling hot beverages, drinking water (cold water) corresponding to the amount of hot water discharged from the hot water discharge port 24 is supplied from the water supply port 23. In general, drinking water is supplied from the water supply port 23 to the bottom 62 a of the tank body 62. This is because the specific gravity of water is larger than that of hot water, and the drinking water discharged to the bottom 62a of the tank body 62 remains in the bottom 62a as it is, so that it is discharged from the hot water outlet 24 of the hot water tank 61 when selling hot beverages. This is to prevent the temperature of hot water stored around the hot water discharge port 24 from rapidly decreasing even when potable water corresponding to the amount of hot water is supplied to the hot water tank 61.

  Further, in the cup type vending machine, the quality (taste and scent) of the beverage to be sold cannot be maintained when the temperature of the hot water used for cooking the hot beverage is lowered, so the temperature sensors 65 and 66 provided in the hot water tank 61 are used. The temperature of the hot water is detected and a temperature signal is output to the control unit 70. The control unit 70 energizes the electric heater 63 based on the temperature signal output from the temperature sensors 65 and 66 to set the temperature of the hot water to a predetermined temperature (for example, The hot water supplied from the hot water tank 61 to the coffee brewer and the mixing bowl is kept at a high temperature.

  When the hot beverage selection button of the cup type vending machine is pressed, the hot water valve 25 is opened, and hot water stored in the hot water tank 61 is discharged from the hot water discharge port 24, the float 31 descends. The low water level switch 33 that operates in conjunction with the output of the low water level signal to the control unit 70. When the control unit 70 receives the low water level signal from the low water level switch 33, the drinking water valve 14 is opened, and the drinking water is supplied from the water supply port 23 to the bottom 62 a of the tank body 62.

  In this way, when drinking water of an amount corresponding to the amount of hot water discharged from the hot water discharge port 24 is supplied from the water supply port 23 to the bottom 62a of the tank main body 62, the drinking water having a higher specific gravity than the hot water is supplied to the bottom 62a. First, the temperature of the hot water around the temperature sensor 66 is lowered, and then the temperature of the hot water around the temperature sensor 65 is lowered.

  When drinking water of an amount corresponding to the amount of hot water discharged from the hot water discharge port 24 is supplied from the water supply port 23 to the bottom 62a of the tank body 62, the temperature of the hot water stored in the hot water tank 61 decreases. As shown in the energization control parameter diagram of the electric heater 63, when the temperature sensor 66 detects a temperature of 93 ° C. or less, the control unit 70 performs control to energize the electric heater 63 and heats the hot water whose temperature has decreased.

  Thus, when drinking water is supplied from the water supply port 23 to the bottom 62a of the tank body 62, the temperature sensor 66 first detects early that the temperature of the hot water stored in the bottom 62a of the tank body 62 has decreased. When it is detected that the temperature has dropped to 93 ° C. or less, the tank body 62 is attached to the top plate 62b and suspended near the bottom 62a, and the heat generating portion 63a is located near the water level of the hot water discharge port 24. The hot water having a lowered temperature is heated early by energizing the electric heater 63 provided continuously from the bottom to the vicinity of the bottom 62a.

  Then, when the temperature of hot water heated by energizing the electric heater 63 rises and both the temperature sensor 65 and the temperature sensor 66 detect a temperature of 95 ° C. or higher, the energization to the electric heater 63 is stopped, Hot water heated to the temperature is stored in the hot water tank 61.

JP-A-8-315244

  As described above, the electric heater 63 is attached to the top plate 62b of the tank body 62 and is suspended and disposed near the bottom 62a. The heat generating portion 63a is provided from the vicinity of the water level of the hot water discharge port 24 to the vicinity of the bottom 62a. When the temperature sensor 66 detects a temperature of 93 ° C. or lower and the electric heater 63 is energized, the heat generating part 63a generates heat to heat the hot water, and both the temperature sensor 65 and the temperature sensor 66 are 95 ° C. or higher. When the temperature is detected, the controller 70 stops energization of the electric heater 63.

  However, when drinking water is supplied from the water supply port 23 and the temperature of the hot water stored in the bottom 62a is lowered and the electric heater 63 is energized to generate heat, the drinking water is supplied from the water supply port 23. The hot water stored in the bottom 62a where the temperature is decreasing and the hot water stored near the water level of the hot water outlet 24 where the temperature decreases less than the hot water stored in the bottom 62a are simultaneously heated. . Even if the temperature of the hot water stored near the water level of the hot water discharge port 24 rises and the temperature sensor 65 detects a temperature of 95 ° C. or higher, the temperature rise of the hot water stored in the bottom 62a is delayed. Energization of the electric heater 63 is continued until 66 detects a temperature of 95 ° C. or higher, the hot water stored near the water level of the hot water discharge port 24 continues to be heated, and the temperature sensor 66 detects a temperature of 95 ° C. or higher. If the time to do is delayed, the hot water stored near the water level of the hot water discharge port 24 may be boiled.

  The present invention has been made to solve the above-described problems, and provides a hot water supply device that can discharge hot water suitable for cooking beverages and prevent abnormal heating. The purpose is to do.

In order to achieve the above object, a hot water supply apparatus according to claim 1 of the present invention supplies a predetermined amount of hot water stored in a hot water tank by energizing an electric heater based on the hot water temperature detected by a temperature sensor. A control means for controlling the temperature is provided, and a water supply port is provided for discharging hot water from a hot water discharge port provided in the hot water tank and discharging the amount of drinking water corresponding to the discharged hot water to the bottom of the hot water tank. In the water heater,
The temperature sensor comprises a first temperature sensor provided in the vicinity of the hot water outlet water level, and a second temperature sensor provided in the vicinity of the water supply port below the first temperature sensor,
The control means is characterized in that energization of the electric heater is stopped when either the first temperature sensor or the second temperature sensor detects a first predetermined temperature.

  According to a second aspect of the present invention, there is provided the hot water supply apparatus according to the first aspect, wherein the control means detects a second predetermined temperature at which the first temperature sensor and the second temperature sensor are lower than the first predetermined temperature. Then, the power supply to the electric heater is stopped.

  According to the first aspect of the present invention, the hot water tank is provided with control means for controlling the hot water stored in the hot water tank to a predetermined temperature by energizing the electric heater based on the hot water temperature detected by the temperature sensor. In the hot water supply apparatus provided with a water supply outlet that discharges hot water from a hot water discharge outlet provided in the hot water tank and discharges drinking water in an amount corresponding to the discharged hot water to the bottom of the hot water tank. The first temperature sensor provided in the vicinity of the outlet water level and the second temperature sensor provided in the vicinity of the water supply port below the first temperature sensor, and the control means includes the first temperature sensor or the When any one of the second temperature sensors detects the first predetermined temperature, the second temperature sensor detects that the temperature of the hot water stored in the bottom of the hot water tank has dropped by stopping energization of the electric heater. Electric Is heated near the hot water outlet and the hot water stored at the bottom where the temperature is lower and the hot water outlet is near the water level where there is less temperature drop than the hot water stored at the bottom. Even if the hot water is heated at the same time, when the first temperature sensor that detects the temperature of the hot water stored in the vicinity of the water level of the hot water discharge port detects the first predetermined temperature, energization to the electric heater is stopped. It is possible to provide a hot water supply apparatus that can prevent hot water stored near the water level from being heated, discharge hot water suitable for cooking beverages, and prevent abnormal heating. It becomes.

  According to a second aspect of the present invention, the control means stops energization of the electric heater when the first temperature sensor and the second temperature sensor detect a second predetermined temperature lower than the first predetermined temperature. As a result, the second temperature sensor detects that the temperature of the hot water stored in the bottom of the hot water tank has dropped, the electric heater is energized, the heat generating part generates heat, and the convection of the hot water heated by this heat generation is generated. Since it is possible to detect the temperature of the hot water generated and rise evenly and stop the energization of the electric heater at an early stage, it is possible to discharge hot water suitable for cooking beverages while saving energy, and It is possible to provide a hot water supply apparatus that can prevent abnormal heating.

It is a schematic diagram of a cup type vending machine provided with a hot water supply apparatus according to the present invention. It is a schematic diagram which shows the hot water supply apparatus which concerns on this invention. It is an electric heater energization control parameter figure of the hot-water supply apparatus shown in FIG. It is a schematic diagram which shows the conventional hot-water supply apparatus. It is an electric heater energization control parameter figure of the hot-water supply apparatus shown in FIG.

Hereinafter, a preferred embodiment of a hot water supply apparatus according to the present invention will be described in detail with reference to the drawings. Note that the present invention is not limited to the embodiments.
FIG. 1 is a schematic view of a cup type vending machine provided with a hot water supply apparatus according to an embodiment of the present invention, and FIG. 2 is a schematic view showing a hot water supply apparatus according to an embodiment of the present invention. The cup-type vending machine 1 illustrated here cooks a hot beverage or a cold beverage according to a user's selection after inserting money, and pours it into a cup C placed on a bend stage 47. . In the machine, there are a water reservoir 12, a cooling water tank 15, a carbonator 18, an auger type ice making machine 19, a hot water supply device 20, a hot water tank 21, a coffee bean canister 41, a mill 42, a coffee brewer (regular coffee extraction device) 43, and a powder raw material. A canister 44, a mixing bowl 45, and the like are provided.

  The water reservoir 12 is for supplying drinking water (tap water) to the carbonator 18, the auger ice making machine 19, and the hot water tank 21. When the water supply valve 11 is opened, the drinking water is stored in the water reservoir 12, and the water pump When the drinking water valve 14 is opened by driving 13, drinking water is supplied to the hot water tank 21.

  An evaporator (not shown) is immersed in the cooling water of the cooling water tank 15, and when a cooling refrigerant is supplied from a cooling device (not shown), an ice bank is formed around the evaporator by the heat of evaporation of the refrigerant. (Ice lump) is generated, and the cooling water is maintained at approximately 0 ° C. by the heat of fusion of this ice bank.

  The carbonator 18 is immersed in the cooling water of the cooling water tank 15 and dissolves the carbon dioxide gas supplied from the carbon dioxide gas cylinder 16 in the drinking water supplied from the water reservoir 12 to obtain carbonated water. The syrup tank 17 stores syrup, and the syrup is pushed out by the pressure of carbon dioxide supplied from the carbon dioxide cylinder 16, cooled in the cooling water tank 15, and poured into the cup C from the nozzle 46.

  The auger type ice making machine 19 has an ice making unit and an ice storage, ice making the potable water supplied from the water reservoir 12 with the cooling refrigerant supplied from the cooling device to the ice making unit, and storing it in the ice storage. When the beverage is sold, the ice stored in the ice storage is supplied to the cup C.

  As shown in FIG. 2, the hot water supply device 20 includes a hot water tank 21 and a control unit (control means) 50. The hot water tank 21 is attached to a tank main body 22 for storing hot water and a bottom plate 22d of the tank main body 22. When the water pump 13 is operated and the drinking water valve 14 is opened, drinking water supplied from the water reservoir 12 is supplied to the tank main body 22. A water supply port 23 that discharges and supplies water to the bottom 22a of the tank and a side plate 22c of the tank body 22 are opened on the side plate 22c. When the hot water valve 25 is opened, the stored hot water is discharged and the coffee brewer is discharged via the hot water pipe 26. 43 and the mixing bowl 45 are provided with a hot water outlet 24.

  An electric heater (for example, a sheathed heater) 27 attached to the top plate 22b of the tank body 22 and suspended to the vicinity of the bottom portion 22a generates heat when energized to heat the hot water. Is continuously provided from the vicinity of the hot water outlet 24 to the heater tip provided in the vicinity of the bottom 22a.

  Further, in the vicinity of the water level where the hot water discharge port 24 is provided, a hot water temperature or hot beverage selection button displayed on a hot water temperature display (not shown) provided on the front door of the cup type vending machine 1 is displayed. From the temperature sensor 29 (first temperature sensor) for detecting the temperature of hot water for beverage sold-out display control (for example, 85 ° C. or less), the temperature of hot water used for electric heater energization control for energizing the electric heater 27, A temperature sensor 30 (second temperature sensor) for detecting the temperature of hot water used for electric heater energization control for energizing the electric heater 27 is provided in the vicinity of the water supply port 23 that discharges water to the bottom 22 a of the lower tank body 22. .

  The top plate 22b of the tank body 22 is provided with a float 31 that moves up and down in conjunction with changes in the amount of hot water, a high water level switch 32 that operates in conjunction with the up and down movement of the float 31, and a low water level switch 33.

  The control unit 50 controls the water pump 13, the drinking water valve 14, and the hot water valve 25 based on various signals such as the temperature signal output from the temperature sensors 29 and 30, the water level signal output from the high water level switch 32, and the low water level switch 33. Then, energization control of the electric heater 27 and a cooling device (not shown) is performed.

  The coffee brewer 43 extracts the coffee liquid by pouring high-temperature hot water supplied from the hot water tank 21 into ground coffee beans obtained by grinding the coffee beans supplied from the coffee bean canister 41 with the mill 42.

  A mixing bowl 45 is connected to the coffee brewer 43, and a coffee beverage obtained by mixing the coffee liquid extracted by the coffee brewer 43 with sugar or cream supplied from the powder raw material canister 44 is poured into the cup C from the nozzle 46.

  In the cup-type vending machine 1 described above, when the user inserts money and presses a selection button for a hot beverage, for example, a selection button for a hot coffee beverage, the control unit 50 prepares the hot coffee beverage. Output a signal. In response to the signal output from the control unit 50, the coffee bean canister 41 first supplies the coffee beans to the mill 42, and the coffee beans ground by the mill 42 are supplied to the coffee brewer 43. When the hot water valve 25 of the hot water tank 21 is opened, the hot water heated to a high temperature and kept in the hot water tank 21 is discharged from the hot water discharge port 24 and ground in the coffee brewer 43 through the hot water pipe 26. Supplied to the beans.

  In the coffee brewer 43, a coffee mixture is obtained by dissolving coffee components from ground coffee beans in hot water. When the mixture is filtered with a paper filter, a coffee solution containing the coffee components is extracted. The coffee liquid extracted by the coffee brewer 43 is supplied to the mixing bowl 45, and is mixed with the sugar and cream supplied from the powder raw material canister 44 in the mixing bowl 45 to become a coffee drink, and the cup placed on the bend stage 47. C is poured into the nozzle C from the nozzle 46 and delivered to the user of the cup type vending machine 1.

  When the hot beverage selection button of the cup type vending machine 1 is pushed in this way, the hot water valve 25 is opened and the hot water stored in the hot water tank 21 is discharged from the hot water discharge port 24, the float 31 is lowered, and the low water level switch 33 operating in conjunction with the descent of the float 31 outputs a low water level signal to the control unit 50. When the control unit 50 receives the low water level signal from the low water level switch 33, the control unit 50 operates the water pump 13 to open the drinking water valve 14 and supplies the drinking water stored in the water reservoir 12 to the hot water tank 21. The drinking water supplied from the water reservoir 12 is supplied in such a manner that the water is discharged from the water supply port 23 attached to the bottom plate 22d of the tank main body 22 to the bottom portion 22a of the tank main body 22. In this way, drinking water in an amount corresponding to the amount of hot water discharged from the hot water discharge port 24 is supplied from the water supply port 23 to the bottom 22 a of the tank body 22.

  When the temperature sensors 29 and 30 detect the temperature of hot water that has been lowered by supplying drinking water to the hot water tank 21 and output a temperature signal to the control unit 50, the control unit 50 energizes the electric heater 27 based on the temperature signal. 3 is a control parameter diagram of the electric heater 27 in the hot water supply apparatus 20 shown in FIG. 3 for controlling the temperature of the hot water whose temperature has been lowered by supplying drinking water to maintain the temperature as hot water (for example, 95 ° C. to 97 ° C.). Will be described.

  When the user presses a hot beverage selection button, the hot water valve 25 is opened, and hot water stored in the hot water tank 21 is discharged from the hot water discharge port 24, and the hot water discharge amount discharged from the hot water discharge port 24 is reached. When a corresponding amount of potable water (cold water) is supplied from the water supply port 23 to the bottom 22a of the tank body 22, the potable water having a specific gravity greater than that of the hot water stays at the bottom 22a, and the temperature of the hot water around the temperature sensor 30 first decreases. Then, the temperature of the hot water around the temperature sensor 29 is lowered.

  When the temperature of the hot water around the temperature sensor 30 decreases and then the temperature of the hot water around the temperature sensor 29 decreases, as shown in the electric heater 27 conduction control parameter diagram of FIG. When the temperature sensor 30 detects a temperature of 93 ° C. or lower, the control unit 50 performs control to energize the electric heater 27.

  Thus, when drinking water is supplied from the water supply port 23 to the bottom 22a of the tank main body 22, first, the temperature of the hot water stored in the bottom 22a of the tank main body 22 decreases, so the temperature sensor 29 is 95 ° C. When the following temperature is detected and the temperature sensor 30 detects a temperature of 93 ° C. or lower, the electric heater 27 is energized, so that the hot water whose temperature has decreased can be heated quickly.

  Further, the hot water stored in the hot water tank 21 has a property of increasing as the temperature increases, and the temperature sensor 30 is 93 ° C. or lower because the temperature is lowered from the lower part of the hot water tank 21 during standby when no hot water is supplied. When the temperature sensor 29 detects a temperature of 95 ° C. or lower, the electric heater 27 is energized. Therefore, inconveniences such as boiling of hot water stored in the upper part of the hot water tank 21 occur. The risk of doing so can be eliminated.

  When the electric heater 27 is energized, the heat generating portion 27a generates heat and the hot water is heated to increase the temperature, and either the temperature sensor 29 or the temperature sensor 30 detects a temperature of 97 ° C. or higher. When both the temperature sensor 30 and the temperature sensor 30 detect a temperature of 95 ° C. or higher, the control unit 50 stops energizing the electric heater 27.

  As described above, the control unit (control means) 50 controls the hot water stored in the hot water tank 21 to a predetermined temperature by energizing the electric heater 27 based on the hot water temperature detected by the temperature sensors 29 and 30. The hot water supply apparatus 20 is provided with a water supply port 23 that discharges hot water from a hot water discharge port 24 provided in the hot water tank 21 and discharges drinking water in an amount corresponding to the discharged hot water to the bottom 22 a of the hot water tank 21. The temperature sensor includes a temperature sensor (first temperature sensor) 29 provided near the water level of the hot water discharge port 24 and a temperature sensor (second temperature sensor) provided near the water supply port 23 below the temperature sensor 29. ) 30, and the control unit 50 stops the energization of the electric heater 27 when either the temperature sensor 29 or the temperature sensor 30 detects a temperature of 97 ° C. or higher (first predetermined temperature). The temperature sensor 30 detects that the temperature of the hot water stored in the bottom portion 22a of the tank 21 has decreased, the electric heater 27 is energized, the heat generating portion 27a generates heat, and is stored in the bottom portion 22a where the temperature is decreasing. Even if the hot water stored in the vicinity of the hot water discharge port 24 and the hot water stored near the bottom 22a is heated at the same time, the hot water stored near the hot water discharge port 24 is still stored in the vicinity of the water level of the hot water discharge port 24. When the temperature sensor 29 for detecting the temperature of the hot water detects a temperature of 97 ° C. or higher, energization to the electric heater 27 is stopped, so that the hot water stored near the water level of the hot water discharge port 24 is not continuously heated. The hot water supply apparatus 20 can discharge hot water suitable for beverage cooking and can prevent abnormal heating.

  Further, when the temperature sensor 29 and the temperature sensor 30 detect a temperature of 95 ° C. or higher (second predetermined temperature) lower than 97 ° C., the control unit 50 stops energization of the electric heater 27, thereby When the temperature sensor 30 detects that the temperature of the hot water stored in 22a has decreased and the electric heater 27 is energized, the heat generating portion 27a generates heat, and the convection of the heated hot water is caused by this heat generation and rises evenly. Since the temperature of the hot water can be detected and energization of the electric heater 27 can be stopped early, high-temperature hot water suitable for cooking beverages can be discharged and abnormal heating can be prevented. The hot water supply apparatus 20 can be provided.

  Furthermore, the amount of drinking water corresponding to the amount of hot water discharged from the hot water discharge port 24 when the hot water valve 25 is opened is supplied from the water supply port 23 to the bottom 22a of the tank body 22, and the temperature sensor 29 is at a temperature of 95 ° C. or lower. When the temperature sensor 30 detects a temperature of 93 ° C. or less, the control unit 50 performs control to energize the electric heater 27, so that drinking water is supplied to the tank body 22 and the hot water whose temperature has been lowered is quickly detected. Since it becomes possible to heat, since it becomes possible to respond to continuous sales even if the amount of hot water stored in the tank body 22 is reduced, the tank body 22 can be made smaller to reduce heat dissipation. , Can save energy.

  In addition, although it demonstrated in the Example which provided two temperature sensors, more accurate temperature control is attained by providing the optimal number of temperature sensors and electric heaters in each optimal position, and cooking of a drink It is possible to provide a hot water supply apparatus that can discharge high-temperature hot water suitable for water and can prevent abnormal heating.

DESCRIPTION OF SYMBOLS 1 Cup type vending machine 12 Water reservoir 14 Drinking water valve 20 Hot water supply device 21 Hot water tank 22 Tank main body 22a Bottom 23 Water supply port 24 Hot water discharge port 25 Hot water valve 26 Hot water pipe 27 Electric heater 27a Heat generation part 29 Temperature sensor (1st Temperature sensor)
30 Temperature sensor (second temperature sensor)
50 Control unit (control means)

Claims (2)

Control means is provided for controlling the hot water stored in the hot water tank to a predetermined temperature by energizing the electric heater based on the hot water temperature detected by the temperature sensor, and from the hot water outlet provided in the hot water tank. In a hot water supply apparatus provided with a water supply port for discharging drinking water in an amount corresponding to the discharged hot water to the bottom of the hot water tank,
The temperature sensor comprises a first temperature sensor provided in the vicinity of the hot water outlet water level, and a second temperature sensor provided in the vicinity of the water supply port below the first temperature sensor,
The hot water supply apparatus according to claim 1, wherein the control means stops energization of the electric heater when either the first temperature sensor or the second temperature sensor detects a first predetermined temperature.   The said control means stops the electricity supply to the said electric heater, if the said 1st temperature sensor and a 2nd temperature sensor detect the 2nd predetermined temperature lower than the said 1st predetermined temperature. Hot water supply device.

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