JP2830789B2 - Bathtub waste heat recovery equipment - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for recovering waste heat from bathtub water to a hot water storage type electric water heater used in ordinary households.

[0002]

2. Description of the Related Art In recent years, importance has been placed on saving energy consumption in ordinary households, and it has been expected to recover thermal energy of hot water discharged from a bathtub in large quantities. In order to meet such expectations, there has been a conventional bath heat recovery apparatus for bath water as shown in FIG.
FIG. 4 is a configuration diagram showing a conventional bath heat recovery device for bath water. 4, reference numeral 1 denotes a hot water storage tank of a hot water storage type electric water heater, 2 denotes a heater provided in the hot water storage tank 1,
Is a hot water supply pipe connected to the lower part of the hot water storage tank 1, 4 is a hot water supply pipe connected to the upper part of the hot water storage tank 1, and 6 is a hot water storage tank 1.
A temperature sensor for detecting a boiling temperature provided on the lower outer peripheral surface of the control device, 5 is a control device mainly constituted by a microcomputer, 5a is a control power source for the control device 5, 7 is a main power source for supplying power to the heater 2, Reference numeral 8 denotes a switch unit controlled by the control device 5, 9 denotes a bathtub, and 10 denotes a waste heat recovery unit. Reference numeral 11 denotes a heat exchanger in the waste heat recovery unit 10, which guides low-temperature water from a lower part of the hot water storage tank 1 by a pump 12,
It is connected to a circulation pipe 13 that returns to the hot water storage tank 1 after heat exchange with hot water. Reference numeral 14 denotes a drain pipe for discharging water in the bathtub 9, and reference numeral 15 denotes a drain valve. here,
The water supply pipe 3 is directly connected to a water pipe or the like serving as a water source.
A hot water supply valve 16 (not shown) is provided at the end of the hot water supply pipe 4.

Next, the operation will be described. In the hot water storage type electric water heater, the hot water storage tank 1 is always full of water due to the water source water pressure, and the hot water supply valve 15 provided at the tip of the hot water supply pipe 4 is closed. When the switch unit 8 is closed by the control device 5, the main power supply 9 is supplied with power to the heater 2 and heats the water in the hot water storage tank 1. Then, when the temperature sensor 6 provided on the lower outer peripheral surface of the hot water storage tank 1 detects that the water in the hot water storage tank 1 has boiled to a predetermined temperature, the control device 5 opens the switch unit 8, and opens the switch unit 8. The power supply to the heater 2 by the main power supply 7 is stopped.

When the hot water supply valve 15 provided at the end of the hot water supply pipe 4 is opened in a state where the hot water is once heated to a predetermined temperature, the hot water in the hot water storage tank 1 is pushed out by the water source water pressure. The water is dropped into the bathtub 9, and the same amount of water as the hot water supply is supplied to the lower portion of the hot water storage tank 1 from the water supply pipe 3.

When the temperature is extremely low at about 43 ° C. during bathing,
The user has to add so-called hot water to increase the temperature in the bathtub 9 by adding so-called hot water. After the whole family takes a bath, the waste heat is collected in the hot water storage tank 1. The waste heat recovery circuit
The low-temperature water is guided from the lower part of the hot water storage tank 1 to the heat exchanger 11 in the waste heat recovery unit 10 by the circulation pump 12 and heat-exchanged with the hot water in the bathtub 9 and then returned to the hot water storage tank 1 again.

[0006]

In the conventional apparatus provided with the waste heat recovery unit 10 as described above, first, the heat exchange between the hot water in the waste heat recovery unit 10 and the hot water in the bathtub 9 is not carried out properly. There was a problem that it was not performed efficiently. Also,
Although waste heat recovery is possible, since the waste heat recovery unit 10 must be installed close to the bathtub 9, there is a problem that an extra space is required in the bathroom for waste heat recovery. . Furthermore, when performing the hot water, if the hot water in the hot water storage tank 1 has already been used up, the hot water in the bathtub 9 cannot be raised because the hot water is not available even if the hot water is used. there were.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and does not require an extra space for waste heat recovery. It is an object of the present invention to provide a bathtub water waste heat recovery device that can be replaced well and can raise the temperature of hot water in a bathtub under any circumstances.

[0008]

SUMMARY OF THE INVENTION A waste heat recovery apparatus for bathtub water according to the present invention comprises an electric water heater of a hot water storage type, a heat exchanger installed in a lower part of a hot water storage tank of the electric water heater, and a bathtub at one end. A return pipe, the other end of which is connected to the outlet side of the heat exchanger, a suction pipe, one end of which is connected to the bathtub and the other end of which is connected to the inlet side of the heat exchanger, and a suction pipe or return pipe. A circulation pump connected to the pipe, a temperature sensor for detecting a temperature of bathtub water passing through the suction pipe, an electric drain valve provided in a drain pipe of the bathtub, and power supply to the electric drain valve and the circulation pump. A control device for controlling, wherein the control device controls power supply to the electric drain valve and the circulating pump according to the temperature detected by the temperature sensor when the bathtub water is drained.

Further, in the waste heat recovery apparatus according to the present invention, the heat exchanger is provided near an upper portion of a heater in the hot water storage tank.

Further, in the waste heat recovery apparatus according to the present invention, the heat exchanger is integrally thermally connected to a heater in the hot water storage tank by a heat transfer plate.

Further, in the waste heat recovery apparatus according to the present invention, when the control device drains the bathtub water, the detection temperature of the temperature sensor provided at the lower portion of the hot water storage tank and the detection temperature of the temperature sensor provided at the suction pipe are determined. Are compared, and the circulation pump is operated and then drained until the temperatures substantially match or approach a predetermined range.

In the waste heat recovery apparatus according to the present invention, the control device always operates the circulation pump for a certain period of time when draining the bathtub water, and checks the temperature of the bathtub water with a temperature sensor provided on the suction pipe. It is intended to be executed.

Further, in the waste heat recovery apparatus according to the present invention, the detected temperature of the temperature sensor provided in the suction pipe is inputted to the control device after a lapse of a predetermined time from the start of operation of the circulation pump. It is like that.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION

Embodiment 1 FIG. Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a configuration diagram of an apparatus for recovering waste heat of bathtub water according to Embodiment 1 of the present invention. The same parts as those of the conventional device are denoted by the same reference numerals, and detailed description is omitted. In FIG. 1, 17 is a suction pipe having one end connected to a bathtub, 18 is a return pipe also having one end connected to a bathtub 9, and 19 is a lower portion of the hot water storage tank 1 of the hot water storage type electric water heater than the heater 2. In the installed heat exchanger, the inlet side is connected to the other end of the suction pipe 17, and the outlet side is connected to the other end of the return pipe 18. Reference numeral 20 denotes a circulation pump connected in the middle of the return pipe 18, and may be connected in the middle of the suction pipe 17. 2
1 is a temperature sensor for detecting the temperature of the water in the suction pipe 17, 22
Reference numeral denotes an electric drain valve provided in the drain pipe 14 for discharging hot water from the bathtub 9, and reference numeral 23 denotes a drain switch.

The detection signals of the temperature sensors 6 and 21 and the signal of the drain switch 23 are input to the control device 5,
The circulation pump 20 and the electric drain valve 22 are configured to be controlled by the control device 5 in the same manner as the heater 2.

Next, the operation will be described. First, bathtub 9
When the hot water is filled in the inside, the hot water in the hot water storage tank 1 that has been heated in advance is mixed with water supplied from another system (not shown) by opening the hot water supply valve 15, and the hot water is supplied into the bathtub 9. It is completed by spreading an appropriate amount of hot water.

Next, when the drain switch 23 is operated after all the members have taken a bath, the control device 5 first operates the circulation pump 20. Then, the hot water in the bathtub 9 is returned to the bathtub 9 through the suction pipe 17, the heat exchanger 19, the circulation pump 20, and the return pipe 18. At this time, if the temperature of the bathtub water is high, the heat exchanger 19 exchanges heat with the low-temperature water in the lower part of the hot water storage tank 1. On the other hand, the temperature of the bathtub water passing through the suction pipe 17 is detected by the temperature sensor 21, and the detection signal is input to the control device 5. When the temperature drops to a predetermined temperature, the control device 5 stops the operation of the circulation pump 20. Then, the electric drain valve 22 is controlled to open. If the temperature of the bath water is below the predetermined temperature from the beginning, after a certain period of operation,
The operation of the circulation pump 20 is stopped immediately, and the electric drain valve 22 is controlled to open. Therefore, the bathtub water is drained after the heat recovery is completed, and the heat energy is not wasted. Further, since the heat exchanger 19 is installed in the hot water storage tank 1, no extra space is required, and only the hot water in the bathtub 9 is forcibly circulated so that low-temperature water in the lower part of the hot water storage tank 1 of the electric water heater is removed. Since heat is exchanged, there are advantages such as an extremely high heat exchange rate.

Embodiment 2 FIG. FIG. 2 is a block diagram showing a second embodiment of the present invention, in which the position of a heat exchanger 19 installed in the hot water storage tank 1 is arranged near the upper portion of the heater 2 and a reheating switch 24 is provided to form a bathtub. When the temperature of the hot water in the heater 9 drops, the heater 2 on the electric water heater side can be used to reheat the hot water. That is,
By operating the reheating switch 24, the controller 5
Is configured so that the circulating pump 20 is operated and at the same time, the switch unit 8 is closed to supply power to the heater 2, and the heat exchanger 19 is heated by the heater 2 so that the temperature of the hot water in the bathtub 9 can be increased. Have been. Then, when the temperature sensor 21 detects a predetermined temperature, the control device 5 controls so as to stop power supply to the heater 2 and the circulation pump 20. Thereby, even if there is no remaining amount of hot water in the hot water storage tank 1, reheating can be performed, and reheating can be performed under any conditions, and the temperature of the hot water in the bathtub 9 is increased. be able to. The waste heat recovery at the time of drainage is performed in exactly the same manner as in the first embodiment.

At the time of drainage, the control device 5 compares the detected temperature of the temperature sensor 21 with the temperature of the temperature sensor 6 for boiling detection, and if the detected temperatures of both the temperature sensors substantially match or approach a predetermined range. , Circulation pump 2
0 may be stopped. If the temperature detected by the temperature sensor 21 is not input to the controller 5 until the circulating pump 20 is operated for a certain period of time, and the detected temperature after the operation for a certain period of time is input to the controller 5, an accurate bathtub can be obtained. It is possible to detect the temperature of the water.

Embodiment 3 FIG. FIG. 3 is a configuration diagram of a waste heat recovery device showing a third embodiment of the present invention. In FIG. 3, 25
Is a heat transfer plate made of a member having good heat conductivity,
And the heat exchange section 19 are integrally thermally coupled. With such a configuration, the heat of the heater 2 can be transmitted to the heat exchanger 19 without waste, and the heat of the heat exchanger 19 can be transmitted well to the low-temperature water in the lower part of the hot water storage tank 1. Collection and reheating can be completed in a short time.

[0021]

As described above, according to the present invention, the temperature sensor detects the temperature of the bathtub water and controls the heat recovery when the temperature is higher than a predetermined temperature, so that the heat recovery is completed. It will be drained later and will not waste heat energy. In addition, since the heat exchanger is installed in the hot water storage tank, no extra space is required, and only the hot water in the bath tub is forcibly circulated to exchange heat with the low-temperature water in the lower part of the hot water storage tank of the electric water heater. Therefore, there are advantages such as an extremely high heat exchange rate.

Further, the position of the heat exchanger installed in the hot water storage tank is arranged near the upper portion of the heater, so that when the temperature of the hot water in the bathtub drops, reheating can be performed by using the heater. Therefore, even if there is no remaining hot water in the hot water storage tank, reheating can be performed, and when the temperature of the hot water in the bathtub drops, reheating can be performed in any situation. , Can increase the temperature of hot water in the bathtub.

Further, since the heater and the heat exchanging section are integrally thermally connected by the heat transfer plate made of a member having good heat conductivity, heat recovery and reheating can be completed in a short time. become.

At the time of drainage, the controller compares the detected temperature of the temperature sensor with the temperature of the temperature sensor for boiling detection, and when the detected temperatures of both temperature sensors substantially match or approach a predetermined range, the circulating pump. By stopping the operation of, the heat recovery can be performed more efficiently without operating the circulation pump for a long time.

Further, the temperature detected by the temperature sensor is not input to the control device until the circulating pump is operated for a certain period of time.
By inputting the detected temperature after the operation for a certain period of time to the control device, effects such as a more accurate detection of the temperature of the bath water can be obtained.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a bathtub water waste heat recovery device according to a first embodiment of the present invention.

FIG. 2 is a configuration diagram showing a second embodiment of the present invention.

FIG. 3 is a configuration diagram showing a third embodiment of the present invention.

FIG. 4 is a configuration diagram showing a conventional bath heat recovery device for bath water.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Hot water storage tank 2 Heater 5 Control device 6 Temperature sensor 9 Bath tub 17 Suction pipe 18 Return pipe 19 Heat exchanger 20 Circulation pump 21 Temperature sensor 22 Electric drain valve 23 Drain switch 24 Reheating switch 25 Heat transfer plate

Continuation of the front page (58) Field surveyed (Int. Cl. ⁶ , DB name) F24H 1/00 631 F24H 1/18 F24D 17/00

Claims (6)

(57) [Claims] 1. A hot water storage type electric water heater, a heat exchanger installed in a lower part of a hot water storage tank of the electric water heater, one end connected to a bathtub and the other end connected to an outlet side of the heat exchanger. A return pipe, a suction pipe having one end connected to the bathtub and the other end connected to the inlet side of the heat exchanger, a circulation pump connected to the suction pipe or return pipe, and a bathtub water passing through the suction pipe. A temperature sensor for detecting the temperature of the tub, an electric drain valve provided in the drain pipe of the bathtub, and a control device for controlling the electric drain valve and the energization of the circulation pump. A waste heat recovery apparatus for bathtub water, wherein power supplied to the electric drain valve and the circulation pump is controlled in accordance with a temperature detected by the temperature sensor during drainage. 2. The waste heat recovery apparatus for bathtub water according to claim 1, wherein the heat exchanger is provided near an upper portion of a heater in the hot water storage tank. 3. The apparatus for recovering waste heat of bathtub water according to claim 1, wherein the heat exchanger is integrally thermally connected to a heater in the hot water storage tank by a heat transfer plate. 4. The controller according to claim 1, wherein when the bathtub water is drained, a comparison is made between a detected temperature of a temperature sensor provided at a lower portion of the hot water storage tank and a detected temperature of a temperature sensor provided at a suction pipe. The waste heat recovery apparatus according to claim 1, characterized in that the circulating pump is operated and then drained until the values substantially match or approach a predetermined range. 5. The control device according to claim 1, wherein, when draining the bathtub water, the circulation pump is always operated for a certain period of time, and a step of checking the temperature of the bathtub water with a temperature sensor provided in the suction pipe is executed. The waste heat recovery device for bathtub water according to claim 1, wherein: 6. The control device according to claim 5, wherein the detected temperature of the temperature sensor provided in the suction pipe is inputted to the control device after a lapse of a predetermined time from the start of the operation of the circulation pump. Waste water recovery equipment for bathtub water.