JPS63315856A - Heat pump type hot water feeder - Google Patents

Abstract

PURPOSE:To enable a high economic operation to be performed by a method wherein the operation is controlled in such a way as an amount of remained hot water within a hot water storing tank is suppressed substantially at a constant value within a certain set time and in turn an amount of remaining hot water in the hot water storing tank is kept full within a time period of low electric power bill. CONSTITUTION:An amount of remained hot water is detected by a hot water temperature sensor 22 within a set time for setting an amount of remained hot water. In case that a temperature of the temperature sensor 22 is less than a set value, a microcomputer type controller 24 may perform an operation of a hot water side heat pump 2 in such a way as an amount of remained hot water within the hot water storing tank 1 is kept constant. Then, in case that it is more economic to fill the hot water storing tank 1 with hot water at night having a low electrical fee, it is judged by a temperature sensor 21 whether the tank is full of hot water or not. If a temperature of the temperature sensor 21 is less than the set temperature, the microcomputer type controller 24 may operate the heat pump 2 until the amount of remaining hot water within the hot water storing tank 1 is replenished to the full.

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention uses an efficient heat pump as a heat source to supply hot water to apartment complexes, business hotels, etc., and also to reduce the equipment capacity. , relates to a heat pump water heater equipped with a hot water storage tank.

[Conventional technology]

An example of a heat pump water heater conventionally used in apartment complexes, business hotels, etc. is shown in FIG. 7 and will be described.

In the figure, 31 is a hot water storage tank, 32 is a heat pump water heater, 33 is a pipe from the hot water tank 31 to the heat pump water heater 32, 34 is a pipe from the heat pump water heater to the hot water tank 31, 35 is a hot water circulation pump, and 36 is a water supply. Piping, 37 is a hot water supply outward piping, 38a, 38b are load side faucets, 39 is a hot water supply return piping, 40 is a hot water circulation pump for hot water supply, 41 is a controller,
42 is an electric two-way valve, 43 is an electromagnetic valve, and 44 is a water level detector provided in the hot water tank 31.

Then, the controller 41 inputs the water level detection signal from the water level detector 44 and connects the heat pump water heater 32 and the electric two-way valve 4.
2 and a solenoid valve 43.

In the heat pump water heater shown in FIG. 7, when hot water is being supplied, the solenoid valve 43 is opened by a signal from the water level detector 44 to start water supply. The amount of water supplied is adjusted so that the outlet temperature of the heat pump water heater 32 is constant. Therefore, the water temperature in the hot water storage tank 31 is always kept constant and used for hot water supply.

In addition, a hot water supply outgoing pipe 37 and a faucet 38m on the hot water supply load side,
38b, the hot water circulation pump 40 was constantly operated to circulate hot water.

[Problem that the invention seeks to solve]

Conventional heat pump water heaters like the ones mentioned above have an outlet temperature of around 55℃, and there is also a lot of heat loss from the hot water supply piping on the load side, so the performance is not that good and the running costs are high. There was a problem with becoming.

This invention was made to solve these problems, and is a heat pump that can be operated highly economically, and can be operated automatically by remote control, saving labor in maintenance and management. The purpose is to obtain a water heater.

[Means for solving problems]

A heat pump water heater according to the present invention includes a high temperature side hot water storage tank for storing high temperature water, a high temperature side heat pump for heating the high temperature side hot water storage tank, and a connection between the high temperature side heat pump and the high temperature side hot water storage tank to store hot water on the high temperature side. Outgoing piping from the bottom of the tank to the high-temperature side heat pump, return piping from the high-temperature side heat pump to the high-temperature side hot water storage tank, and short-circuit piping that directly connects the outgoing piping and the return piping to bypass the high-temperature side heat pump. , a three-way electric valve for connecting the outgoing pipe and the short-circuit pipe to control the inlet temperature of the high-temperature side heat pump, a sensor for controlling the three-way electric valve, and a three-way electric valve in the middle of the outgoing pipe. and a hot water circulation pump interposed between the high temperature side heat pump, a low temperature side hot water storage tank that stores low temperature water, and a low temperature side heat pump that heats the low temperature side hot water storage tank. Outgoing piping that connects the side hot water storage tanks and runs from the low temperature side hot water storage tank to the low temperature side heat pump, return piping from the low temperature side heat pump to the low temperature side hot water storage tank, and a hot water circulation pump interposed in the middle of the above described outgoing piping. a low temperature system having a low temperature system, a pipe connecting the high temperature side hot water storage tank and the low temperature side hot water storage tank, a water supply pipe supplying water to the low temperature side hot water storage tank, and a hot water supply pipe supplying hot water from the high temperature side hot water storage tank to the user. A faucet installed in this hot water supply pipe, a hot water circulation pump and return pipe that circulate high temperature water to the low temperature side hot water storage tank so that the hot water supply pipe does not get cold, and a temperature sensor that detects the temperature in this return pipe. A heat pump hot water supply system comprising: a temperature sensor that detects the temperature at the bottom of the high temperature side hot water storage tank; a temperature sensor that detects the temperature at the top of the high temperature side hot water storage tank; and a temperature sensor that detects the temperature of the low temperature side hot water storage tank. and a microcomputer controller that controls the high-temperature side heat pump, low-temperature side heat pump, and hot water circulation pump according to the temperature signals from each temperature sensor and the operation schedule stored in its own internal memory. be.

Further, a heat pump hot water supply device according to another invention of the present invention includes a temperature sensor that detects the temperature at the bottom of the hot water storage tank on the high temperature side, a temperature sensor that detects the upper limit temperature of the remaining hot water, and a lower limit of the remaining hot water in the heat pump hot water supply system described above. It has a temperature sensor that detects the temperature of the hot water storage tank on the low temperature side and a temperature sensor that detects the temperature of the low temperature side hot water storage tank.The high temperature side heat pump, the low temperature side heat pump, and the It is equipped with a microcomputer controller that controls the hot water circulation pump.

[Effect]

In this invention, the heat pump water heater and the hot water storage tank are separated into two systems, high temperature side and low temperature side, and the high temperature side heat pump can generate hot water at a constant high temperature, and within a predetermined set time, the high temperature Keep the amount of hot water remaining in the side hot water storage tank at a nearly constant value to avoid storing high temperature water unnecessarily, and keep the amount of hot water in the high temperature side hot water storage tank full at set times such as late at night when electricity rates are low. Control as follows.

〔Example〕

Hereinafter, embodiments of the present invention will be described in detail based on the drawings.

FIG. 1 is a block diagram showing an embodiment of a heat pump water heater according to the present invention.

In the figure, 1 is a high temperature side hot water storage tank that stores high temperature water, 2 is a high temperature side heat pump that heats this high temperature side hot water storage tank 1, and 3 is a high temperature side hot water storage tank that connects this high temperature side heat pump 2 and high temperature side hot water storage tank 1. A return pipe from the bottom of the tank 1 to the high temperature side heat pump 2, 4 a return pipe from the high temperature side heat pump 2 to the high temperature side hot water storage tank 1, and 5 a return pipe that directly connects the return pipe 3 and the return pipe 4 to connect the high temperature side heat pump 2. A short-circuit pipe to be bypassed, 6 a three-way electric valve for connecting the return pipe 3 and the short-circuit pipe 5 and controlling the inlet temperature of the high temperature side heat pump 2, 7 a sensor for controlling this three-way electric valve 6, and 8 a return valve. This hot water circulation pump is interposed between the three-way electric valve 6 and the high temperature side heat pump 2 in the middle of the piping 3, and these constitute a high temperature system.

9 is a low temperature side hot water storage tank for storing low temperature water; 10 is a low temperature side heat pump that heats this low temperature side hot water storage tank 9; 11 is a connection between this low temperature side heat pump 10 and the low temperature side hot water storage tank 9, and a low temperature side hot water storage tank 9 is connected to the low temperature side hot water storage tank 9; Return piping leading to the low temperature side heat pump 10,
12 is a return pipe from the low temperature side heat pump 10 to the low temperature side hot water storage tank 9; 13 is a hot water circulation pump interposed in the middle of the return pipe 11; these constitute a low temperature system.

14 is a pipe connecting the high temperature side hot water storage tank 1 and the low temperature side hot water storage tank 9; 15 is a water supply pipe that supplies water to the low temperature side hot water storage tank 9; 16 is a hot water supply pipe that supplies hot water from the high temperature side hot water storage WJ1 to the user; 17 m
, 17b, 17c are faucets installed in this hot water supply pipe 16, 18 and 19 are hot water circulation pumps and return pipes that circulate high temperature water to the low temperature side hot water storage tank 9 so as not to cool the hot water supply pipe 16, and 20 are this return pipe. This is a temperature sensor that detects the temperature inside 19.

21 is a temperature sensor that detects the temperature at the bottom of the high temperature side hot water storage tank 1; 22 is a temperature sensor that detects the temperature at the top of the high temperature side hot water storage tank 1; and 23 is a temperature sensor that detects the temperature of the low temperature side hot water storage tank 9. . 24 are each of these temperature sensors 21,
This is a microcomputer controller that controls the high temperature side heat pump 2, the low temperature side heat pump 10, and the hot water circulation pump 18 based on the temperature signal from 22 and 23 and the operation schedule stored in its own internal memory.

The microcomputer controller 24 is configured to operate the high temperature side heat pump 2 so as to keep the amount of hot water remaining in the high temperature side hot water storage tank 1 constant, and this microcomputer controller 24 is configured to operate the high temperature side heat pump 2 only within a predetermined set time. The high temperature side heat pump 2 operates until the remaining hot water in the side hot water storage tank 1 is full.
It is configured to operate.

2 and 3 are flowcharts showing the control flow of the heat pump to explain the operation of FIG. 1, and diagrams showing changes in the amount of hot water remaining in the hot water storage tank 1 on the high temperature side.

The control sequence shown in FIG. 2 is stored inside the microcomputer controller 24.

Also, (a) in Figure 3 shows the maximum remaining hot water.
←) indicates the lower limit of remaining hot water, and e indicates the ON setting time.

Next, the operation of the embodiment shown in FIG. 1 will be explained with reference to FIGS. 2 and 3.

First, in step S of FIG. 2, the power is turned on, and in the next step S2, if the amount of remaining hot water is within the set time, in step S, the amount of remaining hot water is detected by the temperature sensor 22. If the temperature of the temperature sensor 22 is lower than the set value in step S4, the high-temperature side heat pump 2 is turned on in step S5, and remains turned on until a preset heat pump on time is exceeded in step S6. Then, when the set time exceeds the on time, the heat pump is turned off in step S7.

Next, in step Ss, at night when electricity prices are low,
If it is more economical to fill the high-temperature side hot water storage tank 1 with high-temperature water, the temperature sensor 21 determines whether it is full in step SS. If the temperature of the temperature sensor 21 is equal to or higher than the set temperature in step S9, the operation of the heat pump is stopped (see step SIO), and if the temperature of the temperature sensor 21 is less than the set temperature in step SS, the operation of the heat pump is stopped. Turn on (see step 811).

In this way, the process returns to step SZ, and it is determined whether or not the set time has elapsed, and the above-mentioned control continues to be repeated. Figure 3 shows how the amount of remaining hot water changes over time under this control.

FIG. 4 is a block diagram showing another embodiment of the present invention.

In FIG. 4, the same reference numerals as in FIG. 1 indicate corresponding parts, 25 is a temperature sensor that detects the temperature at the lower part of the high temperature side hot water storage tank 1, 26 is a temperature sensor that detects the lower limit temperature of the remaining hot water, 27 is a temperature sensor that detects the upper limit temperature of remaining hot water. 28 is a temperature sensor 23 that detects the temperature of these temperature sensors 25, 26, 27 and the low temperature side hot water storage tank 9.
This is a microcomputer controller that controls the high temperature side heat pump 2, the low temperature side heat pump 10, and the hot water circulation pump 18 based on the temperature signal from the controller and the operation schedule stored in its internal memory.

The microcomputer controller 28 then controls the high temperature side hot water storage tank 1.
The microcomputer controller 28 is configured to operate the high temperature side heat pump 2 so as to keep the amount of hot water remaining in the high temperature side hot water storage tank 1 constant, and the microcomputer controller 28 is configured to operate the high temperature side heat pump 2 so as to keep the amount of hot water remaining in the high temperature side hot water storage tank 1 constant. The high temperature side heat pump 2 is configured to operate until the high temperature side heat pump 2 is reached.

5 and 6 are flowcharts showing the control flow of the heat pump and diagrams showing changes in the amount of hot water remaining in the hot water storage tank 1 on the high temperature side to explain the operation of FIG. 4. FIG.

The control sequence shown in FIG. 5 is stored inside the microcomputer controller 28.

In addition, ( ) in Figure 6 shows the maximum remaining hot water, ( ) is the upper limit of remaining hot water, (f) is the lower limit of remaining hot water, (g) is outside the remaining hot water amount limit time, and (a) is the amount of remaining hot water. This shows that the time is within the time limit.

Next, the operation of the embodiment shown in FIG. 4 will be explained with reference to FIGS. 5 and 6.

First, in step Sat in FIG. 5, turn on the power,
In the next step 822, if the amount of remaining hot water is within the set time, the amount of remaining hot water is detected by the temperature sensors 26 and 27 in step SZS. Then, if the high temperature side heat pump 2 is in the off state in step szi, and if the temperature of the temperature sensor 27 is less than the set value in step SKI, step S is performed.
The heat pump is kept off in step ZS, and if the temperature of the temperature sensor 27 is higher than the set value in step SXS, the heat pump starts operating in step Sat.

Further, when the heat pump is in the on state in step sz4, if the temperature of the temperature sensor 26 is higher than the set value in step S, the heat pump is turned off in step sze, and in step sum, the temperature of the temperature sensor 26 is set to the set value. If it is less than 1, the operation of the heat pump is continued in step 5lll.

Next, in step SH, if it is economical to fill the high-temperature side hot water storage tank 1 with high-temperature water, such as at night when electricity rates are low, in step S31, the temperature sensor 25 determines whether it is full, and in step If the temperature of the temperature sensor 25 is equal to or higher than the set temperature in step Ssz, the operation of the heat pump is stopped (see step SXS), and if the temperature of the temperature sensor 25 is less than the set temperature in step S32, the operation of the heat pump is turned on (step (see SI4).

In this way, the process returns to step StZ, and it is determined whether or not the set time has elapsed, and the above control is continued. Figure 6 shows how the amount of remaining hot water changes over time under this control.

〔Effect of the invention〕

As explained above, according to the present invention, a heat pump water heater and a hot water storage tank are separated into two systems, a high temperature side and a low temperature side, and the high temperature side heat pump can generate hot water at a constant high temperature, and During a certain set time, the amount of hot water remaining in the high-temperature side hot water storage tank is kept at a constant value #1#Y to avoid storing high-temperature water unnecessarily, and during set times such as late at night when electricity rates are low, the amount of hot water remaining in the high-temperature side hot water storage tank is kept at a constant value. Since the hot water storage tank is controlled so that the amount of remaining hot water is kept full, highly economical operation can be achieved.Also, operation is performed automatically by remote control operation, which has the effect of saving labor in maintenance and management. be.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing an embodiment of a heat pump water heater according to the present invention, and FIGS. 2 and 3 are flow charts showing the control flow of the heat pump to explain the operation of FIG. 1, and the amount of hot water remaining in the hot water storage tank on the high temperature side. Figure 4 showing changes in
5 is a block diagram showing another embodiment of the present invention, and FIGS. 5 and 6 are flowcharts showing the control flow of the heat pump to explain the operation of FIG. , FIG. 7 is a configuration diagram showing an example of a conventional heat pump water heater. 1...High temperature side hot water storage tank, 2...High temperature side heat pump, 3...Outward piping, 4...Return piping, 5...
Short circuit piping, 6... Three-way electric valve, 7 @ 11... Sensor, 8... Hot water circulation pump, 9... Low temperature side hot water storage tank, 10... Low temperature side heat pump, 11 @ 11
11-Outward piping, 1211@1111 return piping, 13...
・Hot water circulation pump, 14... Piping, 15... Water supply piping, 16-... Hot water supply piping, 17a-17e...
- Faucet, 18...Hot water circulation pump, 19...-Return piping, 20-23...Temperature sensor, 24...Microcomputer controller, 25-27 Fist...Temperature sensor, 28- ...Microcomputer controller.

Claims (6)

[Claims] (1) A high temperature side hot water storage tank that stores high temperature water, a high temperature side heat pump that heats the high temperature side hot water storage tank, and a high temperature side heat pump that connects the high temperature side hot water storage tank with the high temperature side hot water storage tank, and connects the high temperature side hot water storage tank with water from the bottom of the high temperature side hot water storage tank. An outgoing pipe leading to the high temperature side heat pump, a return pipe from the high temperature side heat pump to the high temperature side hot water storage tank, a short circuit pipe that directly connects the outgoing pipe and the return pipe to bypass the high temperature side heat pump, and the outgoing pipe. and a three-way electric valve for connecting the short-circuit pipe and controlling the inlet temperature of the high-temperature side heat pump, a sensor for controlling the three-way electric valve, and a connection between the three-way electric valve and the high-temperature side heat pump in the middle of the outgoing pipe. a high-temperature system having a hot water circulation pump interposed therebetween, a low-temperature side hot water storage tank for storing low-temperature water, a low-temperature side heat pump heating the low-temperature side hot water storage tank, and between the low-temperature side heat pump and the low-temperature side hot water storage tank. A low-temperature system having an outgoing pipe connecting the low-temperature side hot water storage tank to the low-temperature side heat pump, a return pipe from the low-temperature side heat pump to the low-temperature side hot water storage tank, and a hot water circulation pump interposed in the middle of the outgoing pipe. , a pipe connecting the high temperature side hot water storage tank and the low temperature side hot water storage tank, a water supply pipe supplying water to the low temperature side hot water storage tank, a hot water supply pipe supplying hot water from the high temperature side hot water storage tank to the user, and this hot water supply pipe. a hot water circulation pump and a return pipe that circulate high-temperature water to the low-temperature side hot water storage tank so that the hot water supply pipe does not get cold, and a first temperature sensor that detects the temperature in the return pipe. In the heat pump hot water supply system, a second device detects the temperature at the bottom of the hot water storage tank on the high temperature side.
a third temperature sensor that detects the temperature of the upper part of the high temperature side hot water storage tank; and a fourth temperature sensor that detects the temperature of the low temperature side hot water storage tank;
and a microcomputer controller that controls the high-temperature side heat pump, the low-temperature side heat pump, and the hot water circulation pump according to temperature signals from each of the fourth sensors and an operation schedule stored in its own internal memory. Water heater. (2) The heat pump water heater according to claim 1, wherein the microcomputer controller operates the high temperature side heat pump so as to keep the amount of hot water remaining in the high temperature side hot water storage tank constant. (3) The microcomputer controller operates the high temperature side heat pump only within a predetermined set time until the amount of hot water remaining in the high temperature side hot water storage tank is full. heat pump water heater. (4) A high-temperature side hot water storage tank for storing high-temperature water, a high-temperature side heat pump for heating the high-temperature side hot water storage tank, and a connection between the high-temperature side heat pump and the high-temperature side hot water storage tank to provide water from the bottom of the high-temperature side hot water storage tank. An outgoing pipe leading to the high temperature side heat pump, a return pipe from the high temperature side heat pump to the high temperature side hot water storage tank, a short circuit pipe that directly connects the outgoing pipe and the return pipe to bypass the high temperature side heat pump, and the outgoing pipe. A three-way electric valve for connecting the short-circuit piping and controlling the inlet temperature of the high-temperature side heat pump, a sensor for controlling the three-way electric valve, and a three-way electric valve for connecting the three-way electric valve and the high-temperature side heat pump in the middle of the outgoing piping. A high temperature system having a hot water circulation pump interposed therebetween, a low temperature side hot water storage tank for storing low temperature water, a low temperature side heat pump heating the low temperature side hot water storage tank, and a connection between the low temperature side heat pump and the low temperature side hot water storage tank. A low-temperature system including an outgoing pipe connected to the low-temperature side hot water storage tank to the low-temperature side heat pump, a return pipe from the low-temperature side heat pump to the low-temperature side hot water storage tank, and a hot water circulation pump interposed in the middle of the outgoing pipe. , a pipe connecting the high temperature side hot water storage tank and the low temperature side hot water storage tank, a water supply pipe supplying water to the low temperature side hot water storage tank, a hot water supply pipe supplying hot water from the high temperature side hot water storage tank to the user, and this hot water supply piping. A hot water circulation pump and a return pipe that circulate high temperature water to the low temperature side hot water storage tank so as not to cool the hot water supply pipe, and a first temperature sensor that detects the temperature in the return pipe. In the heat pump hot water supply system, a second
a third temperature sensor that detects the upper limit temperature of the remaining hot water, a fourth temperature sensor that detects the lower limit temperature of the remaining hot water, and a fifth temperature sensor that detects the temperature of the low temperature side hot water storage tank. and the second, third, fourth and fifth
A heat pump water heater comprising a microcomputer controller that controls the high-temperature side heat pump, the low-temperature side heat pump, and the hot water circulation pump according to temperature signals from each sensor and an operation schedule stored in its own internal memory. (5) The heat pump water heater according to claim 4, wherein the microcomputer controller operates the high temperature side heat pump so as to keep the amount of hot water remaining in the high temperature side hot water storage tank constant. (6) The microcomputer controller operates the high-temperature side heat pump only within a predetermined set time until the amount of hot water remaining in the high-temperature side hot water storage tank is full. heat pump water heater.