JPH094865A - Heat pump type hot water feeding facility - Google Patents

Abstract

PURPOSE: To provide a heat pump type hot water feeding facility in which either a lack of hot water storing amount or a lack of increasing in temperature of hot water can be avoided without a great increase in a facility expenditure. CONSTITUTION: In the case that either a water temperature within a hot water storing tank 2 detected by a first temperature sensor 11 or a water level within the hot water storing tank 2 detected by a water level sensor 10 is lower than a respective predetermined value within a first predetermined time range before starting a night-time electrical power time range starting set in a 24 hour timer 17, a target water temperature within the hot water storing tank 2 is set to a second predetermined water temperature higher than a first predetermined water temperature under a hot water feeding mode. Then, a hot water storing mode operation is carried out for controlling both water temperature in the hot water storing tank and the water level in such a manner that they may approach the set target water temperature and the target water level.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat pump type hot water supply facility having a hot water storage tank.

[0002]

2. Description of the Related Art Conventionally, as an example of this type of heat pump hot water supply equipment, there is one disclosed in Japanese Patent Publication No. 2-2059. This is as shown in Figure 9,
1 is a heat pump for hot water supply, 2 is a hot water storage tank, 3 is a primary circulation pump for hot water supply, 4 is a primary circulation water passage for hot water supply, 5 is a faucet,
6 is a secondary side circulation pump for hot water supply, 7 is a secondary side circulating water passage for hot water supply, 8 is a water supply valve, 9 is a water supply pipe, 10 is a water level sensor, 1
Reference numeral 1 is a first temperature sensor, and 12 is a control device. The hot water supply primary side circulating water passage 4 is formed by a hot water supply heat pump 1, a hot water storage tank 2, and a pipe connecting these via a hot water supply primary side circulation pump 3. The hot water supply secondary side circulation water passage 7 is formed by a pipe whose both ends are connected to the hot water storage tank 2, and a faucet 5 and a hot water supply secondary side circulation pump 6 are provided in the middle thereof. Furthermore, water supply pipe 9
Connects a water source such as water supply (not shown) to the hot water supply primary side circulation water passage 4 through a water supply valve 8, and stores water from the water source through the water supply valve 8 and the hot water supply primary side circulation water passage 4. It is configured so that it can flow into the tank 2.

Next, the operation will be described. In this heat pump type hot water supply facility, hot water is stored in the hot water storage tank 2 at night when hot water supply is low, and is mainly used during the daytime from the faucet 5. For this reason, normally, a charge accuracy (for example, a commercial heat storage adjustment contract system) of a power company for the purpose of night shift of electric power consumption is used, and a heat pump for hot water supply is supplied at a low cost at night (for example, from 22:00 to 8:00). 1 and primary circulation pump 3 for hot water supply
To raise the temperature of the water in the hot water storage tank 2.

That is, when the water temperature in the hot water storage tank 2 detected by the first temperature sensor 11 is below a predetermined value at night, the controller 12 operates the hot water supply heat pump 1 and the hot water supply primary side circulation pump 3. The hot water supply heat pump 1 heats the water circulating in the hot water supply primary side circulation water passage 4 by the heat absorbed from the outside air. Further, when the water temperature in the hot water storage tank 2 detected by the first temperature sensor 11 is equal to or higher than another predetermined value higher than the predetermined value and the water level in the hot water storage tank 2 detected by the water level sensor 10 is equal to or lower than the predetermined water level, control is performed. The device 12 opens the water supply valve 8 to supply water from the water supply pipe 9. In this way, hot water is stored up to a predetermined water level while maintaining the water temperature in the hot water storage tank 2 at a predetermined temperature or higher.

On the other hand, the hot water supply secondary side circulation pump 6 is always operated, and the hot water is circulated in the hot water supply secondary side circulating water passage 7. Therefore, when the faucet 5 is twisted, the hot water comes out immediately.

[0006]

Since the above-mentioned conventional heat pump type hot water supply equipment is a system having a hot water storage tank, it is necessary to surely boil a predetermined amount of hot water to a predetermined temperature or higher by morning. However, since the load of hot water storage largely depends on the outside air temperature and the temperature of the water from the water source, the day when the outside air temperature or the water temperature falls below the standard temperature at the time of facility design, the time when the nighttime electricity charge time period ends Therefore, the amount of hot water stored or the rise in hot water may be insufficient. Further, due to the secular change or abnormality of the hot water supply heat pump or the hot water supply primary side circulation pump, it is expected that the amount of hot water stored or the rise in hot water temperature will similarly be insufficient. In order to avoid this, it may be possible to increase the capacity of the heat pump for hot water supply to a larger value than usual, but this method is used for exceptionally cold weather conditions or abnormalities that do not occur on a daily basis. If this is done, the equipment cost will increase and the economic efficiency will be poor.

The present invention has been made in order to solve the above problems, and provides a heat pump type hot water supply equipment capable of avoiding a shortage of hot water storage or a shortage of hot water temperature increase without significantly increasing equipment costs. That is the purpose.

[0008]

In order to achieve the above object, a heat pump hot water supply facility according to the present invention includes a hot water supply heat pump for heating water by heat absorbed from the outside air, a hot water supply heat pump and a hot water storage tank. A primary water circulation channel for hot water supply having a primary circulation pump for hot water supply formed in
A water supply pipe that allows water from a water source such as water supply to flow into a hot water storage tank through a water supply valve, a water level sensor that detects the water level in the hot water storage tank, and a first temperature sensor that detects the water temperature in the hot water storage tank.
One or both of a second temperature sensor that detects the outside air temperature and a third temperature sensor that detects the temperature of water from a water source, and a first power time zone and a first power time zone before the start of the night power time zone
And a 24-hour timer in which the predetermined time zone is set, and the detection value of the second temperature sensor or the third temperature sensor in the first predetermined time zone is less than or equal to each predetermined value,
The target water temperature in the hot water storage tank is set to a second predetermined water temperature higher than the first predetermined water temperature in the hot water supply mode, and the target water level in the hot water storage tank is set to a second predetermined water level higher than the first predetermined water level in the hot water supply mode. The water temperature is set to the target water temperature and the first control means for operating the hot water storage mode for controlling the water temperature and the water level in the hot water storage tank so as to approach the set target water level is provided.

Further, a hot water supply heat pump for heating water by heat absorbed from the outside air, and a hot water supply primary side circulating water channel having a hot water supply primary side circulation pump formed between the hot water supply heat pump and the hot water storage tank, water supply, etc. Water supply pipe that allows water from the water source to flow into the hot water tank through the water supply valve, a water level sensor that detects the water level in the hot water tank, a first temperature sensor that detects the water temperature in the hot water tank, and night power hours Between the 24-hour timer in which the second predetermined time period before the end of the obi zone and the nighttime electric power time period is set, the heat pump for air conditioning that heats water by the heat absorbed from the outside air, the heat pump for air conditioning, and the load side air conditioner And an auxiliary heat exchanger for exchanging heat between the hot-water supply primary side circulating water passage and the air conditioning circulating water passage, and an air conditioning heat pump and an auxiliary heat exchanger. A first motor-operated valve disposed in the air-conditioning circulating water passage between the two, when the detection value of the water level sensor or the first temperature sensor in the second predetermined time zone is less than or equal to each predetermined value, Operate the heat pump for air conditioning,
The second control means for controlling the motor-operated valve to be opened is provided.

Further, a hot water supply heat pump for heating water by heat absorbed from the outside air, and a hot water supply primary side circulation water passage having a hot water supply primary side circulation pump formed between the hot water supply heat pump and the hot water storage tank, water supply, etc. Water supply pipe that allows water from the water source to flow into the hot water tank through the water supply valve, a water level sensor that detects the water level in the hot water tank, a first temperature sensor that detects the water temperature in the hot water tank, and night power hours The band is set 2
4-hour timer, air conditioning heat pump that heats water with heat absorbed from the outside air, air conditioning circulating water channel having an air conditioning circulating pump formed between the air conditioning heat pump and the load side air conditioner, and primary side for hot water supply An auxiliary heat exchanger for exchanging heat between the circulation water passage and the air conditioning circulation water passage, a first motor-operated valve arranged in the air conditioning circulation water passage between the air conditioning heat pump and the auxiliary heat exchanger, and hot water supply An auxiliary heat exchanger pump disposed in the hot water supply primary side circulating water passage between the heat pump for heat supply and the auxiliary heat exchanger, and an abnormal signal from the hot water supply heat pump or the hot water supply primary side circulation pump during the nighttime electricity charge time period. When the detected value of the water level sensor or the first temperature sensor is less than or equal to each predetermined value when is output, the heat pump for air conditioning and the pump for the auxiliary heat exchanger are operated,
A third control means for controlling the first motor-operated valve to open is provided.

Further, in the above structure, a plurality of air conditioning heat pumps are arranged and connected in parallel by the air conditioning circulating water passage, and a second electric valve is arranged in the air conditioning circulating water passage between the air conditioning heat pumps, and Fourth control means for controlling the second electric valve to be closed when the first electric valve is opened and to operate the air conditioning heat pump on the auxiliary heat exchanger side of the second electric valve is provided. It was configured.

[0012]

According to the heat pump type hot water supply equipment of the present invention, the second predetermined time period before the start of the nighttime electric power time period
When the outside air temperature detected by the temperature sensor or the temperature of the water from the water source detected by the third temperature sensor is equal to or lower than each predetermined value, the first control means operates in the hot water storage mode. The operation in the hot water storage mode is started earlier than the case where the operation in the hot water storage mode is started at the same time as the start of the nighttime electric power time zone, and the water temperature and the water level in the storage tank rise faster.

Further, during the second predetermined time period before the end of the night time period, the water level in the hot water tank detected by the water level sensor or the water temperature in the hot water tank detected by the first temperature sensor is a predetermined value. In the following cases, the second control means operates the heat pump for air conditioning and opens the first solenoid valve,
The water in the air-conditioning circulation water channel is heated by the air-conditioning heat pump, and the heat in the heated water is exchanged with the auxiliary heat exchanger, whereby the water in the hot-water supply primary side circulation water channel is heated.
Therefore, the water temperature and the water level in the hot water storage tank rise more quickly than in the case where the water in the hot water supply primary side circulating water channel is heated only by the hot water supply heat pump.

When an abnormal signal is output from the hot water supply heat pump or the hot water supply primary side circulation pump during the nighttime power hours, the water level in the hot water tank detected by the water level sensor or the first temperature sensor detects the abnormal signal. When the water temperature in the hot water storage tank is less than or equal to each predetermined value, the third control means operates the heat pump for air conditioning and the pump for auxiliary heat exchanger and opens the first solenoid valve. The water in the inside is heated by the heat pump for air conditioning, and the heat in the heated water is exchanged with the auxiliary heat exchanger, whereby the water in the hot water supply primary side circulating water channel is heated.

When the first motor-operated valve is opened, that is, when heat exchange is performed by the auxiliary heat exchanger, the fourth control means closes the second motor-operated valve, and the second motor-operated valve is operated more than the second motor-operated valve. Since the air conditioning heat pump on the auxiliary heat exchanger side is operated, the air conditioning heat pump and the auxiliary heat exchanger are on the load side air conditioner side of the second electric valve, the air conditioning heat pump on the side of the air conditioner, the air conditioning circulation channel, and the load side. Separated from air conditioning equipment.

[0016]

Embodiments of the present invention will be described below with reference to the drawings. Embodiment 1 FIG. 1 is a schematic configuration diagram of a heat pump hot water supply facility according to Embodiment 1 of the present invention. This heat pump hot water supply facility is equipped with a water-type air conditioning facility. The parts denoted by reference numerals 2 and 4 to 11 in the figure are the same or corresponding components as the parts shown by the same reference numerals in FIG.

31 and 41 are heat pumps for hot water supply,
These are respectively connected in parallel to the hot water storage tank 2 through the hot water supply primary side circulation pumps 32 and 42 and the check valves 32a and 42a, whereby the hot water supply primary side circulation water passage 4 is formed. 33 and 43 are heat pumps for air conditioning, and these are respectively the circulation pumps 34 and 44 for air conditioning and the check valve 34a,
A load side air conditioner (not shown) is connected in parallel to the load side air conditioner 44a through a pipe 44a, thereby forming an air conditioning circulating water passage 13.

Reference numeral 14 is an auxiliary heat exchanger, 15 is an auxiliary heat exchanger pump, 15a is a check valve, 16 is a first electric valve, and the auxiliary heat exchanger 14 is an auxiliary heat exchanger pump 15 and a check valve. It is connected to the hot water supply primary side circulating water passage 4 through a pipe 15a, and is also connected to the air conditioning circulating water passage 13 through a first motor operated valve 16 so as to The heat exchange with the water in the air-conditioning circulation water passage 13 is possible. 17 is a 24-hour timer,
18 is a second temperature sensor that detects the outside air temperature, 19 is a third temperature sensor that is provided in the water supply pipe 9 and that detects the temperature of the water supplied from the water source, and 20 is the air conditioning circulation water channel 13 and auxiliary heat exchange It is a fourth temperature sensor provided in a pipe between the container and the container 14.

The water level sensor 1 provided in the hot water storage tank 2
0 is low water level 10L (first predetermined water level) and high water level 10H
The first temperature sensor 11 having two standards of (second predetermined water level) and provided in the hot water storage tank 2 has a hot water temperature lowering temperature 11L (first predetermined water temperature), a water supplyable temperature 11M, in ascending order of temperature. And a boiling temperature of 11 H (second predetermined water temperature). In addition, the 24-hour timer 17 includes a nighttime power time zone (for example, 22:00 to 8:00 the following day), a first predetermined time zone before the nighttime power time zone starts (for example, 20:00 to 22:00),
The second predetermined time period before the nighttime power time period ends (for example, the next 6
Hours to 8:00) is set in advance.

As shown in FIG. 2, the control device 12 includes a 24-hour timer 17, first to fourth temperature sensors 11, 18 and 1.
9, 20 and signals from the water level sensor 10, hot water supply heat pumps 31, 41, and hot water supply primary side circulation pump 3
The water supply valve 8, the hot water supply heat pumps 31 and 41, and the hot water supply primary side circulation pump based on the abnormal output from the air conditioners 2 and 42 and a signal related to the use condition (cooling, heating, or non-use) of the air conditioning equipment. 32, 42 and pump 15 for auxiliary heat exchanger
And the first electric valve 16 and the air conditioning heat pumps 33, 4
3 and the air-conditioning circulation pumps 34, 44 are connected to the respective components so as to be controllable.

The basic operation of this heat pump type hot water supply equipment is as follows. That is, in the equipment on the hot water storage tank 2 side of the auxiliary heat exchanger 14, as in the conventional example, the hot water supply heat pumps 31, 41 and the hot water supply primary side circulation pumps 32, 42 are operated and water is supplied from the water supply pipe 9 at night. ,
Hot water having a predetermined temperature is stored in the hot water storage tank 2 up to a predetermined water level. In the hot water supply secondary side circulation water passage 7, the hot water supply secondary side circulation pump 6 is constantly operated, and when the faucet 5 is twisted, hot water is immediately discharged. Further, in the equipment on the load side air conditioner side of the auxiliary heat exchanger 14, the heat pumps 33, 4 for air conditioning according to the air conditioning load.
3 and the air-conditioning circulation pumps 34, 44 are operated to cool or heat the water in the air-conditioning circulation water passage 13 by the heat absorbed from the outside air, and the water is sent to the load side air conditioner for cooling or heating.

Next, the control shown in the flowchart of FIG. 3 will be described. Here, the controller 12 is 24
Based on signals from the time timer 17, the water level sensor 10, and the first to third temperature sensors 11, 18, 19, the hot water supply heat pumps 31, 41, the hot water supply primary side circulation pumps 32, 42, The water supply valve 8 is controlled.

First, in steps S1 to S5, the hot water storage tank 2
Set the target water temperature and the target water level inside. That is, in step S1, the current time is based on the signal from the 24-hour timer 17. Night power hours, a. The first predetermined time period, c. It is determined which of the other time zones it is in. If it is, go to step S2. If it is, go to step S3. In case of, step S5
To, respectively.

In step S3, the second temperature sensor 18
If the outside air temperature detected by is lower than a preset predetermined value (for example, equipment design reference value), the process proceeds to step S2, and if not, the process proceeds to step S4. In step S4, if the temperature of the water from the water source detected by the third temperature sensor 19 is lower than a preset predetermined value (for example, equipment design reference value), the process proceeds to step S2, otherwise. Go to step S5.

In step S2, the target water temperature in the hot water storage tank 2 is set to the boiling temperature 11H, and the target water level in the hot water storage tank 2 is set to the high water level 10H, and the process proceeds to step S6. In step S5, the target water temperature in the hot water storage tank 2 is set to the hot water temperature lowering temperature 11L, and the target water level in the hot water storage tank 2 is set to the low water level 10L, and the process proceeds to step S6.

Next, in steps S6 to S12, the hot water supply heat pump 31, so that the inside of the hot water storage tank 2 approaches the target water temperature and the target water level set in steps S1 to S5.
41 and the hot water supply side circulation pumps 32 and 42 are controlled.

That is, in step S6, if the water temperature in the hot water tank 2 detected by the first temperature sensor 11 is lower than the target water temperature, the process proceeds to step S7, and if not, the process proceeds to step S8. In step S7, the hot water supply heat pumps 31, 41 and the hot water supply primary side circulation pumps 32, 42
And drive to step S9. Also, step S8
Then, the operation of the hot water supply heat pumps 31, 41 and the hot water supply primary side circulation pumps 32, 42 is stopped, and step S9 is performed.
Proceed to.

In step S9, if the water level in the hot water tank 2 detected by the water level sensor 10 is equal to or higher than the target water level, the process proceeds to step S10, and if not, the process proceeds to step S11. In step S11, if the water temperature in the hot water storage tank 2 detected by the first temperature sensor 11 is less than the water supply possible temperature 10M, the process proceeds to step S10, and if the water temperature is 10M or more, the process proceeds to step S12. In step S10,
The water supply valve 8 is closed and the process returns to step S1. In step S12, the water supply valve 8 is opened and the process returns to step S1.

In this embodiment, the means of the control device 12 that realizes the control function of the flowchart of FIG. 3 is an example of the first control means according to the present invention. Further, the target water temperature in the hot water storage tank 2 is set to the hot water temperature lowering temperature 11L, and the target water level is set to the low water level 1
The control mode for setting and operating 0L is the hot water supply mode according to the present invention, and the control is performed by setting the target water temperature in the hot water storage tank 2 to the boiling temperature 11H and the target water level to the high water level 10H, respectively. The mode is the hot water storage mode referred to in the present invention. Although the second temperature sensor 18 for detecting the outside air temperature and the third temperature sensor 19 for detecting the temperature of the water from the water source are provided in this embodiment, only one of them is provided. May be provided.

Example 2. FIG. 4 is a control flowchart of the heat pump hot water supply facility according to the second embodiment of the present invention. Since the schematic configuration of the heat pump hot water supply equipment, the input / output relation of the control device, and the basic operation of the heat pump hot water supply equipment are the same as those in the first embodiment, illustration and description thereof are omitted.

Next, the control shown in the flow chart of FIG. 4 will be described. Here, the controller 12 is 24
Time timer 17, water level sensor 10, first temperature sensor 1
The first motor-operated valve 16 and the air-conditioning circulation pump 3 based on the signals from the first and fourth temperature sensors 20 and the signal related to the use condition (cooling, heating, or non-use) of the air conditioning equipment.
4, 44, the air conditioning heat pumps 33, 43, and the auxiliary heat exchanger pump 15 are controlled.

First, in step S21, the 24-hour timer 1
Based on the signal from 7, it is determined whether or not the current time is in the second predetermined time zone, and if it is in the second predetermined time zone, the process proceeds to step 22. If not, the step is performed. Return to S21.

In step S22, if the water level in the hot water tank 2 detected by the water level sensor 10 is higher than the high water level 10H, the process proceeds to step S23, and if not, step S2.
Go to 4. In step S23, the first temperature sensor 11
If the water temperature in the hot water storage tank 2 detected by is not less than the water supply temperature of 11 M, the process proceeds to step S28, and if not, the process proceeds to step S24. In step S24, the use state (cooling, heating, or non-use) of the air conditioning equipment is checked. If it is not cooling, the process proceeds to step S25, and if it is cooling, the process returns to step S21.

In step S25, the first motor operated valve 16 is opened to operate the air conditioning circulation pumps 34 and 44, and the air conditioning heat pumps 33 and 43 are heated to proceed to step S26. In step S26, when the temperature of the water supplied from the air conditioning circulation water passage 13 to the auxiliary heat exchanger 14 detected by the fourth temperature sensor 20 is equal to or higher than a predetermined temperature (for example, water supply possible temperature 11M + 3 ° C.), step S27. If not, the process returns to step S21.

In step S27, the auxiliary heat exchanger pump 15 is operated to circulate the water in the hot water supply primary side circulating water passage 4 to the auxiliary heat exchanger 14 to start heat exchange with the water in the air conditioning circulating water passage 13. Then, the process returns to step S22. In step S28, the operation of the air conditioning circulation pumps 34, 44, the air conditioning heat pumps 33, 43, and the auxiliary heat exchanger pump 15 is stopped, and the first motor operated valve 16
Is closed and the process returns to step S21.

In this embodiment, the means of the control device 12 for realizing the control function of the flow chart of FIG. 4 is an example of the second control means according to the present invention. In addition, in this embodiment, the fourth temperature sensor 20 is provided and the circulating water channel 1 for air conditioning is provided.
Since the heat exchange by the auxiliary heat exchanger 14 is performed only when the temperature of the water supplied from the auxiliary heat exchanger 14 to the auxiliary heat exchanger 14 is equal to or higher than a predetermined temperature (for example, a water supply temperature of 11 M + 3 ° C.), the circulating water channel for air conditioning. Since the water temperature in 13 is lower than the water temperature in the hot water supply primary side circulating water channel 4, the water temperature in the hot water supply primary side circulating water channel 4 is prevented from temporarily lowering,
More efficient operation is possible. However, in the present invention, the fourth temperature sensor 20 does not necessarily have to be provided.

Further, although the auxiliary heat exchanger pump 15 is provided in this embodiment, if the hot water supply primary side circulation pumps 32 and 42 are operated without providing the auxiliary heat exchanger pump 15,
The water in the hot water supply primary side circulation water passage 4 may be circulated to the auxiliary heat exchanger 14.

Example 3. FIG. 5 is a control flowchart of the heat pump hot water supply facility according to the third embodiment of the present invention. Since the schematic configuration of the heat pump hot water supply equipment, the input / output relation of the control device, and the basic operation of the heat pump hot water supply equipment are the same as those in the first embodiment, illustration and description thereof are omitted.

Next, the control shown in the flowchart of FIG. 5 will be described. Here, the controller 12 is 24
Time timer 17, water level sensor 10, first temperature sensor 1
Signals from the first and fourth temperature sensors 20, hot water supply heat pumps 31, 41, and hot water supply primary side circulation pump 3
1st based on the abnormal output from 2 and 42 and the signal which relates to the use condition (cooling, heating or non-use) of the air conditioning equipment
Motorized valve 16, air conditioning circulation pumps 34, 44, air conditioning heat pumps 33, 43, and auxiliary heat exchanger pump 1
5 and control.

First, in step S31, the 24-hour timer 1
Based on the signal from 7, it is determined whether or not the current time is in the nighttime power time zone (for example, from 22:00 to 8:00 the following day),
If it is in the nighttime power time zone, the process proceeds to step S32, and if not, the process returns to step S31. Step S3
In No. 2, if either of the hot water supply heat pumps 31 and 41 or the hot water supply primary side circulation pumps 32 and 42 outputs a signal indicating an abnormality, the process proceeds to step S33, and if not, the process returns to step S31.

In step S33, the first temperature sensor 1
When the water temperature in the hot water storage tank 2 detected by No. 1 is equal to or higher than the water supply temperature 11M, the process proceeds to step S38, and when not, the process proceeds to step S34. In step S34, the use state of the air conditioning equipment (cooling, heating, or non-use) is checked,
If it is other than cooling, it proceeds to step S35, and if it is cooling, it returns to step S31.

In step S35, the first electric valve 16 is opened, the air conditioning circulation pumps 34 and 44 are operated, and the air conditioning heat pumps 33 and 43 are heated,
It proceeds to step S36. In step S36, when the temperature of the water supplied from the air conditioning circulation water passage 13 to the auxiliary heat exchanger 14 detected by the fourth temperature sensor 20 is equal to or higher than a predetermined temperature (for example, water supply possible temperature 11M + 3 ° C.), step S37. Go to step S31 if not
Return to.

In step S37, the auxiliary heat exchanger pump 15 is operated to circulate the water in the hot water supply primary side circulation water passage 4 to the auxiliary heat exchanger 14, and the heat exchange with the water in the air conditioning circulation water passage 13 is started. Then, the process returns to step S33. In step S38, the operation of the air-conditioning circulation pumps 34, 44, the air-conditioning heat pumps 33, 43, and the auxiliary heat exchanger pump 15 is stopped, and the first electric valve 16 is operated.
Is closed and the process returns to step S31.

In this embodiment, the means of the control device 12 which realizes the control function of the flowchart of FIG. 5 is an example of the third control means according to the present invention. In this embodiment, when there is an abnormal output from one of the hot water supply heat pumps 31, 41 and the hot water supply primary side circulation pumps 32, 42, the water temperature in the hot water storage tank 2 detected by the first temperature sensor 11 is The heat exchange by the auxiliary heat exchanger 14 is performed when the water level is equal to or lower than the predetermined value. It may be performed in some cases.

Example 4. FIG. 6 is a schematic configuration diagram of a heat pump hot water supply facility according to Embodiment 4 of the present invention. In the figure, reference numeral 21 is a second motor-operated valve provided in the air-conditioning circulating water passage 13 between one of the two air-conditioning heat pumps 33 and the other air-conditioning heat pump 43, which are installed in total. By closing the second electric valve 21, the auxiliary heat exchanger 14 and the air conditioning heat pump 33, and the air conditioning heat pump 43 and the load side air conditioning device (not shown) are configured to be separated in a circuit manner. There is. The second
Since the configuration of the heat pump hot water supply equipment except for the motorized valve 21 is the same as that of the first embodiment, the same or corresponding components as those in FIG. Further, the basic operation of the heat pump hot water supply equipment is also similar to that of the first embodiment, and therefore its explanation is omitted.

In this embodiment, as shown in FIG. 7, the control device 12 includes a 24-hour timer 17, a first temperature sensor 11,
Based on the signals from the fourth temperature sensor 20 and the water level sensor 10 and the abnormal outputs of the hot water supply heat pumps 31, 41 and the hot water supply primary side circulation pumps 32, 42, the auxiliary heat exchanger pump 15, the first Motorized valve 16, second motorized valve 2
1 and the heat pumps 33 and 34 for air conditioning are controlled.

Next, the specific control process is shown in FIG.
A description will be given based on the flowchart. First, in step S41, based on the signal from the 24-hour timer 17, the current time is the nighttime power time zone (for example, from 22:00 to 8:00 the following day).
If it is in the nighttime electric power time zone, the process proceeds to step S42, and if not, the step S42 is performed.
Return to 41. In step S42, if an abnormal signal is output from either hot water supply heat pump 31, 41 or hot water supply primary side circulation pump 32, 42, step S42.
If not, the process proceeds to step S43.

In step S43, it is determined based on the signal from the 24-hour timer 17 whether or not the present time is in the second predetermined time zone (for example, 6:00 to 8:00 the following day) before the end of the nighttime power time zone. If it is in the second predetermined time zone, the process proceeds to step S44, and if not, step S4.
Return to 1. In step S44, if the water level in the hot water storage tank 2 detected by the water level sensor 10 is equal to or higher than the high water level 10H, the process proceeds to step S45, and if not, step S46.
Proceed to.

In step S45, the first temperature sensor 1
When the water temperature in the hot water storage tank 2 detected by 1 is equal to or higher than the water supply temperature of 11 M, the process proceeds to step S49, and when not, the process proceeds to step S46.

In step S46, the first electric valve 16 is opened, the second electric valve 21 is closed, and the air-conditioning circulation pump 34 is opened.
The air conditioner heat pump 33
Heating operation is performed, and the process proceeds to step S47. Step S
At 47, it is detected by the fourth temperature sensor 20. The temperature of the water supplied from the air conditioning circulation water passage 13 to the auxiliary heat exchanger 14 is a predetermined temperature (for example, a water supply temperature of 11 M + 3 ° C.).
In the above case, the process proceeds to step S48; otherwise, the process returns to step S41.

In step S48, the auxiliary heat exchanger pump 15 is operated to circulate the water in the hot water supply primary side circulating water passage 4 to the auxiliary heat exchanger 14 and start heat exchange with the water in the air conditioning circulating water passage 13. Then, the process returns to step S44. In step S49, the operation of the air conditioning circulation pump 34, the air conditioning heat pump 33, and the auxiliary heat exchanger pump 15 is stopped, the second electric valve 21 is opened, and the first electric valve 16 is closed. Return to step S41.

Since the control is performed as described above, when heat is exchanged by the auxiliary heat exchanger 14, the heat pump 43 for air conditioning on the load side air conditioner side, the circulation water channel 13 for air conditioning, and the second electric valve 21 are used. It is not necessary to heat the water inside the load side air conditioner, which improves the operating efficiency. Further, while performing heat exchange with the auxiliary heat exchanger 14, the heat pump 4 for air conditioning on the load side air conditioner side rather than the second electrically operated valve 21.
It is also possible to perform the air-conditioning operation (heating or cooling) using the air-conditioning circulation water passage 13 and the load-side air-conditioning equipment.
In this embodiment, the means of the control device 12 that realizes the control function of the flowchart of FIG. 8 is an example of the fourth control means according to the present invention.

Further, it goes without saying that the embodiment of the present invention is not limited to the above. For example, the first electric valve and the second electric valve are connected from the water outlet side pipe of the air conditioning heat pump to the water inlet side pipe. You may move it. Further, a configuration may be adopted in which the functions of both the first electric valve and the second electric valve are realized by a single three-way switching valve.

[0054]

As described above, according to the heat pump type hot water supply facility according to the present invention, the outside air temperature detected by the second temperature sensor or the outside temperature detected by the second temperature sensor during the first predetermined time period before the start of the nighttime power time period. When the temperature of the water from the water source detected by the third temperature sensor is equal to or lower than each predetermined value, the first control means operates in the hot water storage mode. Therefore, it is possible to prevent a shortage of hot water storage amount or a rise in hot water temperature at the end of the nighttime power time zone due to the low outside air temperature or the temperature of the water from the water source without increasing the facility cost for the hot water supply heat pump. .

Further, during the second predetermined time period before the end of the night time period, the water level in the hot water tank detected by the water level sensor or the water temperature in the hot water tank detected by the first temperature sensor is the predetermined value. In the following cases, the second control means operates the heat pump for air conditioning and opens the first solenoid valve,
The water in the air-conditioning circulation water channel is heated by the air-conditioning heat pump, and the heat in the heated water is exchanged with the auxiliary heat exchanger, whereby the water in the hot-water supply primary side circulation water channel is heated.
Therefore, without increasing the facility cost for the hot water supply heat pump, the nighttime power hours resulting from the low outside air temperature or the temperature of the water from the water source and the decrease in heating capacity due to the aging of the hot water supply heat pump. It is possible to prevent insufficient hot water storage or insufficient hot water temperature rise at the end of the belt.

Further, when an abnormal signal is output from the hot water supply heat pump or the hot water supply primary side circulation pump during the nighttime power hours, the water level in the hot water tank detected by the water level sensor or the first temperature sensor detects When the water temperature in the hot water storage tank is less than or equal to each predetermined value, the third control means operates the heat pump for air conditioning and the pump for auxiliary heat exchanger and opens the first solenoid valve. The water in the inside is heated by the heat pump for air conditioning, and the heat in the heated water is exchanged with the auxiliary heat exchanger, whereby the water in the hot water supply primary side circulating water channel is heated. Therefore, it is possible to prevent insufficient storage of hot water or insufficient rise in hot water temperature due to some abnormality occurring in the heat pump for hot water supply or the primary side circulation pump for hot water supply without increasing the facility cost of the heat pump for hot water supply.

When the first motor-operated valve is opened, that is, when heat exchange is performed by the auxiliary heat exchanger, the fourth control means closes the second motor-operated valve, and the second motor-operated valve is operated more than the second motor-operated valve. Since the air conditioning heat pump on the auxiliary heat exchanger side is operated, the air conditioning heat pump and the auxiliary heat exchanger are on the load side air conditioner side of the second electric valve, the air conditioning heat pump on the side of the air conditioner, the air conditioning circulation channel, and the load side. By being separated from the air conditioning equipment, efficient operation is possible without heating excess water. Further, the air conditioning heat pump on the load side air conditioner side of the second electric valve, the air conditioning circulation channel, and the air conditioning operation using the load side air conditioner, and the air conditioning on the auxiliary heat exchanger side of the second electric valve. Heat pump, air conditioning circulation channel,
It is also possible to simultaneously perform the heating operation of the water in the hot water supply primary side circulation water channel using the auxiliary heat exchanger.

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram of a heat pump hot water supply facility according to a first embodiment of the present invention.

FIG. 2 is an input / output relationship diagram of the control device for the heat pump hot water supply facility according to Embodiment 1 of the present invention.

FIG. 3 is a control flowchart of the heat pump hot water supply facility according to the first embodiment of the present invention.

FIG. 4 is a control flowchart of a heat pump hot water supply facility according to Embodiment 2 of the present invention.

FIG. 5 is a control flowchart of a heat pump hot water supply facility according to Embodiment 3 of the present invention.

FIG. 6 is a schematic configuration diagram of a heat pump hot water supply facility according to Embodiment 4 of the present invention.

FIG. 7 is an input / output relationship diagram of a control device for heat pump hot water supply equipment according to Embodiment 4 of the present invention.

FIG. 8 is a control flowchart of a heat pump hot water supply facility according to Embodiment 4 of the present invention.

FIG. 9 is a schematic configuration diagram of a conventional heat pump hot water supply facility.

[Explanation of symbols]

2 hot water storage tank, 4 primary water circulation channel for hot water supply, 8 water supply valve,
9 Water Supply Pipe, 10 Water Level Sensor, 11 First Temperature Sensor, 12 Control Device, 13 Air Conditioning Circulating Water Channel, 14 Auxiliary Heat Exchanger, 15 Auxiliary Heat Exchanger Pump, 16 First
Motor valve, 17 24-hour timer, 18 second temperature sensor, 19 third temperature sensor, 20 fourth temperature sensor, 21 second motor valve, 31,41 hot water supply heat pump, 32,42 hot water supply primary Side circulation pump, 33, 4
3 Air conditioning heat pumps, 34,44 Air conditioning circulation pumps.

Claims (4)

[Claims] 1. A hot water supply heat pump for heating water by heat absorbed from the outside air, and a hot water supply primary side circulation water channel having a hot water supply primary side circulation pump formed between the hot water supply heat pump and a hot water storage tank, and water supply. A water supply pipe for introducing water from a water source such as a water supply tank into the hot water storage tank through a water supply valve, a water level sensor for detecting a water level in the hot water storage tank, and a first temperature sensor for detecting a water temperature in the hot water storage tank. , One or both of a second temperature sensor that detects the outside air temperature and a third temperature sensor that detects the temperature of the water from the water source, and a night power time zone and a first power time zone before the night power time zone starts. A 24-hour timer in which one predetermined time zone is set, and when the detected value of the second temperature sensor or the third temperature sensor in the first predetermined time zone is less than or equal to each predetermined value. Is in the hot water tank The target water temperature is set to a second predetermined water temperature higher than the first predetermined water temperature in the hot water supply mode, and the target water level in the hot water storage tank is set to a second predetermined water level higher than the first predetermined water level in the hot water supply mode. The heat pump hot water supply device is provided with a first control means for performing a hot water storage mode operation for controlling the water temperature and water level in the hot water storage tank so as to approach the set target water temperature and target water level. Facility. 2. A hot water supply heat pump for heating water by heat absorbed from the outside air, a hot water supply primary side circulation water passage having a hot water supply primary side circulation pump formed between the hot water supply heat pump and a hot water storage tank, and water supply. A water supply pipe for introducing water from a water source such as a water supply tank into the hot water storage tank through a water supply valve, a water level sensor for detecting a water level in the hot water storage tank, and a first temperature sensor for detecting a water temperature in the hot water storage tank. , A 24-hour timer in which a night power time zone and a second predetermined time zone before the end of the night power time zone are set, an air conditioning heat pump for heating water by heat absorbed from the outside air, the air conditioning heat pump and a load Side air conditioner, an air conditioning circulation water channel having an air conditioning circulation pump, an auxiliary heat exchanger for exchanging heat between the hot water supply primary side circulation water channel and the air conditioning circulation water channel, and the air conditioning system. Of the water level sensor or the first temperature sensor in the second predetermined time zone, the first electric valve provided in the air-conditioning circulation water passage between the heat pump and the auxiliary heat exchanger. When the detected value is less than or equal to each predetermined value, the air conditioning heat pump is operated and the first
The heat pump hot water supply equipment is provided with a second control means for controlling to open the motorized valve. 3. A hot water supply heat pump for heating water by heat absorbed from the outside air, and a hot water supply primary side circulation water channel having a hot water supply primary side circulation pump formed between the hot water supply heat pump and a hot water storage tank, and water supply. A water supply pipe for introducing water from a water source such as a water supply tank into the hot water storage tank through a water supply valve, a water level sensor for detecting a water level in the hot water storage tank, and a first temperature sensor for detecting a water temperature in the hot water storage tank. , A 24-hour timer in which a nighttime power time zone is set, an air conditioning heat pump for heating water by heat absorbed from the outside air, and an air conditioning circulation pump formed between the air conditioning heat pump and the load side air conditioning equipment An air-conditioning circulation channel, an auxiliary heat exchanger for exchanging heat between the hot water supply primary side circulation channel and the air-conditioning circulation channel, and the space between the air-conditioning heat pump and the auxiliary heat exchanger. A first motor-operated valve disposed in the conditioning circulation water channel; and an auxiliary heat exchanger pump disposed in the hot water supply primary side circulation water channel between the hot water supply heat pump and the auxiliary heat exchanger, When an abnormal signal is output from the hot water supply heat pump or the hot water supply primary side circulation pump in the nighttime electricity charge time zone, the detected value of the water level sensor or the first temperature sensor is less than or equal to each predetermined value. The heat pump hot water supply equipment is provided with a third control means for operating the air conditioning heat pump and the auxiliary heat exchanger pump and controlling the first motor operated valve to open. 4. A plurality of air conditioning heat pumps are arranged and connected in parallel by an air conditioning circulating water passage, and a second electric valve is arranged in the air conditioning circulating water passage between the air conditioning heat pumps, and a first electric valve is provided. A second electric valve is closed when the second electric valve is opened, and the air conditioning heat pump on the auxiliary heat exchanger side of the second electric valve is controlled to operate.
The heat pump hot water supply equipment according to claim 2 or 3, wherein the control means is provided.