JP2003314893A - Heat pump type water heater - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a heat pump type water heater wherein the manufacturing cost of a heat pump unit and a hot water storage tank unit is reduced by simplifying an interface between the controllers, through reduced communication between a heat pump controller and a tank unit controller, in a boiling operation of the heat pump unit. <P>SOLUTION: The heat pump type water heater comprises the heat pump unit 1 controlled by the heat pump controller 8, and the hot water storage tank unit 9 controlled by the tank unit controller 12 and designed to store hot water heated by the heat pump unit 1 in a hot water storage tank 10. A boiling operation of the heat pump unit 1, including a circulating pump 11 of the hot water storage tank unit 9, is controlled by the heat pump controller 8, and communication of the tank unit controller 12 with the heat pump controller 8 is only for signals at a boiling operation starting and a boiling operation ending. <P>COPYRIGHT: (C)2004,JPO

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 apparatus, and more particularly, to reduce communication between the heat pump control device and the tank unit control device during boiling operation of the heat pump unit, thereby reducing the communication between the control devices. The present invention relates to a heat pump type hot water supply device capable of simplifying the interface and reducing the manufacturing cost of the heat pump unit and the hot water storage tank unit.

[0002]

2. Description of the Related Art Conventionally, as shown in FIG. 2, a heat pump hot water supply apparatus of this type includes a heat pump unit 1, a compressor 2, a water-refrigerant heat exchanger 3, an expansion valve 4, an evaporator 5, and a defroster. It is composed of a solenoid valve 6, a fan motor 7, and a heat pump control device 8. The hot water storage tank unit 9 is composed of a hot water storage tank 10, a circulation pump 11 for sending water in the hot water storage tank 10 to the water / refrigerant heat exchanger 3 in the heat pump unit 1, and a tank unit control device 12. The remote controller 13 is composed of a remote controller body and a remote controller controller 14, and its communication line is connected to the heat pump controller 8 via the tank unit controller 12.

When performing a boiling operation in such a heat pump type hot water supply apparatus, the tank unit control device 12 of the hot water storage tank unit 9 receives data such as the outside air temperature and each operating state from the heat pump unit 1, Further, the heat pump controller 8 of the heat pump unit 1
Receives and transmits many control signals between the heat pump control device 8 and the tank unit control device 12, such as receiving a rotation speed control signal of the circulation pump 11 and temperature data of the hot water storage tank 10 from the hot water storage tank unit 9. ing.

[0004]

By the way, in the above-mentioned conventional heat pump type water heater, since many control signals are transmitted and received between the heat pump control device and the tank unit control device, each control of the heat pump unit and the hot water storage tank unit is performed. There is a problem that the interface of the device becomes complicated. Therefore, in the heat pump type hot water supply device, the heat pump unit and the remote control are dedicated to one hot water storage tank unit.
Expansion of variations on the side of the hot water storage tank unit (for example,
In order to perform the expansion based on the tank capacity), it was necessary to newly develop a heat pump unit dedicated to the hot water storage tank unit. On the other hand, when deploying variations of the heat pump unit (for example, deployment by heating capacity), it is necessary to newly develop the hot water storage tank unit.
As a result, the number of models has increased, which has led to an increase in the cost of the product itself.

In view of the problems of the conventional heat pump type hot water supply device, the present invention reduces the communication between the heat pump control device and the tank unit control device during the boiling operation of the heat pump unit, thereby controlling each control. An object of the present invention is to provide a heat pump type hot water supply device which can simplify the interface between the devices and reduce the manufacturing cost of the heat pump unit and the hot water storage tank unit.

[0006]

In order to achieve the above object, a heat pump hot water supply apparatus of the present invention includes a heat pump unit controlled by a heat pump control unit and a tank unit control unit for heating by the heat pump unit. In a heat pump type hot water supply apparatus having a hot water storage tank unit for storing the hot water in a hot water storage tank, the boiling operation of the heat pump unit is controlled by the heat pump control device, including the circulation pump of the hot water storage tank unit, Communication with the heat pump controller of the tank unit controller,
It is characterized in that only signals for starting and ending the boiling operation are used.

In this heat pump type hot water supply device, the boiling operation of the heat pump unit is controlled by the heat pump control device including the circulating pump of the hot water storage tank unit, and the tank unit control device communicates with the heat pump control device. Since only the signals for starting the boiling operation and ending the boiling operation are used, the communication between the heat pump controller and the tank unit controller can be significantly reduced, and the interface between the controllers can be simplified. , Thereby reducing the manufacturing cost of the heat pump unit and the hot water storage tank unit,
When a failure occurs in each unit, it is possible to easily determine the failure location and investigate the cause. In addition, by incorporating the items for starting / stopping the boiling operation of the heat pump unit in the tank unit control device, it is possible to combine one heat pump unit with any hot water storage tank unit, so only the hot water storage tank unit side has been developed. Is possible.

In this case, carbon dioxide can be used as the refrigerant of the heat pump unit.

As a result, it becomes possible to improve the heat exchange rate and perform dechlorofluorocarbon conversion.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a heat pump type hot water supply device of the present invention will be described below with reference to the drawings.

FIG. 1 shows an embodiment of the heat pump type hot water supply apparatus of the present invention. This heat pump type hot water supply device is controlled by a heat pump control device 8 and a heat pump unit 1 and a tank unit control device 12, and stores hot water heated by the heat pump unit 1 in a hot water storage tank unit 9 and a hot water storage tank unit 9. Is equipped with. And, the heat pump type hot water supply device of the present embodiment,
Based on this configuration, the boiling operation control of the heat pump unit 1 including the circulation pump 11 of the hot water storage tank unit 9 is performed by the heat pump control device 8, and the tank unit control device 12 communicates with the heat pump control device 8. Is only the signal of the start of boiling operation and the end of boiling operation.

The heat pump unit 1 comprises a compressor 2, a water-refrigerant heat exchanger 3, an expansion valve 4, an evaporator 5, a defrosting electromagnetic valve 6, a fan motor 7, and a circulation pump 11, and controls all of them. The heat pump control device 8 is used. Moreover, in this heat pump unit 1,
Carbon dioxide (CO ₂ ) is used as the refrigerant. It should be noted that the heat pump unit 1 may include other devices depending on the product specifications.

On the other hand, the hot water storage tank unit 9 comprises a hot water storage tank 10, a temperature thermistor (not shown) for detecting the temperature of the hot water storage tank 10, and a tank unit control device 12. The tank unit control device 12 controls the remote controller 13 and the remote controller. A device 14 is provided. Note that the hot water storage tank unit 9 may have a built-in device other than this depending on the product specifications.

In the heat pump type hot water supply apparatus of this embodiment,
For example, when entering the midnight time period, the tank unit control device 12 calculates the amount of remaining hot water in the hot water storage tank 10, calculates the required operation time for the required amount of boiling, and starts the boiling operation in the morning. The boiling operation start time is shifted so that the above ends.

Specifically, when the boiling operation start time comes, the tank unit control device 12 of the hot water storage tank unit 9 sends a boiling operation start signal to the heat pump control device 8 of the heat pump unit 1. The heat pump unit controller 8 that has received the signal for starting the boiling operation from the tank unit controller 12 starts the boiling operation in the heat pump unit 1. At that time, the operation control of the compressor 2, the circulation pump 11, the expansion valve 4, and the fan motor 7 is performed only by the heat pump unit control device 8, and no control signal is received from the hot water tank unit 9 side. Also, regarding the defrosting operation in winter, the heat pump control device 8 of the heat pump unit 1 controls the start / end of the defrosting operation.

When the hot water in the hot water storage tank 10 satisfies the boiling operation ending condition, for example, when the hot water is filled up to the lower part of the hot water storage tank 10, the tank unit controller 12 of the hot water storage tank unit 9 A signal for ending the boiling operation is transmitted to the heat pump control device 8 of the heat pump unit 1, and the boiling operation of the heat pump unit 1 ends.

Further, this heat pump type hot water supply apparatus normally performs a boiling operation in the midnight time zone, but even when the amount of remaining hot water in the hot water storage tank 10 becomes low outside the midnight time period, the boiling water is prevented from running out. There is a case to drive up. Also in this case, the management of the amount of remaining hot water in the hot water storage tank 10 is performed by the tank unit control device 12 of the hot water storage tank unit 9, and it is determined that the tank unit control device 12 performs the boiling operation to prevent running out of hot water. At this time, the tank unit control device 12 transmits a boiling operation start signal to the heat pump control device 8 of the heat pump unit 1. Then, when the tank unit control device 12 of the tank unit 1 satisfies the boiling operation end condition, the tank unit control device 12 sends a signal of the boiling operation end to the heat pump control device 8 to end the boiling operation. .

As described above, in the heat pump type hot water supply apparatus of the present embodiment, the boiling operation start / end signal is sent between the tank unit controller 12 of the hot water storage tank unit 9 and the heat pump controller 8 of the heat pump unit 1. A boiling operation is realized by sending and receiving only.

Thus, in the heat pump type hot water supply apparatus of the present embodiment, the boiling operation of the heat pump unit 1 including the circulation pump 11 is controlled by the heat pump control unit 8 including the circulation pump 11 of the hot water storage tank unit 9. In this way, the communication between the heat pump control device 8 and the tank unit control device 12 is performed because the communication of the tank unit control device 12 with respect to the heat pump control device 8 is performed only by the signals of the boiling operation start and the boiling operation end. It is possible to drastically reduce the number and simplify the interface between the control devices 8 and 12. This reduces the manufacturing cost of the heat pump unit 1 and the hot water tank unit 9, and at the time of failure of each unit 1 and 9. It is possible to easily determine the failure location and investigate the cause. Further, by incorporating the items for starting / stopping the boiling operation of the heat pump unit 1 into the tank unit controller 12, it is possible to combine any one of the hot water storage tank units 9 with one heat pump unit 1, so that the hot water storage tank Only the unit 9 side can be developed.

Although the embodiment of the present invention has been described above, the heat pump type hot water supply apparatus of the present invention is not limited to the description of this embodiment, and may be appropriately modified within a range not departing from the spirit thereof. It is possible.

[0021]

According to the heat pump type hot water supply apparatus of the present invention, the control of the boiling operation of the heat pump unit is performed by the heat pump control apparatus including the circulation pump of the hot water storage tank unit. The communication to the heat pump control device is only the signal for starting the boiling operation and the signal for ending the boiling operation, so the communication between the heat pump control device and the tank unit control device is greatly reduced, and the interface between each control device is improved. This simplifies the manufacturing cost of the heat pump unit and the hot water storage tank unit, and facilitates the determination of the failure point and the cause investigation at the time of failure in each unit. In addition, by incorporating the items for starting / stopping the boiling operation of the heat pump unit in the tank unit control device, it is possible to combine one heat pump unit with any hot water storage tank unit, so only the hot water storage tank unit side has been developed. Is possible.

Further, by using carbon dioxide as the refrigerant of the heat pump unit, it becomes possible to improve the heat exchange rate and perform dechlorofluorocarbon conversion.

[Brief description of drawings]

FIG. 1 is a diagram showing an embodiment of a heat pump type hot water supply device of the present invention.

FIG. 2 is a diagram showing a conventional heat pump type hot water supply device.

[Explanation of symbols]

1 heat pump unit 2 compressor 3 Water refrigerant heat exchanger 4 expansion valve 5 evaporator 6 Solenoid valve for defrosting 7 fan motor 8 Heat pump controller 9 Hot water storage tank unit 10 Hot water storage tank 11 Circulation pump 12 Tank unit controller 13 Remote control 14 Remote control device

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Shinji Kuramoto             4-5-11 Higashiota, Ibaraki City, Osaka Prefecture             Hitachi Air Conditioning System Ibaraki Factory

Claims (2)

[Claims] 1. A heat pump hot water supply apparatus comprising: a heat pump unit controlled by a heat pump control device; and a hot water storage tank unit controlled by a tank unit control device for storing hot water heated by the heat pump unit in a hot water storage tank. In the above, the control of the boiling operation of the heat pump unit is performed by the heat pump control device including the circulating pump of the hot water storage tank unit, and the communication to the heat pump control device of the tank unit control device is started and started. A heat pump type hot water supply device characterized in that only the signal indicating the end of operation is used. 2. The heat pump type hot water supply apparatus according to claim 1, wherein carbon dioxide is used as a refrigerant of the heat pump unit.