JP3241939B2 - Air conditioning system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioning system, and more particularly to an outside air taken from outside an air conditioning room and / or an air conditioning room.
Cooling and heating with a heat pump that uses return air from inside as a heat source
Do air heat source type heat pump air conditioner and this air heat source type
Cold heat can be supplied to the heat pump air conditioner via the first heat medium
The present invention relates to an air conditioner including a central heat source facility .

[0002]

2. Description of the Related Art In recent years, air-conditioning systems for office buildings and the like have been changed from a centralized system to an individual decentralized system in order to cope with an increase in cooling load accompanying intelligent building functions or in response to a demand for more comfortable office environments. It is changing to. In order to cope with such individually distributed building air conditioning systems, individual air conditioning systems such as unit heat pumps and multi-system air conditioners have been developed.

For example, a typical multi-type air conditioner is
A plurality of indoor units are connected to one outdoor unit,
The system is configured such that operation such as operation stop and room temperature setting can be individually controlled for each indoor unit. Note that such multi-type air conditioners are excellent in individual operation control characteristics because of their excellent individual operation control characteristics, and they can reduce the heat transfer power, thereby significantly reducing energy consumption. Have been.

[0004] However, in the individual decentralized air conditioning system,
Since each individual unit simultaneously responds to the heat load in each air-conditioned space, the demand for power is sharpened, so peak cutting in each individual system is an important issue.
In addition, for example, when installing a multi-type air conditioner, the length and height difference of the refrigerant pipes connecting the indoor unit and the outdoor unit vary depending on the installation location, and furthermore, the cooling capacity is predicted according to the installation site, and the pipe diameter is estimated. Since it is necessary to make selections and properly adjust the oil injection amount, standardization of construction is required by unitizing, modularizing, and prefabricating each facility.

[0005] Recently, a district cooling and heating (DHC) system has attracted attention as an air conditioning heat source system from the viewpoint of environmental problems, particularly from the viewpoint of effective use of energy. However, the district cooling / heating system poses a problem because the heat loss from the regional conduit may reach, for example, 10 to 30% when the heat load required in each air conditioning space is a small partial load.

[0006]

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned problems of the conventional individual air conditioning system. By using a complete heat source together, it is possible to cope with partial load with a self-contained heat source, it is possible to achieve effective use of energy and peak power cut by using a central heat source, It can respond flexibly, can be operated with a small heat transfer power, can achieve standardization of equipment construction, and can be suitably combined with DHC system in particular To provide a new and improved air heat source type individual air conditioning system capable of simultaneously achieving individuality of thermal environment and air quality environment. It is.

[0007] In order to solve the above-mentioned problems, an invention according to claim 1 is an air heat source type heat pump air conditioner in which cooling and heating are performed by a heat pump using external air taken in from outside the air conditioning room and / or return air from the air conditioning room as a heat source. And a central heat source equipment capable of supplying cold air to the air heat source type heat pump air conditioner via the first heat medium, wherein the air heat source type heat pump air conditioner is provided with external air and / or return air. A first heat exchanger and a second heat exchanger for performing heat exchange with a second heat medium circulating in a heat pump, a first heat medium supplied from the central heat source equipment, and a second heat medium circulating in the heat pump; And a third heat exchanger that performs heat exchange between the first and second heat exchangers. The first and second heat exchangers function as evaporators, and the second and third heat exchangers function as condensers. Depending on the first heat exchanger and /
Or exhaust path passing through the second heat exchanger or exhaust is the possible to selectively form an exhaust passage which does not pass through the first heat exchanger and / or the second heat exchanger <br/>, It is characterized by having. Further, according to claim 2,
Akira refers to outside air and / or air conditioning
Cooling and heating with a heat pump that uses return air from the room as a heat source
Do air heat source type heat pump air conditioner and this air heat source
Heat can be supplied to the air-conditioning heat pump air conditioner via the first heat medium
Air conditioning equipment consisting of
The air heat source type heat pump air conditioner is provided with outside air and / or
Or heat exchange between the return air and the second heat medium circulating in the heat pump
A first heat exchanger and a second heat exchanger for performing
Circulates inside the heat pump with the first heat medium supplied from the source equipment
A third heat exchanger that performs heat exchange with the second heat medium to be performed,
The first heat exchanger functions as an evaporator, and
The second and third heat exchangers function as condensers and operate
Depending on the mode, warm air is supplied indoors from the second heat exchanger.
It is characterized by paying.

[0008] With regard to the arrangement of the second and third heat exchangers, it is possible to interpose two heat exchangers in series in the heat pump circuit, as described in claim 3 , or to claim 4 It is also possible for two heat exchangers to be interposed in parallel in a heat pump circuit, as described in US Pat. For example, as shown in FIG. 1, the second and third heat exchangers are arranged in series between the compressor and the expansion valve of the heat pump circuit, and after the second heat medium passes through the second heat exchanger. It can be configured to be sent to a third heat exchanger , or
As shown in FIG. 2, the second and third heat exchangers are arranged in parallel between the compressor and the expansion valve of the heat pump circuit, and the second heat medium is simultaneously or selectively supplied to the second and third heat exchangers. It is also possible to arrange so that it may be sent in a targeted manner.

[0009]

According to the present invention, by switching the air path, during cooling operation, heat is removed from the air supplied indoors via the first heat exchanger, and the first air supplied from the central heat source equipment is supplied. By discharging the heat to the heat medium, it is possible to supply cold air to the room through the first heat exchanger. At the time of the heating operation, by exhausting the air through the first heat exchanger, It is possible to supply warm air to the room through the second heat exchanger. Further, by supplying cool air from the first heat exchanger and supplying warm air from the second heat exchanger, it is possible to flexibly cope with simultaneous cooling and heating loads.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of an air conditioning system constructed in accordance with the present invention will be described below in detail with reference to the accompanying drawings.

FIG. 1 shows an embodiment of an air conditioning system configured according to the present invention.
This air conditioning system includes an air heat source type heat pump unit air conditioner 1 installed for every one or two or more air conditioning units having a predetermined volume, for example, about 7 m × 14 m (100 m ² ) including an outer wall surface, and And a central heat source facility 2 installed underground. Central heat source equipment 2
For example, a heat storage type heat source device capable of storing cold heat in a state of ice or cold water in a heat storage tank using nighttime electric power can be adopted, and thus a heat storage type heat source device is used. This makes it possible to equalize the power peak. By employing a larger-scale district heating and cooling facility (DHC) or the like as the central heat source facility, it is possible to effectively use energy.

The heat pump air conditioner 1 is composed of an air heat source type heat pump circuit integrally provided in a casing 3. This heat pump circuit is configured to heat the outside air introduced as an evaporator from the outside air inlet (OA) and / or the return air taken in from the return air inlet (RA) with a second heat medium circulating in the heat pump circuit, for example, a refrigerant. A first heat exchanger 4 for performing exchange, a second heat exchanger 5 for performing heat exchange between outside air and / or return air as a condenser and a refrigerant circulating in the heat pump circuit, and a heat pump circuit also as a condenser. Circulating refrigerant and the first supplied from the central heat source equipment
The second heat exchanger 5 is composed of a third heat exchanger 6 for exchanging heat with a heat medium, for example, cooling water, an expansion valve 7 and a compressor 8, which are two condensers. Three heat exchangers 6 are interposed in series in the heat pump circuit.

Further, the heat pump air conditioner 1 has a first air supply port (SA1) capable of supplying air having passed through the first heat exchanger 4 by the first air blower 9 to the indoor side, and a second air supply port (SA1). A second air supply port (SA2) capable of supplying the air that has passed through the second heat exchanger 5 by the second air supply blower 10 to the indoor side is provided. The heat pump air conditioner 1 further includes an exhaust blower 11, and opens and closes the first damper 12 and the second damper 13 to exhaust the exhaust gas through the first heat exchanger 4 or the second heat exchanger 4. It is configured such that it can be selectively performed without passing through the heat exchanger 4.

Next, various operation modes of the air conditioning system configured as described above will be described in detail.

(1) Cooling operation mode During the cooling operation, the first damper 12 is closed, the second damper 13 is opened, and the exhaust blower 11 is driven to exhaust the first exhaust.
And without the heat exchanger 4 of the first embodiment.
, The second air supply fan 10 is stopped, and only the first air supply path (SA1) is enabled. Then, the refrigerant in the heat pump circuit is compressed by the compressor 8 → the second heat exchanger (condenser) 5 → the third heat exchanger (condenser).
6 → expansion valve 7 → first heat exchanger (evaporator) 4 → compressor 8
And a heat pump that circulates sequentially from the first heat exchanger 4 and discharges the heat extracted from the air supply to the room by the first heat exchanger 4 into the cooling water supplied from the central heat source equipment 2 through the third heat exchanger 6. By heating, cold air can be supplied to the room from the first air supply path (SA1). In addition, with respect to the fluctuation of the cooling load, adjustment of the compressor 8 and / or the expansion valve 7,
And by adjusting the temperature and / or amount of the cooling water flowing into the third heat exchanger 6.

(2) Heating operation mode During the heating operation, the first damper 12 is opened, the second damper 13 is closed, and the exhaust blower 11 is driven to exhaust the first exhaust.
The exhaust gas is used as a heat source by performing the heat treatment through the heat exchanger 4. Further, the second air supply blower 10 is driven to
Of the air supply blower 9 of the second air supply path (SA) is stopped.
Only 2) is valid. Then, the refrigerant of the heat pump circuit is compressed by the compressor 8 → the second heat exchanger (condenser) 5 → the third heat exchanger (condenser) 6 → the expansion valve 7 → the first heat exchanger (evaporator). 4 → a heat pump that sequentially circulates with the compressor 8, and radiates heat recovered from the exhaust air by the first heat exchanger 4 to the room through the second heat exchanger. The warm air can be supplied into the room from the second supply path (SA2). During the heating operation, the supply of the cooling water from the central heat source equipment 2 is stopped in principle . I
Therefore, the fluctuation of the heating load is dealt with by adjusting the compressor 8 and / or the expansion valve 7.

(3) Simultaneous cooling and heating operation mode When a cooling and heating load is simultaneously required in the air-conditioned space, the first damper 12 is closed and the second damper 13 is opened to drive the exhaust blower 11 to exhaust air. Is performed without passing through the first heat exchanger 4. Further, by driving the first air blower 9 and the second air blower 10, the first air blower 9 and the second air blower 10 are driven.
Supply path (SA1) and second supply path (SA2)
Enable both. Then, the refrigerant of the heat pump circuit is compressed by the compressor 8 → the second heat exchanger (condenser) 5 → the third heat exchanger (condenser) 6 → the expansion valve 7 → the first heat exchanger (evaporator). 4 → a heat pump which sequentially circulates with the compressor 8, which removes heat from the supply air to the room by the first heat exchanger 4 and supplies the heat to the room by the second heat exchanger 5. To the first air supply path (SA1)
The second air supply path (S
A2) Warm air can be supplied to the room more.

In the simultaneous cooling / heating operation mode, when the cooling load is large, the third heat exchanger 6 is operated after operating the compressor 8 and / or the expansion valve to match the cooling load.
The surplus heat is discharged by controlling the temperature and / or amount of the cooling water flowing into the cooling water. In the simultaneous cooling and heating operation mode, when the heating load is large, the cooling water flowing into the third heat exchanger 6 is stopped, and then the compressor 8 and / or the expansion valve 7 are adjusted to adjust the heating load and the cooling. It is possible to operate the air conditioner at a point that matches the load.

FIG. 2 shows a further embodiment of an air conditioning system constructed according to the present invention. The basic functions of each component of this air conditioning system are shown in FIG.
Are substantially the same as those shown in FIG. 1, and therefore, components having the same functions are denoted by the same reference numerals, and detailed description thereof will be omitted. This air conditioning system is different from the air conditioning system shown in FIG. 1 in that two condensers, a second heat exchanger 5 and a third heat exchanger 6, are connected via switching valves 14, 15, 16, and 17. And a heat pump circuit. Therefore, this air conditioning system is provided with each of the switching valves 14, 15, 16,
By adjusting 17 and each damper 12 , 13 ,
It can be driven in the following various operation modes.

(1) Cooling operation mode During the cooling operation, the first damper 12 is closed, the second damper 13 is opened, and the exhaust blower 11 is driven to exhaust air without passing through the first heat exchanger 4. At the same time, the first air supply fan 9 is driven to stop the second air supply fan 10, and only the first air supply path (SA1) is enabled. Then, the refrigerant of the heat pump is supplied to the compressor 8 → the switching valve 16 → the third heat exchanger (condenser) 6 → the switching valve 17 → the expansion valve 7 → the first heat exchanger (evaporator) 4 → the compressor 8. And a heat pump circuit that sequentially circulates the heat, and radiates the heat extracted from the supply air into the room by the first heat exchanger 4 into the cooling water supplied from the central cooling water facility 2 by the third heat exchanger 6. By doing
It is possible to supply cool air to the room from the first air supply path (SA1). The fluctuation of the cooling load is dealt with by adjusting the compressor 8 and / or the expansion valve 7 and adjusting the temperature and / or amount of the cooling water flowing into the third heat exchanger 6.

(2) Heating operation mode During the heating operation, the first damper 12 is opened, the second damper 13 is closed, and the exhaust blower 11 is driven to exhaust air through the first heat exchanger 4. At the same time, the first air supply blower 9 is stopped and the second air supply
Only the air supply path (SA2) is enabled. Then, the refrigerant of the heat pump sequentially circulates from the compressor 8 → the switching valve 14 → the second heat exchanger (condenser) 5 → the switching valve 15 → the first heat exchanger (evaporator) 4 → the compressor 8. A heat pump circuit is formed, and the heat extracted from the exhaust gas by the first heat exchanger 4 is radiated by the second heat exchanger 5 during the supply of air to the room, so that the second air supply path (SA2 ) More warm air can be supplied to the room. In addition, during the heating operation, the supply of the cooling water from the central heat source equipment 2 is basically stopped, so that the fluctuation of the heating load is dealt with by adjusting the compressor 8 and / or the expansion valve 7.

(3) Simultaneous cooling and heating operation mode When a cooling and heating load is simultaneously requested from the air conditioning space, the supply air temperature is set according to the heat load required in the air conditioning zone, and the system is operated in the following modes. It is possible to

First, when the cooling load and the heating load are equal, no exhaust heat is generated. Therefore, the switching valve 16 and the switching valve 17 are closed to disconnect the third heat exchanger 6 and to release the first damper 12. Is closed, the second damper 13 is opened, the exhaust blower 11 is driven to exhaust air without passing through the first heat exchanger 4, and the first and second air blowers 9, 10
To activate both the first air supply path (SA1) and the second air supply path (SA2). Then, the refrigerant in the heat pump circuit is sequentially circulated through the compressor 8 → the switching valve 14 → the second heat exchanger (condenser) 5 → the switching valve 15 → the expansion valve 7 → the first heat exchanger (evaporator) 4. Then, the heat removed from the air supply to the room by the first heat exchanger 4 is radiated during the air supply to the room by the second heat exchanger 5, so that the first air supply path (SA1) It is possible to adopt a configuration in which hot air is supplied to the room from the second air supply path (SA2) at the same time when cooler air is supplied to the room.

When the cooling load is larger than the heating load, the switching valve 16 and the switching valve 17 are opened to adjust the amount of heat exhausted by the third heat exchanger 6. It is. That is, the heat pump circuit
The refrigerant circulates as before, but with the first heat exchanger
A part of the heat extracted by 4 is passed through the switching valve 16 to
After the heat is exhausted in the third heat exchanger 6, the switching valve 17 is turned off.
Is returned to the second heat exchanger 4 via the
Is adjusted.

Further, when the cooling load is smaller than the heating load, the first damper 12 is opened, the second damper 13 is closed, and the exhaust blower 11 is driven.
Part of the air passing through the first heat exchanger 4 is turned to the exhaust side
Configuration to cope with small cooling loads
Is possible. In this case, since the heat recovery from the central heat source device 2 is unnecessary, the switching valve 16 and the switching valve 17 are not required.
Is closed, and the third heat exchanger 6 is operated while being disconnected from the heat pump circuit.

In the configuration shown in FIG. 2, each switching valve 1
4, 15, 16, 17 and various dampers 12 , 13 are adjusted, or the exhaust air volume and the cooling / heating temperature are controlled to cope with various heat loads, but a wider range of load fluctuation is predicted. In this case, a four-way valve is arranged in the heat pump circuit, the flow of the refrigerant is switched, and the third heat exchanger 6 is used as a waste heat device (evaporator or condenser). It is possible to cope with this by making the heat medium flow rate and the temperature of No. 2 the same.

The preferred embodiment of the air-conditioning system configured based on the present invention has been described with reference to the drawings. However, the present invention is not limited to such a configuration, and those skilled in the art will understand the scope of the claims. It is needless to say that various changes and modifications can be made within the scope of the technical idea described in above, and such changes and modifications also belong to the scope of the claims of the present invention. In particular, various modifications are possible for the heat pump circuit and / or the air path of the air heat source type heat pump unit air conditioner. In addition, in addition to the above example, it is possible to control the change in the heat load in the air-conditioned space by adjusting the opening degree of the first and / or second dampers, for example. Further, in connection with the switching of the damper, in the above embodiment, the exhaust gas is selectively put into the first position.
Although the configuration in which the exhaust is performed with or without the heat exchanger is shown, it is also possible to adopt a configuration in which the exhaust is selectively performed with or without the second heat exchanger. According to this configuration, the heat extracted by the first heat exchanger can be exhausted into the exhaust gas through the second heat exchanger, and the air conditioner can be air-conditioned in more operation modes by switching the damper. It is possible to drive the system. Furthermore,
1 and 2 show only the configuration in which the second heat exchanger 4 and the third heat exchanger 6 are simply arranged in series or in parallel, respectively. Can be selectively connected, it is possible to respond to various air conditioning loads in various operation modes. Furthermore, in the above-described example, the configuration in which the return air from the room and the outside air are used as the heat source is shown. However, if only the return air from the room is used as the heat source, the heat pump unit does not seem to require a heat source. An air conditioning system can be constructed.

[0028]

As described above, according to the present invention,
By switching the air path, during cooling operation, heat is extracted from the air supplied indoors via the first heat exchanger and discharged to the first heat medium supplied from the central heat source equipment. , It is possible to supply cold air to the room through the first heat exchanger, and to exhaust air through the first heat exchanger during the heating operation, so that warm air can be supplied through the second heat exchanger. It is possible to supply wind to the room. Further, by supplying cool air from the first heat exchanger and supplying warm air from the second heat exchanger, it is possible to flexibly cope with simultaneous cooling and heating loads. As a result, according to the present invention, it is possible to achieve an effective use of energy and a peak cut of electric power, to operate with a small heat transfer power, and to achieve standardization of equipment construction. An air heat source type individual air conditioning system is provided that is capable of simultaneously achieving individuality of a thermal environment and an air quality environment.

[Brief description of the drawings]

FIG. 1 is a schematic diagram showing a configuration of an embodiment of an air conditioning system configured based on the present invention, showing a state in which a second heat exchanger and a third heat exchanger are arranged in series. ing.

FIG. 2 is a schematic diagram showing the configuration of another embodiment of an air conditioning system configured according to the present invention, showing a state in which a second heat exchanger and a third heat exchanger are arranged in parallel. Is shown.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Air heat source type heat pump unit 2 Central heat source equipment 3 Casing 4 1st heat exchanger (evaporator) 5 2nd heat exchanger (condenser) 6 3rd heat exchanger (condenser) 7 Expansion valve 8 Compression Machine 9 first air blower 10 second air blower 11 exhaust air blower 12 first damper 13 second damper

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-56-66633 (JP, A) JP-A-4-268143 (JP, A) JP-B-4-57928 (JP, B2) (58) Field (Int.Cl. ⁷ , DB name) F25B 1/00 F24F 3/00

Claims (4)

(57) [Claims] 1. An air heat source type heat pump air conditioner that performs cooling and heating by a heat pump using external air taken in from outside the air conditioning room and / or return air from the air conditioning room as a heat source, and a first heat medium to the air heat source type heat pump air conditioner. An air heat source type heat pump air conditioner configured to exchange heat with the outside air and / or return air and a second heat medium circulating in the heat pump. A first heat exchanger and a second heat exchanger; and a third heat exchanger that exchanges heat between the first heat medium supplied from the central heat source equipment and the second heat medium circulating in the heat pump,
The first heat exchanger functions as an evaporator, the second and third heat exchangers function as condensers, and further depending on an operation mode, the first heat exchanger and / or the second heat exchange. An air conditioning system characterized in that it is possible to selectively form an exhaust path that passes through a heat exchanger or an exhaust path that does not pass exhaust gas through the first heat exchanger and / or the second heat exchanger . 2. The outside air and / or air taken from outside the air conditioning room.
Or a heat pump that uses the return air from the air-conditioned room as a heat source.
Air source heat pump air conditioner for air conditioning
Cold heat to the air heat source type heat pump air conditioner via the first heat medium
Air conditioning equipment consisting of a central heat source facility that can supply air
In this case, the air heat source type heat pump air conditioner is provided with outside air and / or
Or heat exchange between the return air and the second heat medium circulating in the heat pump
A first heat exchanger and a second heat exchanger for performing
Circulates inside the heat pump with the first heat medium supplied from the source equipment
A third heat exchanger that performs heat exchange with the second heat medium to be performed,
The first heat exchanger functions as an evaporator, and
The second and third heat exchangers function as condensers and supply warm air from the second heat exchanger to the room according to the operation mode.
An air-conditioning system, characterized in that it is supplied to an air conditioner. 3. The method according to claim 2,2nd heat exchangerandThird heat exchanger
Are interposed in series in the second heat medium circulation path of the heat pump.
2. The method according to claim 1, whereinOr 2Described in
Air conditioning system. 4. The method according to claim 1,2nd heat exchangerandThird heat exchanger
Are installed in parallel in the second heat medium circulation path of the heat pump.
2. The method according to claim 1, whereinOr 2Described in
Air conditioning system.