JPH0554922U - Outside air treatment unit - Google Patents

Abstract

(57) [Summary] [Objective] The present invention aims to effectively use cold / hot water by reusing the cold / hot water discharged from the cold / hot water coil. [Structure] An air conditioner external conditioning unit, a cold / hot water introducing pipe that connects the primary side of the cold / hot water coil of the air conditioning external conditioner to a source of cold / hot water, and a secondary of the cold / hot water coil of the air conditioning external unit. Side hot / cold water outlet first pipe, cold / hot water outlet first pipe connecting to cold / hot water outlet second pipe, cold / hot water outlet second pipe to heat exchanger, heat exchanger and cold temperature A cold / hot water derivation third pipe that communicates with the water derivation second pipe, an air conditioning indoor unit, an air conditioning indoor unit cooling and heating coil that communicates with the heat exchanger, and a refrigerant is filled inside. The first pipe,
The heat exchanger, the pump, and the valve are connected to each other by connecting the cooling / heating coil of the indoor unit for air conditioning to the heat exchanger, and also including the second pipe in which the pump and the valve are arranged in parallel and the inside of which is filled with the refrigerant. It was installed with an air conditioner for air conditioning.

Description

[Detailed description of the device]

[0001]

[Industrial application]

 The present invention relates to an outside air processing unit including an air conditioner outside air conditioner.

[0002]

[Prior Art]

 2. Description of the Related Art Conventionally, as an outside air processing unit including an air conditioner outside air conditioner, for example, one shown in FIG. 2 is known.

In FIG. 2, reference numeral 1 is an air conditioner external air conditioner. The air conditioner external air conditioner 1 is provided with an external air inlet 2, and a filter 3, a hot / cold water coil 4, a humidifier 5 and a fan 6 are provided inside. A duct 8 is attached to the air outlet 7 of the fan 6 so that cold air or warm air can be sent.

A pipe 9 is attached to the cold / hot water coil 4. A cold / hot water source (not shown) communicates with the pipe 9. The pipe 9 is provided with valves 10, 11, 12, 13 and a switching valve 14.

According to this outside air processing unit, in the heating operation, the valves 10 and 12 are opened and the valves 11 and 13 are closed, so that the hot water sent from the cold / hot water source is supplied to the cold / hot water coil 4. send. On the other hand, the outside air, after flowing in from the outside air inlet 2, passes through the filter 3 and is supplied to the cold / hot water coil 4. Therefore, the cleaned outside air is warmed by the cold / hot water coil 4, and after having a proper amount of moisture added by the humidifier 5, is discharged to the duct 8 by the fan 6 through the outlet 7.

Further, in the case of the cooling operation, the valves 11 and 13 are opened and the valves 10 and 12 are closed, so that the cold water sent from the cold / hot water source is sent to the cold / hot water coil 4. On the other hand, the outside air flows through the outside air introduction port 2, passes through the filter 3, and is supplied to the cold / hot water coil 4. Therefore, the cleaned outside air is cooled by the cold / hot water coil 4 and then discharged by the fan 6 to the duct 8 through the outlet 7.

The switching valve 11 can be appropriately switched according to set conditions. On the other hand, as disclosed in, for example, Japanese Patent Laid-Open No. 3-91621, it is known to use a radiator using latent heat for an indoor cooling and heating device.

According to this latent heat utilizing heat radiator, the heat exchanger communicates with the cold / hot water source through the pipe attached to the heat exchanger, and the refrigerant in the pipe is gasified or liquefied by the heat exchanger, so that the indoor In the cooling and heating coil of this cooling and heating device, heat can be exchanged with the indoor air to heat or cool the room.

[0009]

[Problems to be solved by the device]

 However, in the prior art, the outside air processing unit and the latent heat radiator described above are provided separately because their purpose of installation is completely different.

Therefore, the air conditioner external conditioner and the latent heat radiator must be connected to the cold / hot water source through separate pipes. Therefore, in the external air conditioner for air conditioning and the radiator using latent heat, the cold / hot water used for cooling / heating is returned to the cold / hot water source through separate pipes.

Further, the power of transportation from the cold / hot water source becomes large. In addition, there was a problem that the diameter of the pipe would become large when trying to reduce the transportation power. In addition, an outside air processing unit and a radiator using latent heat were required, and the installation location and installation work for these were required.

Particularly, in the case of a radiator utilizing latent heat, a machine room or the like in which a heat exchanger is installed was required. The present invention has been made to solve such conventional problems, and its purpose is to effectively use cold / hot water and to integrate a heat exchanger, a pump and a valve with an air conditioner external conditioner. To provide an outside air processing unit.

[0013]

[Means for Solving the Problems]

 The present invention is an air conditioner external air conditioner having an outside air introduction port, a cold and hot water coil and a fan disposed inside, and a duct attached to the outlet of the fan, and a primary side of the cool and hot water coil of the air conditioner external air conditioner. And hot / cold water introducing pipe that connects the cold / hot water source to the secondary side of the cold / hot water coil of the air conditioner air conditioner, and cold / hot water that connects to the cold / hot water leading first pipe The water derivation second pipe, the heat exchanger linked via the cold / hot water derivation second pipe, the cold / hot water derivation third pipe connecting the heat exchanger and the cold / hot water derivation first pipe, and the inside air An air conditioning indoor unit in which an air conditioning coil and fan are installed inside and an air duct is installed at the fan outlet, and the air conditioning indoor unit cooling and heating coil is connected to the heat exchanger. The first pipe with a refrigerant filled inside and the air The heating / cooling coil of the Japanese-style indoor unit and the heat exchanger are connected to each other, and a pump and a valve are provided in parallel and a second pipe is filled with a refrigerant. The valve is installed together with the air conditioner external air conditioner.

[0014]

[Action]

 According to the present invention, during the heating operation, the hot water supplied from the cold / hot water source is sent to the cold / hot water coil of the air conditioner external conditioner through the cold / hot water introducing pipe, and exchanges heat with the fresh air flowing in from the fresh air inlet. After heating, the warmed outside air is discharged to the duct by the fan. Next, the hot water discharged from the cold / hot water coil is supplied to the heat exchanger via the cold / hot water outlet first pipe and the cold / hot water outlet second pipe, and the gasified refrigerant is passed through the first pipe to the air conditioning chamber. It flows into the cooling / heating coil inside the machine and heats it by exchanging heat with the room air introduced from the inside air inlet.The warmed room air is discharged to the duct by the fan, and the liquefied refrigerant flows down in the second pipe. Return to the heat exchanger again. Then, the hot water discharged from the heat exchanger returns to the cold / hot water source via the cold / hot water outlet third pipe and the cold / hot water outlet first pipe. Heating operation is maintained by repeating this cycle.

On the other hand, during the cooling operation, the cold water supplied from the cold / hot water source is sent to the cold / hot water coil of the air conditioner external conditioner through the cold / hot water introduction pipe, and exchanges heat with the outside air flowing in from the outside air introduction port. After cooling, the cooled outside air is discharged to the duct by the fan. Next, the cold water discharged from the cooling / heating coil is supplied to the heat exchanger via the cold / hot water outlet first pipe and the cold / hot water outlet second pipe, the refrigerant is liquefied, and the air is passed through the second pipe by the pump. The air is sent to the cooling / heating coil in the indoor unit for harmony and exchanges heat with the indoor air introduced from the inside air inlet to cool it.The cooled indoor air is discharged to the duct by the fan, and the gasified refrigerant is the first pipe. It flows down and returns to the heat exchanger again. Then, the cold water discharged from the heat exchanger returns to the cold / hot water source via the cold / hot water outlet third pipe and the cold / hot water outlet first pipe. By repeating this cycle, the cooling operation is maintained.

[0016]

【Example】

 Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows an embodiment of an outside air processing unit according to the present invention.

In the figure, reference numeral 20 is an air conditioner external air conditioner. The air conditioner outside air conditioner 20 is provided with an outside air inlet 21, and a filter 22, a hot / cold water coil 23 and a fan 24 are provided inside. A duct 26 is attached to the air outlet 25 of the fan 24 so that cold air or warm air can be sent.

A cold / hot water introducing pipe 27 and a cold / hot water outlet first pipe 28 are attached to the cold / hot water coil 23. The cold / hot water introducing pipe 27 and the cold / hot water outlet first pipe 28 communicate with a cold / hot water source (not shown).

Further, a cold / hot water outlet second pipe 29 is attached to the cold / hot water outlet first pipe 28 attached to the secondary side of the cold / hot water coil 23 of the air conditioner external conditioner 20. A heat exchanger 30 communicates with the cold / hot water outlet second pipe 29.

The heat exchanger 30 is provided with a cold / hot water outlet third pipe 31 communicating with the cold / hot water outlet first pipe 28. The cold / hot water outlet third pipe 31 is connected to the cold / hot water outlet first pipe 28 on the downstream side of the cold / hot water outlet second pipe 29.

A first pipe 40 and a second pipe 41 are attached to the heat exchanger 30. The valve 42 and the pump 43 are provided in parallel in the second pipe 41.

The first pipe 40 and the second pipe 41 communicate with the cooling / heating coil 46 in the air conditioning indoor unit 44. The air conditioning indoor unit 44 is provided with an inside air introduction port 45, and a cooling and heating coil 46 and a fan 47 are disposed inside. A duct 49 is attached to the air outlet 48 of the fan 47 so that cold air or warm air can be sent.

Then, the refrigerant is filled in the refrigerant circulation system constituted by the first pipe 40, the cooling / heating coil 46, the second pipe 41, and the heat exchanger 30. As the refrigerant, for example, brine or chlorofluorocarbon gas (for example, R-22) is used.

A valve 50 is mounted between the cooling / heating coil 46 of each air conditioning indoor unit 44 and the first pipe 40 and the second pipe 41. Further, a three-way switching valve 51 is provided between the cold / hot water introducing pipe 27 and the cold / hot water outlet first pipe 28.

Further, a valve 53 is attached between the cold / hot water outlet first pipe 28 and the cold / hot water outlet second pipe 29. Further, a valve 54 is provided in the first cold / hot water outlet pipe 28 and the first hot / cold water outlet pipe 28 downstream of the branch portion 52 of the hot / cold water outlet second pipe 29.

Next, the operation of this embodiment thus constructed will be described. First, during the heating operation, as shown in FIG. 1, hot water supplied from the cold / hot water source flows into the primary side of the cold / hot water coil 23 in the air conditioner external conditioner 20 via the cold / hot water introducing pipe 27.

Then, in the air conditioning external air conditioner 20, the fan 24 is driven, and the outside air flowing in from the outside air inlet 21 can be cleaned by the filter 22 and then sent to the cold / hot water coil 23.

Therefore, the cleaned outside air is heated and exchanged by passing through the cooling / heating coil 23 to be warmed. The warmed outside air is discharged to the duct 26 from the blow-out port 25 by the fan 24 after a proper humidity is added by a humidifier (not shown).

The hot water discharged from the secondary side of the cold / hot water coil 23 in the air conditioner external air conditioner 20 passes through the cold / hot water outlet first pipe 28 and the cold / hot water outlet second pipe 29 to the heat exchanger. Supplied to 30.

In this heat exchanger 30, the refrigerant is gasified and flows into the cooling / heating coil 46 in the air conditioning indoor unit 44 via the inside of the first pipe 40. Then, in the air conditioning indoor unit 44, the indoor air that has flowed in from the internal air inlet 45 can be purified by a filter (not shown) and then sent to the cooling / heating coil 46.

Therefore, the cleaned outside air is heated and exchanged by passing through the cooling / heating coil 46 to be warmed. The warmed outside air is discharged to the duct 49 from the blow-out port 48 by the fan 47 after a proper humidity is added by a humidifier (not shown).

On the other hand, the refrigerant that has exchanged heat with the room air in the cooling / heating coil 46 is liquefied, flows down in the second pipe 41, and returns to the heat exchanger 30 again. In the heat exchanger 30, the hot water that has undergone heat exchange returns to the cold / hot water source via the cold / hot water outlet third pipe 31 and the cold / hot water outlet first pipe 28.

Heating operation is maintained by repeating this cycle. During this heating operation, the valve 42 of the second pipe 41 is open and the pump 43 is stopped.

The valve 50 provided between the cooling / heating coil 46 of each air conditioning indoor unit 44 and the second pipe 41 is opened / closed according to the indoor load of the duct 49. Further, the valve 54 provided in the hot / cold water derivation first pipe 28 and the valve 53 provided in the cold / hot water derivation second pipe 29 perform an inverse proportional operation according to the load of the heat exchanger 30 to open and close. ..

Further, the three-way switching valve 51 provided between the cold / hot water introducing pipe 27 and the cold / hot water derivation first pipe 28 enables hot water to be supplied to the cold / hot water coil 23 under the condition of heating operation. It is open to the public.

Furthermore, when the air conditioning indoor units 44 are not operated, the valve 53 is closed. On the other hand, during the cooling operation, as shown in FIG. 1, the cold water supplied from the cold / hot water source flows into the primary side of the cold / hot water coil 23 in the air conditioner external conditioner 20 via the cold / hot water introducing pipe 27.

Then, in the air conditioner external air conditioner 20, the fan 24 is driven, and the outside air introduced from the outside air introduction port 21 can be cleaned by a filter (not shown) and then sent to the cooling and heating coil 23.

Therefore, the cleaned outside air is cooled by being heat-exchanged by passing through the cold / hot water coil 23. The cooled outside air is discharged from the outlet 25 to the duct 26 by the fan 24.

Then, the cold water discharged from the secondary side of the cold / hot water coil 23 in the air conditioning external air conditioner 20 is supplied to the heat exchanger 30 via the cold / hot water outlet second pipe 29. In this heat exchanger 30, the refrigerant is liquefied and flows into the cooling / heating coil 46 in the air conditioning indoor unit 44 via the second pipe 41 by the pump 43.

Then, in the air conditioning indoor unit 44, the indoor air that has flowed in from the internal air introducing port 45 can be sent to the cooling / heating coil 46 after being cleaned by a filter (not shown). Accordingly, the cleaned outside air is heat-exchanged and cooled by passing through the cooling / heating coil 46.

The cooled outside air is discharged from the outlet 48 to the duct 49 by the fan 47. On the other hand, the refrigerant that has exchanged heat with the room air in the cooling / heating coil 46 is gasified, flows down in the first pipe 40, and returns to the heat exchanger 30 again.

In the heat exchanger 30, the cold water that has undergone heat exchange returns to the cold / hot water source via the cold / hot water outlet third pipe 31 and the cold / hot water outlet first pipe 28. By repeating this cycle, the cooling operation is maintained.

During this cooling operation, the valve 42 of the second pipe 41 is closed and the pump 43 is operating. Further, a valve 50 provided between the cooling / heating coil 46 of each air conditioning indoor unit 44 and the second pipe 41, a valve 54 provided in the cold / hot water derivation first pipe 28, and a cold / hot water derivation second pipe 29. The valve 53 provided in the heat exchanger 30 operates in inverse proportion to the load of the heat exchanger 30.

Further, the three-way switching valve 51 provided between the cold / hot water introducing pipe 27 and the cold / hot water derivation first pipe 28 can supply hot water to the cold / hot water coil 23 in the heating operation. It is open to the public.

Further, when the air conditioning indoor units 44 are not operated, the valve 53 is closed. As described above, according to the present embodiment, all the cold / hot water supplied from the cold / hot water source is sent to the cooling / heating coil 32 in the air conditioner external conditioning unit 20 via the cold / hot water introducing pipe 27, where After exchanging heat with the outside air, it is sent to the heat exchanger 30 via the cold / hot water outlet first pipe 28 and the cold / hot water outlet first pipe 29, where the refrigerant is gasified or liquefied, and then returned to the cold / hot water source. Since it is not necessary to separately send to the cold / hot water coil 23 and the heat exchanger 30 in the air conditioning external air conditioner 20, it becomes possible to reduce the hot / cold water transporting power. It is possible to reduce the diameter of the hot / cold water introducing pipe 27.

Further, since the cooling / heating coil 46 of each air conditioning indoor unit 44 is heat-exchanged by the refrigerant, even the hot water once consumed in the cooling / heating coil 32 in the air conditioning external conditioner 30 is sufficiently cooled and heated. It becomes possible to do.

Therefore, the scale of the cold / hot water source can be reduced. Further, since the heat conditioner 30, the valve 42, and the pump 43 are provided side by side with the air conditioner air conditioner 20, the heat exchanger 30 for the air conditioner indoor unit 44 can be used, for example, in a machine room or the like. Eliminates the need to install in

[0048]

[Effect of the device]

 As described above, according to the present invention, all the cold / hot water supplied from the cold / hot water source is first sent to the cold / hot water coil in the air conditioner air conditioner via the cold / hot water introducing pipe, where After heat exchange, it is sent to the heat exchanger through the cold / hot water outlet first pipe and the cold / hot water outlet second pipe, where the refrigerant is gasified or liquefied, and then the cold / hot water outlet third pipe and cold / hot water outlet. Since the route is returned to the cold / hot water source via the first pipe, the cold / hot water used in the cold / hot water coil in the air conditioner external conditioner can be reused.

Further, unlike the conventional method, it is not necessary to separately send the cold / hot water to the cold / hot water coil and the heat exchanger in the air conditioner external conditioner, so that the cold / hot water transport power can be reduced. At the same time, it is possible to reduce the diameter of the hot / cold water introducing pipe.

Further, since the cooling / heating coil of each air conditioning indoor unit is heat-exchanged by the refrigerant, it is possible to sufficiently cool and heat even the hot water once consumed in the cold / hot water coil in the air conditioning external conditioner. Becomes

Therefore, the scale of the cold / hot water source can be reduced.

[Brief description of drawings]

FIG. 1 is an explanatory view of a configuration of an outside air processing unit according to the present invention.

FIG. 2 is a diagram illustrating a configuration of a conventional outside air processing unit.

[Explanation of symbols]

 20 Air Conditioning External Air Conditioner 21 Outside Air Inlet 23 Cold / Hot Water Coil 24 Fan 25 Outlet 26 Duct 27 Cold / Hot Water Introducing Pipe 28 Cold / Hot Water Outlet First Pipe 19 Cold / Hot Water Outgoing Second Pipe 30 Heat Exchanger 31 Cold / Hot Water Outgoing No. 1 Three pipes 40 First pipe 41 Second pipe 42 Valve 43 Pump 44 Air conditioning indoor unit 45 Inside air introduction port 46 Air conditioning coil 47 Fan 48 Air outlet 49 Duct

Claims (1)

[Scope of utility model registration request] 1. An air conditioner external conditioner having an outside air introduction port, a cold / hot water coil and a fan disposed inside, and a duct attached to an outlet of the fan; and a primary cooler / hot water coil of the air conditioner external conditioner. And hot / cold water introducing pipe for communicating the cold / hot water source with the hot / cold water source, cold / hot water outlet first pipe for communicating with the secondary side of the cold / hot water coil of the air conditioner external conditioner, and cold / hot water outlet first pipe for communication A second hot and cold water outlet pipe, and a heat exchanger communicating with the second hot and cold water outlet pipe,
An air conditioner in which a cold / hot water derivation third pipe that connects this heat exchanger to the cold / hot water derivation first pipe, an inside air inlet port is provided, a cooling / heating coil and a fan are disposed, and a duct is attached to the outlet port of the fan. Indoor unit, a first pipe that connects the cooling and heating coil of the air conditioning indoor unit to the heat exchanger, and has a refrigerant filled therein, and a cooling and heating coil of the air conditioning indoor unit and the heat A second pipe having a pump and a valve arranged in parallel and having a refrigerant filled therein, the heat exchanger pump and the valve being provided together with the air conditioner external conditioner. An outside air treatment unit characterized by.