JP6417775B2 - Refrigeration equipment - Google Patents

Description

  The present disclosure relates to a refrigeration apparatus having a refrigerant circuit that performs a refrigeration cycle, and more particularly, to countermeasures against refrigerant leakage.

  When relocation or maintenance of the refrigeration apparatus is performed, a pump-down operation is performed in order to collect the refrigerant in the outdoor unit. An example of an air conditioner that performs a pump-down operation is described in Patent Document 1.

JP 2003-227664 A

  After the pump-down operation, the connecting pipe that connects the indoor unit and the outdoor unit of the refrigeration apparatus is removed, but the refrigerant may leak at that time. In addition, if the communication pipe or the heat exchanger of the outdoor unit is damaged, the refrigerant leaks at times other than during relocation. In general, since the density of the refrigerant is larger than that of air, the leaked refrigerant may stay in or around the outdoor unit of the refrigeration apparatus. Refrigerants with low global warming potential (GWP) that have come into use in recent years are relatively flammable, so if such refrigerant stays and the concentration increases, the possibility of ignition is denied. Can not. Therefore, for example, when performing relocation or maintenance of the refrigeration system, fires used for connecting pipes and the like, and sparks generated when cutting pipes do not ignite the refrigerant. It is necessary to prevent the refrigerant concentration in the vicinity from becoming high.

  It is an object of the present invention to prevent the concentration of the refrigerant in or around the outdoor unit of the refrigeration apparatus from increasing even if the refrigerant leaks.

The 1st freezing apparatus by this indication has the refrigerant circuit (20) comprised by connecting an outdoor unit (11) and an indoor unit (13) by connection piping (23, 24). The outdoor unit (11) is provided with a compressor (30), an outdoor heat exchanger (34), and an outdoor fan (12) for sending outdoor air to the outdoor heat exchanger (34). The refrigeration apparatus, when instructed to perform a pump-down operation, operates a controller (52) that operates the compressor (30) and the outdoor fan (12) to recover the refrigerant to the outdoor unit (11). Have The controller (52) continues operating the outdoor fan (12) even after stopping the compressor (30) and ending the pump-down operation. The refrigeration unit (10) instructs the controller (52) not to turn off the power to the refrigeration unit (10) while the outdoor fan (12) is operating after the pump-down operation is completed. indicator for displaying to the (62) further includes a remote controller (60) or the outdoor unit of the refrigeration system (11).

  According to this, the refrigeration apparatus continues to operate the outdoor fan even after the pump-down operation is finished. For this reason, even if the refrigerant is leaking, it can be diffused, and the concentration of the refrigerant in the outdoor unit of the refrigeration apparatus and in the vicinity thereof can be prevented from increasing.

In addition, after the pump-down operation is completed, while the outdoor fan is operating , a display instructing not to turn off the power to the refrigeration apparatus is performed, so that the power supply to the outdoor unit is not interrupted by the user. be able to. For this reason, possibility that the spreading | diffusion of the refrigerant | coolant by an outdoor fan will be interrupted can be made low.

  In the second refrigeration apparatus according to the present disclosure, in the first refrigeration apparatus, the controller (52) stops the outdoor fan (12) after a predetermined time has elapsed since the compressor (30) was stopped.

  According to this, the refrigeration apparatus continues operating the outdoor fan until a predetermined time elapses after stopping the compressor even after the pump-down operation is finished, so that the refrigerant can be diffused and its concentration can be suppressed. .

  In the third refrigeration apparatus according to the present disclosure, in the first refrigeration apparatus, the refrigerant circuit (20) is provided with an expansion mechanism (36) in the outdoor unit (11), and the controller (52) When the pump down operation is instructed, the expansion mechanism (36) is closed, and the outdoor fan (12) is stopped after a predetermined time has elapsed since the expansion mechanism (36) was closed.

According to this, even after the pump-down operation is finished, the refrigeration apparatus continues to operate the outdoor fan until a predetermined time elapses after the expansion mechanism is closed, so that the refrigerant can be diffused and its concentration can be suppressed .

According to the 1st- 3rd freezing apparatus, even if a refrigerant | coolant leaks, the density | concentration of the refrigerant | coolant in the outdoor unit of a freezing apparatus or its periphery can be prevented from becoming high. For this reason, the operation | work at the time of moving and maintenance of a freezing apparatus can be performed more safely.

Drawing 1 is a lineblock diagram showing an example of an air harmony device concerning an embodiment of the present invention. FIG. 2 is a flowchart illustrating an example of the pump-down operation and the subsequent operation of the air-conditioning apparatus of FIG. FIG. 3 is a configuration diagram illustrating a modification of the air-conditioning apparatus of FIG.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Components shown with the same reference numbers in the drawings are identical or similar components.

− Structure of air conditioner −
An air conditioner as a refrigeration apparatus will be described. FIG. 1 is a configuration diagram illustrating an example of an air conditioner (10) according to an embodiment of the present invention. The air conditioner (10) in FIG. 1 has an outdoor unit (11) that is a heat source side unit and an indoor unit (13) that is a use side unit, and performs switching between cooling operation and heating operation. It is configured. The number of indoor units (13) is not limited to one, and may be plural.

  An outdoor circuit (21) which is a heat source side circuit is provided in the outdoor unit (11). In the indoor unit (13), an indoor circuit (22) which is a use side circuit is provided. In this air conditioner (10), an outdoor circuit (21) and an indoor circuit (22) are connected by a liquid side connecting pipe (23) and a gas side connecting pipe (24), and a vapor compression refrigeration cycle is formed. It has a refrigerant circuit (20) to perform.

  The outdoor circuit (21) of the outdoor unit (11) includes a compressor (30), a four-way switching valve (refrigerant circulation direction switching mechanism) (33), an outdoor heat exchanger (heat source side heat exchanger) (34), An expansion valve (expansion mechanism) (36) and an accumulator (35) are provided. At one end of the outdoor circuit (21), a liquid side shut-off valve (25) to which the liquid side communication pipe (23) is connected is provided. The other end of the outdoor circuit (21) is provided with a gas side shut-off valve (26) to which the gas side communication pipe (24) is connected.

  The liquid side closing valve (25) is provided with a liquid side service port (27). The liquid side service port (27) opens to the liquid side connecting pipe (23) side of the liquid side closing valve (25) in the closed position. On the other hand, the gas side shut-off valve (26) is provided with a gas side service port (28). The gas side service port (28) opens to the gas side connecting pipe (24) side of the closed position of the gas side closing valve (26). These ports (27, 28) are used when the refrigerant in the refrigerant circuit (20) is collected or when the refrigerant is charged into the refrigerant circuit (20), and are closed during the cooling operation and the heating operation. The refrigerant used in the refrigerant circuit (20) is, for example, R32, but other refrigerants may be used.

  The compressor (30) is a hermetic and high-pressure dome type compressor. The discharge side of the compressor (30) is connected to the first port (P1) of the four-way switching valve (33) via the discharge pipe (40). The suction side of the compressor (30) is connected to the third port (P3) of the four-way switching valve (33) via the suction pipe (41).

  The outdoor heat exchanger (34) is configured by a cross fin type fin-and-tube heat exchanger. In the outdoor unit (11), an outdoor fan (12) is provided in the vicinity of the outdoor heat exchanger (34). In the outdoor heat exchanger (34), heat is exchanged between the outdoor air sent by the outdoor fan (12) and the refrigerant flowing through the heat transfer tube. One end of the outdoor heat exchanger (34) is connected to the fourth port (P4) of the four-way switching valve (33) via the connection pipe (32). The other end of the outdoor heat exchanger (34) is connected to the liquid side shut-off valve (25) via the liquid pipe (42). In addition, a gas side closing valve (26) is connected to the second port (P2) of the four-way switching valve (33).

  The liquid pipe (42) is provided with an expansion valve (36) between the outdoor heat exchanger (34) and the liquid side closing valve (25). The expansion valve (36) is an electronic expansion valve with a variable opening.

  The suction pipe (41) is provided with an accumulator (35). The accumulator (35) is formed in a sealed container shape, and is configured to separate the liquid refrigerant from the refrigerant going to the compressor (30) and store it inside so that the compressor (30) does not suck the liquid refrigerant. ing.

  The four-way selector valve (33) is in a first state in which the first port (P1) and the fourth port (P4) communicate with each other and the second port (P2) and the third port (P3) communicate with each other (FIG. 1). And a second state in which the first port (P1) and the second port (P2) communicate with each other and the third port (P3) and the fourth port (P4) communicate with each other (see FIG. 1). The state indicated by a broken line) can be switched.

  The indoor circuit (22) of the indoor unit (13) is provided with an indoor heat exchanger (37). At one end of the indoor circuit (22), a liquid side flare joint (38) to which the liquid side communication pipe (23) is connected is provided. The other end of the indoor circuit (22) is provided with a gas side flare joint (39) to which the gas side communication pipe (24) is connected.

  The indoor heat exchanger (37) is configured by a cross fin type fin-and-tube heat exchanger. An indoor fan (14) is provided in the vicinity of the indoor heat exchanger (37). In this indoor heat exchanger (37), heat is exchanged between the indoor air sent by the indoor fan (14) and the refrigerant flowing through the heat transfer tubes.

  The outdoor unit (11) further includes a controller (52). The controller (52) controls the operation of the components of the air conditioner (10) such as the outdoor fan (12), the compressor (30), and the expansion valve (36).

− Operation of air conditioner −
Next, the operation of the air conditioner (10) will be described. The air conditioner (10) can perform a cooling operation and a heating operation by switching the four-way switching valve (33).

<Cooling operation>
In the cooling operation, the four-way switching valve (33) is set to the first state. When the compressor (30) is operated in this state, a vapor compression refrigeration cycle in which the outdoor heat exchanger (34) serves as a condenser and the indoor heat exchanger (37) serves as an evaporator in the refrigerant circuit (20). Done. In the cooling operation, the opening degree of the expansion valve (36) is appropriately adjusted.

  In this state, the refrigerant discharged from the compressor (30) is condensed by exchanging heat with outdoor air in the outdoor heat exchanger (34). The refrigerant condensed in the outdoor heat exchanger (34) is depressurized when passing through the expansion valve (36), and then is evaporated by exchanging heat with indoor air in the indoor heat exchanger (37). The refrigerant evaporated in the indoor heat exchanger (37) is sucked into the compressor (30) and compressed. During the cooling operation, the refrigerant circulates in the refrigerant circuit (20) as described above to cool the room.

<Heating operation>
In the heating operation, the four-way selector valve (33) is set to the second state. When the compressor (30) is operated in this state, a vapor compression refrigeration cycle in which the indoor heat exchanger (37) serves as a condenser and the outdoor heat exchanger (34) serves as an evaporator in the refrigerant circuit (20). Done. In the heating operation, the opening degree of the expansion valve (36) is appropriately adjusted.

  In this state, the refrigerant discharged from the compressor (30) is condensed by exchanging heat with indoor air in the indoor heat exchanger (37). The refrigerant condensed in the indoor heat exchanger (37) is decompressed when passing through the expansion valve (36), and thereafter evaporates by exchanging heat with outdoor air in the outdoor heat exchanger (34). The refrigerant evaporated in the outdoor heat exchanger (34) is sucked into the compressor (30) and compressed. During the heating operation, the refrigerant circulates in the refrigerant circuit (20) as described above and the room is heated.

− Operation during relocation or maintenance −
The operation of the air conditioner (10) when the air conditioner (10) is moved or maintained will be described. The air conditioner (10) performs a pump-down operation in order to collect the refrigerant in the outdoor unit (11).

  FIG. 2 is a flowchart showing an example of the pump-down operation and the subsequent operation of the air conditioner (10) of FIG. First, the user closes the liquid side closing valve (25). The user instructs the controller (52) to perform the pump-down operation, for example, by operating a switch provided in the outdoor unit (11). When the user instructs the pump-down operation, the controller (52) starts the process of FIG. 2 to recover the refrigerant to the outdoor unit (11) and the compressor (30) and the outdoor fan (12). And make it work.

  In block (B12), the controller (52) closes the expansion valve (36). In the block (B14), the controller (52) starts the operation of the compressor (30) and the outdoor fan (12), and the pump-down operation is started. By the pump-down operation, the refrigerant in the refrigerant circuit (20) is collected on the outdoor unit (11) side.

  In the block (B16), when the controller (52) determines that the pump-down operation should be ended, the controller (30) is stopped and the pump-down operation is ended. At this time, the controller (52) continues to operate without stopping the outdoor fan (12). For example, the controller (52) determines that the pump-down operation should be terminated when a predetermined time elapses after the operations of the compressor (30) and the outdoor fan (12) are started.

  In the block (B18), for example, the controller (52) determines whether or not a predetermined time has elapsed since the compressor (30) was stopped. If it is determined that the predetermined time has elapsed, the process proceeds to block (B20), and if it is determined that the predetermined time has not elapsed, the process returns to block (B18). In the block (B20), the controller (52) stops the outdoor fan (12). Thereafter, the user closes the gas side shut-off valve (26) and turns off the air conditioner (10).

− Effect −
Generally, at the end of the pump-down operation, the outdoor fan (12) is stopped simultaneously with the compressor (30). On the other hand, according to the air conditioner (10) of FIG. 1, the outdoor fan (12) continues to operate even after the compressor (30) is stopped and the pump-down operation is terminated. Even if the refrigerant leaks and stays in or around the outdoor unit (11), the diffusion of the refrigerant by the outdoor fan (12) continues even after the pump-down operation ends, so the outdoor unit (11) It is possible to prevent the refrigerant concentration in and around the inside from becoming high. For this reason, possibility that a refrigerant | coolant will burn can be suppressed and the operation | work at the time of transfer and maintenance of an air conditioning apparatus (10) can be performed more safely.

  In the block (B16), the controller (52) may determine that the pump-down operation should be terminated when a predetermined time has elapsed since the expansion valve (36) was closed. In the block (B18), the controller (52) may determine whether or not a predetermined time has elapsed since the expansion valve (36) was closed.

  Further, the processing of the block (B18) and the block (B20) may be omitted. In this case, the outdoor fan (12) continues to operate even after the compressor (30) is stopped, but eventually the user turns off the air conditioner (10), so the outdoor fan (12) stops. To do. According to this, control can be simplified.

− Modification −
FIG. 3 is a block diagram showing a modification of the air conditioner (10) of FIG. The air conditioner (10) of FIG. 3 is configured similarly to the air conditioner (10) of FIG. 1 except that it further includes a remote controller (60). A description of the common points of both is omitted.

  The remote controller (60) includes a display (62) and an operation unit (64). The remote controller (60) is connected to the indoor unit (13) by wire or wirelessly. The remote controller (60) communicates with the controller (52) via the indoor unit (13). The remote controller (60) transmits information input by the user to the operation unit (64) to the controller (52). The controller (52) transmits an instruction to the remote controller (60).

  The air conditioner (10) of FIG. 3 operates according to the flowchart of FIG. 2 in the same manner as the air conditioner (10) of FIG. The controller (52) supplies power to the outdoor unit (11) while the outdoor fan (12) is operating after the pump-down operation ends (for example, from the block (B18) to the block (B20) in FIG. 2). The remote controller (60) is instructed to perform a display to prevent the interruption. The display (62) performs such display according to an instruction from the remote controller (60). The display to prevent the interruption of power supply to the outdoor unit (11) is, for example, an indication that the outdoor unit (11) is performing the necessary processing, and that the processing for the pump-down operation is in progress. Or a display for instructing not to turn off the power of the air conditioner (10).

  According to the air conditioner (10) of FIG. 3, the user can accidentally cut off the power supply to the outdoor unit (11) while the outdoor fan (12) is operating after the pump-down operation is completed. Can be lowered. For this reason, since possibility that the spreading | diffusion of the refrigerant | coolant by the outdoor fan (12) will be interrupted after completion | finish of pump down operation can be made low, the spreading | diffusion of the leaked refrigerant | coolant can be performed more reliably, and outdoor unit (11 ) It is possible to ensure that the concentration of the refrigerant in and around it does not increase.

  In addition to the remote controller (60) or in place of the remote controller (60), the outdoor unit (11) may have a display (62). In this case, for example, the controller (52) controls the display (62) in the same manner as the remote controller (60).

  Further, the user may instruct the controller (52) to perform the pump-down operation by operating the operation unit (64) of the remote controller (60).

  The above embodiments are essentially preferable examples, and are not intended to limit the scope of the present invention, its application, or its use.

  As described above, the present invention is useful for a refrigeration apparatus having a refrigerant circuit.

10 Air conditioning equipment (refrigeration equipment)
11 Outdoor unit
12 Outdoor fan
13 Indoor unit
20 Refrigerant circuit
30 Compressor
34 Outdoor heat exchanger
36 Expansion valve (expansion mechanism)
52 Controller
60 Remote controller
62 Display

Claims (3)

A refrigeration apparatus (10) comprising a refrigerant circuit (20) configured by connecting an outdoor unit (11) and an indoor unit (13) with connecting pipes (23, 24),
The outdoor unit (11) includes a compressor (30), an outdoor heat exchanger (34), and an outdoor fan (12) that sends outdoor air to the outdoor heat exchanger (34).
A controller (52) for operating the compressor (30) and the outdoor fan (12) in order to recover the refrigerant to the outdoor unit (11) when the pump down operation is instructed;
The controller (52) continues operating the outdoor fan (12) even after stopping the compressor (30) and ending the pump-down operation,
The refrigeration unit (10) instructs the controller (52) not to turn off the power to the refrigeration unit (10) while the outdoor fan (12) is operating after the pump-down operation is completed. A refrigerating apparatus, further comprising a display (62) for performing display on the remote controller (60) of the refrigerating apparatus or the outdoor unit (11). In claim 1,
The said controller (52) stops the said outdoor fan (12) after progress for a predetermined time, after stopping the said compressor (30). In claim 1,
The refrigerant circuit (20) is provided with an expansion mechanism (36) in the outdoor unit (11),
When the pump down operation is instructed, the controller (52) closes the expansion mechanism (36), and stops the outdoor fan (12) after a predetermined time has elapsed since the expansion mechanism (36) was closed. A refrigeration apparatus characterized by that.

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