JP2019196891A - Outdoor unit and air conditioner - Google Patents

Abstract

To provide an outdoor unit and an air conditioner in which an external device can be connected and stably supplied with power without stopping supply of power to a control device.SOLUTION: An outdoor unit 10 comprises: an outdoor device arranged outdoors out of devices constituting a refrigeration cycle; a control device 13 comprising a control board 20 comprising a single-phase AC main power line 21 and comprising at least a volatile memory, and for controlling operation of the outdoor device; and a case for housing the outdoor device and the control device 13. The control board 20 comprises: a power connector 23 branched and connected to the main power line 21 via an auxiliary power line 22; and a relay 24 provided in the auxiliary power line 22, and capable of electrically connecting and disconnecting the main power line 21 and the power connector 23.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an outdoor unit and an air conditioner.

  In an air conditioner including an indoor unit and an outdoor unit, a power source may be required around the outdoor unit when performing operations such as installation and maintenance. In such a case, power is generally supplied from a distance using a cord reel or the like. However, since it is necessary to carry the cord reel, the burden on the worker has increased.

  Patent Document 1 describes a technique of providing a power outlet in an outdoor unit in an air conditioner including an indoor unit and an outdoor unit. In the outdoor unit disclosed in Patent Document 1, a vacuum pump for removing impurity components such as air contained in the refrigerant by a vacuuming method is connected to an outlet. In Patent Document 1, the power supply destination is switched from the outdoor control device to the outlet by the switch operation of the indoor unit.

JP 2000-146270 A

  In the air conditioner described in Patent Literature 1, power is not supplied to the outdoor control device when the vacuum pump is operated. For this reason, when error information or the like is stored in the volatile memory of the control device, there is a problem that if the control device is not supplied with power, the stored information such as error information disappears.

  In addition, for example, in the outdoor unit of Patent Document 1, when a device such as a vacuum pump is connected to the outdoor unit and operated while the power supply to the control device is maintained, a surge due to arc discharge or the like is generated. This may cause problems such as resetting of volatile memory.

Further, in Patent Document 1, a power outlet is provided inside the outdoor unit. However, in an outdoor unit, it may be difficult to secure a space for installing a power outlet.
The present invention has been made in view of the above circumstances, and an outdoor unit and an air conditioner that can stably supply power by connecting an external device without stopping power supply to the control device. Is to provide.

In order to solve the above problems, the following configuration is adopted.
According to the first aspect of the present invention, the outdoor unit includes an outdoor device arranged outside the device constituting the refrigeration cycle, and a control board having a single-phase AC main power line, and the outdoor device A control device that controls the operation of the device, and a housing that houses the outdoor equipment and the control device, the control board is a power connector that is branched and connected to the main power line via a sub power line, A relay provided on the sub power line and capable of electrically connecting and disconnecting the main power line and the power connector.
In the first aspect, a relay capable of electrical connection and disconnection between the main power supply line and the power supply connector is provided. With this relay, when connecting an external device to the power connector, the power connector and the main power line are electrically disconnected without stopping the power supply to other devices such as a memory on the control board. Can do. Therefore, it is not necessary to stop the power supply to other devices on the control board such as a volatile memory. Therefore, it is possible to suppress the occurrence of problems such as the loss of stored information such as error information stored in the volatile memory.
In addition, since the power connector and the main power line are electrically disconnected, when connecting an external device to the power connector, a malfunction such as a surge occurs and the volatile memory is reset. This can be suppressed.
Moreover, in the first aspect, since the power supply connector is provided on the control board, power can be supplied from the power supply connector on the control board to the external device even when there is no space to provide an outlet or the like in the housing.
Therefore, it is possible to connect the external device and stably supply power without stopping the power supply to the control device.

According to the second aspect of the present invention, the power connector according to the first aspect may be formed such that an external connector provided at an end of a power line outside the housing can be inserted and removed.
By comprising in this way, while being able to connect an external connector to a power supply connector easily, it can suppress connecting an external power supply line incorrectly.

According to the third aspect of the present invention, the power connector according to the second aspect may be displayed in the same color as the external connector.
With this configuration, an operator who looks at the color display of the external connector can easily find the position of the power connector for inserting and removing the external connector.

According to the fourth aspect of the present invention, in the outdoor unit according to any one of the first to third aspects, the operation switch arranged around the power connector and capable of turning on / off the contact of the relay May be provided.
With this configuration, when an external connector is connected to the power connector, the operation switch disposed around the power connector may be operated, so the operation switch is disposed at a location away from the power connector. As compared with the above, it is possible to easily turn on / off the contact of the relay and to suppress the operator from forgetting to operate the operation switch.

According to the fifth aspect of the present invention, in the outdoor unit according to the fourth aspect, in conjunction with the operation of the operation switch, a restriction that covers the power connector and cannot be opened when the operation switch is turned off. There may be provided a cover mechanism that enters a released state in which the power switch can be contacted when the operation switch is turned on.
By comprising in this way, when the contact of a relay is on, it can suppress connecting an external connector to a power supply connector accidentally.

According to the sixth aspect of the present invention, the housing according to any one of the first to fifth aspects may include a side wall panel that can be opened and closed. Further, the control board may be arranged to face the side wall panel when the side wall panel is in the closed position. The power connector may be disposed on a surface of the control board facing the side wall panel.
With this configuration, it is possible to access the power connector of the control board simply by removing the side panel. Therefore, it is possible to start power supply from the outdoor unit to the external device in a short time.

According to the seventh aspect of the present invention, the air conditioner includes the outdoor unit according to any one of the first to sixth aspects.
With such a configuration, work such as maintenance of the outdoor unit can be easily performed, so that merchantability can be improved.

  According to the outdoor unit, it is possible to stably supply power by connecting an external device without stopping power supply to the control device.

It is a block diagram which shows schematic structure of the air conditioner in 1st embodiment of this invention. It is a circuit diagram which shows schematic structure of the outdoor unit in 1st embodiment of this invention. It is an enlarged view of the power connector periphery in 2nd embodiment of this invention. It is a schematic block diagram of the control board in which the power connector in 3rd embodiment of this invention is a non-energized state. It is a schematic block diagram of the control board in which the power connector in a third embodiment is energized.

  Next, an outdoor unit and an air conditioner according to an embodiment of the present invention will be described with reference to the drawings.

(First embodiment)
FIG. 1 is a configuration diagram showing a schematic configuration of an air conditioner according to a first embodiment of the present invention.
As shown in FIG. 1, the air conditioner 100 includes an outdoor unit 10 and an indoor unit (not shown). The air conditioner 100 of the first embodiment is a so-called building air conditioner. The air conditioner 100 can perform a cooling operation and a heating operation by circulating a refrigerant between the outdoor unit 10 and an indoor unit (not shown).

  The outdoor unit 10 is installed outdoors (in other words, outdoors) such as the rooftop of a building, and is connected to an indoor unit (not shown) via a refrigerant pipe or the like. The outdoor unit 10 includes a housing 11, an outdoor device 12, and a control device 13.

  The housing 11 accommodates the outdoor device 12 and the control device 13. The casing 11 exemplified in this embodiment is formed in a box shape whose outer shape forms a rectangular parallelepiped. The casing 11 includes a heat exchange chamber 14 in the upper portion and a machine chamber 15 in the lower portion. The heat exchange chamber 14 accommodates the outdoor device 12 inside, and the machine room 15 accommodates the control device 13 inside.

  The heat exchange chamber 14 includes a side wall opening 17 in the side wall 16, and the heat exchange chamber 14 includes a plurality of fan openings 18 a for the fan F in the ceiling portion 18. In the heat exchange chamber 14, the outside air can flow between the side wall opening 17 and the fan opening 18a.

  The machine room 15 includes a plurality of side wall panels 19. Each of these side wall panels 19 is formed in a rectangular plate shape, and is attachable to and detachable from a frame (not shown) of the machine room 15 by a fastener such as a screw.

FIG. 2 is a circuit diagram showing a schematic configuration of the outdoor unit in the first embodiment of the present invention.
As shown in FIGS. 1 and 2, the outdoor device 12 is a device that is arranged outdoors among the devices that constitute the refrigeration cycle of the air conditioner 100. Examples of the outdoor device 12 include a heat exchanger (not shown), a compressor (not shown), a fan F, and the like. These outdoor devices 12 are accommodated in a heat exchange chamber 14. A heat exchanger (not shown) functions as a condenser during cooling operation, and functions as an evaporator during heating operation.

  The compressor (not shown) is driven by the motor M. The number of rotations of the motor M that drives the compressor is controlled by the inverter INV. A three-phase alternating current (for example, AC 200V) is supplied to the inverter INV. This three-phase alternating current is supplied to the outdoor unit 10 from the outside as a power source. In addition, you may make it supply the three-phase alternating current supplied to the outdoor unit 10 from an indoor unit.

  The control device 13 mainly controls the operation of the outdoor device 12. The control device 13 includes a control board 20 on which a switching (SW) power supply P, a processing device (not shown) such as a CPU (Central Processing Unit), a volatile memory, a nonvolatile memory, and the like are mounted. .

  The control board 20 is a so-called rigid board, and further includes a single-phase alternating current main power line 21, a sub power line 22, a power connector 23, and a relay 24. The main power supply line 21 takes out single-phase alternating current from the three-phase alternating current supplied to the outdoor unit 10. The main power supply line 21 supplies a single-phase alternating current (for example, AC 200 V) to the primary side terminal of the switching power supply P such as an AC / DC converter provided in the control board 20. The direct current power (for example, DC 5V) converted by the switching power supply P is supplied as power for a processing device and various memories mounted on the control board 20 described above.

  When a malfunction occurs in the operation of the outdoor device 12 or the like, the control device 13 accumulates error information related to the malfunction in the volatile memory on the control board 20. Information stored in the volatile memory can be taken into a personal computer (PC) via a communication interface (not shown) mounted on the control device 13. For example, a wireless communication module such as a wireless local area network (LAN) is mounted on the control device 13 so that error information stored in the volatile memory of the control device 13 can be extracted via wireless communication. May be.

  The sub power line 22 branches from the main power line 21 and supplies a three-phase alternating current to the power connector 23. The sub power supply line 22 can be formed as a printed wiring on a substrate made of an insulator, for example.

  The power connector 23 is a connector that can supply power to external devices M1 and M2 such as a PC (personal computer) and an oscilloscope that are carried in to perform maintenance and the like. The power connector 23 is branched and connected to the main power line 21 via the sub power line 22. The power connector 23 in this embodiment is a dedicated connector that is different from a household outlet. The power connector 23 exemplified in this embodiment can be connected to an external connector 25 provided at the end of a power tap or a power cord electric wire (power line) L1. The power connector 23 illustrated in this embodiment is a so-called female connector, and illustrates the case where the external connector is a male connector. However, the power connector 23 may be a male connector and the external connector may be a female connector.

  The control board 20 is disposed so as to face one predetermined side wall panel 19 </ b> A among the plurality of side wall panels 19 in a state where the machine room 15 is closed by the plurality of side wall panels 19. The power connector 23 is disposed on the mounting surface of the control board 20 facing the predetermined side wall panel 19A. That is, by removing the predetermined side wall panel 19A, the power connector 23 on the control board 20 can be easily accessed from the opening of the machine room 15 formed by removing the side wall panel 19A. The side wall panel 19A may be swingably supported on the frame via a hinge.

  Here, the power connector 23 and the external connector 25 described above have the same color display (for example, red). That is, the operator can find the power connector 23 to which the external connector 25 can be connected by looking at the color display of the external connector 25 and looking for the same color display on the control board 20. .

  The power connector 23 in this embodiment is capable of inserting and removing the external connector 25 along the mounting surface of the control board 20. Thereby, the direction in which the electric wire L1 is pulled can be different from the direction in which the external connector 25 is inserted and removed. Therefore, even if the electric wire L1 provided with the external connector 25 is pulled, the external connector 25 can be made difficult to come off from the power connector 23.

  The relay 24 is provided on the sub power line 22. More specifically, the relay 24 is provided in the middle of the sub power supply line 22. The relay 24 enables electrical connection and disconnection between the main power supply line 21 and the power supply connector 23. The relay 24 in this embodiment is a so-called mechanical relay, and the contact can be switched on and off using the secondary side DC output of the switching power supply described above. The relay 24 of this embodiment is connected to the operation switch SW.

  The operation switch SW can select a first position where a voltage is applied to a coil (not shown) of the relay 24 and a second position where a voltage is not applied to the coil by an operator's operation, and is in a selected state. Can be held. In addition, although the case where a mechanical relay is used was illustrated as the relay 24 of embodiment mentioned above, the non-contact relay using a semiconductor etc. may be used. Further, as an example, the contact point of the relay 24 is a contact point that is closed by voltage application. However, the contact of the relay 24 is not limited to the a contact.

  By switching the operation switch SW described above from the first position (applied) to the second position (not applied), the contact of the relay 24 can be changed from the closed state to the opened state. Therefore, the power connector 23 can be in a non-energized state. On the other hand, by operating the operation switch from the second position to the first position, the contact of the relay 24 can be changed from the open state to the closed state. As a result, the power connector 23 can be energized. In FIG. 2, the symbol “t1” is a terminal block.

  According to the first embodiment described above, the relay 24 capable of electrical connection and disconnection between the main power line 21 and the power connector 23 is provided. When connecting the external devices M1 and M2 to the power connector 23 by the relay 24, the power connector 23 and the main power line 21 are not stopped without stopping the power supply to other devices such as the memory on the control board 20. Can be electrically disconnected. Therefore, it is not necessary to stop the power supply to other devices on the control board 20 such as a volatile memory. Therefore, it is possible to suppress the occurrence of a problem such as the storage information such as error information stored in the volatile memory being erased.

  Further, since the power connector 23 and the main power line 21 are electrically disconnected, when connecting the external devices M1 and M2 to the power connector 23, a surge or the like occurs and the volatile memory is reset. The occurrence of problems such as these can be suppressed.

  In the first embodiment, the external connector 25 can be inserted into and removed from the power connector 23. Further, the power connector 23 has a shape different from that of a household outlet. Therefore, it is possible to easily connect the external connector to the power connector, and to suppress erroneous connection of the external power line.

  Furthermore, in the first embodiment, the power connector 23 is displayed in the same color as the external connector 25. Therefore, an operator who looks at the color display of the external connector 25 can easily find the position of the power connector 23 into which the external connector 25 can be inserted and removed.

  Moreover, in 1st embodiment, it is possible to open and close the contact of the relay 24 with an operation switch. Therefore, the contact of the relay 24 can be easily turned on / off.

Furthermore, in the first embodiment, the control board 20 is disposed so as to face the predetermined side wall panel 19 when the predetermined side wall panel 19 is in the closed position. The power connector 23 is disposed on the mounting surface of the control board 20 facing the predetermined side wall panel 19. Therefore, the power connector 23 of the control board 20 can be accessed simply by removing the predetermined side wall panel 19. Therefore, it becomes possible to start supplying power from the outdoor unit 10 to the external devices M1 and M2 in a short time.
Moreover, in 1st embodiment, work, such as a maintenance of the outdoor unit 10, can be easily performed by providing the said outdoor unit. Therefore, the merchantability of the air conditioner 100 can be improved.

(Second embodiment)
Next, a second embodiment of the present invention will be described with reference to the drawings. The outdoor unit of the second embodiment is different from the outdoor unit of the first embodiment described above only in the arrangement of operation switches. Therefore, the same portions as those in the first embodiment described above are described with the same reference numerals, and redundant descriptions are omitted.

FIG. 3 is an enlarged view around the power connector in the second embodiment of the present invention.
As shown in FIG. 3, the outdoor unit 210 in the second embodiment is similar to the control board 20 in the first embodiment described above, and includes a processing device (not shown) such as a switching power supply P, a CPU, and a volatile type. A control board 220 on which a memory, a nonvolatile memory, and the like are mounted is provided in the machine room 15 of the housing 11.

  The control board 220 further includes a main power supply line 21 (not shown in FIG. 3), a sub power supply line 22, a power supply connector 23, a relay 24, and an operation switch SW2. Similar to the control board 20 of the first embodiment, the control board 220 is arranged to face the side wall panel 19A in the closed state. The power connector 23 is disposed on the mounting surface of the control board 220 facing the predetermined side wall panel 19A.

  As with the operation switch SW of the first embodiment, the operation switch SW2 has a first position where a voltage is applied to a coil (not shown) of the relay 24 and a second position where no voltage is applied to the coil. It is possible to select by the above operation, and it is possible to hold the selected state. The operation switch SW2 is disposed around the power connector 23. More specifically, the operation switch SW2 is arranged on the mounting surface of the control board 220 in the vicinity of the power connector 23. In addition, although the case where operation switch SW2 is a slide switch is illustrated, operation switch SW2 is not restricted to a slide switch.

  By operating the operation switch SW2 described above from the first position (applied: ON) to the second position (not applied: OFF), the contact of the relay 24 is changed from the closed state (off) to the opened state (on). can do. On the other hand, by operating the operation switch SW2 from the second position to the first position, the contact of the relay 24 can be changed from an open state (on) to a closed state (off).

  Therefore, according to the second embodiment described above, when the external connector 25 is connected to the power connector 23, the operation switch SW2 disposed around the power connector 23 may be operated. Compared with the case where the operation switch is arranged at a place, the contact of the relay 24 can be easily turned on / off. Furthermore, since the operation switch SW2 is disposed around the relay 24, it is possible to suppress the operator from forgetting to operate the operation switch SW2.

(Third embodiment)
Next, a third embodiment of the present invention will be described with reference to the drawings. The outdoor unit of the third embodiment is different from the outdoor unit of the first embodiment described above only in the configuration around the power connector. Therefore, the same portions as those in the first embodiment described above are described with the same reference numerals, and redundant descriptions are omitted.
FIG. 4 is a schematic configuration diagram of the control board in which the power connector according to the third embodiment of the present invention is in a non-energized state. FIG. 5 is a schematic configuration diagram of a control board in which the power connector is energized in the third embodiment.

  As shown in FIGS. 4 and 5, the control board 320 of the outdoor unit 310 in the third embodiment is similar to the control board 20 of the first embodiment described above. (Not shown), a control board 320 on which a volatile memory, a nonvolatile memory, and the like are mounted is provided in the machine room 15 of the housing 11.

  The control board 320 further includes a main power line 21, a sub power line 22, a power connector 23, a relay 24, and an operation switch SW. Similar to the control board 20 of the first embodiment, the control board 320 is disposed so as to face the closed side wall panel 19A. The power connector 23 is disposed on the mounting surface of the control board 320 facing the predetermined side wall panel 19A.

  The control board 320 further includes a cover mechanism 30. The cover mechanism 30 is interlocked with the operation of the operation switch SW. The cover mechanism 30 is in a restricted state that restricts access to the power connector 23 when the operation switch SW is turned off. More specifically, the cover mechanism 30 covers the power connector 23 to make it unopenable when the operation switch SW is turned off. On the other hand, the cover mechanism 30 becomes accessible to the power connector 23 when the operation switch SW is turned on. That is, the cover mechanism 30 can be opened.

  The cover mechanism 30 exemplified in the third embodiment includes a lock portion 31, a support portion 32, and a cover portion 33. The lock part 31 and the support part 32 are arranged so as to face each other with the power connector 23 interposed therebetween.

  The cover part 33 is supported by the upper end part of the support part 32 so that rocking is possible via a hinge. The cover portion 33 can swing from a closed position (see FIG. 5) for restricting access to the power connector 23 to an open position (see FIG. 4) where the power connector 23 can be accessed. The cover portion 33 is formed in a flat plate shape and is disposed so as to extend between the upper end portion of the support portion 32 and the upper end portion of the lock portion 31 when in the closed position. The cover part 33 is urged toward the closed position by a coil spring or the like (not shown). In the third embodiment, the case where the cover 33 swings in the direction approaching the power connector 23 from the closed position and reaches the open position is illustrated.

  The lock unit 31 locks the cover unit 33 so as not to be displaced from the closed position when the operation switch SW is turned on. The lock unit 31 in this embodiment locks and unlocks the swing of the cover unit 33 based on a signal indicating the state of the operation switch SW. The lock unit 31 is not limited to a configuration that locks and unlocks the swing of the cover unit 33 based on a signal indicating the state of the operation switch SW. It is sufficient that the lock can be released when the power connector 23 is energized. For example, the line voltage of the two auxiliary power lines 22 between the relay 24 and the power connector 23 is detected and the line voltage is set in advance. If the threshold value is less than or equal to the threshold value, the swing of the cover 33 may be unlocked.

  Therefore, according to the third embodiment, when the contact of the relay 24 is on, the cover portion 33 is locked in the closed position, so forgetting to turn off the contact of the relay 24 by the operation switch SW, It is possible to suppress erroneous connection of the external connector 25 to the power connector 23 while the power connector 23 is energized.

The present invention is not limited to the configuration of each of the embodiments described above, and the design can be changed without departing from the gist thereof.
For example, in each of the above-described embodiments, the case where the relay 24 is provided in the middle of one of the two wires of the sub power supply line 22 and only one of the wires is connected / disconnected has been described. However, a relay 24 may be provided in the middle of the two wirings of the sub power supply line 22, and the two wirings of the sub power supply line 22 may be simultaneously connected / disconnected by the relay 24.

  Further, in each of the above-described embodiments, a case has been described in which single-phase alternating current is extracted from three-phase alternating current and power is supplied to the control boards 20, 220, 320 and the power connector 23. However, the single-phase alternating current supplied to the control boards 20, 220, and 320 by the main power line 21 and the single-phase alternating current supplied to the power connector 23 by the sub power line 22 are, for example, a Scott transformer from a three-phase alternating current. You may employ | adopt other supply methods, such as converting using.

  Furthermore, in the third embodiment, the case where the operation switch SW is disposed at a position away from the power connector 23 is exemplified, but the operation switch SW2 of the second embodiment may be used in combination with the third embodiment. When configured in this way, the operation switch SW2 of the second embodiment may be formed integrally with the lock portion 31 and the support portion 32 of the cover mechanism 30 of the third embodiment.

DESCRIPTION OF SYMBOLS 10 Outdoor unit 11 Housing | casing 12 Outdoor equipment 13 Control apparatus 14 Heat exchange room 15 Machine room 16 Side wall 17 Side wall opening 18 Ceiling part 19 Side wall panel 20,220,320 Control board 21 Main power supply line 22 Sub power supply line 23 Power supply connector 24 Relay 25 External connector 30 Cover mechanism 31 Lock portion 32 Support portion 33 Cover portion 100 Air conditioner F Fan SW, SW2 Operation switches M1, M2 External device

Claims (7)

Of the equipment constituting the refrigeration cycle, outdoor equipment arranged outdoors,
A control device having a single-phase alternating current main power line and at least a volatile memory, and controlling the operation of the outdoor device;
A housing for housing the outdoor equipment and the control device,
The control board is
A power connector branchedly connected to the main power line via a sub power line;
An outdoor unit provided with a relay provided on the sub power line and capable of electrically connecting and disconnecting the main power line and the power connector. The power connector is
The outdoor unit according to claim 1, wherein an external connector provided at an end of a power supply line outside the housing is formed to be insertable / removable.   The outdoor unit according to claim 2, wherein the power connector has the same color display as that of the external connector.   The outdoor unit according to any one of claims 1 to 3, further comprising an operation switch disposed around the power connector and capable of turning on and off the contact of the relay.   In conjunction with the operation of the operation switch, when the operation switch is turned off, the power supply connector is covered and is in a restricted state that cannot be opened, and when the operation switch is turned on, the power supply connector is contacted. The outdoor unit according to claim 4, further comprising a cover mechanism that can be released. The housing includes a side wall panel that can be opened and closed,
The control board is arranged to face the side wall panel when the side wall panel is in a closed position,
The power connector is
The outdoor unit according to any one of claims 1 to 5, wherein the outdoor unit is disposed on a surface of the control board facing the side wall panel.   An air conditioner comprising the outdoor unit according to any one of claims 1 to 6.

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