JP2013139963A - Wiring check device and wiring check system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wiring check device that can determine a connection state of an indoor unit and an outdoor unit.SOLUTION: A wiring check device for determining a connection state of communication lines 91a-d between indoor units and outdoor units in a cooling system provided with a plurality of pairs of the indoor units and the outdoor units connected to the indoor unit through a refrigerant pipe includes a control unit 22 for determining a connection state of the communication lines 91a-d between the indoor units and the outdoor units connected to the indoor units. When the indoor unit transmits predetermined data to the outdoor unit connected to the indoor unit and the outdoor unit receives the predetermined data, the control unit 22 detects the receipt of data by the outdoor unit and determines that the indoor unit and the outdoor unit are normally connected with each other through the communication lines 91a-d between the indoor units and the outdoor units.

Description

  The present invention relates to a wiring check device and a wiring check system.

  When the conventional air conditioner determines whether the connection state of the wiring between the indoor unit and the outdoor unit is correct, is the wiring connection between the plurality of indoor units and one outdoor unit matched? (For example, refer patent document 1).

JP-A-6-281301 (Claim 1)

  However, the conventional air conditioner has a problem that the connection state of the wiring between the plurality of indoor units and the plurality of outdoor units cannot be determined.

  The present invention has been made to solve the above-described problems, and a wiring check device and a wiring check system that can determine the connection state of wiring between a plurality of indoor units and a plurality of outdoor units. Is intended to provide.

  The wiring check device of the present invention is a wiring check device for determining a communication medium connection state in a cooling system including a plurality of sets of an indoor unit and an outdoor unit connected to the indoor unit via a refrigerant pipe. A control unit that determines a connection state of a communication medium between the indoor unit and an outdoor unit connected to the indoor unit, and the control unit includes an outdoor unit in which predetermined data from the indoor unit is connected to the indoor unit. When the outdoor unit receives the predetermined data, the reception of the outdoor unit is detected and it is determined that the indoor unit and the outdoor unit are normally connected via a communication medium. .

  The present invention can determine the connection state of the wiring between the plurality of indoor units and the plurality of outdoor units by determining the connection state of the wiring based on the transfer route of the temperature data detected by the indoor unit. It has the effect.

It is a figure which shows schematically the system configuration | structure of the wiring check system in Embodiment 1 of this invention. It is a figure which shows schematically the functional structure of the wiring check system in Embodiment 1 of this invention. It is a flowchart explaining the wiring check process in Embodiment 1 of this invention. It is a figure explaining the information of the arrangement relation between the indoor unit and outdoor unit defined after the wiring check process in Embodiment 1 of the present invention. It is a figure which shows an example of the display screen of the display part 12 after the wiring check process in Embodiment 1 of this invention. It is a figure which shows schematically the system configuration | structure of the wiring check system in Embodiment 2 of this invention. It is a figure which shows schematically the functional structure of the wiring check system in Embodiment 2 of this invention. It is a flowchart explaining the automatic correction process in Embodiment 2 of this invention. It is a figure which shows schematically the functional structure of the wiring check system in Embodiment 3 of this invention. It is a figure which shows an example of the display screen of the display part 12 after the wiring check process in Embodiment 3 of this invention.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

Embodiment 1 FIG.
FIG. 1 is a diagram schematically showing a system configuration of a wiring check system according to Embodiment 1 of the present invention. FIG. 2 is a diagram schematically showing a functional configuration of the wiring check system according to the first embodiment of the present invention. FIG. 3 is a flowchart for explaining the wiring check process according to the first embodiment of the present invention. FIG. 4 is a diagram for explaining information on the arrangement relationship between the indoor units and the outdoor units determined after the wiring check process according to the first embodiment of the present invention. FIG. 5 is a diagram illustrating an example of a display screen of the display unit 12 after the wiring check process according to the first embodiment of the present invention.
As shown in FIG. 1, the wiring check system determines whether or not the connection state of the wiring between the indoor unit and the outdoor unit is correct. The wiring check device 1, the outdoor units 2a to 2d, and the indoor unit 3a. -D.

  First, each configuration will be described, and then the connection relationship between each configuration will be described, and then the operation will be described.

  The wiring check device 1 includes an operation switch 11 and a display unit 12 on the housing surface side, and a terminal block 21a, a terminal block 21b, a terminal block 21c, a terminal block 21d, a control unit 22 and the like in the housing. I have.

After the operation switch 11 is operated by the user, execution of a wiring check process and an automatic correction process (both described later), which are operations for confirming whether the connection state of the wiring between the indoor unit and the outdoor unit is correct, are started. Is instructed to the wiring check device 1, and is constituted by, for example, a push button.
The configuration of the operation switch 11 is not limited to this. For example, input forms such as a toggle switch, a slide switch, and a touch panel may be used.
The display unit 12 displays an execution result after the wiring check process and the automatic correction process are performed by the operation switch 11, and is configured by a liquid crystal display, for example.
Note that the configuration of the display unit 12 is not limited to this. For example, display forms such as an LED lamp, a 7-segment display, a dot matrix display, and a liquid crystal display with a touch panel function may be used.

The terminal block 21a, the terminal block 21b, the terminal block 21c, and the terminal block 21d (hereinafter referred to as the terminal block 21 when they are collectively referred to) are an outdoor unit 2a, an outdoor unit 2b, an outdoor unit 2c, The outdoor unit 2d is electrically connected to the outdoor unit 2d (hereinafter collectively referred to as the outdoor unit 2), and has a function as an interface for performing data communication with the connected outdoor unit 21.
Although the terminal block 2 having four input / output ports has been described here, the number of ports is not limited to this.

The control unit 22 performs overall control of the wiring check device 1 and is configured mainly with a microprocessor unit, for example.
Note that the configuration of the control unit 22 is not limited to this. For example, it may be configured with updatable firmware or the like.
The configuration of the housing of the wiring check device 1 is not particularly limited.

The outdoor unit 2a, the outdoor unit 2b, the outdoor unit 2c, and the outdoor unit 2d constitute an air conditioner in cooperation with the indoor unit 3a, the indoor unit 3b, the indoor unit 3c, and the indoor unit 3d, which will be described in detail later. It is.
The outdoor unit 2a, the outdoor unit 2b, the outdoor unit 2c, and the outdoor unit 2d are installed in the vicinity of the compressor, the expansion valve, the heat source side heat exchanger, and the heat source side heat exchanger in the respective housings. Etc. (both not shown) and constitute a part of the refrigerant circuit.

  The outdoor unit 2a, the outdoor unit 2b, the outdoor unit 2c, and the outdoor unit 2d include an outdoor unit electrical item box 31a, an outdoor unit electrical unit box 31b, an outdoor unit electrical unit box 31c, and an outdoor unit electrical unit box 31d, which will be described later. Respectively.

In addition, the indoor unit 3a, the indoor unit 3b, the indoor unit 3c, and the indoor unit 3d each have a use-side heat exchanger and a fan installed in the vicinity of the use-side heat exchanger in each housing. It constitutes a part of the refrigerant circuit.
The indoor unit 3a, the indoor unit 3b, the indoor unit 3c, and the indoor unit 3d include an indoor unit electrical product box 71a, an indoor unit electrical product box 71b, an indoor unit electrical product box 71c, and an indoor unit electrical product box 71d, which will be described later. Respectively.
The indoor unit 3a, the indoor unit 3b, the indoor unit 3c, and the indoor unit 3d are collectively referred to as the indoor unit 3.

The outdoor unit 2a includes the outdoor unit electrical component box 31a as described above. The outdoor unit electrical component box 31a stores electrical components such as an electronic control circuit that drives a compressor, a fan, and the like among components of the outdoor unit.
The outdoor unit electrical equipment box 31a includes an outdoor unit terminal block 41a for connecting an indoor unit, an outdoor unit terminal block 42a for connecting a wiring check device, an outdoor unit control unit 43a, and the like, and is driven by an external power source 61a. It is.

The outdoor unit terminal block 41a for indoor unit connection is an interface that electrically connects the outdoor unit 2a and the indoor unit 3a, for example, and is an interface that performs data communication between the connected outdoor unit 2a and the indoor unit 3a. .
The wiring check device connection outdoor unit terminal block 42a is for electrically connecting the outdoor unit 2a and the wiring check device 1 and is an interface for performing data communication between the connected outdoor unit 2a and the wiring check device 1. is there.
Here, the outdoor unit terminal block 41a for connecting the indoor unit and the outdoor unit terminal block 42a for connecting the wiring check device are covered with an outdoor unit electrical component cover 51a.
The outdoor unit electrical product cover 51a protects various internal terminal blocks from external moisture, dust, and the like, and covers the openings in which the various terminal blocks are configured.
The configuration of the outdoor unit electrical component cover 51a is not particularly limited.

The outdoor unit control unit 43a performs overall control of driving components such as a compressor, an expansion valve, and a fan, and performs data communication with, for example, the indoor unit 3a, the wiring check device 1, and the like. It is composed of
The power supply unit 61a is composed of, for example, a commercial power supply, and supplies power to the outdoor unit 2a.

In addition, although the example of the structure of the outdoor unit 2a was demonstrated above, it is not limited to this.
The other outdoor unit 2b, the outdoor unit 2c, and the outdoor unit 2d have the same configuration as described above, and a description thereof will be omitted.

As described above, the indoor unit 3a includes the indoor unit electrical component box 71a. The indoor unit electrical product box 71a stores electrical components such as an electronic control circuit that drives a fan among the components of the indoor unit.
The indoor unit electrical equipment box 71a has an indoor unit terminal block 81a for connecting an outdoor unit, a pipe temperature sensor 82a, an indoor unit control unit 83a, and the like, and is driven by a power supply unit (not shown) provided outside. .

The outdoor unit connection indoor unit terminal block 81a is, for example, an electrical connection between the indoor unit 3a and the outdoor unit 2a, and an interface that performs data communication between the connected indoor unit 3a and the outdoor unit 2a. .
The pipe temperature sensor 82a detects the temperature of a refrigerant pipe 92a, which will be described later, and is composed of, for example, a thermistor and is installed in the refrigerant pipe 92a.
The configuration of the pipe temperature sensor 82a is not limited to this.
The indoor unit control unit 83a performs overall control of a fan or the like installed in the vicinity of the heat exchanger and performs data communication with the outdoor unit 2a, for example, and includes an electronic control circuit and the like.

In addition, although the example of the structure of the indoor unit 3a was demonstrated above, it is not limited to this.
The other indoor unit 3b, indoor unit 3c, and indoor unit 3d have the same configuration as described above, and a description thereof will be omitted.

Next, the connection relationship among the wiring check device 1, the outdoor unit 2, and the indoor unit 3 will be described.
As shown in FIG. 1, the indoor unit terminal block 81a for connecting the outdoor unit of the indoor unit 3a and the outdoor unit terminal block 41a for connecting the indoor unit of the outdoor unit 2a are connected via an indoor unit-outdoor unit communication line 91a. Electrically connected. The outdoor unit terminal block 42a for wiring check device connection of the outdoor unit 2a and the terminal block 21a of the wiring check device 1 are electrically connected via an outdoor unit-wiring check device communication line 93a. The indoor unit 3a and the outdoor unit 2a are connected via the refrigerant pipe 92a, so that the compressor, the heat source side heat exchanger, the expansion valve, and the use side heat exchanger described above are connected by the refrigerant pipe. Thus, a refrigerant circuit for circulating the refrigerant is formed.

  As shown in FIG. 1, the indoor unit terminal block 81b for connecting the outdoor unit of the indoor unit 3b and the outdoor unit terminal block 41b for connecting the indoor unit of the outdoor unit 2b are connected to the communication line 91b between the indoor unit and the outdoor unit. Is electrically connected. The outdoor unit terminal block 42b for wiring check device connection of the outdoor unit 2b and the terminal block 21b of the wiring check device 1 are electrically connected via an outdoor unit-wiring check unit communication line 93b. The indoor unit 3b and the outdoor unit 2b are connected via the refrigerant pipe 92b, so that the compressor, the heat source side heat exchanger, the expansion valve, and the use side heat exchanger described above are connected by the refrigerant pipe. Thus, a refrigerant circuit for circulating the refrigerant is formed.

  As shown in FIG. 1, the indoor unit terminal block 81c for connecting the outdoor unit of the indoor unit 3c and the outdoor unit terminal block 41c for connecting the indoor unit of the outdoor unit 2c are connected to the communication line 91c between the indoor unit and the outdoor unit. Is electrically connected. The outdoor unit terminal block 42c for wiring check device connection of the outdoor unit 2c and the terminal block 21c of the wiring check device 1 are electrically connected via an outdoor unit-wiring check unit communication line 93c. The indoor unit 3c and the outdoor unit 2c are connected via the refrigerant pipe 92c, so that the compressor, the heat source side heat exchanger, the expansion valve, and the use side heat exchanger described above are connected by the refrigerant pipe. Thus, a refrigerant circuit for circulating the refrigerant is formed.

  As shown in FIG. 1, the indoor unit terminal block 81d for connecting the outdoor unit of the indoor unit 3d and the outdoor unit terminal block 41d for connecting the indoor unit of the outdoor unit 2d are connected to the indoor unit-outdoor unit communication line 91d. Is electrically connected. The outdoor unit terminal block 42d for connecting the wiring check device of the outdoor unit 2d and the terminal block 21d of the wiring check device 1 are electrically connected via a communication line 93d between the outdoor unit and the wiring check device. The indoor unit 3d and the outdoor unit 2d are connected via the refrigerant pipe 92d, so that the compressor, the heat source side heat exchanger, the expansion valve, and the use side heat exchanger described above are connected by the refrigerant pipe. Thus, a refrigerant circuit for circulating the refrigerant is formed.

The indoor unit-outdoor unit communication line 91a, the indoor unit-outdoor unit communication line 91b, the indoor unit-outdoor unit communication line 91c, and the indoor unit-outdoor unit communication line 91d are collectively referred to as an indoor unit- This is referred to as an outdoor unit communication line 91.
The refrigerant pipe 92a, the refrigerant pipe 92b, the refrigerant pipe 92c, and the refrigerant pipe 92d are collectively referred to as a refrigerant pipe 92.
The outdoor unit-wiring check device communication line 93a, the outdoor unit-wiring check device communication line 93b, the outdoor unit-wiring check device communication line 93c, and the outdoor unit-wiring check device communication line 93d are collectively referred to. Sometimes referred to as an outdoor unit-wiring check device communication line 93.
In addition, although the communication medium of the wired communication line was demonstrated here, a communication medium is not limited to this, Wireless, light, electromagnetic waves, etc. may be sufficient.

Next, the operation will be described with reference to FIGS.
First, FIG. 2 assumes a case where the connection state of the indoor unit-outdoor unit communication line 91 is incorrect.
2 to 5, the outdoor unit 2a is the outdoor unit A, the outdoor unit 2b is the outdoor unit B, the outdoor unit 2c is the outdoor unit C, the outdoor unit 2d is the outdoor unit D, and the indoor unit 3a is the indoor unit A. The indoor unit 3b is referred to as an indoor unit B, the indoor unit 3c is referred to as an indoor unit C, and the indoor unit 3d is referred to as an indoor unit D.
Specifically, the outdoor unit A is electrically connected to the indoor unit C via the indoor unit-outdoor unit communication line 91a. The outdoor unit B is electrically connected to the indoor unit B via the indoor unit-outdoor unit communication line 91b. The outdoor unit C is electrically connected to the indoor unit D via the indoor unit-outdoor unit communication line 91c. The outdoor unit D is electrically connected to the indoor unit A via an indoor unit-outdoor unit communication line 91d.

The details of the operation will be described using FIG. 3 on the assumption of the configuration of FIG.
(Step S11)
An operation command is transmitted from the wiring check device 1 to the outdoor unit A.

(Step S12)
The outdoor unit A that has received the operation command performs the operation. At this time, a temperature change occurs in the pipe temperature sensor 82a installed in the indoor unit A connected to the outdoor unit A via the refrigerant pipe 92a.

(Step S13)
The pipe temperature sensor 82a detects the changed pipe temperature of the indoor unit A. At this time, the indoor unit control unit 83a A / D-converts the pipe temperature after the change of the pipe temperature of the indoor unit A detected by the pipe temperature sensor 82a, and the converted data further complies with the applied communication protocol. It corrects to the transmission form and forms pipe temperature data.

(Step S14)
The pipe temperature data after the change of the pipe temperature of the indoor unit A detected by the pipe temperature sensor 82 a is supplied to the outdoor unit D and transmitted from the outdoor unit D to the wiring check device 1. At this time, the wiring check device 1 determines that the temperature change has occurred in the pipe temperature sensor 82a of the indoor unit A by the operation command transmitted to the outdoor unit A, and the temperature after the temperature change detected by the pipe temperature sensor 82a is the pipe temperature. This means that two points of data transmitted via the outdoor unit D are grasped. That is, in the wiring check device 1, although the outdoor unit A and the indoor unit A are connected via the refrigerant pipe 92a, the outdoor unit A and the indoor unit A are connected via the indoor unit-outdoor unit communication line 91a. It is recognized that the indoor unit A and the outdoor unit D are not electrically connected and are electrically connected via the indoor unit-outdoor unit communication line 91a.

(Step S15)
The wiring check device 1 determines that the wiring of the indoor unit A is connected to the outdoor unit D through these series of processes.

(Step S16)
By repeating these series of operations, the wiring check device 1 determines all wiring states.
The determination result at this time will be described with reference to FIG.
FIG. 4 is a table composed of the correspondence between the indoor units A to D and the outdoor units A to D, where 1 is set as a flag for a corresponding location, and a flag is set for a location that does not correspond Is set to 0. In addition, although the example which used 1 and 0 as a flag was demonstrated here, the correspondence of indoor unit AD and outdoor unit AD is not limited to this. In the next step S17, the connection state of the wiring is displayed on the display unit 12 based on this determination result.
Specifically, the following four points are determined. The first point is that the wiring of the indoor unit A is connected to the outdoor unit D. The second point is that the wiring of the indoor unit B is connected to the outdoor unit B. The third point is that the wiring of the indoor unit C is connected to the outdoor unit A. The fourth point is that the wiring of the indoor unit D is connected to the outdoor unit C.

(Step S17)
The wiring state is displayed on the display unit 12 of the wiring check device 1, and the process ends. Here, an example of display on the display unit 12 will be described with reference to FIG.
As shown in FIG. 5, the indoor units A to D are shown on the left side of the display unit 12, the outdoor units A to D are shown on the right side of the display unit 12, and the indoor units A to D and the outdoor units A to D are shown. The connection state of the wiring with D is indicated by three arrow symbols.

In other words, the wiring check device 1 determines the connection state of the wiring based on the transfer route of the pipe temperature data detected by the indoor unit A.
Thereby, the wiring check apparatus 1 does not need to confirm the connection state of wiring based on the difference of the temperature change of the refrigerant | coolant piping 92. FIG. The connection state of the indoor unit-outdoor unit communication line 91 can be determined simply by determining from where the detected temperature data has been transmitted. Therefore, the connection state of the wiring between the plurality of indoor units and the plurality of outdoor units can be determined.

  In addition, since the determination result of the connection state of the wiring is displayed on the display unit 12 of the wiring check device 1, the connection state of the wiring is notified to the installation contractor, and the installation contractor can know it. The wiring and piping can be correctly matched when the indoor units 3a to 3d and the outdoor units 2a to 2d are installed. Thereby, the user of an air conditioner can always operate an air conditioner appropriately in the state where the matching of wiring and piping is correct.

  As described above, in Embodiment 1, an indoor unit-outdoor unit communication line in a cooling system including a plurality of sets of an indoor unit and an outdoor unit connected to the indoor unit via a refrigerant pipe. The wiring check device for determining the connection states of 91a to 91d includes a control unit 22 for determining the connection state of the indoor unit-outdoor unit communication lines 91a to 91d between the indoor unit and the outdoor unit connected to the indoor unit. The control unit 22 transmits the predetermined data from the indoor unit to the outdoor unit connected to the indoor unit. When the outdoor unit receives the predetermined data, the control unit 22 detects the reception of the outdoor unit and detects the indoor unit and the outdoor unit. By determining that the unit is normally connected by the indoor unit-outdoor unit communication lines 91a to 91d, it is possible to determine the connection state of the wiring between the plurality of indoor units and the plurality of outdoor units. .

Embodiment 2. FIG.
In the first embodiment described above, the connection state of the wiring is displayed on the display unit 12 of the wiring check device 1 so that if the connection state of the wiring is wrong, the installer can easily correct it. On the other hand, in the second embodiment, the air conditioner can always be properly operated even if the connection state of the wiring is wrong.
In the second embodiment, items that are not particularly described are the same as those in the first embodiment, and the same functions and configurations are described using the same reference numerals.
Note that descriptions of functions and configurations similar to those of the first embodiment are omitted.

  FIG. 6 is a diagram schematically showing a system configuration of the wiring check system according to the second embodiment of the present invention. FIG. 7 is a diagram schematically showing a functional configuration of the wiring check system according to the second embodiment of the present invention. FIG. 8 is a flowchart for explaining automatic correction processing according to the second embodiment of the present invention.

  As shown in FIG. 6, the wiring check device 1 has a function changeover switch 101. The function changeover switch 101 is composed of an outdoor unit 2a to d and an indoor unit 3a to d based on the corrected wiring in addition to the process for performing only the wiring check process and the wiring check process. The automatic correction processing for operating the air conditioner is switched.

Further, the wiring check device 1 is installed on the upper part of the outdoor unit 2d by locking means, for example, screwing or the like.
In addition, although the example installed in the upper part of the outdoor unit 2d was demonstrated here, the installation location of the wiring check apparatus 1 is not limited to this.

Next, the operation will be described.
For convenience, the outdoor unit 2a is the outdoor unit A, the outdoor unit 2b is the outdoor unit B, the outdoor unit 2c is the outdoor unit C, the outdoor unit 2d is the outdoor unit D, the indoor unit 3a is the indoor unit A, and the indoor unit 3b. The indoor unit B, the indoor unit 3c are referred to as an indoor unit C, and the indoor unit 3d is referred to as an indoor unit D.

(Step S41)
It is determined whether or not “automatic correction” is selected with the function selector switch 101. When "automatic correction" is selected, the process proceeds to step S42, and when "automatic correction" is not selected, the process proceeds to step S53. Note that the processing in step S53 is the same as that in steps S11 to S17 described in the first embodiment, and thus description thereof is omitted.

(Step S42) to (Step S47)
Since steps S42 to S47 are the same as steps S11 to S17 described in the first embodiment, the description thereof is omitted.

(Step S48)
The operation instruction execution authority of the indoor units A to D assigned to the outdoor units A to D is canceled, and the operation execution authority of the indoor units A to D is assigned to the wiring check device 1.

(Step S49)
The indoor unit A transmits an operation command to the outdoor unit D.
(Step S50)
The outdoor unit D transmits the operation command transmitted from the indoor unit A to the wiring check device 1.
(Step S51)
The wiring check device 1 determines that the transmission source of the operation command is the indoor unit A.
(Step S52)
The wiring check device 1 transmits the operation command to the outdoor unit A that is connected to the indoor unit A that is the determined transmission source via the refrigerant pipe, and the process ends.

  In other words, for the outdoor unit D that has received the operation command from the indoor unit A, when the automatic change is selected by the function changeover switch 101, the outdoor unit D is not a command of the indoor unit A, but a wiring check device. Therefore, the outdoor unit D does not operate.

  Thus, the wiring check device 1 is provided in the outdoor unit, and automatic correction is selected by the function changeover switch 101, so that the connection state of the wiring between the outdoor units 2a to 2d and the indoor units 3a to 3d is always corrected correctly. Is done. Therefore, the installation contractor can work without paying attention to the matching of the wiring between the outdoor units 2a to 2d and the indoor units 3a to 3d, and can improve the work efficiency. Therefore, the user of the air conditioner can always operate the air conditioner properly in a state where the matching between the wiring and the piping is correct.

Embodiment 3 FIG.
In the first and second embodiments, the indoor unit and the outdoor unit are of a one-to-one type. On the other hand, in Embodiment 3, it can respond also to the multi-room type which can connect a some indoor unit with respect to one outdoor unit.
In Embodiment 3, items that are not particularly described are the same as those in Embodiment 1, and the same functions and configurations are described using the same reference numerals.
Note that descriptions of functions and configurations similar to those of the first and second embodiments are omitted.

FIG. 9 is a diagram schematically showing a functional configuration of the wiring check system according to the third embodiment of the present invention. FIG. 10 is a diagram illustrating an example of a display screen of the display unit 12 after the wiring check process according to the third embodiment of the present invention.
For convenience, the outdoor unit 2a is the outdoor unit A, the outdoor unit 2b is the outdoor unit B, the outdoor unit 2c is the outdoor unit C, the outdoor unit 2d is the outdoor unit D, the indoor unit 3a is the indoor unit A, and the indoor unit 3b. The indoor unit B, the indoor unit 3c are referred to as an indoor unit C, and the indoor unit 3d is referred to as an indoor unit D.

The basic operation is the same as in the first and second embodiments, but when the outdoor units A to D are connected to the wiring check device 1, the outdoor units A to D are connected to the own outdoor unit with respect to the wiring check device 1. The number of indoor units that are in operation is transmitted to the wiring check device 1.
Thereby, since the wiring check apparatus 1 can grasp | ascertain the number of the indoor units connected to the outdoor unit A, it can perform the wiring check of a target outdoor unit and an indoor unit in order.

  For example, as shown in FIG. 9, when the outdoor unit A is connected to the wiring check device 1, the wiring check device 1 recognizes that four indoor units A to D are connected to the outdoor unit A. Can do. Therefore, the wiring check device 1 sequentially checks the indoor unit A-1, the indoor unit A-2, the indoor unit A-3, and the indoor unit A-4. Thereafter, the wiring check device 1 similarly checks and completes the outdoor unit B, the outdoor unit C, and the outdoor unit D in this order. An example of the result display at that time is shown in FIG.

  As described above, even when the outdoor unit is a type that can connect a large number of indoor units, as in the case of a one-to-one type of indoor unit and outdoor unit, the outdoor unit can be connected to a large number of indoor units. Even when the indoor unit and the outdoor unit have a one-to-one type, it is possible to cope with the confirmation of the matching between the piping and the wiring, the display of the result, and the automatic correction. The same effect can be obtained.

  As described above, in the third embodiment, since the different number of outdoor units and indoor units are connected, the indoor unit and the outdoor unit can be connected even when the outdoor unit is a type that can connect a large number of indoor units. As in the case of the one-to-one type, the matching of piping and wiring is possible even when the type of outdoor unit can connect many indoor units and the type of indoor unit and outdoor unit are one-to-one. Confirmation, display of the result, and automatic correction can be dealt with, so that the same effect as in the first and second embodiments can be obtained.

  DESCRIPTION OF SYMBOLS 1 Wiring check apparatus, 2, 2a-d outdoor unit, 3, 3a-d indoor unit, 11 Operation switch, 12 Display part, 21, 21a-d Terminal block, 22 Control part, 31, 31a-d Outdoor unit electrical goods Box, 41, 41a-d Outdoor unit terminal block for connecting indoor unit, 42, 42a-d Outdoor unit terminal block for connecting wiring check device, 43, 43a-d Outdoor unit control unit, 51, 51a-d Outdoor unit electrical component Cover, 61, 61a-d Power supply unit, 71, 71a-d Indoor unit electrical box, 81, 81a-d Indoor unit terminal block for connecting outdoor unit, 82, 82a-d Piping temperature sensor, 83, 83a-d Indoor Unit control unit, 91, 91a-d Indoor unit-outdoor unit communication line, 92, 92a-d Refrigerant piping, 93, 93a-d Outdoor unit-wiring check unit communication line, 101 Function switching switch.

Claims (6)

In the wiring check device for determining the connection state of the communication medium in the cooling system including a plurality of sets of the indoor unit and the outdoor unit connected to the indoor unit via the refrigerant pipe,
A controller that determines a connection state of a communication medium between the indoor unit and an outdoor unit connected to the indoor unit;
The controller is
When the predetermined data is transmitted from the indoor unit to an outdoor unit connected to the indoor unit, and the outdoor unit receives the predetermined data, the reception of the outdoor unit is detected, and the indoor unit and the outdoor unit Is a wiring check device characterized by determining that it is normally connected via a communication medium. The controller is
When predetermined data is transmitted from the indoor unit via the communication medium, and the outdoor unit connected to the indoor unit does not receive the predetermined data, communication between the indoor unit and the outdoor unit The wiring check device according to claim 1, wherein the medium is determined not to be normally connected. The controller is
When predetermined data is transmitted from the indoor unit via the communication medium and an outdoor unit other than the outdoor unit connected to the indoor unit receives the predetermined data, reception of the outdoor unit other than the outdoor unit is detected. The wiring check device according to claim 1, wherein it is determined that the indoor unit and an outdoor unit other than the outdoor unit are connected by a communication medium. A display unit for displaying a determination result of a connection state of the communication medium;
The wiring check device according to claim 1, wherein the display unit displays the determination result in a state in which a correspondence relationship between the indoor unit and the outdoor unit is shown. A cooling system comprising a plurality of sets of an indoor unit and an outdoor unit connected to the indoor unit via a refrigerant pipe;
The wiring check device according to any one of claims 1 to 4,
A wiring check system characterized by comprising: The wiring check system according to claim 5, wherein a different number of the indoor units and the outdoor units are connected.

Images