JP2000088321A - Transmitter of air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable the integrated control of plural control system by one integrated controller, without incurring the complication of wiring as the whole of an air conditioning system. SOLUTION: A plurality of control systems 8A-8D, where outdoor control units 5 and indoor control units 6 are connected capably of transmission and reception of signal by inside and outside communication signal conductors 7, are arranged. The fellow outdoor control units 5, 5,... of each control system are connected to an integrated control signal conductor 10 through a relay switch 28, and an integrated controller 9 is connected to this an integrated signal conductor 10. The relay switch 28 of each control system 8A-8D is turned on, and the serial No. of each unit is made to compete with each other, and the outdoor control unit with the smallest serial No. is made an address setting mechanism for setting an address No. to other unit.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transmission device for an air conditioner, and more particularly, to an operation control by transmitting and receiving signals between an outdoor unit and an indoor unit and a centralized control of the entire system by a centralized controller. Related to improved transmission systems.

[0002]

2. Description of the Related Art Conventionally, as an example of an air conditioner,
As disclosed in JP-A-59-210249, an outdoor unit and an indoor unit are connected by a refrigerant pipe, and an outdoor control unit for controlling the outdoor unit and an indoor control unit for controlling the indoor unit are provided. 2. Description of the Related Art There is known an internal / external system which is connected by internal / external communication signal lines and is configured to transmit and receive various control signals such as operation signals and mode signals between units.

The internal and external systems are provided with a centralized controller for centrally controlling the internal and external units. The centralized controller and the outdoor control unit are connected by a centralized signal line so as to be able to transmit and receive a centralized control signal. .
The microcomputer of the outdoor control unit receives the centralized control signal transmitted from the centralized controller once, the outdoor unit is controlled based on the received centralized control signal, and the centralized control signal is transmitted from the microcomputer to the indoor control unit. The indoor unit is transmitted to the unit and thereby the indoor unit is controlled based on the central control signal, so that the internal and external units are collectively controlled.

[0004]

However, in such a configuration, a plurality of internal and external systems are arranged, and the entire air conditioning system including the plurality of internal and external systems is to be centrally controlled by one centralized controller. In addition, a plurality of centralized control signal lines for individually connecting the centralized controller and each of the internal and external systems are required. For this reason, the wiring of the entire system is complicated, which complicates the wiring work and increases the possibility of erroneous wiring.
When such erroneous wiring occurs, normal communication operation cannot be performed. Therefore, such a wiring structure has a problem that the reliability of the entire air conditioning system is low.

The present invention has been made in view of the above points, and allows a plurality of internal and external transmission systems to be centrally controlled by one centralized controller without complicating the wiring of the entire system. The purpose is to:

[0006]

In order to achieve the above object, the present invention provides a transmission system having an internal / external communication path between internal and external control units, wherein the internal / external communication path serves as a centralized communication path. In order to achieve the above, the internal and external communication paths and the centralized communication path connecting the outdoor control units are configured as a single transmission system so that transmission and reception can be performed.

More specifically, as shown in FIGS. 1 and 4, the invention according to claim 1 comprises a heat source side control unit (5) for controlling the heat source side unit (3) and a use side unit (4). A plurality of internal / external transmission systems (8A, 8B, 8C, 8D), which are connected to the user-side control unit (6) to be controlled by their own system communication path (7) so that signals can be transmitted and received, and the heat source-side unit (3 , 3,…) and the user side units (4,4,…), and the central control unit (9), and the heat source side control units (5,5,8A, 8B, 8C, 8D) 5, ...) are connected to each other so that signals can be transmitted and received, and the user side of each internal / external transmission system (8A, 8B, 8C, 8D) is connected via the heat source side control unit (5) and the own system communication path (7). A centralized communication path (10) that enables transmission and reception of signals to and from the control unit (6), and a heat source side control unit (5) and a centralized communication path (10) for each of the above internal and external transmission systems (8A, 8B, 8C, 8D) This is provided between A communication path cutoff means (28) for cutting off transmission and reception of signals between the two. Then, the heat source side control units (5, 5,...) Of the plurality of internal / external transmission systems (8A, 8B, 8C, 8D)
And the user-side control units (6,6, ...)
(8A, 8B, 8C, 8D) with the communication path blocking means (28) in the communication state, the serial number conflict of these units, and any one of the units (3a, 3b, 4a, 4b, 4c, 4d)
Is configured to be determined by the address setting master unit (3a) for setting the address number of the address.

According to a second aspect of the present invention, in the air conditioner transmission apparatus according to the first aspect, each of the internal and external transmission systems (8
A, 8B, 8C, 8D), the heat source side control unit (5, 5, ...) and the use side control unit (6, 6, ...) are connected to the internal / external transmission system (8A, 8B, 8).
C, 8D) with the communication path cutoff means (28) in a cutoff state, and the heat source side control units (5, 5, ...) in the internal / external transmission system (8A, 8B, 8C, 8D).
By transmitting and receiving signals only between and the user-side control unit (6, 6,...), The internal / external transmission system (8A, 8
B, 8C, 8D) to recognize the address number of the other unit to which it is connected.

The invention according to claim 3 is a heat source side unit.
The heat source side control unit (5) for controlling (3) and the user side control unit (6) for controlling the user side unit (4) are connected by their own system communication path (7) so as to be able to transmit and receive signals. A plurality of internal and external transmission systems (8A, 8B, 8C, 8D) and a central control unit (9) for centrally controlling the heat source side units (3, 3, ...) and the use side units (4, 4, ...) Each of the above internal and external transmission systems (8
A, 8B, 8C, 8D) are connected to each other so that signals can be transmitted and received, and the heat source-side control units are connected to each other.
(5) and the internal / external transmission system (8A,
8B, 8C, 8D), and a centralized communication path (10) that can transmit and receive signals to and from the user-side control unit (6), and the heat source-side control units (8A, 8B, 8C, 8D) 5) and a centralized communication path (10), a transmission device of an air conditioner, comprising a communication path blocking means (28) capable of blocking transmission and reception of signals between the two, Each of the above internal and external transmission systems (8A, 8
B, 8C, 8D) and the heat source side control unit (5, 5, ...) and the use side control unit (6, 6, ...) are connected to the internal / external transmission system (8A, 8B, 8C, 8D).
Of the heat source side control unit (5, 5, ...) and the use side control unit (6, 6, ...) in the internal / external transmission system (8A, 8B, 8C, 8D). ), The system address is set by transmitting and receiving signals only between the internal and external transmission systems (8A, 8A) based on the system address.
B, 8C, 8D) to recognize the address number of the other unit to which it is connected.

With the above arrangement, according to the first aspect of the present invention, during operation of the air conditioner, the heat source side control unit (5) and the use side control unit (6) are connected by the own system communication path (7). A control signal is transmitted and received, and based on the control signal, each heat source side unit (3, 3, ...) and each use side unit (4, 4,
…) Is controlled. In addition, each heat source side unit (3, 3,
..) And each of the use side units (4, 4,...) Are centrally controlled by a centralized control signal transmitted from a centralized control unit (9) via a centralized communication path (10).

Since the centralized control signal can be transmitted to the user side control unit (6) via the heat source side control unit (5) and the own system communication path (7), the centralized control unit (9) There is no need for a plurality of centralized control signal lines for individually connecting the internal and external transmission systems (8A to 8D), and the centralized control unit (9) is connected to the own system communication path (7) or the centralized communication path (10). ), It is possible to realize wiring that enables centralized control of all units. Therefore, the wiring of the entire system can be simplified.

With such a wiring structure, the communication path (7) of the own system and the centralized communication path (10) can be obtained as one continuous transmission line.
There is no restriction on the connection position of the.

Further, by the operation of the communication path blocking means (28),
Transmission and reception of signals between the heat source side control unit (5) and the centralized communication path (10) are switched. For this reason, when an address is set to each unit during construction of the device, the operation of the communication path cutoff means (28) causes the communication path of the own system (7) and the centralized communication path (1) to operate.
By connecting or disconnecting the unit (0), the address setting operation can be performed while switching the partner unit capable of transmitting and receiving to and from each unit (5, 6). This eliminates the need for an operator to manually set the address of each unit as in the related art, and makes it possible to set the address only by transmitting and receiving signals between the units.

When a communication error occurs due to disconnection or the like in each of the communication paths (7) and (10), the function of the entire system is stopped by operating the communication path cutoff means (28). Can be avoided. That is, for example, when a communication abnormality occurs in the own system communication path (7), the heat source side control unit (5) provided in the internal / external transmission system (8A) in which the own system communication path (7) exists. Communication path blocking means (2
8), the internal / external transmission system (8A) in which the communication abnormality has occurred is disconnected from the other normal internal / external transmission systems (8B-8D).
The communication state in 8D) can be ensured well.

On the other hand, when a communication error occurs in the centralized communication path (10), the centralized control unit (28) can be set by shutting off all communication path disconnecting means (28) of each of the internal and external transmission systems (8A to 8D). Transmission and reception between 9) and each of the internal and external transmission systems (8A to 8D) are disabled, and communication can be performed only by the own system communication path (7).

Further, erroneous wiring can be detected by utilizing the operation of the communication path cutoff means (28). In other words, the heat source side control unit (5) in the internal / external transmission system (8A, 8B, 8C, 8D)
When signals are transmitted and received only between the control unit and the user-side control unit (6), the internal and external transmission
(8A, 8B, 8C, 8D), the communication path cutoff means (28) provided in the cutoff state, and the other internal and external transmission systems (8A, 8B, 8C, 8D)
To prevent this signal from being transmitted. Nevertheless, if this signal is transmitted to other internal / external transmission systems (8A, 8B, 8C, 8D), the error is provided in the heat source side control unit (5) that received the signal. The wiring recognizing means (31) recognizes the erroneous wiring and transmits an erroneous wiring detection signal to the own system communication path (7). Thereby, incorrect wiring can be detected accurately.

[0017]

Next, an embodiment of the present invention will be described with reference to the drawings. FIG. 2 shows a transmission system control system of the air conditioner (1) according to the present embodiment. This air conditioner (1)
Has a plurality of refrigerant circulation units (2A, 2B, 2C, 2D). The refrigerant circulation units (2A, 2B, 2C, 2D) are configured in four systems in FIG. Circulation unit
(2A, 2B, 2C, 2D) is configured by connecting four indoor units (4) to one outdoor unit (3) in parallel with each other.

The outdoor unit (3) is a heat source side unit according to the present invention comprising a compressor (not shown), an outdoor heat exchanger having a four-way switching valve and a fan, and an outdoor electric expansion valve. Unit (4) is a utilization side unit according to the present invention including an indoor electric expansion valve and an indoor heat exchanger having a fan, and each refrigerant circulation unit (2A, 2B, 2C, 2D)
Is configured such that the refrigerant flow direction is variable between a cooling operation mode and a heating operation mode.

The outdoor unit (3) includes an outdoor control unit (5) as a heat source control unit according to the present invention, while the indoor unit (4) includes a use control unit according to the present invention. Indoor control unit (6). Then, the respective control units (5, 6) in the same refrigerant circulation unit (2A, 2B, 2C, 2D) are capable of transmitting and receiving control signals to and from each other. 7) connected by a refrigerant circulation unit (2A, 2B, 2
A control system (8A, 8B, 8C, 8D) is configured as four internal and external transmission systems corresponding to (C, 2D). Thus, the air conditioning operation is controlled for each control system (8A, 8B, 8C, 8D).

Each of the outdoor control units (5, 5,...) Is a centralized controller as a centralized control unit according to the present invention.
(9) are connected by a centralized control signal line (10) constituting a centralized communication path, and the control signal from the centralized controller (9) is transmitted to the centralized control signal line (10) and each internal / external communication signal line.
(7,7, ...) to each outdoor control unit (5,5, ...) and each indoor control unit (6,6, ...) to be transmitted to each unit (3,3, ..., 4,4, ...). ) Is controlled collectively (centralized control).

In each of the indoor units (4),
A remote control (11) is connected, and a control signal such as a set temperature is transmitted and received between the remote control (11) and the indoor control unit (6), and each indoor unit (4, 4,…) is individually controlled by the remote control.
It is controlled by (11).

(12, 12,...) In FIG.
An ON / OFF controller, which transmits operation and stop control signals to a plurality of grouped indoor units (4, 4, ...), and controls the indoor units (4, 4,
…) Are controlled collectively.

A schedule timer (13) can set an operation start time and a stop time for each of a plurality of indoor units (4, 4,...), For example, on a weekly basis. It has become.

Next, the circuit configuration of a control unit for transmitting and receiving control signals will be described. The outdoor control unit (5), indoor control unit (6) and central controller
As the transmission method between (9), the balanced communication method is adopted as the AMI communication method, and is configured to perform half-duplex signal transmission with a preset polarity.

As shown in FIG. 3, the outdoor control unit (5) includes a transmitting circuit (20), a receiving circuit (21), and a polarity determining circuit (2).
2), and the transmission circuit (20), the reception circuit (21), and the polarity determination circuit (22) are connected to the microcomputer (30). The indoor control unit (6) and the centralized controller (9)
A transmission circuit (2) having substantially the same configuration as the outdoor control unit (5)
0), a receiving circuit (21), and a polarity determining circuit (22). Here, the circuit configuration will be described particularly by taking the outdoor control unit (5) as an example. In addition, the internal and external communication signal line (7)
The central control signal line (10) includes a positive signal line (7a, 10a) and a negative signal line (7b, 10b) as transmission lines, respectively.

The transmission circuit (20) transmits an information signal to the internal / external communication signal line (7) and the central control signal line (10) in accordance with an output signal from the microcomputer (30). 20a, 20b), and the positive signal line (7a, 10a) and the negative signal line of the internal / external communication signal line (7) and the central control signal line (10).
Connect each driver (2) to the common wiring (23, 24) connected to (7b, 10b).
0a, 20b) are connected via coupling wires (20c, 20d). Further, capacitors (20e, 20f) for removing a DC component are connected to the coupling wires (20c, 20d).

The receiving circuit (21) has a common wiring (23,
24) via coupling wires (21a, 21b), and is configured to receive information signals on the internal / external communication signal line (7) and the central control signal line (10) and output them to the microcomputer (30). ing.

Further, the polarity determination circuit (22) is provided with a common wiring
(23, 24) are connected to the positive signal lines (7a, 10a) and the negative signal lines (7b, 10b) of the internal / external communication signal line (7) and the central control signal line (10). The polarity of the internal / external communication signal line (7) and the central control signal line (10) is determined, and the polarity determination circuit (22)
Of the transmission circuit (20) based on the different polarity judgment of
a, 20b) enable the information signal to be transmitted to be inverted.

The internal / external communication signal line (7) and the centralized control signal line (10) are connected to a DC switching circuit (25) by a first switching circuit (26).
Connected through. The DC superimposing circuit (25) is connected to the positive signal line (7, 10) of each communication line (7, 10) via a power line (25a, 25b).
a, 10a) and the DC power supply (2
7), and the DC power supply (27) is connected to the two signal lines (7, 1).
0), a predetermined DC voltage, for example, a DC voltage of +15 V is applied.

The first switching circuit (26) includes a power line
(25a, 25b) and two relay switches (26a, 26b
b), and the opening and closing of both relay switches (26a, 26b) establishes conduction and cutoff between the DC superimposition circuit (25) and each communication line (7, 10).

The two relay switches (26a, 26b) are opened and closed under the control of the microcomputer (30). The relay switches (26a, 26b) are set in a preset outdoor control unit (5). Is closed and the DC superposition circuit (2
When the communication line (5) and each communication line (7, 10) are conducted, this DC voltage is superimposed. That is, for example, the DC superposition circuit (25) of the outdoor control unit (5) set to the address “A” is set so as to apply a DC voltage to each signal line (7, 10), and the other outdoor control unit ( In 5), the relay switches (26a, 26b) are opened (OFF).

The power supply lines (25a, 25b) have terminal resistors (25c, 25d) interposed therebetween, and both power supply lines (25a, 25b)
Between the capacitors so that they are in parallel with the DC power supply (27).
(25e) is connected. The terminating resistors (25c, 25d) are
This is to suppress the occurrence of signal waveform distortion in each signal line (7, 10). The capacitor (25e) holds the impedance of each signal line (7, 10) at a predetermined low value.

One of the features of this embodiment is that the centralized control signal line (10) is provided with a second opening / closing circuit (28) as communication path cutoff means. This second switching circuit (28)
Two relay switches provided on the central control signal line (10)
(28a, 28b), and each circuit (20, 21, 22) is opened and closed by opening and closing both relay switches (28a, 28b) under the control of the microcomputer (30).
And the respective signal lines (10a, 10b). Then, both relay switches (28a, 28
b) is closed in the normal transmission state, when the address is set for each unit (3, 4) after system construction, etc., the internal / external communication signal line (7) or the central control signal line.
Only when a short circuit or the like occurs in (10), opening / closing control is performed by the microcomputer (30).

Next, an address setting operation when the present system is constructed will be described. In this address setting operation, a power supply master unit for determining one of the plurality of outdoor units (3, 3,...) As an outdoor unit for supplying transmission power (hereinafter referred to as a power supply master unit). The operation, a control address setting operation for setting an address number for each unit, and a system address recognition operation for causing each unit to recognize an address number in its own system are sequentially performed. Hereinafter, each operation will be described.

-Power supply master unit determination operation-First, the power supply master unit determination operation will be described. In this operation, the relay switches (28a, 28b) of the second switching circuit (28)
Is turned on to enable transmission and reception of signals between the outdoor control units (5, 5,...) Via the central control signal line (10). In this state, a manufacturing serial number assigned at the time of manufacturing in each of the plurality of outdoor units (3, 3, ...) is transmitted and received between the outdoor control units (5, 5, ...), and the CSMA / CD (carrier) is transmitted. The power supply master unit is determined by the conflict of serial numbers by the detection multiple access / collision detection method. Specifically, the one having the smallest serial number transmitted and received is the power supply master. In other words, when receiving a serial number smaller than its own serial number, the outdoor unit (3) stops transmission of the serial number thereafter, and the outdoor unit (hereinafter referred to as the outdoor unit) receiving power from the power supply master unit , Power supply slave unit). In this way, only one outdoor unit (3) having the smallest serial number finally won becomes the power supply master unit, and all other outdoor units (3, 3, ...) become power supply slave units. In the normal transmission state, the power supply master thus determined is always in the first open / close circuit (26).
The relay switches (26a, 26b) are turned on, and a DC voltage is applied to each signal line (7, 10) by the DC superposition circuit (25).

In addition to the operation of determining the power supply master unit due to the competition of serial numbers, each outdoor control unit
When the forced master unit setting button is provided on the (5,5,…) printed circuit board, and the operator presses this button, the outdoor unit (3) is forcibly set as the power supply master unit. There is also. In this case, the power supply master unit transmits a master unit determination operation code (hereinafter abbreviated as parent determination OPC) to each outdoor control unit (5, 5,...), And the outdoor unit ( 3,3,…) is forcibly determined as the power supply slave unit.

In addition to setting such an outdoor unit (3) as a power supply device, a centralized controller (9) is provided with a DC superimposing circuit (25) to supply power to the centralized controller (9). It can also have a function as a device for use. In this case as well, the parent-determined OPC is sent from the central controller (9) to each outdoor control unit (5,5, ...).
Will be sent to

-Control Address Setting Operation-Next, the control address setting operation will be described. In this operation, first, one of the plurality of outdoor units (3,3,...) Is assigned a control address number to each of the units (3,3,.
4,4,…) outdoor unit (hereinafter referred to as
Address setting base unit). In this operation, the address setting parent device is determined in the same manner as the above-described operation of determining the power supply parent device due to the serial number conflict. Then, the address setting master unit determined by this operation includes all the indoor units (4, 4, ...) and all the outdoor units (3, 3, ...).
, Different control address numbers are set.

This operation will be described in detail with reference to FIG. 4 (only two control systems are shown in FIG. 4 for easy understanding). As shown in this figure, two outdoor units (3a, 3b), when the outdoor unit (3a) located on the left side is determined to be the address setting master due to serial number conflict using the centralized control signal line (10), this address setting master (3a) first The indoor control address numbers (in FIG. 4, numbers 1 to 4 are shown in FIG. 4 for simplicity) are assigned to the indoor units (4a, 4b, 4c, 4d). Thereafter, the address setting master unit (3a) sends an outdoor control address number to each outdoor unit (3a, 3b) including itself (A and B in FIG. 4 for simplicity of explanation). Sort out. By such an operation, all the indoor units (4a,
4b, 4c, 4d) and all the outdoor units (3a, 3b) have different control address numbers.

-System Address Recognition Operation- Next, a system address recognition operation for recognizing a control address for each control system will be described. In this operation, the second
With the relay switches (28a, 28b) of the switching circuit (28) in the OFF state, each outdoor control unit (5,
5,…) between the outdoor control unit (5) and the indoor control unit via the internal / external communication signal line (7).
(6) Signals can be transmitted and received only to and from (6). Then, in this state, the outdoor control unit (5) and the indoor control unit (6) make the outdoor control unit (5) and the indoor control unit (6) recognize the address number of the counterpart unit to which they are connected by transmitting / receiving a signal through the inside / outside communication signal line (7).

This operation will be described in detail with reference to FIG. 4. From the outdoor unit (3a) having the address number "A" to the indoor units having the address numbers "1" and "2"
(4a, 4b) to the internal / external communication signal line (7
An address signal is transmitted by c), and each of the indoor units (4a, 4b) recognizes that the address number of the connected outdoor unit (3a) is “A”. This allows
The indoor unit (4a) having the address number "1" recognizes the connected outdoor address number "A" in addition to the self address number "1". On the other hand, the indoor unit (4b) with address number "2"
, The connection outdoor address number “A” is recognized in addition to the own address number “2”. Thereafter, the outdoor unit (3a) having the address number "A" reads the address data of each indoor control unit (4a, 4b) connected by the indoor / outdoor communication signal line (7c), and the address numbers "1" and "2" are read. Is recognized that the indoor unit (4a, 4a) is connected. Such an operation is performed by connecting another control system (the outdoor unit (3b) having the address number "B" and the indoor units (4c, 4d) having the address numbers "3" and "4". Control system), each of which recognizes the address number of the counterpart unit.

In this system address recognition operation, the address number of the counterpart unit is recognized for each of the control systems (8A to 8D) using the control address, but separately from this control address. A system address may be set, and the address number of the partner unit may be recognized for each control system (8A to 8D) using the system address.

The address setting operation is completed by such a series of operations. At the start of operation of the air conditioner, only the power supply master unit turns on the relay switches (26a, 26b) of the first opening / closing circuit (26), and connects the DC superimposing circuit (25) to each communication line (7, 10). ) And the DC voltage is applied to each communication line (7, 10).
Superimposed on top. On the other hand, in all the power supply slave units, the relay switches (26a, 26b) of the first switching circuit (26) are in the OFF state. Also, the relay switches (28a, 28b) of the second switching circuit (28) of all the outdoor control units (5, 5, ...) are turned on, and the central control signal line (10) and the internal / external communication signal line (7) Are connected so that centralized control by the centralized controller (9) of each device can be performed. In this way, transmission / reception of control signals within the own system by the internal / external communication signal line (7) and transmission / reception of centralized control signals of the entire system by the internal / external communication signal line (7) and the centralized control signal line (10) can be performed. The air conditioner is operated while being performed.

As described above, according to the configuration of the present embodiment, the entire air conditioning system including a plurality of control systems (8A to 8D) can be replaced by one.
Even when the centralized control is performed by one centralized controller (9), there is no need for a plurality of centralized control signal lines for individually connecting the centralized controller and each control system as in the related art. Therefore, the outdoor control unit (5,5
…) Centralized controller (9) on signal line (10) connecting them
The wiring that enables centralized control of all units can be realized only by connecting
This simplifies the wiring operation. For this reason, the possibility of causing incorrect wiring can be reduced, and the reliability of the entire air conditioning system can be improved. In other words, according to the configuration of the present example, a plurality of control systems (8A, 8B, 8C, 8D) can be used without complicating the wiring of the entire system.
Can be centrally controlled by one centralized controller (9).

With such a wiring structure, the internal / external communication signal line (7) and the centralized control signal line (10) can be obtained as one continuous transmission line. There is no restriction on the connection position of the. That is,
The centralized controller (9) described above includes a centralized control signal line (10)
However, even when connected to the internal / external communication signal line (7), a centralized control signal can be transmitted to the entire system without the use of a microcomputer or the like (see the virtual line in FIG. 2). For this reason, it is possible to improve the degree of freedom of the installation location of the centralized controller (9) and to simplify the work of connecting the centralized controller (9). Further, since the internal / external communication signal line (7) in this example is wired along the refrigerant pipe, this wiring work can be performed easily and without fail.

In this embodiment, a second switching circuit (28) is provided between the outdoor control unit (5) and the centralized control signal line (10) so that transmission and reception of signals between the two can be interrupted. Therefore, the following effects are also exhibited. That is, as described in the address setting operation described above, the second switching circuit
The opening / closing operation of (28) allows connection / disconnection of the internal / external communication signal line (7) and the central control signal line (10), thereby enabling transmission / reception to / from each unit (5, 6). The address setting operation can be performed while switching the partner unit. This eliminates the need for an operator to manually set the address of each unit as in the related art, and makes it possible to set the address only by transmitting and receiving signals between the units. That is, so-called auto addressing can be realized, and address setting can be performed easily and accurately in a short time.

Further, the second switching circuit (28) is provided with an effect that, when a disconnection or the like occurs in each of the signal lines (7) and (10) and a communication error occurs, the second switching circuit (28) is provided. By switching the ON / OFF state of the relay switch (28a, 28b) in (28), it is possible to avoid the function of the entire system from being stopped. That is, when a communication abnormality occurs in the inside / outside communication signal line (7), the second switching circuit (28) of the outdoor control unit (5) provided in the control system in which the inside / outside communication signal line (7) exists. Turn off the relay switches (28a, 28b). In other words, by disconnecting the control system in which the communication abnormality has occurred from other normal control systems, the communication state between the normal control systems can be ensured well, and the normal operation state can be ensured. Stopping of the function of the entire system can be avoided, and the reliability of the system can be secured.

On the other hand, when a communication error occurs in the centralized control signal line (10), all the relay switches (28a, 28b) of each control system are turned off, and the centralized controller is turned off.
Transmission / reception between (9) and each control system (8A, 8B, 8C, 8D) is disabled, and communication is performed only by the internal / external communication signal line (7), that is, transmission / reception is performed only within the own system. This also
It can be avoided that the function of the whole system stops,
The reliability of the system can be ensured. -Wrong Wiring Detection Operation-Next, a description will be given of an erroneous wiring detection operation in the case where the wiring state in the present air conditioning system has a wiring error. In particular, in this example, an operation for detecting an incorrect wiring in which the inside / outside communication signal line (7) and the central control signal line (10) are directly connected without going through the outdoor control unit (5) will be described. I do. More specifically, referring to FIG. 5, in the figure, the address number is located in the middle of the inside / outside communication signal line (7c) of the control system (8A) having the outdoor unit (3a) having the address number “A”. The control system (8) with the outdoor unit (3b)
Central control signal line (10) extending from (B) is connected to the outdoor control unit (5
A case will be described in which erroneous wiring that is directly connected without a) is performed during the above-described system address recognition operation.

During such operation, each outdoor unit (3a, 3b) is connected to its own indoor unit (4a, 4b, 4c, 4d).
When the address signal is transmitted only to the second switching circuit
(28) is turned off so that the address signal for the own system is not transmitted to the indoor control unit of the other control system, and otherwise, the second switching circuit (28) is turned on.

Each of the outdoor control units (5a, 5b) is provided with an erroneous wiring recognizing means (31a, 31b). When an address signal for the own system is received from another system, the indoor / outdoor communication signal is transmitted. Indoor unit (4a, 7a) connected by wires (7c, 7d)
4b, 4c, and 4d) are transmitted.

When an address signal is transmitted from the outdoor unit (3a) having the address number "A" to the indoor unit (4a, 4b) of the own system in the erroneous wiring state as described above, the signal is Then, not only the indoor unit (4a, 4b) of the own system but also the outdoor unit (3b) having the address number "B" is transmitted by the central control signal line (10) (FIG. 5).
Arrow)). The outdoor unit (3b) whose address number is "B" does not perform transmission, so the second switching circuit (2b)
8) is in the ON state, and this control signal has the address numbers “3” and “4” via the outdoor control unit (5b) of the outdoor unit (3b) having the address number “B”. It will be transmitted to the indoor units (4c, 4d).

In this embodiment, the outdoor control unit (3b)
The miswiring recognizing means (31b) provided in the device detects that an address signal of another system has been received, and the internal / external communication signal line (7) and the centralized control signal line (10) pass through the outdoor control unit (5). It recognizes that an erroneous wiring in a state of being directly connected without being generated, and transmits an erroneous wiring recognition code to the indoor unit (4c, 4d) through the internal / external communication signal line (7d).
As a result, in the state shown in FIG. 5, the outdoor unit (3b) having the address number "B" sends the incorrect wiring recognition code to the indoor units (4c, 4d) having the address numbers "3" and "4". Is transmitted, and the incorrect wiring code is displayed on the remote controller (11c, 11d) connected to each of the indoor units (4c, 4d).

Therefore, the erroneous wiring as described above can be reliably recognized, and the reliability of the entire air conditioner system can be further improved.

In this embodiment, there are four refrigerant circulation units (2A, 2B, 2C, 2D), each of which has one outdoor unit.
Although the air-conditioning system in which four indoor units (4) are connected to (3) has been described, the air-conditioning system is not limited to this. 5 or more indoor units for each outdoor unit (3)
(4) may be applied to those connected.

[0055]

As described above, according to the present invention, the following effects can be obtained. That is, the centralized communication path connects the heat source side control units of each of the internal and external transmission systems so as to be able to transmit and receive signals, and uses the heat source side control unit and the utilization side control unit of each of the internal and external transmission systems via the own system communication path. By enabling transmission and reception of signals, the communication path of the own system and the centralized communication path can be configured as a single transmission system. Therefore, the entire air conditioning system including a plurality of internal and external transmission systems can be integrated into one centralized system. Even when centralized control is performed by the control unit, there is no need for a plurality of centralized control signal lines that individually connect the centralized control unit and each of the internal and external transmission systems, as in the related art. For this reason, wiring that enables centralized control of all units only by connecting the centralized control unit to the centralized communication path or the own system communication path can be realized, and the wiring of the entire system can be simplified. It's easy. Therefore, the possibility of causing erroneous wiring can be reduced, and the reliability of the entire air conditioning system can be improved. That is, according to the present invention, a plurality of control systems can be centrally controlled by a single centralized control unit without complicating the wiring of the entire air conditioning system.

Further, various effects are exerted by the operation of the communication path blocking means provided between the heat source side control unit and the centralized communication path. First, when an address is set to each unit at the time of installation of the apparatus, the operation of the communication path cutoff means allows the address setting operation to be performed while switching the partner unit capable of transmitting and receiving to and from each unit. . This eliminates the need for an operator to manually set the address of each unit as in the related art, and makes it possible to set the address only by transmitting and receiving signals between the units. That is, so-called automatic addressing can be realized, and address setting can be performed easily and accurately in a short time.

Further, when a communication failure occurs due to a disconnection or the like in each communication path, by activating this communication path cutoff means, it is possible to prevent the function of the entire system from being stopped. In other words, it is possible to perform so-called risk distribution by separating the part where the communication abnormality has occurred from the system by the blocking operation of the communication path blocking unit.
Communication can be performed only in a portion where normal communication can be performed, and continuous operation can be performed.

In a state in which transmission is performed only in the internal / external transmission system by the operation of the communication path cutoff means, an error occurs when the signal is transmitted to the heat source side control unit of another internal / external transmission system. Since the erroneous wiring recognizing means for recognizing the wiring is provided, the erroneous wiring can be accurately detected, and the reliability of the entire air conditioner system can be further improved.

[Brief description of the drawings]

FIG. 1 is a diagram showing a configuration of the present invention.

FIG. 2 is a transmission system control system diagram of the air conditioner according to the embodiment.

FIG. 3 is a block circuit diagram of an outdoor control unit.

FIG. 4 is a diagram for explaining an address setting operation.

FIG. 5 is a diagram for explaining an incorrect wiring detection operation.

[Explanation of symbols]

 (1) Air conditioner (3) Outdoor unit (heat source side unit) (4) Indoor unit (use side unit) (5) Outdoor control unit (heat source side control unit) (6) Indoor control unit (use side control unit) (7) Internal / external communication signal line (own system communication line) (8A-8D) Control system (internal / external transmission system) (9) Centralized controller (centralized control unit) (10) Centralized control signal line (centralized communication line) (10a) Positive signal line (transmission line) (10b) Negative signal line (transmission line) (28) Second switching circuit (communication path cutoff means) (28a, 28b) Relay switch (31) Miswiring recognition means

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Koji Kamabo, 1304 Kanaokacho, Sakai City, Osaka Daikin Industries Inside the Kanaoka Plant of Sakai Seisakusho Co., Ltd. (72) Osamu Tanaka 1304 Kanaokacho, Sakai City, Osaka Daikin Industries Sakai Plant Kanaoka Factory

Claims (3)

[Claims] A heat source side control unit (5) for controlling a heat source side unit (3) and a use side control unit (6) for controlling a use side unit (4) are signaled by a local system communication path (7). Multiple internal and external transmission systems (8A,
8B, 8C, 8D), the heat source side unit (3, 3,…) and the use side unit (4,
The centralized control unit (9) for centralized control of (4,…) and the heat source side control units (5,5,…) of each of the internal and external transmission systems (8A, 8B, 8C, 8D) are connected so that signals can be transmitted and received. And the use side control unit of each internal / external transmission system (8A, 8B, 8C, 8D) via the heat source side control unit (5) and the own system communication path (7)
Centralized communication path (10) that can transmit and receive signals to (6)
Between the heat source side control unit (5) of each of the internal and external transmission systems (8A, 8B, 8C, 8D) and the centralized communication path (10), so that transmission and reception of signals between both can be interrupted. Communication path blocking means (28)
And a heat source-side control unit (5, 5, ...) and a use-side control unit (6, 6) of the plurality of internal / external transmission systems (8A, 8B, 8C, 8D). ,…)
Due to contention of the serial numbers of these units performed while the communication path disconnecting means (28) of each internal / external transmission system (8A, 8B, 8C, 8D) is in a communication state, any one of the units (3a, 3
A transmission device of an air conditioner configured to be determined by an address setting master unit (3a) for setting an address number of b, 4a, 4b, 4c, 4d). 2. The transmission device for an air conditioner according to claim 1, wherein the heat source side control unit of each of the internal and external transmission systems (8A, 8B, 8C, 8D).
(5, 5,...) And the user-side control unit (6, 6,...) Set the communication path cutoff means (28) of the internal / external transmission system (8A, 8B, 8C, 8D) to a cut-off state, and By transmitting and receiving signals only between the heat source side control unit (5, 5, ...) and the use side control unit (6, 6, ...) in the system (8A, 8B, 8C, 8D), A transmission device of an air conditioner configured to recognize an address number of a partner unit to which the device is connected in a system (8A, 8B, 8C, 8D). The heat source side control unit (5) for controlling the heat source side unit (3) and the use side control unit (6) for controlling the use side unit (4) are signaled by the own system communication path (7). Multiple internal and external transmission systems (8A,
8B, 8C, 8D), the heat source side unit (3, 3,…) and the use side unit (4,
The centralized control unit (9) for centralized control of (4,…) and the heat source side control units (5,5,…) of each of the internal and external transmission systems (8A, 8B, 8C, 8D) are connected so that signals can be transmitted and received. And the user-side control unit of each internal / external transmission system (8A, 8B, 8C, 8D) via the heat source-side control unit (5) and the own system communication path (7).
Centralized communication path (10) that can transmit and receive signals to (6)
Between the heat source side control unit (5) of each of the internal and external transmission systems (8A, 8B, 8C, 8D) and the centralized communication path (10), so that transmission and reception of signals between both can be interrupted. Communication path blocking means (28)
And a heat source-side control unit (5,5, ...) and a use-side control unit (6,6,6) of each of the internal and external transmission systems (8A, 8B, 8C, 8D). …) Sets the communication path cutoff means (28) of the internal / external transmission system (8A, 8B, 8C, 8D) to a cut-off state, and controls the heat source side control unit (8A, 8B, 8C, 8D) in the internal / external transmission system (8A, 8B, 8C, 8D). ) And the user-side control unit (6, 6, ...), a system address is set by transmitting and receiving signals, and based on the system address, the internal / external transmission system (8A, 8B, 8C, 8D) is a transmission device of an air conditioner configured to recognize the address number of a partner unit to which it is connected.