JPH07118832B2 - Data transmission device and air conditioner operation control device - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission device for exchanging signals between a plurality of control units and an operation control device for an air conditioner using the data transmission device. .

(Prior Art) Generally, an operation control device in an air conditioner has a plurality of indoor units that control an indoor unit to an outdoor control unit that controls an outdoor unit, as disclosed in JP-A-59-210249. There is a configuration in which a control unit is connected via a signal line, a remote controller is connected to the indoor control unit, and a centralized controller is connected to the outdoor control unit.

The outdoor control unit transmits and receives various data signals such as operation signals and mode signals to and from each indoor control unit, and the outdoor control unit transmits and receives data signals to and from the centralized controller. The air conditioning operation is controlled by controlling the machine and electric expansion valves.

(Problems to be Solved by the Invention) In the operation control device of the air conditioner described above, since all the indoor control units are directly connected to the outdoor control unit, transmission between the outdoor control unit and the indoor control unit is performed. The circuit had a simple structure.

However, in recent years, in some refrigerant circuits of air conditioners, some indoor units are connected to an outdoor unit via a switching unit that switches the direction of refrigerant flow. In this case, it is conceivable to provide a switching control unit for controlling the switching unit, and it is necessary to send and receive signals between the switching control unit and the outdoor control unit and the indoor control unit. There is a problem in that it becomes complicated and a connection mistake is likely to occur.

The present invention has been made in view of the above problems, and an object thereof is to simplify the wiring configuration between a plurality of control units and prevent the occurrence of erroneous connections.

(Means for Solving the Problem) In order to achieve the above-mentioned object, the means taken by the present invention is to divide a plurality of control units into a plurality of layers and to perform a plurality of independent transmissions between the control units in each layer. A circuit is formed to exchange signals.

Specifically, as shown in FIG. 1, the means taken by the invention according to claim (1) is as follows. First, a plurality of control units (6),
(7), ... Are divided into a plurality of layers (C1), (C2), ..., and the control units (6), (7), ... Are 1 in each layer (C1), (C2) ,. Alternatively, it is divided into two or more sections (D). And each of the above layers (C1),
The lower control units (7), (8), ... belonging to the lower hierarchy (C2), (C3) between (C2), ... belong to the upper hierarchy (C1), (C2) for each section (D). Control units (6), (7), which are connected to any one of the upper control units (6), (7), ... And which are connected between the respective layers (C ₁ ), ( ₂ ) ,. Between the upper side control units (6) and (7) are primary stations, and the lower side control units (7) and (8) are secondary stations between the independent transmission circuits (E) and (E). ), ... are formed. Further, a primary control function means (61a) for transmitting / receiving a data signal as a primary station to / from each control unit (6), (7), ... Corresponding to the transmission circuits (E), (E) ,. (71a) and secondary control function means (71b), (8) for exchanging data signals as a secondary station.
1a) is provided, and both control function means (71
Control units (7), (7), including a), (71b), ...
A data transfer means (71c) for selecting and transferring a data signal between both control function means (71a) and (71b) is provided in the.

Further, the means taken by the invention according to claim (2) is that in the invention according to claim (1), each control unit (6), (7), ... To each of the control units (7), (8), ... Which establish a transmission circuit (E), (E), ... ),
Transmission establishment means (61b), (71d) for outputting an establishment completion signal after establishment of (E), ... Are provided, while all the transmission circuits (E), (E), A control start means (61c) for starting the control operation when the establishment end signal of ... Is received is provided.

The means taken by the invention according to claim (3) is the transmission circuit (E) in each control unit (6), (7), ... In the invention according to claim (1) or (2). ),
(E), the abnormality of the transmission circuit (E) of the abnormality is detected,
An abnormality detecting means (61d), (71e), for outputting an abnormal data signal corresponding to (E), ... Is provided, while the control units (8), (8) ,. Display output means (81b) for receiving the abnormal data signal related to the and outputting the display data signal for displaying the content of the abnormality
Is provided.

The means taken by the invention according to claim (4) is the same as in the invention according to claim (1), (2) or (3).
The control units (6), (7), ... Which are the next stations, include the control units (7),
A unit counting means (71f) for detecting the number of units (8), ... And outputting a unit number data signal is provided, and the uppermost control unit (6) controls the position of the terminal based on the unit number data signal. Terminal aggregation means (61e) that aggregates the units (8), (8), ... And outputs a terminal data signal is provided, while the control units (8), (8), located at the terminals.
The display output means (81b) for receiving the above-mentioned number data signal and the terminal data signal and outputting the display data signal for displaying the content of the connected number is provided.

Further, the means taken by the invention according to claim (5) applies the data transmission device according to claim (1), (2), (3) or (4) to an operation control device of an air conditioning conditioner. Each of the control units (6), (7), ... Has an outdoor control unit (6) for controlling the outdoor unit (A), and
Or two or more intermediate control units (7), (7), ...
It is constituted by a plurality of indoor control units (8), (8), ... Which control the indoor units (B), (B) ,.
The outdoor control unit (6) is divided into the first layer (C1), the intermediate control units (7), (7), ... Are divided into the second layer (C2) and connected to the outdoor control unit (6). The indoor control units (8), (8), ... Are divided into the second hierarchy (C2) or the third hierarchy (C3) and are classified into the upper hierarchy (C).
1), (C2) outdoor control unit (6) or intermediate control units (7), (7), ...

Further, the means taken by the invention according to claim (6) is that in the invention according to claim (5), a remote controller (91) is connected to the indoor control units (8), (8) ,. The remote control (91) has an input means (91
b) and display means (91c) for receiving display data signals of the indoor control units (8), (8), ... And displaying the data.
And are provided.

(Operation) With the above configuration, in the invention according to claim (1), each control unit (6), (7), (8) includes each transmission circuit (E),
Each control function means (61a), (71a) and the like transmits and receives a data signal for each (E), ..., On the other hand, in the control unit (7) serving as the primary station and the secondary station, both control function means ( 71
A data signal is transferred between a) and (71b), and data is transmitted and received between the uppermost control unit (6) and the terminal control unit (8).

Specifically, in the invention according to claim (5), for example, while the data signal is transmitted and received between the outdoor control unit (6) and the intermediate control unit (7), the intermediate control unit (7) is transmitted.
Data signals between the indoor control unit (8) and the indoor control unit (8), and the outdoor control unit (6) acquires data of the indoor control unit (8) via the intermediate control unit (7),
On the contrary, the indoor control unit (8) acquires the data of the outdoor control unit (6).

Further, in the invention according to claim (2), the transmission establishing means (61b) and (71d) of the control units (7) and (8) of the primary station establish the transmission circuit (E), and all the transmission circuits ( E), (E),
.. is established, the uppermost level, that is, the outdoor control unit (6) starts the control operation.

In the invention according to claim (3), the abnormality detecting means (61d), (71) of each control unit (6), (7), (8).
e) and (81c) detect an abnormality, and an abnormality signal is transmitted to the terminal, that is, the indoor control unit (8) and displayed for each transmission circuit (E), and specifically, according to claim (6). In the invention, it is displayed on the remote control (91).

In the invention according to claim (4), the number counting means (71f) in the control units (6) and (7) of the primary station is 2
The number of control units (7) and (8) of the next station is counted, and the highest level, that is, the terminal totalizing means (61e) of the outdoor control unit (6) totals and transmits to the indoor control unit (8),
The remote control (91) will be displayed.

(Effect of the invention) Therefore, according to the invention of claim (1), the control units (6) and (8) are divided into layers (C1) to (C3),
Since the independent transmission circuit (E) is formed between the layers (C1) to (C3), the wiring configuration can be simplified, so that connection mistakes can be reduced and maintenance and the like can be easily performed. be able to.

Further, according to the invention of claim (2), since the control operation is started after all the transmission circuits (E), (E), ... Are established, accurate data signal transfer can be performed, and According to the invention of claim (3), the transmission circuit (E)
Since the abnormal signal is output for each, the abnormal portion can be easily identified, so that the maintenance work can be improved.

Further, in the invention according to claim (4), since the number of control units (8), (8), ... Of the terminal can be identified on the terminal side, a connection error or the like can be easily known.

Further, according to the invention of claim (5), since the control system of the air conditioner can be simplified, accurate air conditioning operation can be performed.

According to the invention of claim (6), the remote controller (9
Since the abnormality or the like can be known in 1), the abnormality or the like can be easily identified and the workability such as maintenance can be improved.

(Example) Hereinafter, the Example of this invention is described in detail based on drawing.

As shown in FIG. 2, (X) is composed of a plurality of indoor units (B1), (B2), ... Connected in parallel to one outdoor unit (A). It is a multi-type air conditioner.

The outdoor unit (A) includes a compressor (1) and two outdoor heat exchangers (2a) and (2b) which are heat source side heat exchangers, and the compressor (1) is an inverter. Capacity controlled first compressor (1a) and capacity controlled unloading second
The discharge side of the first compressor (1a) is via an oil separator (1d), and the discharge side of the second compressor (1b) is a one-way valve (1c) and an oil. They are connected to the high pressure gas line (31) of the refrigerant circuit (3) and the suction side to the low pressure gas line (32) via the separator (1e). Further, the return pipes (1f) and (1g) of the oil separators (1d) and (1e) are connected to the suction side of the compressor (1), and the both compressors (1
An oil equalizing pipe (1h) is provided between a) and (1b). The outdoor heat exchangers (2a) and (2b) are provided in parallel with the compressor (1), and one end of each outdoor heat exchanger (2a) and (2b) is respectively provided. Four-way switching valve (21
While being connected to the high-pressure gas line (31) and the low-pressure gas line (32) via gas pipes (22a) and (22b) equipped with a) and (21b), the outdoor heat exchange Vessel (2a),
At the other end of (2b), the liquid line (3
The liquid pipes (33a) and (33b) of 3) are connected. The four-way switching valves (21a) and (21b) are switched to the solid lines in the figure when the outdoor heat exchangers (2a) and (2b) function as condensers, and the gas pipes (22a) and (21b) 22b) communicates with the high pressure gas line (31), and conversely each outdoor heat exchanger (2a), (2
When b) functions as an evaporator, the gas pipes (22a) and (22b) are switched to the broken lines in the figure so as to communicate with the low pressure gas line (32). In addition, the four-way selector valve (21
One port of a) and (21b) is the capillary (23a),
Gas pipes (22a), (22b) between the four-way switching valves (21a), (21b) and the low-pressure gas line (32) via connecting pipes (24a), (24b) equipped with (23b) It is connected to the.

Further, the high pressure gas line (31) has a gas pipe (22a),
A one-way valve (4) is provided downstream of the connection part of (22b), and an accumulator (41) is provided in the low pressure gas line (32) downstream of the connection part of the gas pipes (22a) and (22b). At the same time, a pressure equalizing bypass passage (42) is connected between the gas lines (31) and (32). The pressure equalizing bypass passage (42) includes an opening / closing valve (42a) and a flow rate adjusting capillary (42).
b) is provided, one end of the high pressure gas line (31) is connected between the gas pipes (22a) and (22b) in the compressor (1), and the other end is the gas in the low pressure gas line (32). Tube (22
It is connected between the connection parts of a) and (22b) and the accumulator (41).

Further, the liquid pipes (33a), (3
3b) is connected to the receiver (43) to combine the liquid refrigerant,
The receiver (43) has a main liquid pipe (33) of the liquid line (33).
c) is connected. Further, the liquid pipes (33a), (33
In b), the outdoor electric expansion valve (25a), which is the heat source side pressure reducing mechanism,
(25b) is interposed, and the outdoor electric expansion valve (25a),
(25b) is configured to reduce the pressure of the liquid refrigerant when the outdoor heat exchangers (2a) and (2b) function as evaporators, and to adjust the flow rate of the liquid refrigerant when functioning as a condenser. .

Incidentally, (26) is an outdoor fan which is arranged in the vicinity of the outdoor heat exchangers (2a), (2b), and (44) is a low pressure gas line (3
It is a suction heat exchanger formed between 2) and the main liquid pipe (33c).

Further, one end of a hot gas bypass line (45) is connected to the downstream side of the one-way valve (4) in the high pressure gas line (31), and the other end of the hot gas bypass line (45) is a receiver (43). And a hot gas on-off valve (45a) and a capillary (45b) for adjusting the flow rate of the hot gas. The hot gas on-off valve (45a) is opened to guide the hot gas to the receiver (43) when the outside air temperature becomes equal to or lower than a predetermined temperature set during the cooling operation of the indoor unit (B), The line (33) is kept at a predetermined pressure.

On the other hand, each of the high pressure gas line (31), the low pressure gas line (32) and the main liquid pipe (33) are arranged so as to extend to the inside of the room, and the flow dividers (31a), (32a) and (33d) are respectively installed. High pressure branch pipes (31b), (31b), ..., Low pressure branch pipes (32
b), (32b), ... and liquid branch pipes (33e), (33e), ..., and the branch pipes (31b), (32b), (33e) are respectively connected to the indoor units (B1), (B2). ),…It is connected to the.

Each of the indoor units (B1), (B2), ... Is provided with an indoor heat exchanger (5) which is a usage side heat exchanger and an indoor electric expansion valve (51) which is a usage side pressure reducing mechanism. There is. The first indoor unit (B1) is a cooling-only indoor unit that performs only the cooling operation, and has a liquid branch pipe (33e) at one end through the indoor electric expansion valve (51) and a low pressure branch pipe at the other end. (32b)
Are connected respectively. The second and third indoor units (B2) and (B3) are configured to be switchable between cooling operation and heating operation, and the two third indoor units (B3) and (B3) are the same. It is configured to be in a driving mode. A liquid branch pipe (33e) is connected to one end of the second indoor unit (B2) via an indoor electric expansion valve (51), and a low pressure branch pipe (32b) is connected to the other end via a gas pipe (5a). The high pressure branch pipe (31b) is connected, and the liquid branch pipe (33e) is connected to one end of the third indoor unit (B3) via the indoor electric expansion valve (51), the liquid pipe (5b), and the flow divider (58a). ), The other end is connected to a low pressure branch pipe (32b) and a high pressure branch pipe (31b) via a gas pipe (5a) and a flow divider (58b). Further, on-off valves (52), (53) are provided at the respective ends of the high-pressure branch pipe (31b) and the low-pressure branch pipe (32b), and the both on-off valves (52),
The indoor heat exchanger (5) is configured to be switchably connected to the high pressure gas line (31) and the low pressure gas line (32) by controlling the opening and closing of the (53), and the indoor heat exchanger (5). Low-pressure side open / close valve (53) when the unit functions as an evaporator (during cooling), and high-pressure side open / close valve (52) when it functions as a condenser (during heating)
Each is designed to open.

Further, the second and third indoor units (B2), (B3)
The low-pressure bypass passage (54) is connected to the liquid branch pipe (33e) on the side, the low-pressure bypass passage (54) is connected to the downstream side of the on-off valve (53) in the low-pressure branch pipe (32b), and the bypass valve (54 54a) and a capillary (54b) are interposed, and a pipe heat exchanger (54c) is formed between the liquid branch pipe (33e) and the liquid refrigerant flowing out from the indoor heat exchanger (5) during heating. Is configured to prevent flashing. Also,
A high pressure bypass passage (55) is connected to the upstream side of the on-off valve (52) in the high pressure branch pipe (31b), the high pressure bypass passage (55) is connected to the gas pipe (5a), and the flow rate is adjusted. It is equipped with a capillary (55a) for use, and is configured to bypass the condensate collected in the high-pressure branch pipe (31b) and the like during cooling. Then, the on-off valves (52), (5
3) and both bypass passages (54), (55) are integrally housed in the kit to form a branch unit (56), while the compressor (1), the outdoor heat exchangers (2a), ( 2b), the indoor heat exchangers (5), (5), ... are high pressure gas lines (3
1) The low pressure gas line (32) and the liquid line (33) are connected to form the refrigerant circuit (3).

In addition, (57) is an indoor fan disposed in the vicinity of the indoor heat exchanger (5).

Further, various sensors are provided in the refrigerant circuit (3), (Th1) is a liquid temperature sensor for detecting the temperature of the liquid refrigerant of the indoor unit (B), and (Th2) is a gas refrigerant of the indoor unit (B). A gas temperature sensor that detects the temperature, (Th3) is a room temperature sensor that detects the intake air temperature of the indoor fan (57), and (Th3)
4) is a liquid temperature sensor that detects the temperature of the liquid refrigerant on the outdoor heat exchanger (2a), (2b) side, and (Th5) is the outdoor heat exchanger (2
a), (2b) side gas temperature sensor for detecting the refrigerant temperature, (Th6) is an outside air temperature sensor that detects the outside air temperature, (Th7) is the discharge gas of the compressor (1) Discharge gas temperature sensor for detecting the refrigerant temperature, (HPS) is a high pressure pressure sensor for detecting the discharge gas refrigerant pressure of the compressor (1), (LPS) is a low pressure pressure for detecting the suction gas refrigerant pressure of the compressor (1) It is a sensor.

Next, FIG. 3 is a system configuration diagram showing a control system of the air conditioner (X), which includes an outdoor control unit (6) for controlling the outdoor unit (A), the branch unit (56), An intermediate control unit (7) for controlling (56),
(7) and the indoor control units (8), (8), ... Which control the indoor units (B1), (B2) ... Are connected via a signal line (9). Each of the control units (6), (7), (8) has three layers (C1), (C2),
It is divided into (C3), the outdoor control unit (6) is on the first floor (C1), the intermediate control unit (7) is on the second floor (C2),
(7) and the indoor control unit for exclusive use of cooling (8), the three indoor control units (8), (8), in the third floor (C3)
(8) is classified as belonging. Further, the control units (6) to (8) of the layers (C1) to (C3) are divided into a plurality of sections (D), and the first and second layers (C1) and (C2) in this example are divided. Are each composed of one section (D), the third layer (C3) is composed of two sections (D1) and (D2), and the first section (D1) of the third layer (C3) is Is divided into two indoor control units (8) and (8), and one indoor control unit (8) belongs to the second control unit (D2).

In addition, each control unit (6) to (8) is connected to one of the control units (6) and (7) of the upper layers (C1) and (C2) for each section (D), that is, ,
The intermediate control units (7) and (7) of the second layer (C2) and the indoor control unit (8) dedicated to cooling are provided to the outdoor control unit (6) and the first section (D) of the third layer (C3).
The two indoor control units (8) and (8) of 1) are connected to one of the intermediate control units (7) by the one of the second section (D2).
Each indoor control unit (8) is connected to the other intermediate control unit (7). Then, independent transmission circuits (E) are provided between the control units (6) to (8) connected between the layers (C1) to (C3), respectively.
(E), ... Are formed. That is, the first layer (C
One transmission circuit (E) is provided between the outdoor control unit (6) of 1) and the intermediate control units (7) and (7) of the second layer (C2) and the indoor control unit (8) for cooling only. One intermediate control unit (7) of the second layer (C2) and the third layer (C)
One transmission circuit (E) between the indoor control units (8) and (8) of the first section (D1) in (3), and one other intermediate control unit (2) of the second hierarchy (C2). 7) and the second section (D2) in the third layer (C3)
One transmission circuit (E) is formed between the indoor control unit (8) and the indoor control unit (8).

In each of the transmission circuits (E), (E), ..., the control units (6) and (7) of the upper layers (C1) and (C2) serve as the primary station, and the lower layers (C2) and (C3). Each of the control units (7) and (8) is set as a secondary station, and in detail, the outdoor control unit (6) is the primary between the first layer (C1) and the second layer (C2). The station has two intermediate control units (7), (7) and an indoor control unit (8) for exclusive use of cooling.
The intermediate control unit (7), (7) is set as the primary station between the second layer (C2) and the third layer (C3), which is set as the next station, and the indoor control units (8), (8), Are set as secondary stations, and are configured to send and receive data signals for each of the transmission circuits (E), (E), .... Each of the indoor control units (8), (8), ... Is configured as a terminal, and the remote controllers (91), (91) ,. The remote controllers (91), (91), ... Are each section (D),
One is provided for each of (D1) and (D2), and the indoor control units (8) and (8) of the first section (D1) are configured to be group-controlled by one remote controller (91). .

FIG. 4 is a schematic circuit block diagram showing the internal structure of each of the control units (6) to (8) and the remote controller (91).
Each control unit (6)-(8) has a main control unit (6
1), (71), (81) are provided, and the transmission units (62), (72), corresponding to the transmission circuits (E), (E), ...
(82) and the receivers (63), (73), (83) are connected to the main controller (61), via the transmission controllers (64), (74), (84).
It is connected to (71) and (81). The control units (6) to (8) are connected by the transmitters (62) to (82) and the receivers (63) to (83), and one current is transmitted by one transmission circuit (E). A loop is formed. On the other hand, the remote controller (91) has an input section (91b) which is an input means for inputting a data signal such as driving to the control section (91a) and a display section (9 which is a display means for displaying driving etc.
1c) is connected and provided, and the transmitter (91d)
And a receiver (91e) are provided. Then, the transmitter (91d) and the receiver (91e) are the indoor control unit (8).
The main control unit (81) of the transmitter (82) and the receiver (83)
And a transmission control unit (84).

Further, the outdoor control unit (6) and the intermediate control unit (7), which are the primary stations, have 1
Primary control function means (61) that sends and receives data signals as the next station
a) and (71a) are configured, and a data signal is transmitted as a secondary station to the main control units (71) and (81) of the intermediate control unit (7) and the indoor control unit (8) that are secondary stations. Secondary control function means (71b) and (81a) for transmitting and receiving are configured. The intermediate control units (7) and (7) are secondary stations with respect to the outdoor control unit (6) of the upper first hierarchy (C1), and the indoor control units (8) of the lower third hierarchy, It becomes a primary station for (8) and (8), and the main control section (71) has both control function means (71a) and (71b).
Data transfer means (71c) for transferring a data signal between them is configured. Further, the main control section (81) of the indoor control unit (8) is provided with a display output means (81b) for outputting various display data signals to the remote controller (91).

Then, between the outdoor control unit (6) and the intermediate control unit (7) which become the primary station and the intermediate control unit (7) and the indoor control unit (8) which become the secondary station, for example, operation is performed. The signals of 00, operation 30, operation 31 and operation 03 are mutually transmitted and received. In this operation 00, a data transmission code for transmitting a data signal which is a control signal is set, in the operation 30, a first address setting code for setting the address of the secondary station is set, and in the operation 31 Is set to the second address setting code for setting the address of the secondary station, and the operation 03 is set to the broadcast data transmission code for transmitting the data signal which is the control signal. .

Further, the outdoor control unit (6) and the intermediate control unit (7), which are the primary stations, output an establishment command signal for establishing a transmission circuit (E) capable of exchanging signals at the initial time, and at the same time, the transmission circuit (6) Transmission establishment means (61b), (71d) for outputting an establishment end signal after establishment of E) is configured, and the outdoor unit (6) receives the establishment end signal of all transmission circuits (E) to perform control operation. The control starting means (61c) for starting In other words, the transmission establishing means (61b) and (71d) are the control units (7) and (8) of the secondary station whose address is not set at the time of initializing.
Is automatically set to establish the transmission circuit (E). Specifically, for example, between the intermediate control unit (7) and the two indoor control units (8), (8) of the first section (D1), the intermediate control unit (7) has one indoor control unit. The operation (31) is sent to the unit (7), and the indoor control unit (8) does not respond because the address is not set. Then, the operation (30) is sent to the indoor control unit (8) of 1. The address is set, operation 31 is transmitted in response to the response signal from the indoor control unit (8),
In response to this, operation 00 is sent after waiting for a response from the indoor control unit (8)
The address setting of is completed. Then, the above-described operation is repeated to set the address of the next indoor control unit (8), and then the next address is set. However, in this example, only two indoor control units (8) are set. There is no response to the operation 30 and the completion of address setting is recognized and the transmission circuit (E) is established. Then, after the transmission circuit (E) is established, the intermediate control unit (7) sets the connection recognition number to the outdoor control unit (6) in operation 00, that is, the intermediate control unit (7) is a subordinate unit. Until the transmission circuit (E) with the indoor control unit (8) is established on the third floor (C3),
It is configured not to set the connection recognition number, but to set it after establishment, and by this set, the outdoor control unit (6)
Recognizes the establishment of the lower transmission circuit (E) and starts control.

Furthermore, the establishment of the transmission circuit (E), that is, the address setting, is independently performed in the transmission circuit (E) between the first hierarchy (C1) and the second hierarchy (C2), as shown in FIG. As shown in, the addresses "# 0" to "# 2" are set.

Further, each of the control units (6) and (8) has abnormality detecting means (61d) and (71) for detecting an abnormality of the transmission circuit (E).
e) and (81c) are configured. Each abnormality detecting means (61
When d), (71e), and (81c) detect a transmission abnormality, the transmission circuit (E) is configured to transmit an abnormality signal.
The transmission error code is set in the transmission operation 00 of the next station and the transmission operation 00 of the secondary station. For example, the transmission / reception abnormality of the intermediate control unit (7) with respect to the outdoor control unit (6) is detected by the outdoor control unit (6), and the transmission / reception abnormality of the outdoor control unit (6) is detected by the intermediate control unit (7). Set bit "0" of the transmission error code in transmit operation 00 of the next station. Further, the transmission error of the indoor control unit (8) to the intermediate control unit (7) is detected by the intermediate control unit (7), the bit "1" of the transmission error code is set, and the indoor control unit (8) is also set. Is configured to set the bit "2" of the transmission abnormality code when detecting the transmission abnormality of the intermediate control unit (7) or the outdoor control unit (6). Then, the data of the operation 00 is transmitted from the display output means (81b) of the indoor control unit (8) to the remote controller (91), and each transmission circuit related to the display section (91c) of the remote controller (91). It is configured to display the transmission abnormality for each (E).

Furthermore, the intermediate control unit (7) is provided with a number counting means (71f) for detecting the indoor control units (8), (8), ... Connected to itself, and the number counting means (71f). Operation for transmitting the number of counted cells to the secondary station 30
And send operation to the primary station is set to 00. On the other hand, the outdoor control unit (6) is provided with a terminal totalizing means (61e) for totaling the total number of indoor control units (8) based on the counted number of the intermediate control units (7), and the terminal totalizing means. It is configured to set the total number of (61e) to the operation for transmission to secondary station 03. The indoor control unit (8) receives the operation 03, and the display output means (81b) outputs the display data to the remote controller (91) to display the data on the display section (91c). For example, the first
The remote control (91) of the section (D1) displays the number of all indoor control units: 4, the number of connections to the outdoor control unit (6): 3, the number of connections to the intermediate control unit (7): 2, and
Indoor control unit (8) for exclusive use of cooling in the second floor (C2)
The remote controller (91) is configured to display the total number of indoor control units: 4, and the number of connections to the outdoor control unit (6): 3.

Although not shown, the remote controller (91) is configured to display the address set by the remote controller (91) for the indoor control unit (8), the address of the intermediate control unit (7), and the like. There is.

Next, the air conditioning operation of this air conditioner (X) will be described.

First, when performing the cooling operation of each indoor unit (B1), (B2), ..., the two-way switching valve (21a) of the outdoor unit (A),
Switch (21b) to the solid line in Fig. 2 to switch the gas pipes (22a), (22
b) is connected to the high pressure gas line (31), while the second and third indoor units (B2), (B3) close the high pressure side opening / closing valve (52) and open the low pressure side opening / closing valve (53). Gas pipe (5
Connect a) to the low pressure branch pipe (32b). In this state, the high-pressure gas refrigerant discharged from the compressor (1) flows into each of the outdoor heat exchangers (2a), (2b) and is condensed, and the condensed liquid refrigerant passes through the liquid line (33). Indoor unit (B
1), (B2), ..., Indoor electric expansion valve (51) (5
After expansion in 1), ..., each indoor heat exchanger (5),
(5), ... Evaporates, flows through the low pressure gas line (32), and returns to the compressor (1).

On the other hand, the second and third indoor units (B2), (B3)
When heating the room, the refrigerant flows in the opposite direction to that during cooling, and the four-way switching valves (21a) and (21b) of the outdoor unit (A) are switched to the broken line in FIG. 2 and the second and third indoor units (B2 ), (B
In 3), the high-pressure side on-off valve (52) is opened, the low-pressure side on-off valve (53) is closed, and the refrigerant is condensed from the high-pressure gas line (31) in the indoor heat exchanger (5) and the liquid line ( 33) flow,
The outdoor electric expansion valves (25a) and (25b) expand, and the outdoor heat exchangers (2a) and (2b) evaporate and return to the compressor (1).

Then, in the cooling operation, for example, by switching the on-off valves (52) and (53) in one second indoor unit (B2) to the heating operation, and vice versa, during the heating operation, for example, Both the on-off valves (52) and (53) of the one second indoor unit (B2) are switched to perform the cooling operation together with the first indoor unit (B1), so-called simultaneous cooling and heating operation is performed. At that time, the liquid refrigerant flowing out of the heating operation indoor unit (B2) or (B3) joins in the flow divider (31d) of the liquid line (33), then flows to the cooling operation indoor unit (B1), etc., and evaporates. Then, the low pressure gas line (32) returns to the compressor (1).

During this cooling / heating simultaneous operation, the two outdoor heat exchangers (2a) and (2b) operate as evaporators or condensers according to the indoor load, and one of them is operated and the other one is operated. Will stop driving.

Next, a data signal transmission operation between the control units (6) to (8) will be described.

First, the transmission circuit (E) between the control units (6) to (8) is formed between the layers (C1) to (C3), and is connected to the outdoor control unit (6) of the first layer (C1) and the outdoor control unit (6). One transmission circuit (E) between the intermediate control unit (7) of the second layer (C2) and the indoor control unit (8) for cooling is connected to the second layer (C).
2) the intermediate control unit (7) and the indoor control unit (8) of the first section (D1) in the third floor (C3),
One transmission circuit (E) between (8) and
2) Another intermediate control unit (7) and the indoor control unit (8) of the second section (D2) in the third floor (C3)
One transmission circuit (E) is formed between the two. Then, the transmission circuits (E), (E), ... Send and receive data signals independently of each other, and the transmission circuits (E), (E),
The outdoor control unit (6) and the intermediate control unit (7), which are the primary stations, use the data of operations 00, 03, 31, 30 as the secondary station, the intermediate control unit (7) and the indoor control unit (8). ), (8), ..., On the other hand, the intermediate control unit (7) and the indoor control unit (8) of the secondary station control the data of operations 00, 31, 30 to the outdoor control of the primary station. Send to the unit (6) and the intermediate control unit (7).

During this data transmission, the intermediate control unit (8) transfers the data from the outdoor control unit (6) to the indoor control unit (8) and, conversely, the data from the indoor control unit (8) to the outdoor control unit (6). The outdoor control unit (6) recognizes the states of the control units (7) and (8) of the lower layers (C2) and (C3) while the indoor control unit (8) transmits the data to the upper layer. The remote controller (91) by recognizing the data of the control units (6) and (7) of (C1) and (C2)
Will be displayed.

Therefore, the specific contents of the transmission will be explained. At the time of initializing, the outdoor control unit (6) and the intermediate control unit (7) of the primary station are connected to the secondary station for each of the transmission circuits (E), (E) ,. Addresses are automatically set to the intermediate control unit (7) and the indoor control unit (8) to establish the transmission circuits (E), (E), .... That is, the primary station first sends an operation 31 to one secondary station, and since the secondary station has no address set yet, the primary station does not respond and the primary station continues to the operation 30. To set an address to one secondary station, wait for the response of the secondary station and send operation 31, wait for the response of the secondary station, send operation 00, and set the address of NO.0. Then, the above-mentioned operations are sequentially repeated to set the addresses of all the secondary stations. Then, in each of the transmission circuits (E), (E), ... When the address is set to the last secondary station, there is no response to the operation 30 and the primary station recognizes the completion of the address setting.

Also, when the address setting for the indoor control unit (8) of the secondary station is completed and the transmission circuit (E) is established, the intermediate control unit (7) becomes the outdoor control unit (6) in the upper hierarchy (C1). Set the number of indoor control units (8) to operation 00 to be transmitted. Outdoor control unit (6) that received operation 00 with this number set
With the address setting to the second layer (C2) that he does,
When the completion of the address setting performed by the intermediate control unit (7) is recognized, the control operation is started.

After that, in operation 03, the outdoor control unit (6) sets the number of all indoor control units (8) (4 units) and the number of connected self units (3 units) in operation 03, respectively. Then the second layer (C
It transmits to each control unit (7) and (8) of 2). In response to this operation 03, the intermediate control unit (7) sets its own connected number (2 or 1) and transmits it to the indoor control unit (8). Then, the indoor control unit (8) outputs data of various numbers to the remote controller (91) and displays the number of all indoor control units (8) on the display section (91c) of the remote controller (91).

Also, during the above transmission, each control unit (6)-
(8) detects a transmission abnormality, and detects, for example, poor transmission of the outdoor control unit (6), poor reception of the intermediate control unit (7), and further poor reception of the indoor control unit (8). , The transmission abnormality code bit of the transmission operation 00 to the secondary station is set corresponding to each transmission circuit (E), (E), ... And transmitted to the indoor control unit (8),
The remote control (91) displays the details of the error.

Therefore, each of the control units (6) to (8) is divided into layers (C1) to (C3), and an independent transmission circuit (E) is formed between the layers (C1) to (C3). Moreover, since the wiring structure can be simplified, connection mistakes can be reduced and maintenance and the like can be easily performed.

Further, since the control operation is started after all the transmission circuits (E), (E), ... Are established, accurate data signal transfer can be performed, and an abnormal signal for each transmission circuit (E) can be transmitted. Since the data is output, the abnormal portion can be easily identified, so that the maintenance work can be improved.

Further, since the number of indoor control units (8), (8), ... Can be identified on the indoor side, connection mistakes and the like can be easily known.

Moreover, since the control system of the air conditioner (X) can be simplified, accurate air conditioning operation can be performed.

Further, since the abnormality or the like can be known by the remote controller (91), the abnormality or the like can be easily identified, and the workability such as maintenance can be improved.

Although the present embodiment has been described with respect to the air conditioner (X), the invention of claim (1) can be applied to various data transmission devices.

In addition, in the present embodiment, the control units (6) to (8) are divided into three layers (C1) to (C3), but they may be divided into four layers or more, and are connected in various modes. Good.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of the present invention. 2 to 4 show an embodiment of the present invention, FIG. 2 is a refrigerant circuit diagram of an air conditioner, FIG. 3 is a system configuration diagram of the same control system, and FIG. 4 is a circuit block diagram thereof. is there. (6) ... Outdoor control unit (7) ... Intermediate control unit (8) ... Indoor control unit (61a), (71a) ... First control function means (71b), (81a) ... Second control function means (71c) ... data transfer means (61b), (71d) ... transmission establishing means (61c) ... control starting means (61d), (71e), (81c) ... abnormality detection means (61e) ... terminal totaling means (71f) ... number counting Means (81b) ... display output means (91) ... remote control (C1) to (C3) ... hierarchy (D) ... section (E) ... transmission circuit

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Tomohiro Iwata 1304 Kanaoka-cho, Sakai City, Osaka Prefecture Daikin Industries, Ltd. Sakai Plant Kanaoka Factory

Claims (6)

[Claims] 1. A plurality of control units (6), (7), ... Are divided into a plurality of layers (C1), (C2), ... And each of the control units (6), (7) ,. Hierarchy (C1), (C
2), ... is divided into one or more sections (D), and the lower hierarchy (C) between the above respective hierarchies (C1), (C2) ,.
2), lower control unit (7) belonging to (C3),
(8), ... is the upper layer (C1) for each section (D),
Any upper control unit (6) belonging to (C2),
(7), connected to each of the above layers (C ₁ ),
(C ₂ ), ... A control unit (6) connected between
Between (7), ..., the upper side control units (6) and (7) serve as the primary stations, and the lower side control units (7) and (8) serve as the secondary stations. ), (E), ... Are formed, while the control circuits (6), (7), ... Corresponding to the transmission circuits (E), (E) ,. Primary control function means (61a) and (71a) for transmitting and receiving, and secondary control function means (71b) for transmitting and receiving data signals as a secondary station,
(81a) is provided, and both control function means (71
Control units (7), (7), including a), (71b), ...
The data transmission device is provided with a data transfer means (71c) for selecting and transferring a data signal between both control function means (71a) and (71b). 2. The data transmission device according to claim 1, wherein each control unit (6), (7), ..., Which serves as a primary station, has a control unit (7), ((), which serves as a secondary station. 8), ... A transmission circuit (E) capable of transmitting and receiving a signal at the initial time,
Transmission establishment means (61b), (71d) for outputting an establishment command signal for establishing (E), ... And outputting an establishment end signal after establishment of the transmission circuits (E), (E) ,. On the other hand, the uppermost control unit (6) includes all transmission circuits (E),
(E), A data transmission device characterized by comprising control starting means (1c) for starting a control operation upon receiving an establishment end signal. 3. The data transmission device according to claim 1 or 2, wherein each control unit (6), (7), ... Has an abnormality in each transmission circuit (E), (E) ,. Is provided and abnormality detecting means (61d), (71e), for outputting abnormal data signals corresponding to the abnormal transmission circuits (E), (E) ,. (8),
(8), ... Is provided with display output means (81b) for receiving an abnormal data signal relating to itself and outputting a display data signal for displaying the content of the abnormality. apparatus. 4. The data transmission device according to claim 1, wherein the control unit (6), (7), ... Which is the primary station is connected to itself. A number counting means (71f) for detecting the number of control units (7), (8), ... Of the secondary station and outputting a number data signal is provided, and the highest control unit (6) is provided with the above number. A control unit (8) located at the terminal based on the data signal,
Terminal collecting means (61e) for collecting (8), ... And outputting a terminal data signal is provided, while control units (8), (8), ...
A data transmission device comprising display output means (81b) for receiving the number data signal and the terminal data signal and outputting a display data signal for displaying the content of the connected number. 5. Claim (1), (2), (3) or (4)
Each control unit (6) in the described data transmission device,
, (7), ..., An outdoor control unit (6) for controlling the outdoor unit (A), one or more intermediate control units (7), (7), ..., And indoor units (B), (B). ),
, A plurality of indoor control units (8), (8),
, And the outdoor control unit (6) is divided into the first layer (C1), the intermediate control units (7), (7), ... are divided into the second layer (C2), and the outdoor control is performed. Connected to the unit (6), the indoor control units (8), (8), ... Are divided into the second layer (C2) or the third layer (C3) and the upper layer (C).
An operation control device for an air conditioner, which is connected to the outdoor control unit (6) or the intermediate control units (7), (7), ... Of 1) and (C2). 6. The operation control device for an air conditioner according to claim 5, wherein the indoor control units (8), (8), ...
A remote controller (91) is connected to the remote controller (91), and input means (91) for inputting an operation signal to the remote controller (91).
b) and display means (91c) for receiving display data signals of the indoor control units (8), (8), ... And displaying the data.
And an operation control device for an air conditioner.