JPH0712393A - Air conditioner - Google Patents

Abstract

PURPOSE:To provide an air conditioner which can realize a higher controllability and a more flexible system constitution, by a method wherein an automatic air conditioning is realized by a 'group control' in which a plurality of indoor units are controlled by a single remote controller, so that the respective indoor units may be operated in the same operation mode. CONSTITUTION:An air conditioner is constituted of an outdoor unit 1, a plurality of indoor units 3-1 to 3-n, selecting and setting means 5-1 to 5-n to select and set an operation mode of the respective indoor units, a first setting means 37 to set whether it, is possible or not to carry out an air conditioning operation in which an operation mode is automatically determined and then the air conditioner is started in the determined mode, and a second setting means 39 to set that each of the indoor units is a master unit or a branch unit. If the indoor unit is the master unit, the operation mode is automatically determined by a prescribed means to start the air conditioner in the determined operation mode. If the indoor unit is the branch unit, the air conditioner is operated in the same operation mode as that of the indoor unit 3-i which is the master unit.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a multi-type air conditioner in which a plurality of indoor units are connected to one outdoor unit, and more particularly, in a multi-system air conditioner in which automatic cooling / heating operation control is difficult, When performing the cooling / heating automatic operation, multiple indoor units are controlled by one remote controller, and each indoor unit is operated in the same operation mode by "group control", which enables automatic cooling / heating. The present invention relates to an air conditioner that achieves high controllability and enables more flexible system construction.

[0002]

2. Description of the Related Art Needs for air conditioners have been diversified due to the need for environmental control of various buildings. Even in a multi-type air conditioner in which a plurality of indoor units are connected to one outdoor unit, various outdoor units and indoor units are prepared, and a flexible system is constructed by a flexible combination.

For example, a multi-system capable of simultaneously performing cooling / heating automatic operation in different indoor units (Japanese Patent Laid-Open No. 61-1)
No. 10833), as well as a multi-system in which it is difficult to simultaneously control cooling / heating automatically in different indoor units. In the former multi-system, each indoor unit can operate in a different (cooling / heating operation) mode, but in the latter multi-system, all indoor units are controlled to operate in the same cooling or heating operation mode. It will be.

That is, in the latter multi-system, the outdoor unit and a plurality of indoor units are connected by two pipes, and the cooling / heating operation mode is determined by the temperature detection of the temperature sensor in each indoor unit. Therefore, when one room requires cooling operation and the other room requires heating operation, a mixture of cooling and heating operation modes occurs, and mechanical cooling / heating automatic operation is impossible.

[0005]

As described above, the conventional multi-system air conditioner for which it is difficult to control the automatic heating / cooling operation cannot mechanically perform the cooling / heating automatic operation and cannot meet the needs of various users. There was a problem.

The present invention solves the above problems.
In a multi-system air conditioner where it is difficult to control cooling / heating automatically, when performing cooling / heating automatic operation, multiple indoor units are controlled by one remote controller, and each indoor unit is operated in the same operating mode. It is an object of the present invention to provide an air conditioner that enables automatic cooling and heating by "control", realizes higher controllability, and enables more flexible system construction.

[0007]

In order to solve the above-mentioned problems, an air conditioner characterized by the present invention is as shown in FIG.
In an air conditioner including an outdoor unit 1 and a plurality of indoor units 3-1 to 3-n connected to the outdoor unit 1, each indoor unit 3-i (i = 1 to 1)
Selection setting means 5-1 for selectively setting the operation mode n)
A first setting means 37 for automatically determining and operating an operation mode for each indoor unit 3-i, for setting whether or not a cooling / heating automatic operation is possible, and each indoor unit 3- and a second setting unit 39 for setting that i is a master unit or a slave unit, and each indoor unit 3-i is configured by the first setting unit 37. Is set to be capable of automatic cooling / heating, and the cooling / heating automatic operation mode is selectively set by the selection setting means 5-1, the indoor unit 3-i is the master unit by the second setting means 39. At a certain time, the operation mode is automatically determined by a predetermined means and the operation is performed in the operation mode, and the indoor unit 3-j (j = 1 to n ≠ i) is a slave unit by the second setting means 39. At one point, the outdoor unit And 3-i operation mode of operating in the same operation mode.

[0008]

In the air conditioner of the feature of the present invention, as shown in FIG. 1, each indoor unit 3-i is set by the first setting means 37 so that the indoor unit 3-i can be automatically cooled and heated. The second setting means 39 when the cooling / heating automatic operation mode is selectively set by the selection setting means 5-1
Therefore, when the indoor unit 3-i is the master unit, the operation mode is automatically determined by a predetermined means to operate in the operation mode, and the second setting means 39 causes the indoor unit 3-j (j = When 1 to n ≠ i) are slave units, the outdoor unit 3-i, which is a master unit, is operated in the same operation mode.

That is, even in a multi-system air conditioner for which cooling / heating automatic operation control is difficult, when performing cooling / heating automatic operation, it is set by the first setting means 37 that cooling / heating automatic operation is possible, and a plurality of units are set. Indoor unit 3-1 to 3
-N is controlled by one selection setting means (remote control) 5-1 and the second setting means 39 controls one master unit 3-i and the remaining slave units 3-j (j = 1 to n ≠ i). ) And a group control in which each indoor unit 3-1 to 3-n is operated in the same operation mode, it is possible to perform the cooling / heating automatic operation without coexisting the cooling / heating operation modes. As a result, higher controllability can be realized, and a more flexible air conditioner can be constructed.

[0010]

Embodiments of the present invention will now be described with reference to the drawings.

FIG. 1 shows a block diagram of an air conditioner according to an embodiment of the present invention. In the figure, the air conditioner of this embodiment includes an outdoor unit 1, indoor units 3-1 to 3-n,
And a remote controller (selection setting means) 5-1. The indoor units 3-1 to 3-n are connected to the outdoor unit 1 via the bus B1, and the indoor unit 3-
A remote controller 5-1 is connected to 1 to 3-n via a bus B2.

The present invention is characterized by the control system of each unit, and since the mechanism of each unit and the refrigerant pipes are the same as those of the conventional one, the description thereof will be omitted.

The operation of the outdoor unit 1 is controlled by the microcomputer 11, and the indoor units 3-1 to 3-3 are operated.
A transmission unit 12 and a reception unit 13 are provided for transmitting and receiving data to and from -n.

The operation of the indoor unit 3-i (i = 1 to n) is controlled by the microcomputer 31, and the transmitting unit 3 for transmitting / receiving data to / from the outdoor unit 1 is performed.
2 and a receiver 33, a transmitter 34 and a receiver 35 for transmitting / receiving data to / from the remote controller 5-1 and a cooling / heating automatic operation mode of the indoor unit 3-i (the operation mode is automatically determined and operated). Mode), the first setting means 37 for setting whether or not it is possible, and the indoor unit 3-
The second setting unit 39 is provided for setting that i is a master unit or a slave unit.

The first setting means 37 can be realized, for example, by a switch that indicates that the cooling / heating automatic operation mode is possible in the ON state and that it is impossible in the OFF state. The second setting means 39 is realized by a DIP switch or the like for setting the address of the indoor unit 3-i, and the microcomputer 31 recognizes whether the indoor unit 3-i is the master unit or the slave unit by the address. It should be possible to do it.

In the following description, the second setting means 39
One master unit (in this case, the indoor unit 3
-1) and the remaining slaves (indoor units 3-2 to 3-2)
3-n) will be called a "group".

The remote controller 5-1 includes the indoor units 3-1.
To 3-n for selectively setting the operation mode, which is controlled by the microcomputer 51, and the indoor unit 3-
A transmitter 52 and a receiver 53 are provided for transmitting and receiving data to and from 1 to 3-n. In the following description, the group consisting of the indoor units 3-1 to 3-n will be referred to as 1
Controlling with individual remote control 5-1 is "group control"
Call.

Next, the operation of the air conditioner of this embodiment will be described with reference to the flow chart shown in FIG. This figure shows
It is a flowchart of the process which the microcomputer 31 of the indoor unit 3-i performs, when an air conditioning apparatus is a multi-system for which cooling / heating automatic operation control is difficult.

First, in step S1, initial processing is performed. Next, at step S2, the first setting means 37 is turned on / off.
Judge OFF setting, and if ON, step S3
If it is OFF, the process proceeds to step S11.

When the setting of the first setting means 37 is ON, the cooling / heating automatic operation is possible, so that is transmitted to the remote controller 5-1 via the bus B2 in step S3. Further, in step S4, the information (for example, set temperature, operation mode, etc.) selected and set by the remote controller 5-1 is received, and it is determined whether the operation mode selected in step S5 is the cooling / heating automatic operation mode. To do.

If it is in the cooling / heating automatic operation mode, it is further determined in step S6 whether or not the indoor unit 3-i is the master unit based on the setting of the second setting means 39.

When the indoor unit 3-i is the master unit, current temperature data is input from the temperature sensor in the indoor unit 3-i to determine the operation mode (cooling / heating operation) to be performed. (Step S7). The determined operation mode is transmitted to the remote controller 5-1 via the bus B2 (step S8).

On the other hand, the indoor unit 3-j (j = 1 to 1)
When n ≠ i) is a slave unit, the operation mode is not determined based on the temperature sensor in the indoor unit 3-j, the bus B2 is monitored, and the indoor unit 3-i (master unit) transmits the operation mode. The information on the determined operation mode is received and determined as the operation mode of the indoor unit 3-j (step S9).

In addition, in the determination in step S2, the first
When the setting of the setting means 37 is OFF, the automatic heating / cooling operation is not possible, so in step S11 the fact is transmitted to the remote controller 5-1 via the bus B2. Further, in step S12, the information selected and set by the remote controller 5-1 is received.

Operation control is performed in step S15 according to the operation mode determined or selected as described above.

When the air conditioner is not a multi-system capable of cooling / heating automatic operation control but a multi-system capable of cooling / heating automatic operation, control is performed regardless of the setting of the first setting means 37. The second setting unit 39 may set the address so that the address recognized as the master unit is assigned.

Further, in the multi-system capable of automatic cooling / heating, as shown by the dotted line in FIG. 1, remote controllers 5-1 to 5- are individually provided to the indoor units 3-1 to 3-n.
A system configuration in which n is connected is conceivable. In this case, "individual control" in which the indoor unit 3-i is individually controlled by the remote controller 5-i, and "individual group 3-1 to 3-n in which the group consisting of the indoor units 3-1 to 3-n is controlled by one remote controller 5-1". Switching to "group control" is required, and the following method can be considered as this method.

(1) Each remote controller 5-1 to 5-n is provided with setting means for setting a remote controller address, and each indoor unit 3-i is controlled individually by the second setting means 39 or group control. In the individual control, the indoor unit 3-i receives only the transmission data from the remote control 5-i having the remote control address assigned to it, and in the group control, the control steps described above (FIG. 2) are performed. follow.

(2) The bus B2 connecting the indoor units 3-1 to 3-n and the remote controllers 5-1 to 5-n, and the first signal transmission line connecting the indoor units 3-1 to 3-n When,
The indoor unit 3-i and the remote control 5-i are individually connected to the second signal transmission path, and the indoor unit 3-i
Switching means for switching the signal transmission path based on the setting (individual control / group control) of the second setting means 39 is provided between the transmitting unit 34 and the receiving unit 35 inside and the bus B2. That is, in the individual control, the indoor unit 3-i transmits / receives data to / from the remote controller 5-i via the second signal transmission path, and in the group control, the master device 3-1 operates the second signal transmission path. Data is transmitted / received to / from the remote controller 5-1 via the remote controller 5-1 and is also transmitted to the slave unit 3-j via the first signal transmission path.

Further, the indoor units for performing group control do not have to be all the indoor units connected to one outdoor unit 1, but any number of indoor units 3-1 to 3-n can be grouped. It may be configured to be controllable, and the remaining indoor units may be configured to perform only individual control.

In this embodiment, the first setting means 37
And the second setting means 39 as the indoor units 3-1 to 3-n.
It is configured for internal use, but these are remote controls 5-1 to 5-
Even if it is installed in n, the cooling / heating automatic operation can be realized by the same control flow. In this case, the hardware of the remote controllers 5-1 to 5-n increases and the load on the microcomputer 51 increases, but the processing of the microcomputer 31 on the indoor unit 3-1 to 3-n side becomes simple.

[0032]

As described above, according to the present invention,
Even in a multi-system air conditioner for which cooling / heating automatic operation control is difficult, when performing cooling / heating automatic operation, it is set by the first setting means that cooling / heating automatic operation is possible, and a plurality of indoor units are set as one unit. The second is controlled by the selection setting means.
A group of one master unit and the rest of the slave units is formed by the setting means, and the indoor / outdoor operation modes are mixed by group control in which each indoor unit is operated in the same operation mode. Therefore, it is possible to provide an air conditioner that has a higher controllability and is capable of constructing a more flexible system.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an air conditioner according to an embodiment of the present invention.

FIG. 2 is a flowchart illustrating an operation of the air conditioner of the embodiment.

[Explanation of symbols]

 1 Outdoor Unit 3-1 to 3-n Indoor Unit 5-1 to 5-n Remote Control (Selection Setting Means) 11, 31, 51 Microcomputer 12, 32, 34, 52 Transmitter 13, 33, 35, 53 Receiver 37 First Setting Means 39 Second Setting Means B1, B2 Bus

Claims (1)

[Claims] 1. An air conditioner comprising an outdoor unit and a plurality of indoor units connected to the outdoor unit, selection setting means for selectively setting an operation mode of each of the indoor units, and each of the indoor units. The first setting means for automatically determining and operating the operation mode, and setting whether or not the cooling / heating automatic operation is possible, and setting that each of the indoor units is a master unit or a slave unit A second setting unit, wherein each indoor unit is set by the first setting unit to the effect that the indoor unit is capable of automatic cooling / heating operation, and is selectively set to the cooling / heating automatic operation mode by the selection setting unit. In this case, when the indoor unit is the master unit by the second setting means, the operation mode is automatically determined by the predetermined means to operate in the operation mode, Serial second
When the indoor unit is a slave unit, the air conditioner is operated in the same operation mode as the operation mode of the outdoor unit that is the master unit.