JPH02272253A - Operation control device for air conditioner - Google Patents

Abstract

PURPOSE:To reduce the number of components by a method wherein when a remote control switch is discretely set and varied for a controlling operation rather than its group control, a controlling operation in an air conditioner for a slave device address is changed over from a first controlling means to a second controlling means so as to enable each of the operating signals to be received. CONSTITUTION:When an operating signal or a set temperature signal is outputted from a concentration controller 2 and a remote controller 4, each of indoor devices 1, 1... is separately operated and discretely controlled. In turn, the remote controller 4 may display a set temperature or the like in the display means 7 for every indoor devices 1, 1. Even in case of this discrete control, a state signal outputted by the control means 15 for each of the indoor devices 1, 1... are received by the concentration controller 2 and the remote controller 4 and then the state is displayed in the display part 25 and the display means 27. Accordingly, as the remote controller 4 is changed over to be set to a discrete control from the group control, the control operation in the indoor devices 1, 1 in the slave device address is changed over from the control means 14 to the control means 15, resulting in that it is possible to reduce the number of components and to reduce the installing space for the components.

Description

Detailed Description of the Invention (Field of Industrial Application) The present invention relates to an operation control device for an air conditioner that controls a plurality of air conditioning units. This is related.

(Prior Art) Conventionally, as an operation control device for this type of air conditioner, for example, as disclosed in Japanese Patent Application Laid-Open No. 59-63438, a large number of air conditioning units each having a built-in heat exchanger are provided. A single remote controller is provided in order to uniformly control a plurality of these units in the same operating state as a group according to need, and depending on whether or not an operation command signal is output from the remote controller, the multiple units mentioned above can be It is known that air conditioning units are operated or stopped at the same time to air condition the room.

(Problems to be Solved by the Invention) In the operation control device for the air conditioner described above, it is possible to improve operability by allowing each air conditioning unit to be controlled not only by a remote controller but also by a central controller. .

At that time, the centralized controller sends and receives various control signals such as operation signals to and from the parent air conditioning unit of each group, while receiving temperature signals and other signals from other slave air conditioning units. It is configured only to receive status signals so that the controls of the central controller can be displayed on the remote controller.

However, if you try to control each air conditioning unit individually in addition to group control, you will have to install a remote controller for each air conditioning unit, which increases the number of parts and requires a large installation space. There is. Further, when a remote controller that can individually control each air conditioning unit is provided, there is a problem that the air conditioning units cannot be individually controlled from a centralized controller. In other words, since the centralized controller only receives information from the slave air conditioning units, it is unable to transmit control signals, and therefore cannot be controlled by the centralized controller.

The present invention has been made in view of the above, and when the remote control switch becomes individually controlled, each air conditioning unit can receive control signals from the central controller, and group control is performed by the remote control switch and the central controller. The purpose of this is to enable individual control.

(Means for Solving the Problem) The means taken by the invention according to claim (1) to achieve the above object are, as shown in FIG. Unit (1), (1),・
... are connected, while each air conditioning unit (1), (1
),... are multiple groups (G), (G),...
・Each group (G), CG),...
・Remote control switch (4) provided for each
, (4), ... are connected to the air conditioning units (1), (1), ... of each group (G) to control the air conditioning units (1), (1), ... It is assumed to be an operation control device for a harmonization device.

And the air conditioning unit (1) of each group (G),
(1), ..., one air conditioning unit (1) has the master unit address, and the other air conditioning units (1), (1),
...The address for the slave device is set. Furthermore, the centralized controller (2) includes an operation means (21a) for outputting operation signals to the air conditioning units (1) of each group set in the master address, and each air conditioning unit (1), (1).
), . . . are provided. On the other hand, the air conditioning unit (1), (1) is set to the address for the slave device.

..., the above remote control switch (4)
and a receiving section (14a) that receives an operation signal for group control that the centralized controller (2) outputs to the air conditioning unit (1) of the base unit address, and a transmitting section (14b) that outputs a status signal. 1 control means (14) are provided. In addition, the air conditioning unit (1) is set to the address for the slave unit.

(1), . . . include an address change unit (15a) that changes the address for the slave unit to an address for the base unit, and each air conditioning unit (1) that the remote control switch (4) outputs.
), (1), . . . and a receiving unit (15
b) and a transmitter (15c) for outputting a status signal, and when the remote control switch (4) becomes group control, the first control means (14) In the case of individual control, the second control means (15) is provided with control switching means (16) for respectively switching control operations.

In the invention of claim (1) above, the means taken by the invention of claim (2) is such that the control switching means (16) switches between the first control means (14) and the second control means (15). The control switching means (16) corresponds to the group control command signal and the individual control command signal output by each remote control switch (4). and the first control means (1
4) and the second control means (15).

(Function) With the above configuration, in the invention according to claim (1), the centralized controller (2) sends various operation signals such as operation signals to the air conditioning unit (1) to which the master unit address is set, and Unit (1) and other air conditioning units (1) of group (G) to which the air conditioning unit (1) belongs, (1
), ..., while the centralized controller (2
) is a state monitoring means (21 b
) has received the uke.

Furthermore, when the remote control switch (4) provided in each group (G) is for group control, each of the air conditioning units (1), (1).

. . ., the address for the slave device is the control switching means (1
6) switches the control operation to the first control means (14). Specifically, in the invention according to claim (2), switching is performed by a changeover switch, and in the invention according to claim (3), switching is performed by a command signal from a remote control switch (4).

The operation signals output by the remote control switch (4) and the central controller (2) are received by the air conditioning unit (1) at the address for the master unit, and from the air conditioning unit (1), each air conditioning unit at the address for the slave unit receives the operation signals. Unit (1),
The information is transmitted to the first control means (14) of (1), . . . and the air conditioning units (1), (1), . . . are group-controlled.

On the other hand, when the remote control switch (4) becomes individual control, the control switching means (16) switches to the second control means (
15), and each air conditioning unit h(1) is controlled by the individual operation signal of the remote control switch (4).
), (1), . . . are individually controlled. Then, the operation signal of the central controller (2) is changed by the address changing section (15a) of the air conditioning unit (1), (1), etc. in which the slave unit address is set to the base unit address. 2 control means (15) control each air conditioning unit (1), (1) also by the central controller (2).

... are individually controlled.

(Effect of the invention) Therefore, according to the inventions according to claims (1) and (2), when the setting of the remote control switch (4) is changed from group control to individual control, the air conditioning unit (1 ), (1), . 4) Since each air conditioning unit (1), (1), ... can be controlled both as a group and individually, the number of parts can be reduced and the installation space can be reduced. can.

In addition, each air conditioning unit (
1), (1), . . . can be individually controlled, so that operability can be improved.

Further, according to the invention according to claim (3), since the first control means (14) and the second control means (15) are automatically switched by the command signal of the remote control switch (4), Operability can be improved.

(Example) Hereinafter, an example of the present invention will be described in detail based on the drawings.

As shown in FIG. 2, (1), (1), . 1), (1), ... are divided into, for example, 16 groups (G), (G), ..., and
Each group (G) has a maximum of 16 indoor units (1
), (1), ... are installed.

And each of the above indoor units (1), (1),...
Although not shown, eight units are connected in parallel to one outdoor unit to form a refrigerant circulation system.

Furthermore, the indoor unit (1) of each group (G) above,
(1), one of the indoor units (1) becomes the base unit (1a), and the other indoor units (1), (1),...
are set in each child machine (1b), and each assembly machine (
1a) is connected to the centralized controller (2) via a transmission line (3), and the child unit (1b) of each group (G)
is connected to the central controller (2) via the parent device (1a). In addition, each base unit (1a) has a remote control switch (hereinafter referred to as a remote control) (4).
are connected via the transmission line (5), while each of the slave units (
lb), (lb), ... are the base unit (1a) for each group.
It is connected to the remote control (4) via the main unit (
1a) contains the address for the base unit (#0), the slave unit (lb),
(lb), ... is the address for the slave device (#1) ~ (#
15) are set respectively.

The centralized controller (2), as shown in FIG.
A CPU (21) is built-in, and the CPU (21
) connected to RAM (22) and RAM (2B)
is built-in, and furthermore, indoor units (1), (1),
an input section (24) for inputting operation, stop, etc. of...;
Indoor unit (1,), (1).

A display section (25) that displays the operation and stop of the... is built-in, and the CPU (21) is connected to each indoor unit (1), (1),... via a transmission section (26). It is connected. Then, the CPU (21) outputs operation signals such as start/stop signals for operating and stopping the indoor unit (1) to the indoor temperature unit (1) set in the master unit address (#0). It is equipped with an operating means (21a) and a state monitoring means (21b) for receiving a state signal such as a temperature signal output from each indoor unit (1), and a state monitoring means (21b) that receives a state signal such as a temperature signal outputted from each indoor unit (1). Based on the display section (
25) is configured to display the status of each indoor unit (1), (1), .

The remote controller (4) is for each indoor unit (1).

(1), . . . are configured to perform group control or individual control, and each indoor unit (1) described above.

A control microcomputer (41) for controlling (1), . Furthermore, the remote control (4) transmits control signals from the transmission microcomputer (42) to each of the indoor units (1), (1).
), ... and each indoor unit (1)
, (1), a transmission circuit section (43) that transmits status signals from . and a display means (7) that receives a display signal from the control microcomputer (41) and displays the set temperature and the like.

The control microcomputer (41) sends and receives control signals to and from each of the indoor units (1), (1), . . .・
When the air conditioning control means (41a) receives the status signals of each indoor unit (1), (1), . . . A receiving means (4l b>) is provided, and each indoor unit (1
), (1), . . . are displayed on the display means (7).

The input means (6) and display means (7) are provided on the front panel (44) of the remote control (4), as shown in FIG. and a lower part (46), the input means (6) is provided in the lower part (46), and the display means (7) is provided in the upper part (45). The input means (6) includes an operation switch (6a) and a stop switch (6b) for operating and stopping all indoor units (1), (1), ..., and each indoor unit (1), (1). ), ... air blower switch (6c) to switch and set the operation mode, air conditioner switch (
6d), a heating switch (6e), and a temperature setting switch (6f) for adjusting the set temperature. Furthermore, the input means (6) includes each indoor unit (1),
(1) A group movement switch (6g) and an incorporation switch (6h) for partitioning, . . . into groups, and the above-mentioned indoor unit (1).

(1) a control mode switch (61) that sets the control mode to either individual control or group control;
An indoor unit (1) that performs the settings and display when setting the group and control mode, as well as when displaying, etc.;
(1), ... to the indoor unit (1), (1
), . . . are provided with a unit switch (6j) for specifying by a preset address, and also provided with an inspection switch (6k).

On the other hand, the display means (7) includes an operation mode display section (
71), a control mode display section (72) that displays the control mode (group control or individual control) of the indoor unit (1) being displayed, and a temperature display section (72) that displays the set temperature.
3) and a group number display section (74) for displaying the group number. Furthermore, the display means (
7) includes each indoor unit (1), (1),...
unit display section that can display the addresses of
75), and in this embodiment, 16 indoor units (1), (1),... can be connected, so each indoor unit (1), (1),... The unit display section (75) is formed in two stages, upper and lower, so that the set addresses from "#0" to "#15" are displayed. The display means (7) also includes an operation display section (76) indicating the indoor units (1), (1), . ), and a unit specific display section (7) indicating the indoor unit (1) surrounding the address and displaying the set temperature, etc.
7) and the indoor units (1), (1) belonging to the group displayed by the group number display section (74).
, . . . are provided, and the display means (7) is configured to display a liquid crystal display.

On the other hand, the base unit (1a) among the indoor units (1), (1), ... has a built-in CPU (not shown), and the CPU is connected to the central controller (2 ) and a remote controller (4) are connected, and are configured to exchange operation signals and status signals between the centralized controller (2) and the remote controller (4).

In addition, as shown in FIG. 3, the slave device (1b) has a CP
The cpU (11) has a built-in CPU (11), and the central controller (2) and the remote controller (4) transmit parts (26), (
43). And the above CPU (11)
is equipped with a first control means (14) and a second control means (15), and when the remote control (4) outputs a group control command signal based on the setting signal of the control mode switch (61), the first control means (14) and a second control means (15) are provided. Control switching means (16) is provided for switching control operation so that when the control means (14) outputs an individual control command signal, the second control means (15) operates.

Furthermore, the first control means (14) includes a remote control (4).
and a receiving unit (14a) that receives the operation signal for group control that the centralized controller (2) outputs to the base unit (1a).
and a transmitter (14b) that outputs a status signal such as a temperature signal.
) are configured.

On the other hand, the second control unit (5) has a slave device address (#1).
An address changing unit (15a) that changes ~(#15) to the master unit address (#0), and an individual operation signal for each indoor unit (1), (1)... output by the remote controller (4). A receiving section (15b) that receives an operation signal output from the centralized controller (2), and a transmitting section (15c) that outputs a status signal are configured.

Next, each of the above indoor units (1), (1),...
The control operation will be explained based on the control flow shown in FIG.

First, in step ST1 after starting, it is determined whether the remote control (4) is set to group control or individual control, that is, the control mode switch (6
1) When group control is set, step ST1
Then, the process moves to step ST2, and when the individual control is set, the process moves from step ST1 to step ST3.

In the case of group control, control is performed in step ST2 according to addresses #0 to #15 set by the transmission microcomputer (42), for example. Next, proceeding to step ST4, each indoor unit (1),
(1),..., the self address is base unit address #0
The air conditioning unit (1) to which the master unit address #0 has been set moves to step ST5, receives the operation signal output from the central controller (2), and controls it based on the operation signal. At the same time, it is also operated by an operation signal from the remote controller (4).

On the other hand, the indoor units (1), (1), ... to which slave unit addresses #1 to #15 are set move from step ST4 to step ST6, and control switching is performed by the group control command signal from the remote controller (4). The means (16) switches the control operation to the first control means (14), and the means (16) switches the control operation to the first control means (14).
4), the reception unit (14a) is connected to the indoor unit (
1), and each indoor unit (1), (1),...
).

(G), . . .

During this group control, each indoor unit (1).

The status signals output by (1), . . . are sent to the status monitoring means (21 b) of the central controller (2) and the remote controller (4).
The receiving means (14b) receives the information and displays it on the display section (25) and the display means (7).

On the other hand, when the remote control (4) is set to individual control,
In step ST3, slave device addresses #1 to #15
Indoor unit (1) where is set.

(1), . . . are switched to the control operation of the second control means (15) by the control switching means (16). Then, the address changing unit (15a) changes the child unit addresses #1 to #15 to the base unit address #0, and the process moves to step ST5, where the receiving unit (15b) changes the central controller (2) and the remote controller (
4) receives the operation signals outputted by the controllers 4) and is controlled individually. In other words, the centralized controller (2)
And when the operation signal and set temperature signal are output from the remote control (4), each indoor unit (1) respectively.

(1), ... are operated individually, especially slave unit (1b)
receives operation signals from the central controller (2) as the base unit (1a) and is controlled individually, while the remote controller (4)
are each indoor unit (1), (1・).

. . . The set temperature and the like are displayed on the display means (7).

For example, the address can be displayed on the unit specific display section (77), even if it is individually controlled by the centralized controller (2).
The set temperature is displayed on the temperature display section (73).

Even during this individual control, each indoor unit (1) (1)
, . . . are received by the central controller (2) and the remote controller (4), and displayed on the display section (25) and the display means (7).

Therefore, when the setting of the remote controller (4) is changed from group control to individual control, the indoor unit (1
), (1), . . . are switched from the first control means (14) to the second control means (15), and since the operation signals can be received respectively, one remote controller (4) Therefore, each indoor unit (1), (1
), . . . can be controlled as a group or individually, the number of parts can be reduced and the installation space can be reduced.

Moreover, each indoor unit (
1), (1), . . . can be individually controlled, operability can be improved.

Further, since the first control means (14) and the second control means (15) are automatically switched by a command signal from the remote control (4), operability can be further improved.

In the present embodiment, the control switching means (16) is configured to be automatically switched by a command signal from the remote controller (4), but it is configured with a changeover switch as shown by the chain line in FIG. 3, so that it can be switched manually. You can also do this.

In addition, the remote control (4) consists of one for group control and one for individual control, and which one is used for control (
4) depending on whether the first control means (14) and the second control means (14) are installed.
The control means (15) may also be switched.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing the configuration of the present invention. 2 to 5 show embodiments of the present invention, FIG. 2 is an overall schematic configuration diagram of an air conditioner, FIG. 3 is a circuit block diagram,
FIG. 4 is a front view of the remote control, and FIG. 5 is a control flow diagram of the indoor unit. (1)... Indoor unit, (2)... Centralized controller, (4)... Remote control, (11)... CPU. (14)...First control means, (15)...Second control means, (14a), (15b)--Receiving section, (14b)
, (15c)...Transmission unit, (15a)...Address change unit, (21)...CPU. (21a)...operating means, (21b)...condition monitoring means. Patent applicant: Daikin Industries, Ltd. Representative: Patent attorney (former) 1) Hiroshi:, J, -
1-1 and 2 others Figure 4

Claims (3)

[Claims] (1) A plurality of air conditioning units (1), (1), ... are connected to a centralized controller (2), and each air conditioning unit (1), (1), ... is connected to a plurality of groups. (G)
, (G), ..., and each group (G), (
The air conditioning units (1), (1),... of each group (G) are connected to the remote control switches (4), (4),... provided for each group (G),... In the operation control device for an air conditioner that controls the units (1), (1), ..., the air conditioning units (1), (1), of each group (G),
The master unit address is set for one of the air conditioning units (1), the child unit addresses are set for the other air conditioning units (1), (1), and so on, and the above central controller (2) is set. is an operation means (21a) for outputting an operation signal to the air conditioning unit (1) of each group set in the master unit address;
and a status monitoring means (21b) for receiving status signals output from each air conditioning unit (1), (1), .
(1), . . . include a receiving unit (14a ), a transmitting section (14b) for outputting a status signal, an address changing section (15a) for changing a slave device address to a base device address, and a remote controller. Each air conditioning unit (1) output by switch (4)
, (1), . . . and a receiving unit (15b
) and a transmitter (15c) that outputs a status signal, and when the remote control switch (4) becomes group control, the first control means (14) When it comes to individual control, the second control means (15) is provided with a control switching means (
16) An operation control device for an air conditioner, characterized in that it is provided with: (2) The control switching means (16) is the first control means (14)
2. The operation control device for an air conditioner according to claim 1, further comprising a changeover switch for switching between the first control means and the second control means (15). (3) The control switching means (16) switches between the first control means (14) and the second control means (15) in response to the group control command signal and the individual control command signal output from each remote control switch (4). 2. The operation control device for an air conditioner according to claim 1, wherein the control device is configured to switch the operation control device.