JP2001317791A - Air conditioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To enable simultaneous change of the settings of other air conditioners belonging to the same group using a single remote controller while staying in a room and to eliminate such a trouble as only specific persons have an uncomfortable feeling for a demand request. SOLUTION: Outdoor units 31, 32, indoor units 11-16, and an air conditioning monitor panel 41 are interconnected through air conditioning signal lines 1-6 and monitor signal lines 7, 8, and a plurality of indoor units 11-16 are managed integrally for each of preset groups 51, 52 through mutual communication. At the time of demand request, the air conditioning monitor panel 41 judges the air conditioning load on the indoor unit side based on demand air conditioning capacities designated for the outdoor units 31, 32 by respective indoor units 11-16, and demand objects are determined sequentially for the indoor units 11-13 belonging to the same group 51 starting from that having a lowest air conditioning load.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner in which a plurality of air conditioners are integrally managed and controlled for each group.

[0002]

2. Description of the Related Art A conventional air conditioner (hereinafter simply referred to as an air conditioner) is operated unilaterally from an air conditioner monitoring panel for each air conditioner or a group of a plurality of preset air conditioners. It changed commands and operation modes, and set room temperature.

[0003]

However, the only way to perform group control by this method is to operate from an air conditioning monitoring panel, and a person who is actually in a room can set other air conditioners in the group. I couldn't. Also, if a person in the room wants to operate, the remote controllers of all the air conditioners belonging to the group must be operated, and the operation is complicated.

Further, the conventional demand control method of the air conditioner at the time of power peak is a method of transmitting a command to reduce the capacity to zero from an air conditioner or a group to be demanded from an air conditioning monitoring panel receiving a demand signal. Therefore, the air conditioner or group to be demanded needs to be determined in advance by the air conditioning monitoring panel.

[0005] For this reason, when a demand request is made, only the preset capability of the air conditioner becomes zero, and only a specific person near the air conditioner deteriorates the physical sensation. Therefore, it was requested that some measures be taken to improve the situation.

[0006] The present invention has been made in view of the above circumstances, and aims to achieve the following objects. To be able to change settings of other air conditioners belonging to the same group at the same time by operating only one remote control while staying in the room. Eliminate the inconvenience that only certain people have a bad feeling to demand requests.

[0007]

The present invention has the following features to attain the object mentioned above. In the air conditioner according to claim 1, a group of air conditioners to be integrally managed from a plurality of indoor units and an outdoor unit connected to the indoor units via a signal line is formed, and the signal line is formed. An air conditioning monitoring panel communicably connected to the indoor unit via the air conditioner, wherein the air conditioning monitoring panel is adapted to reduce the current consumption of the air conditioner in response to an external demand request. And selectively transmitting a command to lower the air conditioning capacity.

[0008] In such a configuration, when a demand request is made, the indoor unit to be demanded is selectively specified. Only abilities are not always zeroed.

According to a second aspect of the present invention, in the air conditioner according to the first aspect, the air conditioning monitoring panel determines an air conditioning load based on a signal from the indoor unit, and sequentially determines an indoor unit having a smaller air conditioning load. It is characterized by transmitting a command to lower the air conditioning capacity.

In such a configuration, since the indoor units having the smaller air-conditioning loads are sequentially selected as demand targets, it goes without saying that only the capacity of the air conditioner set in advance as the demand target is not always set to zero. In addition, it is possible to minimize the influence on the specific person due to the decrease in the air conditioning capacity.

According to a third aspect of the present invention, in the air conditioner according to the first aspect, the air conditioning monitoring panel lowers the air conditioning capacity of the indoor unit in accordance with a demand target set in advance for each group. It is characterized by transmitting a command.

With such a configuration, even if the signal transmitted from the indoor unit is not constantly monitored by the air-conditioning monitoring panel, it is possible to prevent the specific air conditioner's capability from being constantly reduced to zero.

According to a fourth aspect of the present invention, in the air conditioner according to the first aspect, the air conditioning monitoring panel transmits a command to all the indoor units to reduce the air conditioning capacity. .

In such a configuration, the air conditioning capacity of all the air conditioners is reduced instead of making the air conditioning capacity of the air conditioner selected as the demand object zero or stopping the operation. The imbalance of the settings that occurs between them is suppressed.

According to a fifth aspect of the present invention, in the air conditioner according to any one of the first to fourth aspects, the air conditioner monitoring panel comprises:
A command is transmitted to the selected specific indoor unit or all the indoor units so that the set temperature is low during heating and high during cooling.

In such a configuration, not only when all the air conditioners are targeted for demand, but also when a specific air conditioner is selected as a demand target, the imbalance of the settings that occurs between the air conditioners is not affected. Is suppressed.

[0017] According to a sixth aspect of the present invention, there are provided a plurality of indoor units,
An air conditioner group to be integrally managed is formed from an outdoor unit connected to the indoor unit via a signal line, and an air conditioning monitor connected to the indoor unit via the signal line so as to be able to communicate with each other. When a setting change command is transmitted to the indoor unit from the remote controller or the air conditioning monitoring panel, all other indoor units in the group to which the indoor unit that received the command belongs are provided. Are transmitted to the same command.

In such a configuration, when the setting is changed from any one of the remote controllers corresponding to each indoor unit, the setting is changed to all the other indoor units belonging to the same group as the indoor unit whose setting has been changed. The same setting change is performed for this. Similarly, when the setting is changed from the air-conditioning monitoring panel, the same setting is changed for all other indoor units belonging to the same group as the indoor unit whose setting is to be changed.

[0019]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A first embodiment of an air conditioner group management system according to the present invention will be described below with reference to FIG.

In FIG. 1, reference numerals 1 to 6 denote air conditioning control signal lines (signal lines), 7 and 8 are signal lines connected to the signal lines 1 to 6 for monitoring and controlling air conditioning, and 11 to 16 are indoor units. , 21-26
Is a remote control, 31 and 32 are outdoor units, 41 is an air conditioning monitoring panel,
42 is a demand signal generator for power limitation at the time of peak power, and 51 and 52 are groups of air conditioners installed in one room and operated at the same temperature setting and operation mode.

The indoor units 11 and 12 and the outdoor unit 31 are connected by signal lines 1 and 3 to perform an air-conditioning operation integrally, and the indoor units 13 to 16 and the outdoor unit 32 are similarly connected to the signal lines 2 to 3.
6 are connected to each other to perform air conditioning operation integrally. Each of the indoor units 11 and 12 calculates the required air conditioning capacity based on the deviation of the room temperature from the set temperature, and constantly requests the outdoor unit 31 for the required air conditioning capacity.

At this time, the request signal is transmitted to the outdoor unit 31 via the signal lines 1 and 3. In addition, indoor units 13 to 16
Similarly, the air conditioner constantly requests the outdoor unit 32 for the required air conditioning capacity via the signal lines 2 to 6.

The air conditioning monitoring panel 41 is connected to the signal lines 1 to 6 between the indoor and outdoor units via the signal lines 7 and 8, so that the required air conditioning sent from the indoor units 11 to 16 to the outdoor units 31 and 32 is required. The capacity can be received in the same manner as those of the outdoor units 31 and 32, and the required air conditioning capacity of the indoor units 11 to 16 can be always grasped.

When the air conditioning monitoring panel 41 receives the demand signal from the demand signal generator 42, the indoor unit 1 installed in the same room and set in the same group is set.
Of the indoor units 1 to 13 (group 51), the indoor units estimated to have the smallest required air-conditioning capacity and the small load via the signal lines 1 to 8 by any of the following methods (1) to (3) Command signal to reduce the air conditioning capacity. Here, "the smallest required air-conditioning capacity" refers to a case where the demand is the smallest with respect to the maximum required capacity determined by the model capacity of the indoor unit.

(1) An instruction is issued to the indoor unit having the smallest required air conditioning capacity to force the required air conditioning capacity to zero. (2) The operation mode of the indoor unit having the smallest required air conditioning capacity is forcibly switched from the cooling or heating mode to the air blowing mode, and the required air conditioning capacity is set to zero. (3) The operation of the indoor unit having the smallest required air conditioning capacity is stopped.

If the current consumption still needs to be reduced even if the capacity of only the indoor unit having the smallest required air conditioning capacity is reduced, another indoor unit belonging to the same group as the indoor unit whose capacity has been reduced is replaced with another indoor unit. For the target, the air conditioning capacity is reduced by one of the methods (1) to (3) in order from the indoor unit having the smallest required air conditioning capacity.

As described above, according to the present embodiment, when a demand request is made, the indoor units having the smaller required air-conditioning capacity for the outdoor units 31 and 32 are sequentially selected as demand targets, so that a conventional Only the capacity of the air conditioner set as the demand target is not always set to zero, and the inconvenience that only a specific person has a bad feeling is solved.

Next, a second embodiment of the air conditioner group management system according to the present invention will be described with reference to FIG. In the present embodiment, each of the indoor units 11 to 16
However, the deviation of the room temperature from each set temperature is always grasped. And since the air-conditioning monitoring panel 41 is connected to the signal lines 1 to 6 between the indoor unit and the outdoor unit via the signal lines 7 and 8, it is possible to obtain the deviation value of the indoor units 11 to 16. Have been.

The method of obtaining this deviation value includes the following:
There are the following two types in which the values to which the indoor units 11 to 16 respond to the request from the device 1 are used. The air conditioning monitoring panel 41 obtains a deviation from the set temperature and the room temperature. The deviation of the room temperature from the set temperature is used as it is.

When the air conditioning monitoring panel 41 receives the demand signal from the demand signal generator 42, the indoor unit 1 installed in the same room and set in the same group is set.
Among the indoor units of 1 to 13 (group 51), which are estimated to have the smallest deviation and the smallest load, the following (4) to (4)
The command signal is sent to the indoor units 11 to 16 via the signal lines 1 to 8 by any one of the methods (6) to reduce the air conditioning capacity.

(4) For the indoor unit having the smallest deviation,
A command to force the required air conditioning capacity to zero is transmitted. (5) The operation mode of the indoor unit having the smallest deviation is forcibly switched from the cooling mode or the heating mode to the blow mode, and the required air conditioning capacity is set to zero. (6) The operation of the indoor unit having the smallest deviation is stopped.

According to the present embodiment, when a demand request is made, the indoor units having the smaller deviation between the set temperature and the room temperature are sequentially selected as demand targets. Is not always reduced to zero, and the inconvenience that only a specific person feels worse is eliminated.

If the current consumption still needs to be reduced even if the capacity of only the indoor unit having the smallest required air conditioning capacity is reduced, the other units belonging to the same group as the indoor unit whose capacity has been reduced, as described above. With respect to the indoor units, the air conditioning capability is reduced by one of the methods (4) to (6) in order from the indoor unit having the smallest required air conditioning capability.

Next, a third embodiment of an air conditioner group management system according to the present invention will be described with reference to FIG. In the present embodiment, when the air conditioning monitoring panel 41 receives a demand signal from the demand signal generator 42, any of the following (7) to (9) is given to the indoor units of the same group 51 in accordance with a preset priority. In this way, a command signal is transmitted via the signal lines 1 to 8 to reduce the air conditioning capacity.

(7) A command is sent to the indoor unit having the lowest priority to force the required air conditioning capacity to zero. (8) Forcibly switching the operation mode of the indoor unit having the lowest priority from the cooling or heating mode to the blow mode,
Reduce the required air conditioning capacity to zero. (9) Stop the operation of the indoor unit having the lowest priority.

The priority order is, for example, as compared with an indoor unit located near the window side and an indoor unit located near the corridor side in the same room. Air conditioning load tends to be relatively small, and in the case of heating and clear weather, the air conditioning load of the indoor unit on the window side tends to be relatively small. Is set in consideration of disturbance from the like.

As described above, according to the present embodiment, when a demand request is made, indoor units having lower priorities are sequentially selected as demand targets. Only the capability of the machine is not always reduced to zero, and the inconvenience that only a specific person has a bad feeling is solved. Further, unlike the first and second embodiments described above, there is no need for the air conditioning monitoring panel 41 to monitor signals transmitted from the indoor units 11 to 16.

Next, a fourth embodiment of the air conditioner group management system according to the present invention will be described with reference to FIG. In the present embodiment, when the air conditioning monitoring panel 41 receives a demand signal from the demand signal generator 42, one of the indoor units 11 to 13 (group 51) installed in the same room and set in the same group , The command signal is transmitted via the signal lines 1 to 8 by any one of the following methods (10) to (12) to reduce the air-conditioning capacity.

(10) A command for forcibly setting the required air conditioning capacity of the selected indoor unit to zero is transmitted. (11) The operation mode of the selected indoor unit is forcibly switched from the cooling or heating mode to the blow mode, and the required air conditioning capacity is set to zero. (12) Stop the operation of the selected indoor unit.

According to this embodiment, when a demand request is made, the indoor units 11 to 13, 1
4 to 16 are selected as demand targets while rotating one by one. Therefore, similarly to the above, only the capacity of the air conditioner set in advance as the demand target is not always set to zero, and only a specific person is required. The inconvenience of worsening the bodily sensation is eliminated. Further, unlike the first and second embodiments described above, there is no need for the air conditioning monitoring panel 41 to monitor signals transmitted from the indoor units 11 to 16.

The order of the rotation may be set, for example, in the order of the indoor units 11, 12, 13,..., In the order of every other unit, or in the room. Various modes can be set, such as setting so that air conditioners at distant positions are sequentially selected in consideration of the installation mode of the air conditioners.

Next, a fifth embodiment of the air conditioner group management system according to the present invention will be described with reference to FIG. In the present embodiment, when the air-conditioning monitoring panel 41 receives a demand signal from the demand signal generator 42, the air-conditioning monitoring panel 41 transmits a command for forcibly reducing the air-conditioning capacity of all the indoor units 11 to 16, thereby reducing the air-conditioning capacity. It is.

Conventionally, since the indoor unit that was the target of the demand was stopped, there was an inconvenience that only the persons near the stopped indoor unit deteriorated the physical sensation. When a request is made, rather than completely shutting down the indoor units, the performance of all air conditioners is reduced, so that it is possible to prevent only a specific person from feeling extremely bad In addition, it is possible to suppress the imbalance of the settings generated between the air conditioners.

Next, a sixth embodiment of an air conditioner group management system according to the present invention will be described with reference to FIG. In the present embodiment, when the air conditioning monitoring panel 41 receives a demand signal from the demand signal generator 42, it does not stop the operation of the indoor unit to be demanded, but sets the set temperature for a specific or all indoor units. Send a command signal to lower during heating and increase during cooling,
This reduces the air conditioning capacity.

That is, according to the present embodiment, when a demand request is made, the air conditioning capacity of the air conditioner selected as the demand object is not reduced to zero or the operation is stopped, but the specific air conditioner selected as the demand object is not operated. Since the set temperature of the air conditioner or all air conditioners is changed, it is possible not only to prevent a specific person from feeling extremely bad, but also to imbalance the settings that occur between each air conditioner. Can also be alleviated.

Here, when a specific indoor unit is selected as a demand object to reduce the air-conditioning capacity, for example, the method for selecting a demand object described in the above-described first to fourth embodiments is used. Can be adopted.

Next, a seventh embodiment of the air conditioner group management system according to the present invention will be described with reference to FIG. In the present embodiment, when the set temperature of the indoor unit 11 is set to 25 ° C. by the remote controller 21, the command is sent to the air conditioning monitoring panel 41 via the signal lines 1 and 8.

In the air conditioning monitoring panel 41, the other indoor units 12, 13 in the group 51 are set in order to set all the indoor units 11 to 13 of the group 51 to which the changed indoor unit 11 belongs.
A command to set the set temperature to 25 ° C. is transmitted to signal line 13 via signal lines 7 and 8 and signal lines 1 to 3.

As a result, the indoor units 11 to 11 in the group 51
13 are all set to the same set temperature of 25 ° C. Similarly,
Even when the operation mode is changed from cooling to heating, the indoor units 11 to 13 and 14 to 16 in the same groups 51 and 52 are unified to the same mode (heating in this case).

According to the present embodiment, the remote controllers 21 to 26
If you change the setting from any one of
The same setting is also applied to all the indoor units 11 to 13 and 14 to 16 belonging to the insides 1, 52. Air conditioning monitoring panel 4
Similarly, when the setting is changed from 1, if the setting of one or more indoor units in the group is changed, all other indoor units in the same group are also changed to the same setting.

As a result, the indoor units 11 to
When a plurality of units 13, 14 to 16 are installed to air-condition one space, all remote controllers 2 in the groups 51 and 52 are controlled.
A good space can be realized without causing imbalance in the settings without operating any of 1 to 23 and 24 to 26.

[0052]

As is clear from the above description, according to the present invention, the following effects can be obtained. (A) In the air conditioner according to the first aspect, since the indoor unit to be demanded is selectively specified,
As in the related art, only the capacity of an air conditioner set in advance as a demand target is not always set to zero, and it is possible to prevent a specific person from being extremely uncomfortable.

(B) In the air conditioner according to the second aspect,
Since the indoor units having the smaller air-conditioning loads are sequentially selected as the demand targets, the influence on the specific person due to the decrease in the air-conditioning ability can be minimized.

(C) In the air conditioner according to the third aspect,
Even if the air-conditioning monitoring panel does not constantly monitor the signal transmitted from the indoor unit, it is possible to prevent the capability of only a specific air conditioner from being constantly zero.

(D) In the air conditioner according to the fourth aspect,
Rather than setting the air conditioning capacity of the air conditioner selected as the demand target to zero or stopping the operation, the air conditioning capacity of all air conditioners is reduced, so the imbalance in settings that occurs between each air conditioner is suppressed. Thus, a more comfortable space can be maintained even at the time of a demand request.

(E) In the air conditioner according to the fifth aspect,
Not only when all air conditioners are set as demand targets, but also when a specific air conditioner is selected as a demand target, the imbalance of settings that occurs between each air conditioner is suppressed. The maintenance of a comfortable space can be made more reliable.

(F) In the air conditioner according to the sixth aspect,
When a setting change is performed from one of the remote controllers corresponding to each indoor unit, the same setting change is performed for all other indoor units belonging to the same group as the indoor unit whose setting has been changed. Also, when the setting is changed from the air conditioning monitoring panel, the same setting change is similarly performed for all other indoor units belonging to the same group as the indoor unit targeted for the setting change. When multiple indoor units are installed in one room to air-condition one space, a good space can be realized without setting imbalance without operating all the remote controllers in the same group. be able to.

[Brief description of the drawings]

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

FIG. 2 is a block diagram showing another embodiment of the air conditioner according to the present invention.

[Explanation of symbols]

 1-6 Air conditioning signal line 7, 8 Monitoring signal line 11-16 Indoor unit 21-26 Remote controller 31, 32 Outdoor unit 41 Air conditioning monitoring panel

Continued on the front page (72) Inventor Yukie Hara F-term in Nagoya Laboratory, Mitsubishi Heavy Industries, Ltd. F-term (reference) 3L060 AA03 AA05 CC19 DD02 EE05 3L061 BA03 BA05

Claims (6)

[Claims] 1. A group of air conditioners to be integrally managed from a plurality of indoor units and an outdoor unit connected to the indoor units via signal lines is formed, and the indoor unit is controlled via the signal lines. An air conditioning monitoring panel communicably connected to the air conditioner, wherein the air conditioning monitoring panel is selectively provided to the indoor unit when it becomes necessary to reduce the current consumption of the air conditioner in response to a demand request from the outside. An air conditioner, which sends a command to lower the air conditioning capacity to the air conditioner. 2. The air-conditioning monitoring panel determines an air-conditioning load based on a signal from the indoor unit, and transmits a command to decrease the air-conditioning capacity in order from the indoor unit with the smallest air-conditioning load. 2. The air conditioner according to 1. 3. The air conditioner according to claim 1, wherein the air conditioning monitoring panel transmits a command to lower the air conditioning capacity to the indoor units in accordance with a demand target set in advance for each of the groups. Machine. 4. The air conditioner according to claim 1, wherein the air conditioning monitoring panel sends a command to lower the air conditioning capacity to all the indoor units. 5. The air conditioning monitoring panel sends a command to a selected specific indoor unit or all indoor units to set the set temperature low during heating and high during cooling. 5. The air conditioner according to any one of 4. 6. A group of air conditioners to be integrally managed from a plurality of indoor units and an outdoor unit connected to these indoor units via signal lines, and the indoor unit is formed via the signal lines. An air conditioning monitoring panel communicably connected to the indoor unit, wherein the air conditioning monitoring panel receives a command to change the setting from the remote controller or the air conditioning monitoring panel to the indoor unit when the indoor unit receives the command. Transmitting the same command to all other indoor units in the group to which the group belongs.