JP2797729B2 - Control system and air conditioning management device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner, and more particularly to an air conditioner, in which a plurality of air conditioners are divided into a single or a plurality of air conditioner blocks, and the devices in each air conditioner block are remotely controlled and managed. The present invention relates to a control system and an air-conditioning management device capable of setting, prioritizing, prohibiting, or permitting the setting input of the operation state of each air conditioner according to the operation state of each apparatus.

[0002]

2. Description of the Related Art As a conventional air conditioner of this type, there is a technique described in Japanese Patent Application Laid-Open No. 63-273756.

FIG. 10 is a block diagram showing a schematic configuration of a conventional air conditioning management apparatus. In the figure, 101 is a central control unit, 102 is an air conditioner, 103 is each air conditioner 1
A hand controller connected to 02, 104 is an interface unit for signal transmission, and 105 is a signal line. The central control unit 101 is connected to a plurality of air conditioners 102 via an interface unit 104 and a signal line 105. Each air conditioner 102 is provided in an individual room or a different place, and each air conditioner 102 has a hand controller 1
03, and a control signal provided from the central control unit 101 via the interface unit 104.

[0004] In the air-conditioning management apparatus of this configuration,
The operation of the air conditioner 102 is controlled based on a control signal of either the central control unit 101 or the hand controller 103. In addition, by selecting the central control mode, control is performed only from the central side by the central control unit 101, and unnecessary operation from the local side by the local controller 103 is suppressed from the central side.

[0005]

In the conventional air conditioning management apparatus as described above, by selecting the central control mode, the operation setting from the local side can be suppressed from the central side. Setting input and hand controller 1
The setting input priority of 03 could be set on the center side.

However, when this type of air-conditioning management device is connected to a higher-level management system such as a building management system, the central management unit on the side of the air-conditioning management device, which is a subsystem, is a building management unit that is a higher-level management system. , It is not possible to set the priority of the setting input by the central management unit, the remote controller at hand, or the like. If an error occurs in the central management unit during centralized management by the central management unit and the centralized management cannot be performed, the centralized management by the central management unit cannot be canceled and the The operation status could not be managed properly.

[0007] Therefore, the present invention, even when the air-conditioning management device is connected to a higher-level management system such as a building management unit, the central management of the building management unit and the air-conditioning management device on the air-conditioning management device side, which is the lower-level management system. Unit and the remote controller's setting input function can be selected, and the central management unit of the building management unit or the air-conditioning management device has an error during the centralized management unit. It is an object of the present invention to provide a control system and an air-conditioning management device that can change the priority of the setting input function and cancel the centralized management by the management unit in which an abnormality has occurred when the setting is made.

[0008]

According to a first aspect of the present invention, there is provided a control system for transmitting data between a plurality of layers or more, and for prohibiting and permitting operation of a lower layer. When the control of the device and the control device higher than the lower device are determined to be abnormal, the prohibition of the lower operation is released.

According to a second aspect of the present invention, a control system performs transmission between three or more layers of devices, controls a lower layer device with an upper layer device, and controls the lower layer and the same layer in the upper layer. In a control system in which prohibition and permission can be set, when a lower-level device in which prohibition and permission can be set determines that a higher-level control device is abnormal, a lower-level device lower than the higher-level control device itself
This is to release the prohibition of the operation with.

An air conditioning management apparatus according to a third aspect of the present invention is an air conditioning unit including an indoor unit and an outdoor unit, a local remote controller for remotely operating the air conditioning unit, and a local central control for centrally controlling and monitoring the air conditioning unit and the local remote controller. An air conditioning block configured by a unit, an air conditioning block transmission conversion unit that performs transmission conversion of information between the device inside the air conditioning block and the device outside the air conditioning block, and sends information to the air conditioning block transmission conversion unit, and A transmission control unit that collects information from the air conditioning block transmission conversion unit, a building management unit connected to the transmission control unit that performs total control and management of the devices in the air conditioning block, and total control of the devices in the air conditioning block And is connected to the building management unit via a transmission control unit to trigger the equipment in the air conditioning block. An air conditioning system management unit that mutually transmits and manages data for controlling and managing the building and the building management unit, wherein the air conditioning block transmission conversion unit detects an operation abnormality of the transmission control unit, and The setting input for setting the operation state of the air conditioning unit according to the above is switched to the permission state, and the transmission control unit detects the operation abnormality of the air conditioning system management unit and sets the operation state of the air conditioning unit by the local remote controller. The input is switched to the permission state.

The air conditioning system management unit of the air conditioning management apparatus according to claim 4, wherein the setting input for setting the operation state of the air conditioning unit by the remote controller and the operation state of the equipment in each air conditioning block by itself are set. Setting input priority is selected by selecting the setting input to either the prohibition or the permission state, the operation abnormality of the building management unit is detected, and the setting input for setting the operation state of the device in the air conditioning block is permitted. Is switched to

[0012]

According to the first aspect of the present invention, the transmission between the devices of a plurality of layers or more is performed, and the lower layer device is controlled by the upper layer device which can set the prohibition and permission of the operation of the lower layer. Also, when it is determined that the upper control device is abnormal, the prohibition of the lower operation is released. Therefore,
If an operation of the host device becomes abnormal while the operation of the host device is prohibited, the operation of the host device is permitted.If the operation of the host device becomes abnormal while the operation of the host device is prohibited, the operation of the Operation becomes possible.

According to a second aspect of the present invention, it is possible to perform transmission between three or more layers of equipment, to control equipment of a lower hierarchy by an equipment of an upper hierarchy, and to set prohibition and permission of operation of the lower hierarchy in the upper hierarchy. Control systems,
When the lower-level device capable of setting prohibition and permission determines that the higher-level control device is abnormal, the higher-level control device itself
Releases the prohibition of operation on lower-level devices below the user. Therefore, when it is determined that the higher-level control device is abnormal, at least the lower-level control device itself is lower than the higher-level control device itself.
Since the operation can be performed by the lower device , the operation can be performed by the lower device even when an abnormality occurs in the relay or the transmission line connecting the higher device and the lower device.

According to a third aspect of the present invention, the air conditioning block transmission conversion unit detects an abnormal operation of the transmission control unit, and switches a setting input for setting an operation state of the air conditioning unit by the remote controller to a permission state. Detects abnormal operation of the system management unit, switches the setting input for setting the operating state of the air conditioning unit by the remote controller to the enabled state, and the air conditioning system management unit not only controls and controls the devices in the air conditioning block by itself, The air conditioning system management unit is also connected to a building management unit, which is a higher-level management system, via a transmission control unit, and mutually transmits and manages data for total control and management of the devices in the air conditioning block with the building management unit. In addition, a setting input to set the operation state of the air conditioning unit by the Rolling setting input for setting a state in the selection to either inhibit state or enabled state to select the priority of the setting input, to detect abnormal operation of the building management unit,
The air conditioning system management unit switches the setting input for setting the operation state of the equipment in the air conditioning block to the permission state, and the air conditioning system management unit disables or permits the setting input of the operation state of the air conditioning unit using the local remote controller. By prohibiting or permitting the remote control of the equipment, or by setting the air conditioning unit's operating state setting input to the prohibition state or the permission state by the air conditioning system management unit, the control of all air conditioning equipment by the air conditioning system management unit is prohibited or permitted. Then, the setting input function of the air conditioning system management unit and the remote controller at hand is selected.

According to a fourth aspect of the present invention, the setting input for setting the operation state of the air conditioning unit by the remote controller and the setting input for setting the operation state of each device in each air conditioning block by itself are prohibited or permitted. A setting input priority is selected to detect an operation abnormality of the building management unit, and a setting input for setting an operation state of the equipment in the air conditioning block is switched to a permission state. When does not work properly,
Permit control of all air conditioning equipment by the air conditioning system management department,
When the air-conditioning system management unit failed to operate normally, the remote control at hand allowed the control of each air-conditioning device, and an error occurred during centralized management by the building management unit or air-conditioning system management unit, and centralized management could not be performed. Sometimes, the priority of the setting input function is changed, and the centralized management by the management unit in which the abnormality has occurred is released.

[0016]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An air conditioner according to an embodiment of the present invention will be described below. FIG. 1 is a block diagram showing the overall configuration of an air conditioning management apparatus according to one embodiment of the present invention.

In FIG. 1, reference numeral 1 denotes an air conditioning unit comprising an indoor unit 1a and an outdoor unit 1b, and reference numeral 2 denotes an air conditioning unit comprising an indoor unit 2a and an outdoor unit 2b, like the air conditioning unit 1. 3 is, for example, an air conditioning unit 1
Remote control 4 functioning as a setting input means and a status display output means, is composed of air conditioning units 1 and 2, another air conditioning unit (not shown), a remote control 3 and another remote control (not shown), and the like. The air-conditioning block 5 is a transmission line in the air-conditioning block that connects the devices in the air-conditioning block 4, and the local central control unit 6 is connected to the transmission line 5 in the air-conditioning block. Centralized control and status monitoring of Reference numeral 7 denotes a transmission path outside the air conditioning block located outside the air conditioning block 4, and reference numeral 8 denotes a transmission conversion between the transmission path 5 inside the air conditioning block and the transmission path 7 outside the air conditioning block to manage data inside the air conditioning block 4. Department. 9 is an indoor unit 9a and an outdoor unit 9b
Is an air conditioning unit including an indoor unit 10a and an outdoor unit 10b. 11
Is a remote controller functioning as, for example, a setting input unit and a status display output unit of the air conditioning unit 9 in the same manner as the remote controller 3, and 12 is an air conditioning unit 9, 10 and another air conditioning unit (not shown), a remote controller 11 and another remote controller. An air-conditioning block including a remote controller (not shown) at hand; 13, a transmission line in the air-conditioning block for connecting each device group in the air-conditioning block 12; 14, a local centralized control connected to the transmission line 13 in the air-conditioning block And performs centralized control and status monitoring of a group of devices in the air conditioning block 12. Reference numeral 15 denotes an air conditioning block transmission conversion unit that performs transmission conversion between the transmission path 13 in the air conditioning block and the transmission path 7 outside the air conditioning block and manages data in the air conditioning block 12. Reference numeral 16 denotes the air conditioning block transmission converters 8 and 15 and another air conditioning block transmission converter (not shown).
Transmission control unit connected with the transmission path 7 outside the air conditioning block,
Reference numeral 7 denotes an air conditioning system management unit which is connected to the transmission control unit 16 and totally controls and manages the devices in the air conditioning blocks 4 and 12 and the devices (not shown) in each air conditioning block. , 12 and devices in each air-conditioning block (not shown) and a building management unit which is a higher-level management system for totally controlling and managing each building equipment.

Here, the normal operation of the air conditioning management apparatus of the present embodiment having the above configuration will be described. For example, FIG.
, The indoor unit 1a and the outdoor unit 1b
, An air conditioning unit 2 comprising an indoor unit 2a and an outdoor unit 2b, a remote controller 3,
In the air-conditioning block 4 composed of another air-conditioning unit (not shown) and another remote controller (not shown), each device covers a space of each area of the air-conditioning block 4. Each device in the air conditioning block 4 and the local central control unit 6
Are connected in a bus shape to the transmission line 5 in the air conditioning block, and each device in the air conditioning block 4 is centrally controlled and monitored by a local centralized control unit 6. And the air conditioning block 4
The data inside is controlled by an air conditioning block transmission converter 8 connected to the transmission path 5 inside the air conditioning block and the transmission path 7 outside the air conditioning block.

Further, similarly to the air conditioning block, an air conditioning unit 9 including an indoor unit 9a and an outdoor unit 9b, an air conditioning unit 10 including an indoor unit 10a and an outdoor unit 10b, a remote controller 11, and other air conditioning units (not shown). Also, in the air-conditioning block 12 constituted by another remote controller (not shown), each device has a space in each area of the air-conditioning block 12. Each device in the air conditioning block 12 and the local centralized control unit 14 are connected to the transmission path 13 in the air conditioning block in a bus shape, and each device in the air conditioning block 12 is centrally controlled and monitored by the local centralized control unit 14. And the air conditioning block 1
The data in the air conditioning block 2 is transmitted to the air conditioning block transmission conversion unit 1 connected to the air conditioning block transmission path 13 and the air conditioning block transmission path 7.
5 is managed.

The air-conditioning block transmission converters 8 and 15 and other air-conditioning block transmission converters (not shown) and the transmission controller 1
6 is connected in a bus shape by a transmission line 7 outside the air conditioning block,
Each data in each air-conditioning block is transmitted and converted by each air-conditioning block transmission conversion unit 8, 15 and transmitted to an air-conditioning system management unit 17 and a building management unit 18 via a transmission control unit 16 and managed. The control data from the air conditioning system management unit 17 is transmitted to the building management unit 18 via the transmission control unit 16.
Are transmitted to and managed by the air conditioning block transmission conversion units 8 and 15, are transmitted and converted by the air conditioning block transmission conversion units 8 and 15, and are transmitted to the local central control units 6 and 6 installed in the air conditioning blocks. 14 for total control of each device. The control data from the building management unit 18 is transmitted to the air conditioning system management unit 17 via the transmission control unit 16 and managed, and is also transmitted to each of the air conditioning block transmission conversion units 8 and 15 to transmit each air conditioning block transmission. The transmissions are converted by the converters 8 and 15 and transmitted to the local centralized controllers 6 and 14 installed in the respective air conditioning blocks to perform total control of each device.

Next, the operation of the air conditioning system management unit of the air conditioning management apparatus of the present embodiment will be described with reference to the flowcharts of FIGS. 2 to 7, and the operation of the transmission control unit will be described with reference to the flowchart of FIG. The operation of the air conditioning block transmission conversion unit will be described with reference to the flowchart of FIG.

FIG. 2 is a flowchart showing the main operation of the air conditioning system management unit of the air conditioning management apparatus according to one embodiment of the present invention. In the figure, when the power supply of the air conditioning system management unit 17 is turned on in step S1, the air conditioning system management unit 17 enters a monitoring state of all the air conditioners in step S2. In this monitoring state, it is determined in step S3 whether an operation command, data, or the like has been input to the air-conditioning system management unit 17. If an operation command, data, or the like has been input, the air-conditioning system 17 in step S4. It is determined whether or not the input to the system management unit 17 is a setting input such as an operation state of the air conditioner. If there is no operation command, data, or the like input to the air conditioning system management unit 17 in step S3, the process returns to the monitoring state of all air conditioners in step S2. If the input to the air-conditioning system management unit 17 is a setting input such as the operation state of the air-conditioning equipment in step S4, it is determined in step S5 whether the air-conditioning system management unit 17 is currently in the “setting input prohibited” state. I do. If it is in the "setting input prohibited" state, the process returns to the monitoring state of all air conditioners in step S2. If the input to the air-conditioning system management unit 17 is not the setting input of the operating state of the air-conditioning equipment in step S4, and if the setting is not the “setting input prohibited” state in step S5, the process proceeds to step S6. Part 17
Is performed in accordance with the input to the control unit, and thereafter, step S is performed again.
Return to 2.

FIG. 3 is a flowchart showing the operation of the air-conditioning system management unit in the air-conditioning management apparatus according to one embodiment of the present invention when an input to prohibit a local operation on the local remote controller is made. In the figure, in step S21, the input to the air conditioning system management unit 17 is
Then, it is determined whether or not an input for prohibiting the operation at hand with respect to No. 1 is made. This operation is performed when data or the like is input to the air conditioning system management unit 17 in step S3 in FIG. If the input is a hand operation prohibition input, a hand operation prohibition command is transmitted to the hand remote controllers 3 and 11 via the transmission control unit 16 and the air conditioning block transmission conversion units 8 and 15 in step S22.

FIG. 4 is a flowchart showing the operation of the air-conditioning system management unit in the air-conditioning management apparatus according to the embodiment of the present invention when a hand-operated permission is input to the hand-held remote controller. In the figure, in step S31, the input to the air conditioning system management unit 17 is
Then, it is determined whether or not the input of the operation at hand is permitted for Step 1. This operation is also performed when data or the like is input to the air conditioning system management unit 17 in step S3 in FIG. If the input is a hand operation permission input, a hand operation permission command is transmitted to the hand remote controllers 3 and 11 via the transmission control unit 16 and the air conditioning block transmission conversion units 8 and 15 in step S32.

FIG. 5 is a flowchart showing the operation of the air-conditioning system management section when the setting input prohibition is input in the air-conditioning management apparatus according to one embodiment of the present invention. In the figure, in step S41, it is determined whether or not the input to the air conditioning system management unit 17 is an input for prohibiting setting input. This operation is also performed when data or the like is input to the air conditioning system management unit 17 in step S3 in FIG. If the input is to prohibit the user's own setting input, in step S42, the self-setting input for setting the operating state of the air conditioner is prohibited.

FIG. 6 is a flowchart showing the operation of the air-conditioning system management section when the setting input permission is input in the air conditioning management apparatus according to one embodiment of the present invention. In the figure, in step S51, it is determined whether or not the input to the air conditioning system management unit 17 is an input of setting input permission. This operation is also performed when data or the like is input to the air conditioning system management unit 17 in step S3 in FIG. Then, if the input is to permit own setting input, in step S52, a state is set in which the own setting input for setting the operating state of the air conditioner is permitted.

FIG. 7 shows an air conditioning system according to an embodiment of the present invention, in which an air conditioning system management unit is in a setting prohibited state, that is, air conditioning when an abnormality occurs in the building management unit during centralized management by the building management unit. 5 is a flowchart illustrating an operation of a system management unit. In the figure, in step S61, it is determined whether or not the input to the air-conditioning system management unit 17 is a data input indicating an abnormality of the building management unit 18 which is a higher-level management system. This operation is also performed when data or the like is input to the air conditioning system management unit 17 in step S3 in FIG. If the data input indicates that the building management unit 18 is abnormal, in step S62, a state is set in which the user's own setting input for setting the operating state of the air conditioner is permitted.

Each of the flowcharts in FIGS. 3 to 7 is called and executed during execution of the main program in the air conditioning system management unit 17. FIG. 8 shows an air conditioning control apparatus according to an embodiment of the present invention, in which the setting input prohibition state of the remote controller at hand (the state of step S22 in FIG. 3), that is, during the centralized control by the air conditioning system management section, 9 is a flowchart illustrating an operation of the transmission control unit when an abnormality occurs.

In FIG. 7, in step S71, the air-conditioning system management unit 17 does not operate normally due to a communication error or the like, and the transmission control unit 16 determines whether or not the air-conditioning system management unit 17 is abnormal. If the air-conditioning system management unit 17 determines that the air-conditioning system is abnormal, in step S72, the setting input for setting the operating state of the air-conditioning device by the remote controllers 3 and 11 to the air-conditioning block transmission conversion units 8 and 15 is switched to the permission state. Transmit the setting input enable command. In response to this, the air conditioning block transmission converters 8 and 15 transmit a setting input permission command for switching the setting input for setting the operating state of the air conditioner by the remote controllers 3 and 11 to the permission state to the remote controllers 3 and 11.

FIG. 9 shows an air conditioning management apparatus according to an embodiment of the present invention, in which the setting input of the remote controller at hand is inhibited (the state of step S22 in FIG. 3), that is, transmission control is performed during centralized management by the air conditioning system management unit. 6 is a flowchart illustrating an operation of an air conditioning block transmission conversion unit when an abnormality occurs in the unit. In the figure, in step S81, the transmission control unit 16 does not operate normally due to communication abnormality or the like, and the air conditioning block transmission conversion units 8, 15 determine whether the transmission control unit 16 is abnormal. If the transmission control unit 16 determines that there is an abnormality, the setting input permission command for switching the setting input for setting the operating state of the air conditioner by the remote controllers 3 and 11 to the remote controller 3 and 11 is enabled in step S82. Is transmitted.

As described above, the air-conditioning management apparatus according to this embodiment includes the air conditioning units 1, 2, 9, 10 including the indoor units 1a, 2a, 9a, 10a and the outdoor units 1b, 2b, 9b, 10b, Units 1, 2, 9, 1
Air-conditioning block composed of local remote control units 3 and 11 for remotely controlling the remote control unit 0, local air-conditioning units 1, 2, 9, 10 and local central control units 6 and 14 for centrally controlling and monitoring the remote control units 3 and 11 4, 12 and the equipment inside the air conditioning blocks 4 and 12 and the equipment outside the air conditioning blocks 4 and 12 perform transmission conversion of information.
When it is detected that the air conditioner does not operate normally, the air-conditioning units 1, 2, 2
The air conditioner block transmission converters 8 and 15 are connected to the air conditioner block transmission converters 8 and 15 (which have a function of performing the operation shown in FIG. 9), and are connected to the air conditioner block transmission converters 8 and 15; The air conditioning block transmission conversion unit 8,
15 to the air-conditioning block transmission converter 8,
When the information from the air conditioner 15 is collected and the air-conditioning system management unit 17 detects that the air-conditioning system management unit 17 does not operate normally, the operation states of the air-conditioning units 1, 2, 9, and 10 by the remote controllers 3 and 11 are set. A transmission control unit 16 (which has a function of performing the operation shown in FIG. 8) for setting input to be performed, and a building management system connected to the transmission control unit 16 for total control and management of devices in the air conditioning blocks 4 and 12 Unit 18 and connected to the transmission control unit 16 to not only control and manage the equipment in the air conditioning blocks 4 and 12 by itself, but also to the building management unit 18 via the transmission control unit 16, The data for total control and management of the devices in the air conditioning blocks 4 and 12 are mutually transmitted to and managed by the building management unit 18, and the remote controllers 3 and 11 The air conditioning unit 1, 2 by,
The setting input for setting the operating states of the units 9 and 10 is selected to be either the prohibited state or the permitted state (the operation of FIG. 3 or FIG. 4), and the operating states of the devices in the air conditioning blocks 4 and 12 by themselves are set. When the setting input is selected to be either the prohibited state or the permitted state (the operation of FIG. 5 or FIG. 6) and the priority of the setting input is selected, and it is detected that the building management unit 18 does not operate normally. And an air conditioning system management unit 17 (which has a function of performing the operation shown in FIG. 7) that switches a setting input for setting an operation state of the devices in the air conditioning blocks 4 and 12 by itself to a permission state.

That is, the air conditioner of this embodiment is
The air-conditioning block transmission converters 8 and 15 detect an abnormal operation of the transmission controller 16 as shown in FIG.
8, the setting input for setting the operation state of the air conditioning units 1, 2, 9, and 10 is switched to the permission state, and the transmission control unit 16 detects the operation abnormality of the air conditioning system management unit 17 as shown in FIG. , 11 air conditioning units 1, 2,
The setting input for setting the operation states of 9 and 10 is switched to the permission state, and the air conditioning system management unit 17 is also connected via a transmission control unit to the building management unit 18 which is a higher-level management system. The data for control and management are mutually transmitted and managed with the building management unit 18, and the remote controllers 3, 11 as shown in FIGS.
Input to set the operation state of the air conditioning units 1, 2, 9, and 10 and the setting input to set the operation state of the equipment in each air conditioning block by itself are selected as either a prohibited state or a permitted state. Figure 7
As described above, the operation abnormality of the building management unit 18 is detected, and the setting input for setting the operation state of the equipment in the air conditioning block by itself is switched to the permission state.

Therefore, the air-conditioning system management unit 17 controls the air-conditioning units 1, 2, 9, 1 by the remote controllers 3, 11 at hand.
By setting the setting input of the operation state of 0 to the inhibition state or the permission state, the remote controller 3, 1
1 is prohibited or permitted, and the setting input of the operating state of the air conditioning units 1, 2, 9, 10 by the air conditioning system management unit 17 is set to the prohibited state or the permitted state.
The control of the air conditioning system management unit 17 for all the air conditioning equipment is prohibited or permitted, and the priority of the setting input function of the air conditioning system management unit 17 and the remote controllers 3 and 11 can be appropriately selected.
Further, when the building management unit 18 as the upper management system does not operate normally, the control of all the air conditioners by the air conditioning system management unit 17 is permitted, and the air conditioning system management unit 1 is controlled.
When the system 7 does not operate normally, the control of each air conditioner by the local remote controllers 3 and 11 is permitted, an abnormality occurs during the centralized management by the building management unit 18 or the air conditioning system management unit 17, and the centralized management cannot be performed. When the status is changed, the priority of the setting input function can be changed, and the centralized management by the management unit in which the abnormality has occurred can be released.

For this reason, not only the operation setting by the remote controllers 3 and 11 can be suppressed by the air-conditioning system management unit 17, but also the priority of the setting input of the air-conditioning system management unit 17 and the setting input of the local remote controllers 3 and 11. Can be set by the air-conditioning system management unit 17. Also, when this type of air conditioning management device is connected to a building management unit 18 which is a higher management system, the air conditioning system management unit 17 of the air conditioning management device which is a lower management system has a building management unit 18 and an air conditioning system. It is possible to set the priority of setting input by the system management unit 17 and the remote controllers 3 and 11 at hand. Further, even when an abnormality occurs in the air conditioning system management unit 17 during the centralized management by the air conditioning system management unit 17 and the centralized management cannot be performed, the centralized management by the air conditioning system management unit 17 can be canceled. It is possible to properly maintain the operation state of the air conditioner.

Therefore, the air conditioner of this embodiment is
Since the air-conditioning system management unit 17 has a function of prohibiting or permitting the remote controllers 3 and 11 and the setting input for setting the operation state of the air-conditioning equipment by the user, the building management of the host building management system to which the air-conditioning management device is connected is provided. Priority can be arbitrarily selected by the setting unit 18, the air-conditioning system management unit 17, and the local remote controllers 3 and 11, and unnecessary operation by the air-conditioning system management unit 17 and the local remote controllers 3 and 11 is a higher level management system such as a building management system. Not only from the unit 18 but also from the air conditioning system management unit 17 which is a lower management system, more efficient operation can be performed. Also, while the setting input is prohibited, the building management unit 18 and the air conditioning system management unit 17,
When an abnormality occurs in the transmission control unit 16, a function for canceling the setting input prohibition state is provided, so that operation control of each air conditioner can be continued, and highly reliable air conditioning management can be realized. .

According to the above embodiment, even when the air-conditioning management device is connected to a higher-level management system such as the building management unit 18, the building management unit 18 and the air-conditioning management are controlled by the air-conditioning management device that is a lower-level management system. It is possible to select the priority of the setting input function of the central management unit of the apparatus and the remote control units 3 and 11, and if an abnormality occurs in the management unit during centralized management by the building management unit 18 or the central management unit of the air conditioning management device. Get up,
When the centralized management cannot be performed, the control system can change the priority of the setting input function and cancel the centralized management by the management unit in which the abnormality has occurred.

That is, the air-conditioning management apparatus of the above embodiment is
It is a higher-layer device that performs transmission between multiple layers or more and can set the prohibition and permission of lower-layer operations, controls lower-layer devices, and considers that a control device higher than the lower device is abnormal. When it is determined, the control system can release the prohibition of the lower-level operation. Therefore,
If the higher-level device becomes abnormal while the lower-level device is prohibited, the operation of the lower-level device is allowed.Thus, even if the higher-level device becomes abnormal while the lower-level device is prohibited from operating, Operations can be performed on lower-level devices.

In the above embodiment, transmission is performed between three or more layers of devices, and a device of a lower layer is controlled by a device of a higher layer, and prohibition and permission of operation of a lower layer are set in a plurality of higher layers. In a possible control system, a lower-level device capable of setting prohibition and permission may be a control system that releases the prohibition of operation by the lower-level device itself when it determines that the higher-level control device is abnormal. Therefore, if the higher-level device determines that the lower-level device is abnormal while the lower-level device is prohibited from operating, the lower-level device itself allows the operation, and the relay or transmission line connecting the higher-level device and the lower-level device has an error. Even if it occurs, the operation can be performed by the lower device.

In the above embodiment, the air-conditioning block composed of the air-conditioning unit and the remote controller at hand has been described. However, the air-conditioning block having other devices can be similarly used.

[0040]

As described above, the control system according to the first aspect of the present invention allows the operation of the lower device when the operation of the upper device becomes abnormal while the operation of the lower device is prohibited. Even if a higher-level device becomes abnormal while a lower-level device is prohibited from being operated, the lower-level device can be operated.

The control system according to the second aspect of the present invention cancels the prohibition of the operation of the lower-level device itself and its lower-level devices when the lower-level device determines that the higher-level device is abnormal while the lower-level device is prohibited from operating. Therefore, even if an error occurs in the repeater or transmission line connecting the upper device and the lower device,
Subordinate devices below the corresponding superordinate control device itself
Operation becomes possible.

An air conditioning control apparatus according to a third aspect of the present invention is an air conditioning block including an air conditioning block, an air conditioning block transmission conversion unit that performs information transmission conversion between the air conditioning block equipment group and the air conditioning block outside equipment, A transmission control unit connected to the air conditioning block transmission conversion unit, sends information to the air conditioning block transmission conversion unit, and collects information from the air conditioning block transmission conversion unit. A building management unit for total control and management of equipment; and an air conditioning system management unit connected to the transmission control unit for total control and management of the equipment in the air conditioning block. The air conditioning block transmission conversion unit operates the transmission control unit. When an abnormality is detected, the setting input for setting the operating state of the air conditioning unit by the local remote controller is switched to the permission state, and the transmission control unit manages the air conditioning system. Operation of the air conditioner is detected, the setting input for setting the operation state of the air conditioning unit by the remote controller is switched to the permission state, and the air conditioning system management unit is also connected to the building management unit, which is a higher-level management system, via the transmission control unit. Since the data for total control and management of the devices in the air conditioning block are mutually transmitted and managed with the building management unit, the setting input is prohibited, that is, by the building management unit or the air conditioning system management unit. When an error occurs during centralized management and it becomes impossible to perform centralized management, it has a function to change the priority of the setting input function and cancel the centralized management by the management unit where the abnormality has occurred. Operation control can be continued, and a highly reliable air conditioner can be realized.

In the air conditioner management device according to the present invention, the setting input for setting the operation state of the air conditioning unit by the remote controller and the setting input for setting the operation state of the equipment in each air conditioning block by itself are prohibited or permitted. And selecting the priority of the setting input, detecting the operation abnormality of the building management unit, and switching the setting input for setting the operation state of the device in the air conditioning block by itself to the permission state. The air-conditioning system management unit has a function of prohibiting or permitting the setting input for setting the operation state of the air-conditioning equipment by the remote controller at hand and by itself, and the building management unit of the host building management system to which the air-conditioning management device is connected, Unit and remote control can be selected as appropriate, and the air conditioning system management unit and unnecessary remote control can be superordinately managed. Not only from the building management unit is the stem, can be suppressed by the air conditioning system management unit is a low-level management system, it is more efficient operation.

[Brief description of the drawings]

FIG. 1 is a block diagram showing the overall configuration of an air conditioning management apparatus according to one embodiment of the present invention.

FIG. 2 is a flowchart showing a main operation of an air conditioning system management unit of the air conditioning management apparatus according to one embodiment of the present invention.

FIG. 3 is a flowchart showing the operation of the air-conditioning system management unit in the air-conditioning management apparatus according to one embodiment of the present invention when an input to prohibit a local operation on a local remote controller is input.

FIG. 4 is a flowchart showing the operation of the air-conditioning system management unit in the air-conditioning management apparatus according to one embodiment of the present invention when a hand-operated permission is input to a hand-held remote controller.

FIG. 5 is a flowchart showing the operation of the air-conditioning system management unit when the setting input prohibition is input in the air-conditioning management apparatus according to one embodiment of the present invention.

FIG. 6 is a flowchart showing the operation of the air conditioning system management unit when the setting input permission is input in the air conditioning management apparatus according to one embodiment of the present invention.

FIG. 7 is a flowchart showing the operation of the air conditioning system management unit when an abnormality occurs in the building management unit during centralized management by the building management unit in the air conditioning management apparatus according to one embodiment of the present invention. .

FIG. 8 is a flowchart showing the operation of the transmission control unit when an abnormality occurs in the air conditioning system management unit during centralized management by the air conditioning system management unit in the air conditioning management apparatus according to one embodiment of the present invention. is there.

FIG. 9 is a flowchart showing an operation of the air conditioning block transmission conversion unit when an abnormality occurs in the transmission control unit during centralized management by the air conditioning system management unit in the air conditioning management apparatus according to one embodiment of the present invention; It is.

FIG. 10 is a block diagram showing a schematic configuration of a conventional air conditioning management apparatus.

[Explanation of symbols]

1, 2, 9, 10 Air conditioning units 1a, 2a, 9a, 10a, 1b, 2b, 9b, 10b
Outdoor unit 3,11 Remote controller at hand 4,12 Air conditioning block 5,13 Transmission line inside air conditioning block 6,14 Local centralized control unit 7 Transmission line outside air conditioning block 8,15 Air conditioning block transmission conversion unit 16 Transmission control unit 17 Air conditioning system management unit 18 Building Management Department

──────────────────────────────────────────────────続 き Continuation of front page (72) Inventor Masaru Sugita 3-18-1 Oga, Shizuoka-shi, Shizuoka Pref. Mitsubishi Electric Engineering Co., Ltd. Nagoya Office Shizuoka branch , A) (58) Field surveyed (Int.Cl. ⁶ , DB name) F24F 11/02 103 F24F 11/02 104

Claims (4)

(57) [Claims] 1. Transmission between devices of a plurality of layers or more is performed.
Upper-level machines that can be set to prohibit and allow lower-level operations
Control the lower-level devices with the
When it is determined that the upper control device is abnormal,
A control system for releasing prohibition of operation. 2. A control system capable of transmitting data between three or more layers of equipment and controlling a lower layer of equipment by an upper layer of equipment, and prohibiting and permitting operation of the lower layer of the upper layer. When a lower-level device capable of setting prohibition and permission determines that a higher-level control device is abnormal, the lower-level device has a lower level than the higher-level control device itself.
A control system characterized by releasing the prohibition of operation on the position device . 3. An air-conditioning block comprising an air-conditioning unit including an indoor unit and an outdoor unit, a remote controller for remotely controlling the air-conditioning unit, a local central control unit for centrally controlling and monitoring the air-conditioning unit and the remote controller, An air conditioning block transmission conversion unit that performs transmission conversion of information between the air conditioning block inside device and the air conditioning block outside device, and sends information to the air conditioning block transmission conversion unit, and transmits information from the air conditioning block transmission conversion unit. A transmission control unit to collect, a building management unit connected to the transmission control unit to perform total control and management of the devices in the air conditioning block, and a total control and management of the devices in the air conditioning block, and the building management unit Connected via a transmission control unit to
An air conditioning management apparatus comprising: an air conditioning system management unit that mutually transmits and manages data for total control and management of the devices in the air conditioning block to and from the building management unit, wherein the air conditioning block transmission conversion unit includes a transmission control unit Abnormal operation
Detecting and controlling the air conditioning unit by the remote controller at hand.
When the setting input for setting the operating state is switched to the enabled state,
In addition, the transmission control unit detects an operation abnormality of the air conditioning system management unit.
Detecting and controlling the air conditioning unit by the remote control at hand
An air conditioning management device, wherein a setting input for setting an operation state is switched to a permission state . 4. The air conditioning system management unit according to claim 2, wherein:
A setting to set the operating condition of the air conditioning unit by
Operation of equipment in each air conditioning block by constant input and by itself
Whether the setting input to set the status is prohibited or enabled
Select the setting input priority and select the building management
Operation of the equipment in the air conditioning block
Switching the setting input to set the state to the enabled state
The air-conditioning management device according to claim 3, wherein