JP3985992B2 - Central control device for air conditioners - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air conditioner centralized management apparatus that centrally manages a plurality of air conditioners installed in one room.
[0002]
[Prior art]
Conventionally, there has been proposed an air conditioning management system in which a plurality of air conditioners are installed in one room and the plurality of air conditioners are managed by a single management device. For example, Japanese Patent Laid-Open No. 6-265191 is proposed. It is described in the publication.
[0003]
According to the air conditioning management system described in the above-mentioned publication, a plurality of air conditioners and temperature sensors are divided into several blocks, and the operation state of the air conditioners in the block is displayed for each block. A display unit (local centralized remote control) and an operation unit (local remote controller) for turning on / off the operating state of the air conditioner in the block are provided.
[0004]
[Problems to be solved by the invention]
Therefore, in order to monitor the operating status of each air conditioner, it is necessary to go to the installation location of the display unit provided for each block, and the operating status of all the air conditioners while staying at a certain place. Cannot be monitored.
[0005]
In addition, when turning on / off an arbitrary air conditioner as necessary, it is necessary to go to the place where the operation unit provided for each block is installed. Air conditioners cannot be selectively turned on and off.
[0006]
For this reason, it is impossible to perform detailed air conditioning by monitoring the operating state of all the air conditioners while being in one certain place and selectively turning on or off any one of the air conditioners as necessary.
[0007]
The object of the present invention is to monitor the operating state of all the air conditioners while staying at a certain place where the centralized management apparatus is installed, and further to any one of the air conditioners as needed while staying at that one place. It is to provide a central control device for an air conditioner that can selectively turn on and off and perform fine air conditioning.
[0008]
Another object of the present invention is to provide a centralized control device for an air conditioner that can be inexpensively connected to a temperature sensor and can easily change the installation location of the temperature sensor.
[0009]
Another object of the present invention is to provide an air conditioner centralized management apparatus that can control a larger number of air conditioners with a smaller number of temperature sensors by reducing the number of temperature sensors used than the number of air conditioners. That is.
[0010]
[Means for Solving the Problems]
The present invention wirelessly transmits temperature data measured by a temperature sensor main body , each of which is installed in one or more rooms, a computer having a display unit, a processor that performs various controls according to a control program, and the computer. a process of receiving the temperature data transmitted from the plurality of temperature sensors, in accordance with the comparison result between the one or more in a room are installed respectively temperature data and the received temperature data is previously set air to A process of transmitting the received temperature data to a plurality of air conditioners that execute on / off control of the main body of the controller, and a process of receiving data on the operating state of the air conditioner transmitted from the air conditioner. Means for executing, means for setting to which air conditioner the temperature data detected by any of the temperature sensors is distributed, and the processor A distribution determination means for determining to which air conditioner the temperature data transmitted from the temperature sensor is distributed according to the setting, and the processor includes the received data on the operating state of the air conditioner. Based on the display means for displaying the operating state of all the air conditioners on the display unit, the processor selects one of the air conditioners based on the operation input of the selection operation unit, and the processor but having a on-off control means for turning on and off the air conditioner, which is selected by the selection unit.
[0011]
Therefore, since the operation state of all the air conditioners is displayed on the display unit of the central management device, the operator can monitor the operation state of all the air conditioners while at the installation location of the central management device. Further, the operator can selectively turn on / off any air conditioner by operating the selection operation unit while at the installation location of the central management device.
[0013]
Moreover, it is not necessary to carry out wiring work with the temperature sensor, and the connection with the temperature sensor becomes an inexpensive structure. Furthermore, it becomes easy to install the temperature sensor in a place most suitable for temperature measurement, and to change the installation place of the temperature sensor.
[0015]
Furthermore, the number of temperature sensors to be used can be reduced from the number of air conditioners, and a large number of air conditioners can be controlled by a small number of temperature sensors.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing an air conditioner centralized management system. A plurality of (for example, 15) air conditioners 1 are installed in a factory that is a room to which this air conditioner centralized management system is applied. Each air conditioner 1 is an air conditioner that transmits and receives data between an air conditioner main body 2 where hot air and cold air are blown out, and on / off temperature setting of each air conditioner 1 and a centralized management device described later. The air conditioner 1 is connected to a personal computer (hereinafter abbreviated as PC) 4 which is a centralized management device. The PC 4 is installed at a certain place in the factory.
[0017]
A plurality of (for example, three) temperature sensors 5 are installed in the factory. Each temperature sensor 5 includes a temperature sensor main body 6 that measures temperature, and a temperature monitoring control unit 7 that performs A / D conversion on the measured temperature. Each temperature sensor 5 includes A / D converted temperature data. Is connected to the centralized management device 4. A wireless device 9 for receiving temperature data transmitted from the wireless device 8 is connected to the centralized management device 4.
[0018]
FIG. 2 is a block diagram showing the configuration of the PC 4. This PC 4 has a CPU 10 that performs various controls in accordance with the control program. From the ROM 11 in which fixed data such as the control program is stored, the temperature data transmitted from the temperature sensor 5, and the air conditioner 1. RAM 12 for storing variable data such as the operating state data of each air conditioner 1 transmitted, EEPROM 13 for storing various data that need to be continuously stored among the variable data, temperature data and operating state I / O 14 for inputting / outputting various data such as data, a display unit 15 for displaying the operating state of each air conditioner 1 transmitted from the air conditioner 1, and an air conditioner 1 to be turned on / off by an operation from the PC 4 A mouse 16 or the like which is a selection operation unit for selecting is connected.
[0019]
Further, the PC 4 is provided with a display unit, a selection unit, an on / off control unit, and a distribution determination unit as functions executed by the CPU 10 based on the control program. The display means is a function for causing the display unit 15 to display the contents of the operation state of each air conditioner 1 transmitted from each air conditioner 1. The selection means is a function for selecting one of the air conditioners 1 to be turned on / off by an operation from the PC 4 based on an operation input of the mouse 16. The on / off control means is a function for turning on / off the air conditioner 1 selected by the operation input of the mouse 16. The distribution determining means is a function for determining to which air conditioner 1 the temperature data detected by a certain temperature sensor 5 is distributed.
[0020]
FIG. 3 is a block diagram illustrating a configuration of the air conditioner control unit 3. The air conditioner control unit 3 includes a CPU 17 that performs various controls in accordance with a control program. The CPU 17 stores a ROM 18 in which fixed data such as a control program is stored, data on the operating state of the air conditioner 1 and air conditioning. RAM 19 in which variable data such as set temperature for turning on / off machine 1 and temperature data from temperature sensor 5 distributed from PC 4 is stored, data that needs to be stored continuously among variable data, for example, , EEPROM 20 for storing the total operating time of the air conditioner 1, I / O 21 for inputting / outputting various data to / from the air conditioner main body 2 and the PC 4, and setting for setting the temperature at which the air conditioner 1 is turned on / off The part 22 etc. are connected.
[0021]
FIG. 4 is a block diagram showing a configuration of the temperature monitoring control unit 7. The temperature monitoring control unit 7 has a CPU 23 that performs various controls in accordance with a control program. After the CPU 23 detects a fixed data such as a control program in the ROM 24 and the temperature sensor body 6, the A / Between the RAM 25 in which variable data such as D-converted temperature data is stored, the EEPROM 26 in which various data such as communication settings need to be continuously stored, the temperature sensor body 6 and the radio device 8 are stored. An I / O 27 and the like for inputting / outputting temperature data are connected.
[0022]
FIG. 5 shows the contents of the operating state of each air conditioner 1 displayed on the display unit 15 of the PC 4.
[0023]
In such a configuration, in this air conditioner centralized management system, 15 air conditioners 1 are installed at appropriate places as air conditioning places in the factory, and three temperature sensors 5 are suitable as temperature measurement places in the factory. It is installed at the place. The temperature at which each air conditioner 1 is turned on / off is set in the air conditioner control unit 3 of each air conditioner 1, and further, to which air conditioner 1 the temperature data detected by which temperature sensor 5 is distributed Is set by the PC 4 and then the operation of the air conditioner 1 is started.
[0024]
When the operation of the air conditioner 1 is started, the temperature data detected by the temperature sensor 5 is transmitted to the PC 4 via the wireless devices 8 and 9, and the transmitted temperature data is distributed to any one of the air conditioners 1, Here, the delivery determination means which is a function of the CPU 10 in the PC 4 is executed. Specifically, the temperature data transmitted from the first temperature sensor (room thermo RS1) 5 is distributed to the air conditioners 1 of No. 1 to No. 5, and transmitted from the second temperature sensor (room thermo RS2) 5. The temperature data thus transmitted is distributed to the No. 6 to No. 10 air conditioners 1, and the temperature data transmitted from the third temperature sensor (room thermo RS3) is distributed to the No. 11 to No. 15 air conditioners 1 (see FIG. 5). .
[0025]
For the transmission of temperature data from the PC 4 to each air conditioner 1, an ID is assigned to each air conditioner control unit 3 of each air conditioner 1, and an ID is added to the temperature data transmitted from the PC 4. The polling / selecting method for obtaining a response is used.
[0026]
Then, the temperature data distributed to each air conditioner 1 is compared with the on / off temperature set in advance in the air conditioner control unit 3 of each air conditioner 1, and each air conditioner 1 is determined according to the comparison result. It is turned on and off automatically, and air conditioning in the factory is performed.
[0027]
Moreover, the operation state of each air conditioner 1 is displayed on the display part 15 of PC4 as shown in FIG. 5, and the display means which is a function of CPU10 in PC4 is performed here. For this reason, the operator can monitor the operation state of all the air conditioners 1 while staying at the place where the PC 4 is installed. When an abnormality in the operating state occurs in any one of the air conditioners 1 or when it is desired to forcibly turn on or off any one of the air conditioners 1, the operator stays at the place where the PC 4 is installed and moves the mouse 16 By operating, an arbitrary air conditioner 1 can be selected and the air conditioner 1 can be turned on / off, and selection means and on / off control means, which are functions of the CPU 10 in the PC 4, are executed here.
[0028]
Since the temperature data is transmitted from the temperature sensor 5 to the PC 4 via the radios 8 and 9, it is not necessary to perform wiring work between the temperature sensor 5 and the PC 4, and between the PC 4 and the temperature sensor 5. The connection is inexpensive. Furthermore, when the layout of production equipment in the factory is changed, the installation location of the temperature sensor 5 can be easily changed to the most suitable position for temperature measurement accordingly.
[0029]
In the present embodiment, since the temperature data transmitted from one temperature sensor 5 is distributed to a plurality of air conditioners 1, the number of temperature sensors 5 can be reduced from the number of air conditioners 1. The cost of the air conditioner centralized management system can be reduced.
[0030]
【The invention's effect】
According to the centralized management apparatus for air conditioners of the present invention, since the operating state of all the air conditioners is displayed on the display unit, the operator monitors the operating state of all the air conditioners while at the installation location of the centralized management apparatus. In addition, the operator can selectively turn on and off any air conditioner by operating the selection operation unit while at the installation location of the central control device, so that maintenance of the air conditioner in which an abnormality has occurred can be quickly performed. In addition, fine air conditioning can be performed as necessary.
[0031]
In addition, since the connection with the temperature sensor is performed by a wireless device, there is no need to perform wiring work with the temperature sensor, the connection with the temperature sensor can be an inexpensive structure, It is possible to easily install the temperature sensor at a place most suitable for temperature measurement and to change the installation place of the temperature sensor.
[0032]
Furthermore, since it has a delivery determining means for deciding to which air conditioner the temperature data transmitted from the temperature sensor is to be delivered, the number of temperature sensors to be used can be reduced from the number of air conditioners, and a smaller number of temperatures A large number of air conditioners can be controlled by the sensor.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an air conditioner centralized management system according to an embodiment of the present invention.
FIG. 2 is a block diagram showing a configuration of a PC.
FIG. 3 is a block diagram showing a configuration of an air conditioner control device.
FIG. 4 is a block diagram showing a configuration of a temperature monitoring control device.
FIG. 5 is an explanatory diagram showing the contents of the operating state of each air conditioner displayed on the display unit of the PC.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Air conditioner 4 Centralized management apparatus 5 Temperature sensor 9 Radio | wireless machine 15 Display part 16 Selection operation part

Claims (1)

A display unit;
A computer having a processor for performing various controls according to a control program;
A process of receiving temperature data transmitted from a plurality of temperature sensors, each of which is installed in one or more rooms and wirelessly transmits temperature data measured by the temperature sensor body ; It transmits the temperature data thus received to the plurality of air conditioner that performs on-off control of the air conditioner main body according to a result of comparison between the temperature data and the received temperature data which is previously set is installed respectively in a room Means for executing, and processing for receiving data on the operating state of the air conditioner transmitted from the air conditioner;
Means for setting to which air conditioner the temperature data detected by any of the temperature sensors is distributed by the processor;
Distribution determining means for determining to which air conditioner the temperature data transmitted from the temperature sensor is distributed according to the setting by the processor;
Based on the received data of the operating state of the air conditioner, the processor displays the operating state of all the air conditioners on the display unit;
The processor selects one of the air conditioners based on an operation input of a selection operation unit;
On / off control means for turning on / off the air conditioner selected by the selection means by the processor ;
Centralized control device for air conditioners.

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