JP6262239B2 - Air conditioner monitoring system - Google Patents

Description

  The present invention relates to a monitoring system for an air conditioner having an outdoor unit and a plurality of indoor units, and in particular, includes a monitoring device that collects and monitors operation information from the outdoor unit and the plurality of indoor units. About.

  Collect and monitor a plurality of indoor units installed in a plurality of air-conditioning target rooms, an outdoor unit connected to the plurality of indoor units by refrigerant piping, and a plurality of the indoor units and the outdoor units. A monitoring system for an air conditioner is known that includes a monitoring device that performs transmission and a transmission line that connects the plurality of indoor units, the outdoor unit, and the monitoring device to transmit and receive signals to and from each other.

  Moreover, recently, as described in Patent Document 1, image information obtained by photographing a room subject to air conditioning control is acquired and analyzed from a camera device installed in the room subject to air conditioning control, and based on this image information. 2. Description of the Related Art An activity amount calculation device that calculates the amount of activity of a room occupant and a device that controls an air conditioner that performs air conditioning in a room subject to air conditioning control based on the calculated activity amount are known.

JP 2011-174665 A

  However, since the thing of the said patent document 1 needs special camera apparatuses, such as a surveillance camera, in each room, the subject that a surveillance system became expensive occurred.

  The objective of this invention is obtaining the monitoring system of the air conditioner which enables monitoring and control of each room, without providing special camera apparatuses, such as a monitoring camera.

  In order to achieve the above object, the present invention provides a plurality of indoor units installed in a plurality of air-conditioned rooms, a plurality of outdoor units connected to the plurality of indoor units by refrigerant piping, a plurality of the indoor units, and the An air conditioner comprising: a monitoring device that collects and monitors operation information from an outdoor unit; and a plurality of the indoor units, a transmission line that connects the outdoor unit and the monitoring device to transmit and receive signals to each other. In the monitoring system, the plurality of indoor units include an imaging unit that captures an image in the air-conditioning target room, and an air volume or wind direction changing unit in the air-conditioning target room based on the image information captured by the imaging unit. Further, the image information captured by the imaging unit is transmitted to the monitoring device via the transmission line, and the monitoring device transmits the image information transmitted from the indoor unit. And performing at least one of the monitoring or control of the indoor based.

  According to the present invention, it is possible to obtain an air conditioner monitoring system that enables monitoring and control of each room without providing a special camera device such as a monitoring camera.

BRIEF DESCRIPTION OF THE DRAWINGS It is a whole block diagram which shows Example 1 of the monitoring system of the air conditioner of this invention. It is a block diagram explaining the installation state etc. of the indoor unit etc. in one room shown in FIG. It is a block diagram explaining Example 1 of the monitoring system of the air harmony machine of the present invention.

  Embodiments of the present invention will be described below with reference to the drawings. Note that, in each drawing, the portions denoted by the same reference numerals indicate the same or corresponding portions.

FIG. 1 is an overall configuration diagram showing Embodiment 1 of the air conditioner monitoring system of the present invention.
FIG. 1 shows a multi-room type air conditioner used in a building or the like. In FIG. 1, 1 is an outdoor unit, 2 is an indoor unit, and in this embodiment, two indoor units are shown. However, in general, the number is often three or more. The indoor unit 2 is installed on the ceiling of each room in the building.
When one room (room) is large, a plurality of indoor units 2 may be installed in one room.

  The outdoor unit 1 and the plurality of indoor units 2 are connected by a transmission line 3, and the transmission line 3 is further connected to a monitoring device 4 installed in a manager room of the building. Operation information of the outdoor unit 1 and the plurality of indoor units 2 (the number of rotations of the compressor provided in the outdoor unit, the discharge pressure of the compressor, the discharge temperature, the outdoor temperature, the air suction temperature of the indoor unit, the indoor unit blower Information such as the rotational speed and the wind direction) is sent to the monitoring device 4 via the transmission line 3, and the monitoring device 4 can monitor the operating condition of the air conditioner. Moreover, the multi-room type air conditioner comprised of the outdoor unit 1 and the plurality of indoor units 2 can also be controlled from the monitoring device 4 side.

  Each indoor unit 2 is provided with a controller (remote controller) (not shown), and each indoor unit 2 can be controlled from this remote controller.

  Each room in which the indoor unit 2 is installed is provided with a lighting device 5. The lighting device 5 in each room is also connected to the monitoring device 4 via a transmission line 6 for the lighting device. ing. Therefore, the monitoring device 4 is configured to be able to monitor the ON / OFF state of the lighting device 5 in each room and to be able to turn on / off the lighting device 5 from the monitoring device 4 side.

  The monitoring device 4 may be connected to a remote monitoring device 7 such as a monitoring center at a remote location via the Internet or the like as necessary. In this way, by connecting to the remote monitoring device 7 and enabling transmission / reception, the remote monitoring device 7 monitors the air conditioner, or remotely controls the air conditioner from the remote monitoring device 7 side. It is also possible to turn on / off the lighting device.

  Next, the installation state of the indoor unit 2 and the like in one room (each room) will be described in detail with reference to FIG. An indoor unit 2 is installed on the ceiling R <b> 1 of each room R, and the indoor unit 2 is connected to the outdoor unit 1 provided outside the room via a transmission line 3. Further, a controller (remote controller) 9 for each room is connected to the transmission line 3 via an adapter 8 so that control data can be transmitted and received. Further, the controller 9 is configured to be able to control the indoor unit 2 (ON / OFF, setting temperature, setting of air volume and direction, etc.).

  In addition, an illumination device 5 such as a fluorescent lamp is installed on the ceiling R1 of the room, and this illumination device 5 is ON / OFF controlled by the controller 9 via a controller 10, and preferably illuminance control is possible. It is configured.

  Reference numeral 11 denotes a ventilation fan installed on the ceiling R1, which can exchange room air and outdoor air. The ventilation fan 11 is also configured to be controllable from the controller 9.

  In the present embodiment, imaging means 12 such as a camera is provided at the four corners of the indoor unit 2 and is configured so as to be able to take an image of the air-conditioned room, and is taken by the imaging means 12. On the basis of the image information, a wind direction changing means (not shown) for changing the air volume (blowing air volume) and the air direction in the air-conditioned room by the indoor unit 2 is controlled. For example, when a person is detected in the image information picked up by the image pickup means 12, the wind direction changing means is controlled so that conditioned air is blown in the direction of the person, or the number of detected persons When there is a large amount of air, it is configured to perform control such as increasing the fan air volume of the indoor unit.

  In the present embodiment, the example in which the image pickup means 12 is provided at the four corners of the indoor unit is shown, but the number of the image pickup means 12 may be one or any plural number. Furthermore, in this embodiment, the image information captured by the imaging means 12 is transmitted to the controller 9 via the transmission line 3, and this image information is further transmitted to the monitoring device 4 such as a building management room via the transmission line. Configured to be sent to.

As described above, the transmission line 3 transmits / receives the operation information of the outdoor unit 1 and the plurality of indoor units 2 to / from these devices or the monitoring device 4 and can be transmitted at a predetermined transmission speed. It has become a thing. However, if the image information captured by the imaging means 12 is sent every predetermined time, the amount of data becomes very large and cannot be transmitted via the transmission line 3.
Therefore, if the image information captured by the imaging means 12 is configured to be transmitted by providing a transmission line 13 having a high transmission speed dedicated to the imaging apparatus, higher-definition image information can be transmitted at a higher speed. Is possible.

When data related to image information captured by the imaging unit 12 is transmitted via the transmission line 3 having a low transmission rate, information processing of the image information is performed by the arithmetic unit 17 (see FIG. 3) of the indoor unit 2. , Transmits data with a reduced amount of information after processing (for example, data indicating the presence or absence of a person, the amount of activity of a person who is in the room, data such as CO ₂ emissions based on the amount of activity) Transmit to the monitoring device 4 via the line 3.

The monitoring device 4 can perform monitoring and control of the room based on the image information of the imaging unit 12 transmitted from the indoor unit 2 side.
As described with reference to FIG. 1, the information received by the monitoring device 4 may be configured to be connected to a remote monitoring device 7 such as a monitoring center at a remote location via the Internet or the like.

Next, the control based on the image information obtained by the imaging means 12 provided in each indoor unit 2 will be described with reference to the block diagram shown in FIG.
In FIG. 3, 100 is an air conditioner, and this air conditioner 100 includes an outdoor unit 1 and two indoor units 2a and 2b. A control system 41 corresponds to the monitoring device 4 in FIG. Reference numeral 5 denotes a lighting device provided in a room where the indoor unit 2b is installed. Although not shown, the illumination device 5 is similarly provided in the room where the indoor unit 2a is installed.

  The outdoor unit 1, the plurality of indoor units 2 a and 2 b, and the control system 41 are connected by a transmission line 3. The control system 41 is connected to a lighting device 5 provided in a room on the indoor unit 2b side via a transmission line 6 for the lighting device. The control system 41 is connected to the camera-dedicated transmission means 18 built in the indoor unit and the camera-dedicated transmission line 30.

  Each of the indoor units 2a and 2b is provided with a camera (imaging means) 12, an environment control means 14, a maintenance judgment means 15, an environment judgment means 16, a calculation means 17 and a transmission means 18, respectively. The indoor image information is transmitted to the control system 41 by the camera 12 of each of the indoor units 2a and 2b via the arithmetic unit 17 of the indoor unit and the transmission unit 18 provided in the outdoor unit. Has been.

  At least one of the computing means 17 or the control system 41 (monitoring device 4) obtains the amount of activity of the occupants from the image information obtained from the camera (imaging means) 12 provided in the indoor unit. Each room is configured to perform at least one of monitoring and control based on the determined amount of activity.

  In the present embodiment, the calculation means 17 provided in the indoor unit analyzes the image information obtained from the camera 12, and calculates the amount of activity of the room occupants based on the image information. It is composed. As a method for calculating the amount of activity of the occupants from the image information, a method such as that described in Patent Document 1 and Japanese Patent Application Laid-Open No. 8-178390 can be used. For example, the amount of activity for each occupant in each room is calculated in predetermined time units based on image information obtained from the camera 12. For calculating the amount of activity, a method of calculating the moving speed of a person from the difference in image information acquired over time can be used.

  The indoor units 2a and 2b are provided with the environmental control means 14 that controls target values of the operation mode, the set temperature, and the set air volume that are the environmental control values of the indoor units 2a and 2b. Then, the environmental control means 14 is controlled based on the amount of activity of the occupants obtained by the calculation means 17 based on the image information obtained from the cameras 12 provided in the indoor units 2a and 2b. That is, the environment control means 14 is configured to control the target value of the operation mode, the set temperature, or the set air volume of the indoor units 2a and 2b based on the obtained activity amount.

  The maintenance determination unit 15 determines the cleaning time of the indoor units 2a and 2b. That is, the maintenance determination means 15 determines the cleaning time of the indoor unit based on the obtained activity amount of the occupant, and an integrated value of the activity amount of the occupants in each room is determined in advance. If the set value is exceeded, it is determined that the time for cleaning the indoor unit has come, and an alarm is issued to prompt the cleaning of the indoor unit.

  For example, each of the plurality of indoor units 2a and 2b having the camera 12 is provided with alarm issuing means for issuing an alarm. Then, when the activity amount obtained from the image information obtained from the imaging means becomes equal to or greater than a set value, the activity amount is determined to be greater than or equal to the set value from the calculation means 17 or the control system 41 (monitoring device 4). A signal is sent to the indoor unit that has been activated so as to operate the alarm issuing means, and an alarm is issued by the alarm issuing means provided in the indoor unit.

  The alarm issuing means may be an alarm, or may display an alarm on a display unit such as the controller (remote controller) 9 or the control system 41. Alternatively, the alarm issuing unit may be configured by a plurality of LEDs, and each of the plurality of LEDs may blink when an alarm is issued.

The environment judgment means 16 judges the air pollution and discomfort in the room where the indoor units 2a and 2b are provided. That is, the environment judging means 16 judges the dirt and discomfort in the room based on the obtained amount of activity of the occupant. The amount of activity per unit time of the occupant in each room, Alternatively, when the integrated value of the activity amount exceeds a predetermined set value, it is determined that the air in the room is dirty, or the amount of CO ₂ is increased to increase discomfort, thereby promoting indoor ventilation. This is a warning. This alarm may be the same as the alarm issuing means described above. In addition, it is still more preferable to issue an alarm and operate the ventilation fan 11.

  The control system 41 (monitoring device 4) includes a control transmission means 19 for controlling the lighting device 5 provided in each room, an annual calendar storage means 20, a clock function 21, and an alarm state determination means 22. And are provided. The alarm state determination means 22 is a person absent time period such as a holiday or a late night time period, and is determined to be in a person absent state based on the determined amount of activity of the occupant and the lighting device is turned on. When the state is detected, it is determined that the state should be alarmed.

  The control system 41 turns off the lighting device 5 via the control transmission means 19 and is provided in the control system 41 when it is determined that the alarm state determination means 22 is in a state to be alarmed. An alarm is displayed on the display unit 23 or the remote controller (controller) 9 in each room. Thereby, it is possible to cope with forgetting to turn off the lighting device 5, and it is possible to reduce wasteful power consumption, and it is possible for a registered person to recognize that the lighting device 5 has been forgotten to be turned off later.

  In this embodiment, the clock function 21 provided in the control system 41 is used, and the illuminance at night and daytime in each room is obtained by the camera (imaging means) 12 provided in the indoor units 2a and 2b. It is configured so that it can be detected. When the detected illuminance value is inconsistent with a predetermined illuminance standard, or when the illuminance difference between nighttime and daytime is smaller than the standard, the control system 41 indicates that the camera 12 is malfunctioning. It judges and issues an alarm.

  Further, when the annual calendar storage unit 20 is used so that the predetermined illuminance standard is corrected corresponding to the annual calendar storage unit 20, the malfunction of the camera 12 is determined with higher accuracy. it can.

  According to the present embodiment, it is possible to determine the malfunction of the camera 12 using the illuminance value detected by the camera 12, and when a camera malfunction alarm is issued, the camera is repaired or replaced. Highly reliable air conditioner monitoring system can be maintained.

  Furthermore, in this embodiment, the image information of the air-conditioning target room imaged by the cameras (imaging means) 12 provided in the indoor units 2a and 2b is displayed on the display unit of the control system 41 (monitoring device 4). The indoor state can be confirmed by an image displayed on the display unit 23. As a result, the state of each room can be confirmed with images from the monitoring device 4 (control system 41) side, so that it is possible to detect the intrusion of a suspicious person, and a security camera for crime prevention is installed separately. Therefore, the effect of improving the security can be obtained at a very low cost. In addition, it is possible to manage the entrance / exit of a person in each room and to know the presence or absence of a person in each room.

  When the indoor unit 2a, 2b uses the camera 12 to check the indoor image on the monitoring device 4 side, the camera 12 and the monitoring device 4 provided in the indoor unit are connected to the transmission line 13 (dedicated to imaging means). (See FIG. 2).

  The monitoring device 4 further includes indoor monitoring setting means for setting ON / OFF of an indoor monitoring mode for performing monitoring based on image information obtained from the imaging means 12 provided in the indoor units 2a and 2b. It is good to make it. And when the indoor monitoring mode is turned on by the indoor monitoring setting means and the result of the monitoring requires an alarm, the monitoring device is configured to issue an alarm, In a state where the indoor monitoring mode is OFF by the indoor monitoring setting means, it is preferable that the alarm by the monitoring device is not issued.

  Further, it is more preferable that the indoor monitoring mode is configured so that the indoor monitoring mode can be individually set to ON / OFF for each of the plurality of indoor units 2a and 2b having the imaging unit 12.

In addition, this invention is not limited to an above-described Example, Various modifications are included.
For example, in the above-described embodiment, an example in which the present invention is applied to an air conditioner that includes one outdoor unit and two indoor units is shown. However, a plurality of outdoor units or three indoor units are used. The same applies to the above.

  The above-described embodiments have been described in detail for easy understanding of the present invention, and are not necessarily limited to those having all the configurations described. Furthermore, a part of the configuration of one embodiment can be replaced with the configuration of another embodiment, and the configuration of another embodiment can be added to the configuration of one embodiment. Further, it is possible to add, delete, and replace other configurations for a part of the configuration of each embodiment.

  Information such as a program for realizing each function, each determination value, and each set time is stored in a recording device such as a memory, a hard disk, an SSD (Solid State Drive), or a recording medium such as an IC card, an SD card, or a DVD. Can be put in.

1: outdoor unit, 2: indoor unit, 3: transmission line, 4: monitoring device (41: control system), 5: lighting device, 6: transmission line for lighting device, 7: remote monitoring device, 8: adapter, 9: Controller (remote control), 10: Controller, 11: Ventilation fan, 12: Imaging means (camera), 13: Transmission line dedicated to the imaging device, 14: Environmental control means, 15: Maintenance judgment means, 16: Environment judgment means , 17: arithmetic means, 18: transmission means, 19: control transmission means, 20: annual calendar means, 21: clock function, 22: alarm state judgment means, 23: display section, 30: transmission line dedicated to the camera, R : Room (room), R1: Ceiling.

Claims (14)

A plurality of indoor units installed in a plurality of air-conditioned rooms;
An outdoor unit connected to the plurality of indoor units by refrigerant piping;
A monitoring device that collects and monitors operation information from the plurality of indoor units and the outdoor unit;
In a monitoring system for an air conditioner, comprising a plurality of the indoor units, the outdoor units, and a transmission line that connects the monitoring device and transmits and receives signals to and from each other.
The plurality of indoor units include an imaging unit that captures an image in the air-conditioning target room, and an air volume or wind direction changing unit in the air-conditioning target room by the indoor unit is controlled based on image information captured by the imaging unit. Configured as
Furthermore, the image information captured by the imaging unit is transmitted to the monitoring device via the transmission line, and the monitoring device performs monitoring or control of the room based on the image information transmitted from the indoor unit. have a row at least one,
The monitoring device is a control system connected to the air conditioner via a transmission line, and this control system is equipped with a clock function, and detects the illuminance between nighttime and daytime indoors by the imaging means provided in the indoor unit. If the detected illuminance value is inconsistent with a predetermined illuminance standard, or if the illuminance difference between night and day is smaller than the standard, the control system determines that the imaging means is malfunctioning. And an air conditioner monitoring system characterized by issuing an alarm .   2. The air conditioner monitoring system according to claim 1, wherein the monitoring device obtains an activity amount based on image information obtained from imaging means provided in the indoor unit, and the activity amount is equal to or greater than a predetermined set value. An air conditioner monitoring system, wherein the monitoring device is configured to issue an alarm based on the determination result. 2. The air conditioner monitoring system according to claim 1, wherein the monitoring device is configured to set ON / OFF of an indoor monitoring mode in which monitoring is performed based on image information obtained from imaging means provided in the indoor unit. With monitoring setting means,
When the indoor monitoring mode is ON by the indoor monitoring setting means and the result of monitoring is alarmed, an alarm is issued by the monitoring device,
The air conditioner monitoring system, wherein an alarm is not issued by the monitoring device when the indoor monitoring mode is OFF by the indoor monitoring setting means.   4. The air conditioner monitoring system according to claim 3, wherein the indoor monitoring mode can be set to ON / OFF for each of a plurality of indoor units having the imaging means by the indoor monitoring setting means. A monitoring system for air conditioners.   The air conditioner monitoring system according to claim 2, wherein each of the plurality of indoor units having the imaging unit includes an alarm issuing unit that issues an alarm, and is obtained from image information obtained from the imaging unit. When the amount of activity exceeds a set value, a signal is sent from the monitoring device to activate the alarm reporting means to the indoor unit, and an alarm is issued by the alarm reporting means provided in the indoor unit. An air conditioner monitoring system characterized by emitting   6. The air conditioner monitoring system according to claim 5, wherein the alarm issuing means provided in the indoor unit includes a plurality of LEDs, and each of the plurality of LEDs blinks when an alarm is issued. Air conditioner monitoring system.   2. The air conditioner monitoring system according to claim 1, wherein the indoor unit includes a calculation unit, and at least one of the calculation unit or the monitoring device is obtained from an imaging unit included in the indoor unit. An air conditioner monitoring system characterized in that an activity amount of a room occupant is obtained from image information and at least one of monitoring and control of each room is performed based on the obtained activity amount.   8. The air conditioner monitoring system according to claim 7, wherein the indoor unit includes environmental control means for controlling a target value of an operation mode, a set temperature, and a set air volume, which are environmental control values of the indoor unit, An air conditioner monitoring system characterized in that the amount of activity of a room occupant is obtained from image information obtained from an imaging means provided in the machine, and the environment control means is controlled based on the obtained amount of activity. .   8. The air conditioner monitoring system according to claim 7, further comprising maintenance judgment means for judging the cleaning time of the indoor unit, wherein the maintenance judgment means is based on the determined amount of activity of the occupant. A monitoring system for an air conditioner, characterized by determining the cleaning time of the machine.   The monitoring system for an air conditioner according to claim 7, further comprising environmental judgment means for judging air pollution and discomfort, wherein the environmental judgment means is based on the determined amount of activity of the occupant. A monitoring system for an air conditioner characterized by judging indoor dirt and discomfort. A monitor system for an air conditioner according to claim 7, in the control system, and control transmission means for controlling a lighting device provided in the chamber, annual calendar storage means and the person absent time, etc. holiday An alarm state that is a belt and is determined to be an alarm state when it is determined that the person is absent based on the determined amount of activity of the occupant and the lighting state of the lighting device is detected Judgment means,
The control system turns off the lighting device and displays an alarm through the control transmission unit when the alarm state determination unit determines that the alarm state should be alarmed. Monitoring system. A monitor system for an air conditioner according to claim 1, wherein the controls system, it further comprises an annual calendar storage means, the reference of the predetermined illuminance is corrected in correspondence with the annual calendar storage means A monitoring system for air conditioners.   The air conditioner monitoring system according to claim 1, wherein image information of the air-conditioning target room imaged by an imaging unit provided in the indoor unit is displayed on a display unit of the monitoring device, and the state of each room is indicated by the A monitoring system for an air conditioner, characterized in that it can be confirmed with an image displayed on a display unit. 14. The air conditioner monitoring system according to claim 13 , wherein the imaging means provided in the indoor unit and the monitoring device are connected to each other by a transmission line dedicated to the imaging device. system.

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