JP6786459B2 - Building management system equipment - Google Patents

Description

The present invention relates to buildings management system device.

The operation plan for the equipment in the building is made according to the flow rate of people entering and exiting the building and the number of people in the room. People entering and exiting the building use human detection sensors and human flow measurement cameras. When actually performing control, it is known to grasp the flow rate of people in common areas, the number of people in a room and the occupancy rate in a room, optimize the output of air conditioning and lighting, and implement control useful for energy saving. There is.

Installing new measuring devices such as human detection sensors and human flow measurement cameras will increase costs such as equipment costs and construction costs. Further, there is a problem that it takes time from the measurement of the measuring device to the operation of the lighting / air conditioning and the like, and the lighting / air conditioning and the like cannot be effectively used.

In response to such issues, the flow rate of people, the number of people in the room, and the occupancy rate are patterned by day of the week, time zone, etc. from the elevator operation information, and the control schedule is set after evaluating the flow rate of people, the number of people in the room, and the occupancy rate. A technique for executing a plan has been proposed (Patent Document 1). In this technology, real-time elevator operation information is not used for control as it is, but is used for control after analyzing the information, so the time from the measurement by the measuring device to the operation of lighting, air conditioning, etc. We are trying to eliminate delays and effectively use lighting and air conditioning.

Japanese Unexamined Patent Publication No. 2005-104635

As described above, in Patent Document 1, the flow rate of people, the number of people in the room, and the occupancy rate are evaluated from the operation information of the elevator, and the control schedule is planned and executed. However, support for the physically handicapped and the elderly is required. There was room for improvement to make it easier for people to use.

An object of the present invention is to solve the above problems, is to provide a lift usability can be improved ruby Le management system device for human assistance is required, such as handicapped and elderly people.

In order to achieve the above object, the features of the present invention are an elevator control system that controls an elevator installed in a building and a camera that controls a surveillance camera installed in the building to monitor the inside of the building. A building management system equipped with a control system and a robot control system that controls support robots that support the elderly and people with disabilities.
The camera control system includes an elderly / disabled person detection unit that detects the elderly / disabled person from image information taken by the surveillance camera, and the elevator control system is based on the information of the elderly / disabled person detecting unit. , The elderly / disabled person exists based on the information of the elderly / disabled person detection processing unit that executes the seated floor / coordinate detection processing of the elderly / disabled person and the elderly / disabled person detection processing unit. The robot is provided with a traveling command processing unit that transmits coordinate information of a place where the elderly / disabled person exists and a support command for supporting the elderly / disabled person to the support robot on the seated floor. The control system has a coordinate information holding unit that stores the coordinate information of the partitioned seated floor in advance, and information necessary for controlling the support robot based on the information from the traveling command processing unit and the information of the coordinate information holding unit. Is provided, and the support robot is provided with a control unit that gives a command to the support robot to support the elderly / disabled person. The purpose is to move from the coordinate area where oneself is present to the coordinate area where the elderly / disabled person is present based on the information of .

According to the present invention, it is possible to provide a ruby Le management system device can be improved elevator convenient for human assistance is required, such as handicapped and elderly people.

It is a schematic block diagram of the building management system apparatus which concerns on one Example of this invention. It is a control block diagram of the building management system which concerns on one Example of this invention. It is a flowchart which shows the support method to the elderly person and the handicapped person which concerns on one Example of this invention. It is a figure which shows the coordinate information which concerns on one Example of this invention. It is operation explanatory drawing of the support robot which concerns on one Example of this invention. It is operation explanatory drawing of the support robot which concerns on one Example of this invention. It is operation explanatory drawing of the support robot which concerns on one Example of this invention.

Hereinafter, examples of the present invention will be described in detail with reference to the accompanying drawings. The present invention is not limited to the following examples, and various modifications and applications are included in the technical concept of the present invention.

FIG. 1 is a schematic configuration diagram of a building management system device according to an embodiment of the present invention. This embodiment is intended for a building in which an elevator is installed. In FIG. 1, a robot control system 100 that sends and receives control signals of a robot 120 (supporting robot) to control the robot 120 and a surveillance camera 201 provided in a building are controlled by a network network 10 such as the Internet or a local network. A camera control system 200 that monitors the inside of the building, an elevator control system 300 that controls the elevator car 320 by an elevator management system 310 and a control unit, and a security gate 400 for recognizing a person who has entered the building. It is connected. Further, the network network 10 includes a remote monitoring server 20 that monitors information required by each control system. 500 is an elderly person / disabled person.

A wireless communication unit 110 is connected to the robot control system 100. The robot 120 is installed in the building and provides services to the users of the building. The robot 120 controls the control signal from the robot control system 100 by wireless communication by the wireless communication unit 110.

The elevator is composed of a car 320, a counterweight 321 suspended via a main rope, a warp sheave 322, and a hoist 323. The elevator control system 300 controls the hoisting machine 323 and controls the raising and lowering of the car 320.

Next, the configurations of the robot control system 100, the camera control system 200, and the elevator control system 300 will be described with reference to FIG.

FIG. 2 is a control block diagram of a building management system according to an embodiment of the present invention. The robot control system 100 is predetermined to specify the positions of the elevator / camera information transmission / reception unit 101 that transmits / receives information between the camera control system 200 and the elevator control system 300 via the network network 10 and the robot 120. The coordinate information holding unit 102 for holding the coordinate information is provided. Further, the robot control system 100 calculates information necessary for controlling the robot 120 based on information from the elevator / camera information transmission / reception unit 101, the coordinate information holding unit 102, and the like, and calculates information necessary for the elevator control system. The control unit 103 and the robot 120 include a transmission / reception unit 104 that transmits / receives information via the wireless communication unit 110 and the coordinate information transmission unit 111. Further, the control unit 103 issues a command to the robot 120 to support the elderly / disabled person 500 based on the information from the camera control system 200 or the elevator control system 300.

The camera control system 200 includes an elderly / disabled person detection unit 202 that captures image information captured by the surveillance camera 201 and detects the elderly / disabled person 500 by using image detection technology. For example, if the walking speed is slower than the specified speed, it is judged as an elderly person, if the cane is moved in small steps, it is judged as a visually impaired person, and if it is in a vehicle, it is judged as a wheelchair user. to decide. In addition, the elderly / disabled person detection unit 202 identifies the seated floor / coordinate position of the elderly / disabled person 500 based on the position (floor) where the surveillance camera 201 is installed and the image information.

The information of the elderly / disabled person detection unit 202 is transmitted to the robot control system 100 and the elevator control system 300 via the network network 10.

The elevator control system 300 includes an elevator management system 310 that manages a plurality of elevators, and a unit control unit 330 that controls the elevator car 320 according to the units assigned by the elevator management system 310.

In the hoistway, there are a car 320, a counterweight 321 suspended via a warp sheave 322, and a hoisting machine 323 that relatively raises and lowers the car 320 and the counterweight 321 by receiving electric power. It is provided.

The elevator management system 310 includes the elderly / disabled person detection processing unit 311 that processes the detection of the elderly / disabled person based on the information from the camera control system 200 and the security gate, and the robot control system 100 via the network network 10. , The robot / camera information transmission / reception unit 312 that transmits / receives signals to / from the camera control system 200, the elevator destination floor input unit 313 that inputs the destination floor of the elevator, and the input destination floor are registered and instructed to each unit. It is composed of a destination floor registration processing unit 314 for issuing an elevator door opening / closing processing unit 315 for issuing an instruction to open / close the door to the elevator door, and a traveling command processing unit 316 for giving a traveling command to the robot 120.

The robot 120 receives a destination input means 121 for inputting a destination, a destination input processing unit 122 for processing the input information, and an elevator door opening / closing command according to the operation of the elderly / disabled person 500. The door opening / closing command processing unit 123 for issuing a guide, the guidance traveling unit 124 for guiding a person, the voice output unit 125 for guiding by voice when traveling for guidance, and the surrounding situation and the elderly / disabled person 500 are detected. Therefore, the camera 126, the seated floor / coordinate information detection unit 127 for detecting the seated floor and the coordinate information of the elderly / disabled person 500 when a person is detected, the robot control system 100, and the transmission / reception of signals. It is composed of a transmission / reception unit 128 to perform.

The destination input means 121, the destination input processing unit 122, the door opening / closing command processing unit 123, the guidance traveling unit 124, the voice output unit 125, the camera 126, the seated floor / coordinate information detection unit 127, and the transmission / reception unit 128 perform central calculation processing. It is connected to and controlled by unit 129 .

The camera 126 has an elderly / disabled person detecting unit 130 having a function of detecting the elderly / disabled person 500.

Further, between the robot control system 100 and the robot 120, a coordinate information transmission unit 111 that transmits and receives signals to and from the robot control system 100 in order for the robot 120 to grasp the position is provided.

Next, a support method for the elderly / disabled person 500 will be described with reference to FIGS. 3 to 5. FIG. 3 is a flowchart showing a support method for the elderly / disabled person according to an embodiment of the present invention. FIG. 4 is a diagram showing coordinate information according to an embodiment of the present invention. 5A, 5B, and 5C are operation explanatory views of the support robot according to the embodiment of the present invention.

In FIG. 3, the human sensory detection processing step is executed by the security gate 400 or the camera control system 200 (S600). For convenience, the process (step) is expressed as "S". At the security gate 400, a process of determining whether or not the person is an elderly person or a disabled person 500 is executed from the identification card of the visitor or the like (S601). The camera control system 200 executes a step of determining whether or not it is an elderly person / disabled person 500 by the above-mentioned image processing (S601). If it is determined that the elderly / disabled person is not 500, the human feeling detection process is executed again.

Information on the elderly / disabled person 500 detected by the security gate 400 or the camera control system 200 is transmitted to the elevator management system 310 via the network 10. In the elevator management system 310, the robot / camera information transmission / reception unit 312 receives information, and the elderly / disabled person detection processing unit 311 executes the seated floor / coordinate detection processing process of the elderly / disabled person 500 (the elderly / disabled person 500). S602).

When the seated floor / coordinate detection processing process is executed, the information is transmitted to the traveling command processing unit 316. The travel command processing unit 316 transmits a command to support the elderly / disabled person 500 to the robot 120 on the seated floor where the elderly / disabled person 500 exists. At this time, the coordinate information of the place where the elderly / disabled person 500 exists is also transmitted. This command signal is transmitted from the robot / camera information transmission / reception unit 312 to the robot control system 100 via the network network 10.

The robot control system 100 transmits a support command for the elderly / disabled person 500 to the robot 120 via the control unit 103 and the transmission / reception unit 104. Further, the coordinate information of the seated floor held by the coordinate information holding unit 102 is transmitted to the robot 120 via the transmitting / receiving unit 104 and the coordinate information transmitting unit 111.

The coordinate information will be described with reference to FIG. The coordinate information of the seated floor is stored in advance in the coordinate information holding unit 102. For example, as shown in FIG. 4, a certain floor is divided into 12 floors such as A1, A2 ... C4. The partitioned coordinate information is transmitted from the coordinate information transmission unit 111 installed at the upper part of the seated floor . The District bounded coordinate information, the robot 120 grasps its position, it is possible to grasp the position of the elderly and disabled 500. In this embodiment, the coordinate information is divided into 12 pieces, but the number of parts is not limited to this, and the larger the number of parts, the higher the accuracy of the position.

As shown in FIGS. 4 and 5A, the robot 120 that has received the support command for the elderly / disabled person 500 moves to the elderly / disabled person 500 based on the coordinate information. The elderly / disabled person 500 is in the coordinate B2 area, and the robot 120 in the coordinate B3 area moves to the coordinate B2 area. At this time, the robot 120 grasps its own position by the seated floor / coordinate information detection unit 127 based on the signal from the coordinate information transmission unit 111. Further, the robot 120 detects an image with the camera 126, and the elderly / disabled person detection unit 130 identifies the elderly / disabled person 500.

As shown in FIG. 5B, the robot 120 stops when it reaches the vicinity of the elderly / disabled person 500, emits a voice from the voice output unit 125 to the elderly / disabled person 500, and determines whether or not to use the elevator. Check the destination in case. The elderly / disabled person 500 responds by voice, or inputs from the destination input means 121 whether or not to use the elevator and the destination when necessary from the liquid crystal panel (not shown) installed in the robot 120. The destination input means 121 has a voice recognition function for recognizing voices emitted by the elderly / disabled person 500, in addition to input by touch operation from the input screen of the liquid crystal panel. In this way, the process of confirming the intention to use the elevator is executed (S603).

If there is no intention to use the elevator 324 and the destination on the seated floor where the elderly / disabled person 500 is currently enrolled is input from the destination input means 121, the guidance traveling unit 124 is inside the building on the seated floor. The process of guiding the above is executed (S604). After the guidance of the elderly / disabled person 500 is completed, the user moves to the standby position.

When it is necessary to use the elevator 324, the guidance traveling unit 124 executes guidance processing to the landing of the elevator 324 (S605). The robot 120 guides the elderly / disabled person 500 from the B2 area in FIG. 4 to the A2 area where the elevator 324 is landed. When guiding to the vicinity of the door 9 of the elevator 324, the guidance while providing voice guidance reduces the anxiety of the elderly / disabled person 500.

Further, when it is necessary to use the elevator 324, the information input from the destination input means 121 is transmitted to the destination input processing unit 122. The destination input processing unit 122 identifies the floor of the building where the destination is located based on the information input from the destination input means 121. The information processed by the destination input processing unit 122 is transmitted to the elevator destination floor input unit 313 of the elevator management system 310 via the transmission / reception unit 128. The information from the elevator destination floor input unit 313 is transmitted to the destination floor registration processing unit 314 to register the destination floor requested by the elderly / disabled person 500, and the elevator 324 via the unit control unit 330. The car will be dispatched to the floor where there are 500 elderly and disabled people. In this way, the car call command process is executed (S606).

While guiding the elderly / disabled person 500, the robot 120 constantly detects the elderly / disabled person 500, and from the information of the elderly / disabled person detecting unit 130 and the seated floor / coordinate information detecting unit 127, the elderly / disabled person Execute the confirmation process of whether or not the 500 has arrived at the elevator 324 platform (S607).
When the elderly / disabled person 500 has not arrived at the elevator 324 landing, the robot 120 executes the arrival confirmation process of the car 320 based on the information of the unit control unit 330 (S608). If the car 320 has not arrived, the process of S607 is repeatedly executed.

When the car 320 arrives, the elderly / disabled person 500 has not yet arrived at the landing, so the robot 120 sends a signal from the door opening / closing command processing unit 123 to the elevator door opening / closing processing unit 315, and the elevator 324. (S609), the process of waiting with the door open is executed.

In S607, when the elderly / disabled person 500 arrives at the elevator 324 landing, the robot 120 executes the arrival confirmation process of the car 320 based on the information of the unit control unit 330 (S610). When the car 320 has not arrived, the robot 120 executes a process of notifying by voice or display to wait at the elevator 324 landing (S611). Then, the process of S607 is repeatedly executed.

When the car 320 arrives in S610, the robot 120 transmits a signal from the door opening / closing command processing unit 123 to the elevator door opening / closing processing unit 315 to open the door of the elevator 324.

Then, as shown in FIG. 5C, the robot 120 guides the elderly / disabled person 500 into the elevator 324 and executes a process of getting on the elevator (S612). After that, the door of the elevator 324 is closed, and the elevator 324 is moved to the floor for the purpose.

According to this embodiment, the robot 120 confirms whether or not the elevator 324 is used for the elderly / disabled person 500, and when using the elevator 324, calls the elevator 324 and guides the user to the platform of the elevator 324. Therefore, it is possible to improve the usability of the elevator for people who need support such as the elderly and the disabled 500.

Further, since the elevator is linked to the command from the robot 120, the waiting time of the elderly / disabled person 500 can be reduced and the destination can be easily reached.

In this embodiment, the robot 120 guides the elderly / disabled person 500 to get on the elevator 324, but even if the elderly / disabled person 500 gets into the car 320 and guides to the destination. good. In this case, the coordinate information shown in FIG. 4 may be installed on each floor.

100 Robot control system 101 Elevator / camera information transmission / reception unit 102 Coordinate information holding unit 103 Control unit 104 Transmission / reception unit 110 Wireless communication unit 111 Coordinate information transmission unit 120 Robot 121 Destination input means 122 Destination input processing unit 123 Door open / close command processing unit 124 Guidance running unit 125 Voice output unit 126 Camera 127 Seated floor / coordinate information detection unit 128 Transmission / reception unit 130 Elderly / disabled person detection unit 200 Camera control system 201 Surveillance camera 202 Elderly / disabled person detection unit 300 Elevator control system 310 Elevator management system 311 Elderly / disabled person detection processing unit 312 Robot / camera information transmission / reception unit 313 Elevator destination floor input unit 314 Destination floor registration processing unit 315 Elevator door opening / closing processing unit 316 Travel command processing unit 320 Riding car 321 Balance weight 322 Warp Sheave 323 Hoisting machine 324 Elevator No. 330 Control unit 400 Security gate 500 Elderly / disabled

Claims (5)

An elevator control system that controls an elevator installed in a building, a camera control system that controls a surveillance camera installed in the building to monitor the inside of the building, and a support robot that supports the elderly and disabled. A building management system equipped with a robot control system to control
The camera control system includes an elderly / disabled person detection unit that detects the elderly / disabled person from image information taken by the surveillance camera.
The elevator control system is based on the information of the elderly / disabled person detection unit, the elderly / disabled person detection processing unit that executes the seated floor / coordinate detection process of the elderly / disabled person, and the elderly / disabled person detection processing unit. Based on the information of the person detection processing unit, the coordinate information of the place where the elderly / disabled person exists and the elderly / disabled person for the support robot on the seated floor where the elderly / disabled person exists Equipped with a driving command processing unit that sends support commands to support
The robot control system is necessary for controlling the support robot based on the coordinate information holding unit that stores the coordinate information of the partitioned seated floor in advance, the information from the traveling command processing unit, and the information of the coordinate information holding unit. It is equipped with a control unit that calculates various information and gives a command to the support robot to support the elderly / disabled person.
The assisting robot is characterized in that it moves from the coordinate area in which it is located to the coordinate area in which the elderly / disabled person is located, based on the coordinate information of the divided floors and the information from the control unit. Building management system equipment. In claim 1,
A building management system device characterized in that a security gate is provided and the elderly / disabled person is grasped from the identification card of a visitor at the security gate. In claim 1 or 2,
The support robot identifies the floor of the building based on the destination input means for inputting the destination by the voice emitted by the elderly / disabled person or the operation from the input screen and the information from the destination input means. A destination input processing unit, a transmission / reception unit that transmits information processed by the destination input processing unit to the elevator control system, and the elderly / disabled person when the elderly / disabled person uses the elevator. A building management system device equipped with a guide running unit that guides people to the elevator platform. In claim 3 ,
The elevator control system is a building management system device characterized by allocating a car of the elevator to the seated floor of the elderly / disabled person based on the information processed by the destination input processing unit. In claim 3 ,
When the car of the elevator arrives at the support robot before the elderly / disabled person arrives at the elevator landing, a signal is transmitted to the elevator control system to keep the elevator door open. A building management system device equipped with a door open / close command processing unit that makes it stand by.

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