阅读说明：本技术 设备管理系统以及设备管理方法 (Device management system and device management method ) 是由 小川贵生 堀木敏生 松本宏之 于 2019-01-23 设计创作，主要内容包括：能够控制成沿着在设施的天花板设置的管道导轨能自由地移动至少一个电气设备,提高对用户的便利性。设备管理系统(5)包括：能够连接电气设备(30)的设备连结部(16)、和用于沿着在店铺的天花板(100)设置的管道导轨(8)来移动电气设备(30)的可动连结部(15)。设备管理系统(5)具备：能够被安装于管道导轨(8)的连通单元(10)、和包括控制部(51)的管理服务器(50),该控制部(51)输出表示连通单元(10)的沿着管道导轨(8)的移动指示的控制信息,在控制信息中包括有由位置检测传感器(18)探测到的探测信息的条件,管理部(51)在由位置检测传感器(18)探测到的探测信息满足条件的情况下,输出控制信息。(Can be controlled to freely move at least one electric device along a duct guide provided at a ceiling of a facility, improving convenience to a user. The device management system (5) includes: the device comprises a device connecting part (16) capable of connecting the electric device (30) and a movable connecting part (15) used for moving the electric device (30) along a pipeline guide rail (8) arranged on the ceiling (100) of the shop. A device management system (5) is provided with: the communication unit (10) that can be attached to the duct rail (8), and a management server (50) that includes a control unit (51), wherein the control unit (51) outputs control information indicating an instruction to move the communication unit (10) along the duct rail (8), the control information includes a condition for the detection information detected by the position detection sensor (18), and the management unit (51) outputs the control information when the detection information detected by the position detection sensor (18) satisfies the condition.)

1. A device management system is provided with:

a movable connection device that is attachable to a duct rail provided in a facility, and includes a connection portion to which at least one electrical device is connectable, a driving portion for moving the electrical device along the duct rail, and a position detection sensor; and

an information processing device including a management unit that outputs control information indicating an instruction to move the movable connection device along the duct guide,

the control information includes a condition of detection information detected by the position detection sensor,

the management unit outputs the control information when the detection information detected by the position detection sensor satisfies the condition.

2. The device management system of claim 1,

the condition of the probe information is different for each period.

3. The device management system of claim 1,

the condition of the probe information is set according to the attribute of the user.

4. The device management system of claim 3, wherein,

the attributes of the user are specified by the age and gender of the user.

5. The device management system of claim 1,

the management unit acquires information of an input position of a user to a control terminal including a touch panel that displays a camera image of a predetermined space in which the movable connection device is disposed,

the management unit outputs control information indicating an instruction to move the movable connection device at a position of the space corresponding to an input position of the camera image by the user.

6. The device management system of claim 5,

the touch panel displays a split screen including a camera image of a given space in which the movable connection device is arranged and a map image of the space,

the management unit acquires detection of a1 st input position of the user in the camera image on the touch panel, and outputs position information corresponding to the 1 st input position in the map image of the space to the control terminal,

when a2 nd input position of the user is detected in a map image of the space in the touch panel, outputting position information corresponding to the 2 nd input position in the camera image to the control terminal.

7. The device management system of claim 1,

the at least one electrical device includes a1 st electrical device, a2 nd electrical device, and a 3 rd electrical device,

the at least one set of said positions including position 1, position 2 and position 3,

the management unit is configured to manage the operation of the mobile terminal,

(a) outputting control information that the 1 st electrical device, the 2 nd electrical device and the 3 rd electrical device function in the 1 st position when the user is detected in the 1 st position;

(b) when a user is detected at the 1 st position and the 2 nd position, outputting control information that the 1 st electric device, the 2 nd electric device and the 3 rd electric device function at the 1 st position and the 2 nd position;

(c) and when the user is detected at the 1 st position, the 2 nd position and the 3 rd position, outputting control information that the 1 st electric device, the 2 nd electric device and the 3 rd electric device function at the 1 st position, the 2 nd position and the 3 rd position.

8. A facility management method in a facility management system including a movable connection device that can be attached to a duct rail installed in a facility and an information processing device including a management unit,

the device management method has the following processing:

connecting at least one electrical device;

the management unit outputting control information indicating an instruction to move the movable connection device along the duct guide; and

moving the electrical equipment along the pipe guide via the movable connection means according to the control information,

a condition of the detection information detected by the position detection sensor is included in the control information,

the management unit outputs the control information when the detection information detected by the position detection sensor satisfies the condition.

9. The device management method according to claim 8,

the condition of the probe information is different for each period.

10. The device management method according to claim 8,

the condition of the probe information is set according to the attribute of the user.

11. The device management method according to claim 10,

the attributes of the user are specified by the age and gender of the user.

12. The device management method according to claim 8,

the management unit acquires information of an input position of a user to a control terminal including a touch panel that displays a camera image of a predetermined space in which the movable connection device is disposed,

the management unit outputs control information indicating an instruction to move the movable connection device at a position of the space corresponding to an input position of the camera image by the user.

13. The device management method according to claim 12,

the touch panel displays a split screen including a camera image of a given space in which the movable connection device is arranged and a map image of the space,

the management unit acquires detection of a1 st input position of the user in the camera image on the touch panel, and outputs position information corresponding to the 1 st input position in the map image of the space to the control terminal,

when a2 nd input position of the user is detected in a map image of the space in the touch panel, outputting position information corresponding to the 2 nd input position in the camera image to the control terminal.

14. The device management method according to claim 8,

the at least one electrical device includes a1 st electrical device, a2 nd electrical device, and a 3 rd electrical device,

the at least one set of said positions including position 1, position 2 and position 3,

the management unit is configured to manage the operation of the mobile terminal,

(a) outputting control information that the 1 st electrical device, the 2 nd electrical device and the 3 rd electrical device function in the 1 st position when the user is detected in the 1 st position;

(b) when a user is detected at the 1 st position and the 2 nd position, outputting control information that the 1 st electric device, the 2 nd electric device and the 3 rd electric device function at the 1 st position and the 2 nd position;

(c) and when the user is detected at the 1 st position, the 2 nd position and the 3 rd position, outputting control information that the 1 st electric device, the 2 nd electric device and the 3 rd electric device function at the 1 st position, the 2 nd position and the 3 rd position.

Technical Field

The present disclosure relates to a device management system and a device management method for managing movement of an electrical device.

Background

Patent document 1 discloses a lighting device such as a spotlight attached to a duct rail such as a ceiling. The lighting device is provided with: a lamp body having an LED (Light Emitting Diode) element as a Light source, a plug box (plug box) attached to a duct rail, a power supply circuit supplying lighting power to the LED element, and an arm connecting the lamp body and the plug box.

Patent document 2 discloses a power supply rail and a power supply rail device for grasping the position of a moving body mounted on an electrical apparatus on a rail body.

Prior art documents

Patent document

Patent document 1: japanese laid-open patent publication No. 2017-199596

Patent document 2: japanese laid-open patent publication No. 2008-243579

Disclosure of Invention

Problems to be solved by the invention

However, in the configuration of patent document 1, the lighting device such as a spotlight is fixed without changing from the position of the duct rail provided on the ceiling or the like unless a person moves the plug box by manual work using a ladder. Therefore, for example, in order to redesign the space in which the duct rail is installed, the layout of the space in which the lighting device is installed with respect to the duct rail is changed, and when the position of the lighting device is changed, it is necessary for a person to move the lighting device by manual work using a ladder, and the convenience for the user is not good when the layout is changed. In particular, when it is assumed that a plurality of lighting devices are mounted on the duct rail, each time the layout is changed, the lighting devices are moved manually by a person, which is inefficient.

The present disclosure has been made in view of the above-described conventional circumstances, and an object thereof is to provide an equipment management system and an equipment management method that control to freely move at least one electrical equipment along a duct rail provided on a ceiling of a facility, thereby improving convenience for a user.

Means for solving the problems

The present disclosure provides an equipment management system including: a movable connection device that is attachable to a duct rail provided in a facility, and includes a connection portion to which at least one electrical device is connectable, a driving portion for moving the electrical device along the duct rail, and a position detection sensor; and an information processing device including a management unit that outputs control information indicating an instruction to move the movable connection device along the duct guide, wherein the control information includes a condition of the detection information detected by the position detection sensor, and the management unit outputs the control information when the detection information detected by the position detection sensor satisfies the condition.

The present disclosure provides a facility management method in a facility management system including a movable connection device that can be attached to a duct rail installed in a facility, and an information processing device including a management unit, the facility management method including: connecting at least one electrical device; the management unit outputting control information indicating an instruction to move the movable connection device along the duct guide; and moving the electric equipment along the duct guide via the movable connection device according to the control information, wherein the control information includes a condition of detection information detected by a position detection sensor, and the management unit outputs the control information when the detection information detected by the position detection sensor satisfies the condition.

ADVANTAGEOUS EFFECTS OF INVENTION

According to the present disclosure, it is possible to control to freely move at least one electrical device along a duct guide provided at a ceiling of a facility, and it is possible to improve convenience for a user.

Drawings

Fig. 1 is a diagram showing a schematic example of the configuration of a device management system according to embodiment 1.

Fig. 2 is a block diagram showing an example of the hardware configuration of the device management system according to embodiment 1.

Fig. 3 is a block diagram schematically showing a configuration example of a drive system and a control system of the communicating means.

Fig. 4 is a cross-sectional view showing an example of a mechanism for coupling the movable coupling portion and the duct rail and an example of a mechanism for coupling the electrical device and the device coupling portion.

Fig. 5 is a perspective view showing an appearance of the communication unit in a use state.

Fig. 6 is a perspective view showing an appearance of the communication unit as viewed from obliquely above.

Fig. 7 is a perspective view showing an appearance of the communication unit as viewed from the back side of fig. 6.

Fig. 8 is a perspective view showing an appearance of the communication unit as viewed obliquely from below.

Fig. 9 is a perspective view showing an appearance of the communication unit as viewed from the back side of fig. 8.

Fig. 10 is a diagram showing an example of a screen displayed on the touch panel of the control terminal when a tab for creating layout information is selected by a touch operation.

Fig. 11 is a diagram showing an example of a screen displayed on the touch panel of the control terminal when the direction designation button is switched to the layout in the Z direction.

Fig. 12 is a diagram showing an example of a screen displayed on the touch panel of the control terminal when the tab for setting recipe information is selected by a touch operation.

Fig. 13 is a diagram showing an example of a screen displayed on a touch panel of a control terminal when recipe information is set using a tab as an SNS Web service.

Fig. 14 is a diagram showing an example of a screen displayed on a touch panel of a control terminal when recipe information is set using a photo wall as an SNS Web service.

Fig. 15 is a diagram showing a screen of a touch panel of the control terminal that displays a list of recipe information registered in the recipe store.

Fig. 16 is a sequence diagram for explaining an example of an operation procedure for directly moving the communicating means from the control terminal.

Fig. 17 is a sequence diagram illustrating an example of an operation procedure for moving the connected component using control information of the external server.

Fig. 18 is a sequence diagram illustrating an example of an operation procedure for moving a connected unit using an SNS Web service.

Fig. 19 is a sequence diagram illustrating an example of an operation procedure for moving the communicating means using the probe information of the electrical device

Fig. 20A is a diagram showing coordinates of the duct guide viewed from directly above in the robot coordinate system.

Fig. 20B is a diagram showing the control terminal in a rectangular shape and the position of the electronic device in a black dot in the coordinate system of the control terminal.

Detailed Description

Hereinafter, embodiments specifically disclosing the device management system and the device management method according to the present disclosure will be described in detail with reference to the accompanying drawings as appropriate. However, the above detailed description may be omitted. For example, a detailed description of already widely known items and a repetitive description of substantially the same configuration may be omitted. This is to avoid the following description becoming unnecessarily lengthy and to facilitate understanding by those skilled in the art. Furthermore, the drawings and the following description are provided to enable those skilled in the art to fully understand the present disclosure, and are not intended to limit the subject matter recited in the claims.

(outline of the configuration of the device management System)

Fig. 1 is a diagram showing a schematic example of the configuration of a device management system 5 according to embodiment 1. The device management system 5 has the following structure: the system includes a plurality of communication units 10 that are freely movable along duct rails (product rails) 8 laid on the ceiling 100 of the store, and a management server 50 that instructs movement and operation of each communication unit 10. In fig. 1, only one communication unit 10 is illustrated for simplicity of the drawing. In embodiment 1 below, a shop is exemplified as an example of a facility for laying the duct rail 8. However, the duct rail 8 is not limited to being installed in a store as long as it is a ceiling-mounted facility, and may be a commercial facility such as an office, a factory, a convenience store, a public facility (e.g., a town hall, a library), and a shopping mall in which a plurality of stores are arranged. The duct guide 8 is not limited to being laid on the ceiling, but may be laid on the side wall of the facility. That is, the duct rail 8 can be laid on the upper surface (ceiling) or the side surface (side wall) of the internal space of the predetermined facility.

The duct rail 8 is laid in a grid pattern, for example, so that the plurality of communication units 10 can freely move in the directions of arrows a1 and b1 with respect to the ceiling surface of the ceiling 100 of the store. For the duct rail 8, for example, a general-purpose or existing wiring duct to which the lighting device can be attached can be used. The communication unit 10 is movably attached to the duct guide 8. The communication unit 10 is connected (coupled) to various electrical devices 30 described later. The communication unit 10 is moved in the directions of arrows a1 and b1 in the drawing by itself, and the electric device 30 connected to itself can be moved in the directions of arrows a1 and b1 in the drawing along the duct guide 8. In fig. 1, the duct guides 8 are laid in a grid pattern, but it is also possible to lay a plurality of duct guides 8 without crossing. The duct guides 8 may have various shapes such as a straight line, a curved line, and a broken line, and may have various annular shapes such as a circle, an ellipse, a square, a rectangle, and a polygon.

Various electrical devices 30 connectable to the communication unit 10 are replaceably connected to the communication unit 10. Examples of the various electrical devices 30 include a power supply 311, a spotlight 312, a projector 313, a camera 314, a microphone 315, a speaker 316, a sensor 317 for detecting human activity, an air purifier 318, and a fan 319. Further, the sensor 317 is not limited to a sensor for detecting the activity of a person. The various electric devices 30 are not limited to the devices listed in the above limitation.

The communication unit 10 to which the electric device 30 is connected communicates with the management server 50 connected via the duct rail 8 (for example, wired or wireless communication is used), and moves to a position instructed from the management server 50. The electric device 30 performs various operations (for example, Pan rotation (Pan rotation), tilt rotation (tilt rotation), or both Pan rotation and tilt rotation) in the position after or during the movement of the communication unit 10 in accordance with an instruction from the management server 50.

(details of the configuration of the device management System)

Fig. 2 is a block diagram showing an example of the hardware configuration of the device management system 5 according to embodiment 1. The device management system 5 has the following structure: including a connectivity unit 10, various electric devices 30, a control terminal 40, a management server 50, a cloud server 60, and an external server 70.

The communication unit 10 includes a control section 11, a memory 12, and a communication section 13.

The control Unit 11 is a Processor configured by using, for example, a CPU (Central Processing Unit), an MPU (micro Processing Unit), a DSP (Digital Signal Processor), or an FPGA (Field Programmable Gate Array). The control unit 11 functions as a controller that controls the operation of the communicating unit 10, and performs control processing for collectively performing the operation of each unit of the communicating unit 10 as a whole, input/output processing of data with each unit of the communicating unit 10, arithmetic (calculation) processing of data, and storage processing of data. The control unit 11 operates according to the program and data stored in the memory 12. The control unit 11 uses the memory 12 during operation, and records data generated by the control unit 11 in the memory 12.

The Memory 12 is configured by using, for example, a RAM (Random Access Memory) and a ROM (read only Memory), and temporarily stores programs and data necessary for executing the operation of the connectivity unit 10, information or data generated during the operation, and the like. The RAM is, for example, a work memory used when the control unit 11 operates. The ROM stores, for example, a program and data for controlling the control unit 11 in advance. The memory 12 also stores control information transmitted from the management server 50, identification information of the own device, and the like.

The Communication unit 13 is connected to a network (not shown) using, for example, Power Line Communication (PLC), and can communicate with the management server 50 connected to the network. Further, the communication unit 13 may have a wireless LAN (Local Area Network) function, and in this case, may be connected to the management server 50 using a wireless LAN. When receiving the control information from the management server 50, the communication unit 10 stores the received control information in the memory 12, and moves to a predetermined position of the duct guide 8 based on the control information. Thereby, the management server 50 becomes able to move the electric device 30 connected to the communicating unit 10.

The position detection sensor 18 is used to estimate and detect the position of the communication unit 10 on the duct guide 8. The position detection sensor 18 may be any one of an acceleration sensor, a magnetic sensor, a gyro sensor, and the like, which are combined or used individually, for example. Instead, the position detection sensor 18 can provide the communication unit 10 with a communication function of WiFi (registered trademark), and perform position estimation based on beacon information from an access point (not shown) of WiFi (registered trademark), or based on radio wave intensity from the access point (not shown). Further, the position detection sensor 18 may also be replaced with an RFID tag, for example, a transmitter and/or a receiver of a Bluetooth (registered trademark) beacon.

The electric device 30 includes a control unit 31, a memory 32, a communication unit 33, a sensor 34, an actuator 35, and the like.

The control unit 31 is a processor configured using, for example, a CPU, an MPU, a DSP, or an FPGA. The control unit 31 functions as a controller that controls the operation of the electric device 30, and performs overall control processing for controlling the operation of each unit of the electric device 30, data input/output processing with respect to each unit of the electric device 30, data calculation (calculation) processing, and data storage processing. The control unit 31 operates according to the program and data stored in the memory 32. The control unit 31 uses the memory 32 during operation, and records data generated by the control unit 31 in the memory 32.

The memory 32 is configured using, for example, a RAM and a ROM, and temporarily stores programs and data necessary for executing the operation of the electrical device 30, information and data generated during the operation, and the like. The RAM is, for example, a work memory used when the control unit 31 operates. The ROM stores, for example, a program and data for controlling the control unit 31 in advance. The memory 32 also stores control information transmitted from the management server 50, identification information of the own device, and the like.

The communication unit 33 is electrically and physically connected to the communication unit 10 by, for example, a wire, and transmits and receives data or information to and from the communication unit 10. For example, when the electrical device 30 is an IoT (Internet Of Things) device, the communication unit 33 transmits detection information detected by the sensor 34, or control information, event information, and the like when the electrical device 30 is directly operated by a user or the like, to the management server 50 via the communication unit 10. Further, the communication section 33 receives control information (for example, information for controlling the electric device 30) transmitted from the management server 50 via the communication unit 10. The communication between the communication unit 33 and the communication unit 53 of the management server 50 may be performed via the communication unit 10, or may be performed directly by wireless communication or the like without via the communication unit 10.

The electrical device 30 may be operated and controlled by the user without going through the control terminal 40 or the management server 50. The communication unit 33 may transmit the operation information and the control information to the management server via or without the communication unit 10.

For example, in the case where the electric device 30 is the fan 319, the sensor 34 may also be a temperature sensor that detects the room temperature, so as to detect the rise of the room temperature and thus the fan 319 is started. Further, in the case where the electrical device 30 is a spotlight 312, the sensor 34 may also be an infrared sensor that senses a person in order to illuminate the person in proximity. The sensor 34 may be omitted from the structure according to the function and use of the electric device 30.

For example, in the case where the electrical device 30 is a fan 319, the actuator 35 may also be a motor that rotates the fan. In the case where the electrical device 30 is the spotlight 312, the actuator 35 may be a power supply unit that turns on a Light source such as an LED (Light emitting diode) or a halogen lamp. The actuator 35 may be omitted from the structure according to the function and use of the electric device 30.

The control terminal 40 is, for example, a stationary type fixed terminal such as a desktop PC (personal computer) or a notebook PC, a tablet terminal, or a portable terminal such as a smartphone, which is used by a user of the device management system 5. In embodiment 1, for ease of understanding, a tablet terminal is exemplified as the control terminal 40. The control terminal 40 includes a control section 41, a memory 42, a communication section 43, and a touch panel 44.

The control unit 41 is a processor configured using, for example, a CPU, an MPU, a DSP, or an FPGA. The control unit 41 functions as a controller that controls the operation of the control terminal 40, and performs overall control processing for controlling the operation of each unit of the control terminal 40, data input/output processing with respect to each unit of the control terminal 40, data calculation (calculation) processing, and data storage processing. The control unit 41 operates according to the program and data stored in the memory 42. The control unit 41 uses the memory 42 during operation, and records data generated by the control unit 41 in the memory 42.

The memory 42 is configured using, for example, a RAM and a ROM, and temporarily stores programs and data necessary for controlling the execution of the operation of the terminal 40, information or data generated during the operation, and the like. The RAM is, for example, a work memory used when the control unit 41 operates. The ROM stores, for example, a program and data for controlling the control unit 41 in advance. The memory 42 also stores local identification information and the like.

The communication unit 43 is connected to a management server 50 connected via a mobile communication network (not shown) so as to be capable of wireless communication. The communication unit 43 may have a wireless LAN function, for example, and may be connected to enable wireless communication with the management server 50 using a wireless LAN.

The touch panel 44 displays, as a User Interface (UI), a UI screen for creating (that is, setting) recipe information for controlling layout information in a shop, operations on various electrical devices 30, and the like, which will be described later. The touch panel 44 receives input operations such as various touches and taps by the user of the control terminal 40.

The management server 50 includes a control unit 51, a memory 52, and a communication unit 53.

The control unit 51 is a processor configured using, for example, a CPU, an MPU, a DSP, or an FPGA. The control unit 51 functions as a controller that controls the operation of the management server 50, and performs control processing for collectively performing the operation of each unit of the management server 50, data input/output processing with each unit of the management server 50, data calculation (calculation) processing, and data storage processing. The control unit 51 operates according to the program and data stored in the memory 52. The control unit 51 uses the memory 52 during operation, and records data generated by the control unit 51 in the memory 52. The control unit 51 receives control information including layout information and recipe information, which will be described later, for example, or generates and manages the control information.

The memory 52 is configured by using, for example, a RAM and a ROM, and temporarily stores programs and data necessary for execution of the operation of the management server 50, information and data generated during the operation, and the like. The RAM is, for example, a work memory used when the control unit 51 operates. The ROM stores, for example, a program and data for controlling the control unit 51 in advance. The memory 52 also stores probe information transmitted from the electrical device 30, control information for controlling the operation of the electrical device 30, control information for transmitting to the communication unit 10, identification information of the own device, control information for disaster or emergency, layout information, recipe information, and the like.

The communication unit 53 is connected to a network (not shown) using a mobile communication network (not shown), a wireless LAN, and the internet. The communication unit 53 is connected to be capable of communicating with the control terminal 40 connected to a mobile communication network (not shown), the cloud server 60 connected to a network (not shown), the external server 70, and the SNS Web service 90. The communication unit 53 is connected to be able to communicate with the communication unit 10 via a PLC communication network or a wireless LAN network.

The management server 50 receives the detection information detected by the electrical device 30 from the electrical device 30 connected to the communication unit 10 via the communication unit 53. The management server 50 requests the cloud server 60 to execute the analysis of the probe information via the communication unit 53, and receives the analysis result. The management server 50 receives layout information and recipe information disclosed in the external server 70 from the external server 70 via the communication unit 53. The management server 50 transmits layout information and recipe information to the external server 70 in order to disclose the layout information and the recipe information. The management server 50 can operate in cooperation with the SNS Web service 90. The SNS Web service 90 includes, for example, various SNS (social networking service) and various Web services. Examples of known services for the SNS Web service 90 include Twitter (registered trademark), Facebook (registered trademark), photo wall (registered trademark), ifttt (ift), Translation (Translation), and the like

The cloud server 60 includes a control unit 61, a memory 62, and a communication unit 63.

The control unit 61 is a processor configured using, for example, a CPU, an MPU, a DSP, or an FPGA. The control unit 61 functions as a controller that controls the operation of the cloud server 60, and performs overall control processing for controlling the operation of each unit of the cloud server 60, data input/output processing with each unit of the cloud server 60, data calculation (computation) processing, and data storage processing. The control unit 61 operates according to the program and data stored in the memory 62. The control unit 61 uses the memory 62 during operation, and records data generated by the control unit 61 in the memory 62. For example, the business style and the life style of the user may be analyzed by analyzing data collected by the sensor 34 of the electric device 30 or analyzing the taste of the user based on input information of the user input to the control terminal 40, and by integrating data from outside the system (for example, information on the life style of the user, information on the taste, information on the environment such as weather, season, or time, and the like).

The memory 62 is configured using, for example, a RAM and a ROM, and temporarily stores programs and data necessary for execution of the operation of the cloud server 60, information and data generated during the operation, and the like. The RAM is, for example, a work memory used when the control unit 61 operates. The ROM stores, for example, a program and data for controlling the control unit 61 in advance. The memory 62 also accumulates probe information received from a plurality of servers including the management server 50.

The communication unit 63 is connected to a network (not shown) by wire or wireless, and communicates with the management server 50 connected to the network. The cloud server 60 analyzes the probe information received from the management server 50 via the communication unit 63, and returns the analysis result to the management server 50.

The external server 70 includes a control unit 71, a memory 72, and a communication unit 73.

The control unit 71 is a processor configured using, for example, a CPU, an MPU, a DSP, or an FPGA. The control unit 71 functions as a controller that controls the operation of the external server 70, and performs overall control processing for controlling the operation of each unit of the external server 70, data input/output processing with respect to each unit of the external server 70, data calculation (calculation) processing, and data storage processing. The control unit 71 operates according to the program and data stored in the memory 72. The control unit 71 uses the memory 72 during operation, and records data generated by the control unit 71 in the memory 72.

The memory 72 is configured using, for example, a RAM and a ROM, and temporarily stores programs and data necessary for executing the operation of the external server 70, information and data generated during the operation, and the like. The RAM is, for example, a work memory used when the control unit 71 operates. The ROM stores, for example, a program and data for controlling the control unit 71 in advance. The memory 72 also registers the published layout information and recipe information.

The communication unit 73 is connected to a network (not shown) by wire or wireless. The communication unit 73 transmits layout information and recipe information registered in the memory 72 to the management server 50 connected to a network (not shown). The communication unit 73 receives layout information and recipe information for disclosure transmitted from the management server 50. The external server 70 may have functions performed by the control terminal 40, and may create layout information, recipe information, and the like, instead of the control terminal 40.

Fig. 3 is a block diagram schematically showing a configuration example of a drive system and a control system of the communication unit 10. The communicating unit 10 is constituted by a driving system including a movable coupling portion 15, an apparatus coupling portion 16, a motor 14, and a power supply portion 19, and a control system; the control system includes a control unit 11, a memory 12, and a communication unit 13. The configuration and operation of the control unit 11, the memory 12, and the communication unit 13 included in the control system are described with reference to fig. 2, and therefore, the description thereof is omitted here.

The movable coupling portion 15 movably attaches the communication unit 10 to the duct rail 8 (that is, is coupled to the duct rail 8). The communication unit 10 is movable along the duct rail 8 attached via the movable connecting portion 15. Details regarding the mechanism of the movable coupling portion 15 will be described later.

The apparatus coupling portion 16 connects the electrical apparatus 30 to the communication unit 10 (that is, couples with the electrical apparatus 30). The electrical equipment 30 connected to the equipment connection portion 16 is movable along the duct guide 8 together with the communication unit 10. Details regarding the mechanism of the device connecting portion 16 are described later.

The motor 14 includes, for example, a movement motor 14z, a translation motor 14y, and a tilt motor 14 x. The movement motor 14z is provided in the movable connection portion 15 (see fig. 4). The movement motor 14z has a rotation shaft that pivotally supports a pinion gear (pinogear) 141, and causes the rack gear 8y laid on the inside of the duct rail 8 to mesh with the pinion gear 141, thereby causing the movable connecting portion 15 to perform a linear movement. The communication unit 10 moves along the duct guide 8 by the rotation of the movement motor 14 z.

The translation motor 14y is provided in the device connecting portion 16 (see fig. 4). The translation motor 14y includes: the electrical device 30 connected to the device connecting portion 16 is rotated in the translational direction (that is, rotated in the translational direction) about a rotation axis about which the communication unit 10 is rotated in the vertical direction (in other words, the vertical direction corresponding to the vertical direction on the paper of fig. 3) via the gear 142 (see fig. 4).

The tilt motor 14x is provided in the device connecting portion 16 (see fig. 4). The tilt motor 14x tilts (that is, tilts and rotates) the electrical device 30 in a tilt direction with respect to an axis in the vertical direction (see above) of the communication unit 10 via a gear 144 (see fig. 4).

The power supply unit 19 receives a commercial ac current from a rail-shaped electrode plate 8z (see fig. 4) which is an electrode in the duct rail 8, and applies a dc voltage to each unit of the communicating unit 10. The power supply unit 19 incorporates a battery 19z that can supply electric power to each unit of the communicating means 10 even when there is no abnormality in supplying power to the electrode plates 8 z. The battery 19z is charged by the power supply unit 19.

Fig. 4 is a cross-sectional view showing an example of a mechanism for coupling the movable coupling portion 15 and the duct rail 8, and an example of a mechanism for coupling the electrical device 30 and the device coupling portion 16. The coupling mechanism shown in fig. 4 is merely an example, and various coupling mechanisms may be used.

The duct rail 8 has a long case 8a having a cross section formed in a substantially コ shape. A pair of opposed locking portions 8a1, 8a2 are formed below the duct rail 8 so as to be able to accommodate the movable connecting portion 15 inside. Further, projections 8b1, 8b2 on which electrode plate 8z energized by commercial ac is disposed are formed on the inner wall surfaces on both sides of case 8a in the longitudinal direction. Further, on the inner ceiling surface of the housing 8a, a rack 8y that meshes with the pinion 141 of the movement motor 14z is disposed in the longitudinal direction thereof.

The movable connecting portion 15 is formed in a convex shape at the upper portion of the communicating unit 10. Projections 151 and 152 that are slidable in the longitudinal direction of the duct rail 8 with locking portions 8a1 and 8a2 formed below the duct rail 8 are formed on both outer side surfaces of the movable coupling portion 15. The pinion 141 of the movement motor 14z protruding from the upper surface of the movable coupling portion 15 meshes with the rack 8 y. Further, on both outer side surfaces of the movable coupling portion 15, convex portions 155 and 156 having contact points 155a and 156a at the tips are formed. The contacts 155a and 156a are in contact with and electrically conducted to the electrode plates 8z disposed on the inner wall surfaces on both sides of the duct guide 8, respectively, and receive power supply from the electrode plates 8 z.

The device connecting portion 16 is provided at a lower portion of the communication unit 10, and connects the electrical device 30 to a lower surface of the communication unit 10. The device connecting portion 16 is divided into an upper translation member 121 and a lower tilt member 123. The translation member 121 includes a translation motor 14y and a gear 142. The tilting member 123 includes a tilting motor 14x and a gear 144. Further, the inclined member 123 has a mounting portion 123z freely inclined in an inclined direction

Further, on the lower surface of the mounting portion 123z, a recess 123y is formed in which the electrical device 30 is mounted. The housing 30z of the electrical device 30 includes: projection 30z1 of projection 30z2 fitted in recess 123y of mounting part 123z is formed. For example, the mechanical locking mechanism is implemented by inserting the convex portion 30z2 of the protrusion 30z1 into the concave portion 123y of the mounting portion 123z, and screwing the convex portion 30z2 by 90 ° with respect to the concave portion 123y, the convex portion 30z2 is no longer detached from the concave portion 123 y. The protrusion 30z1 is coupled with the mounting portion 123 z. Conversely, the mechanical locking mechanism is released by twisting the projection 30z2 by-90 ° relative to the recess 123y, and the projection 30z2 is removed from the recess 123 y. The protrusion 30z1 is released from the mounting portion 123 z. Further, the coupling of the mounting portion 123z and the protrusion portion 30z1 may be performed not by a mechanical locking mechanism but by a magnetic force based on a permanent magnet or an electromagnet. For example, an electromagnet capable of being energized is attached to the concave portion 123y of the attachment portion 123z, and a magnet or a magnetic substance is attached to the convex portion 30z2 of the protrusion portion 30z 1. When concave portion 123y of mounting portion 123z is fitted to convex portion 30z2 of mounting portion 123z, mounting portion 123z and protrusion 30z1 are strongly coupled by magnetic force by applying current to the electromagnet. Conversely, by stopping the energization, the projecting portion 30z1 is released from the mounting portion 123 z.

When the translation motor 14y rotates, the tilt member 123 and the electrical device 30 attached to the attachment portion 123z thereof rotate by a predetermined angle (for example, 360 °) in the translation direction d 5. When the tilt motor 14x rotates, the mounting portion 123z of the tilt member 123 and the electrical device 30 mounted thereon tilt by a predetermined angle (for example, 30 ° with respect to the axis in the vertical direction) in the tilt direction d 6.

Fig. 5 is a perspective view showing an appearance of the communication unit 10 in a use state. Fig. 6 is a perspective view showing an appearance of the communication unit 10 as viewed from obliquely above. Fig. 7 is a perspective view showing the appearance of the communication unit 10 as viewed from the back side of fig. 6. Fig. 8 is a perspective view showing an appearance of the communication unit 10 as viewed obliquely from below. Fig. 9 is a perspective view showing an appearance of the communication unit 10 as viewed from the back side of fig. 8.

The communication unit 10 includes a horizontal member 10z1 extending in a direction along the duct guide 8, and a vertical member 10z2 extending in a vertical direction to the duct guide 8, and has a substantially T-shaped housing 10 z. The communicating unit 10 is coupled to the duct guide 8 by the movable coupling portion 15 and is movable along the duct guide 8. The communication unit 10 is coupled to the electrical device 30 via the device coupling portion 16, and holds the electrical device 30. In fig. 5, as the electric device 30, for example, a projector 313 (see fig. 1) is connected to the communication unit 10.

Fig. 10 is a diagram showing an example of a screen displayed on the touch panel 44 of the control terminal 40 when the tab tb1 for creating layout information is selected by a touch operation. By the user's operation on the screen shown in fig. 10, the control unit 41 of the control terminal 40 executes processing corresponding to the operation, and displays data or information related to the execution result on the touch panel 44. The screen of the touch panel 44 of the control terminal 40 can be switched between the layout screen GM1 for creating the layout information and the recipe screen GM2 for setting the recipe information by the user selecting any of the tabs tb1 and tb2 disposed above.

When the tab tb1 is selected by the touch operation, the touch panel 44 displays the layout screen GM 1. The layout screen GM1 is composed of three columns. In the layout screen GM1, the electrical equipment list 220 is displayed in the left column CM11 in the figure. The column CM12 at the center displays a layout creation screen. The columns CM13 on the right show properties 240(PROPERTY), live view 245(live view), and adjustment checkbox 250 (ADJUST).

In the electric device list 220 displayed in the column CM11, a plurality of icons each indicating a plurality of types of electric devices 30 are arranged vertically (that is, in the upper and lower direction of the sheet of fig. 10). Here, as the plurality of icons, for example, 6 icons in total are registered, including a camera icon i1, a microphone icon i2, a speaker icon i3, a beacon icon i4, a projector icon i5, and a sensor icon i 6. When an icon is newly added to the electrical device list 220 displayed in the CM11, the ADD button 221 is selected.

These icons are touched by the user, moved to the column CM12 in the center by a drag operation, and released. The icon is arranged at a position on the grid LT or the grid point LTc near the position of the released operation. The grid LT corresponds to the duct guide 8, and the grid point LTc corresponds to the intersection of the duct guide 8. Therefore, the electrical equipment 30 shown by the drawing is disposed at a position or an intersection on the duct rail 8.

In fig. 10, the camera icons i11 to i13 are arranged at the lattice points LTc. The camera 314 indicated by a camera icon i13 photographs the inside of the store so that the range sandwiched between the broken lines L1 and L2 is the angle of view at the time of imaging. In addition, a plurality of (for example, 15 in fig. 10) beacon icons i4, 1 speaker icon i3, 1 projector icon i5, and 1 sensor icon i6 are arranged, respectively. Further, depending on the shape of the duct guide 8, there may be a case where the electric device which is required to be moved by changing from a certain layout to a different layout cannot be automatically moved in any way and needs to be manually moved by a user or the like, and in this case, the icon of the electric device which needs to be manually moved may be displayed in a different color, size, shape, or the like from the icon of the electric device which does not need to be manually moved.

The layout generation screen displayed in the central column CM12 includes, as the background image 233, an image obtained by observing the space in the store from above, in addition to the grid LT and the icon. The background image 233 shows a plurality of product shelves 231z set in the store.

In the attribute (PROPERTY)240 displayed in the right column CM13, a list of identification information (DEVICE ID)241 of the electrical DEVICE 30 and recipe information 242 of the electrical DEVICE 30 in operation (BEHAVIOR) is shown. A DELETE button (DELETE) 240z and an ADD button (ADD) 240y are displayed below the attribute 240. While the identification information 241 of the electrical device 30 is being displayed, the user selects one recipe information 242, and when the delete button 240z is touched, the recipe information 242 is deleted. When the addition button 240y is touched, the recipe information 242 is added.

The LIVE VIEW 245(LIVE VIEW) displays the image captured by the electric device 30 specified by the identification information 241, in this case, the camera 314 indicated by the camera icon i 13.

The adjustment check box 250 includes a plurality of operation buttons 250z that indicate the operation of the electrical device 30 (here, the camera 314) determined by the identification information 241. The plurality of operation buttons 250z include: four buttons for switching the imaging direction up, down, left, and right, two buttons for rotating the imaging direction in the panning direction (left/right), and two buttons for tilting the imaging direction in the tilting direction. When the user touches one of these operation buttons 250z, the orientation (imaging direction) of the camera 314 is changed. In addition, at column CM13 may also display at least a portion of attributes 240, live view 245, and adjustment checkboxes 250. For example, only the attribute 240, only the live view 245, and the adjustment check box 250 are displayed in the column CM 13.

Further, a layout list button (layout list) 261 for displaying a list of the registered layout information is displayed below the layout screen GM1 so as to be selectable. Further, an OBJECT determination button (OBJECT) 262 for determining the electric device 30 to be an OBJECT of the layout is displayed in a selectable manner. Further, a magnification slider 263 for enlarging/reducing the layout generation screen of the column CM12 at the center of the operation is displayed. Further, a direction designation button 264 for designating the direction of the layout is displayed. The direction designation button 264 can be switched between a layout in the X-Y direction indicating a space in the horizontal direction in the store and a layout in the Z direction indicating a space in the vertical direction in the store. In fig. 10, the direction designation button 264 is selected so as to display the layout in the X-Y direction. Further, a save button 265 is displayed for registering layout information indicating the layout created/edited by the above operation in the memory 52 of the management server 50. The storage destination for storing the layout information by the click operation of the save button 265 is not limited to the memory 52 of the management server 50, and may be the memory 42 of the control terminal 40 or a storage device on the cloud.

In addition, AR (Augmented Reality) may be used for the operation of changing the layout. For example, by mounting a camera on the control terminal 40, imaging the ceiling and the duct rail 8 with the camera, and selecting the electrical device 30 of the object to be operated on the touch panel 44 on which the imaging screen is displayed, the user can image the real space and select the electrical device 30 of the object. Further, for example, if the electric device 30 of the object is to be moved, the destination of the movement of the electric device 30 of the object is input on the touch panel 44 on which the image-taking screen is displayed, whereby the destination of the movement can be specified while the real space is being taken.

An example of converting the position of the movement destination input to the touch panel 44 into the position of the real space is explained. The positional information of the electrical equipment 30 on the coordinate duct guide 8 in the real space is set as the robot coordinate system. The positional information of the control terminal 40 is set as a terminal device coordinate system.

The control unit 51 of the management server 50 acquires position information input by the touch panel 44 from the control terminal 40. The coordinate conversion unit 511 converts the robot coordinate system into the terminal device coordinate system. Fig. 20A shows coordinates of the duct guide 8 viewed from directly above in the robot coordinate system, and the duct guide 8 sets the position information (x, y, θ) of a given position to (0, 0, 0). Fig. 20B is a diagram in which the control terminal 40 is represented by a rectangle and the position 301 of the electric device 30 is represented by a black dot in the coordinate system of the control terminal 40.

The electric device 30 is photographed by the control terminal 40, and the position of the control terminal 40 is estimated, and the coordinates are set as the origin of the terminal device coordinate system. At this time, the position of the control terminal 40 is determined by, for example, either one of the following two methods

In the embodiment 1, a camera of the control terminal 40 is used to photograph a recognition mark (not shown) attached to the electric device 30. The control unit 51 recognizes a recognition mark (not shown) from image information of the captured camera image, and determines the size and inclination of the recognition mark (not shown). The control unit 51 performs calibration of the coordinate system based on the magnitude and inclination of the obtained identification mark (not shown), extracts the position of the wall by image processing of pattern matching, and calculates the imaging position of the control terminal 40 in the terminal coordinate system of the control terminal 40. This corresponds to coordinate conversion by an observation method using a recognition mark (not shown) photographed by a camera, and means that if the recognition mark (not shown) is tilted, the coordinate system is also tilted at the tilt angle.

As the mode 2, the distance from the electric device 30 to the control terminal 40 is measured by a depth camera, and the position of the control terminal 40 is calculated from the measured distance.

The measurement of the distance from the electric device 30 to the control terminal 40 using the depth camera uses a known method. An example of a distance measurement method is a Time of Flight (TOF) method. In the TOF system, a distance is measured from the time taken for the projected laser light to reciprocate to the object.

Kinect (registered trademark) of microsoft corporation projects a single projection pattern (for example, a large quadrangle pattern with random dot scattering) to the surface of an object all the time, and performs image processing on the amount of movement of each place within the captured image capturing pattern, thereby realizing three-dimensional measurement in all frames of a moving image captured by an infrared camera.

Furthermore, image recognition techniques of the camera may also be used in operation. For example, if the user is reflected by a camera mounted on the control terminal 40, a camera of the electric device 30, or the like, for example, the user points at the electric device 30 that the user wants to operate, information may be transmitted from the camera to the management server 50 so that the electric device 30 that is the operation target is recognized by the management server 50. Further, if the user wants to move the target electrical device 30, the user can specify the destination of movement in the real space by pointing the user's finger to the destination of movement of the target electrical device 30 reflected in the camera.

Further, the control unit 51 may display the divided screen in which the camera image and the layout generation screen CM12 shown in fig. 10 are divided on the touch panel 44 in a case where the destination cannot be specified by the user's input on the camera image displayed on the touch panel 44 or in accordance with the user's instruction. The layout generation screen CM12 includes a plan view of the facility (two-dimensional map information of the facility). As the instruction of the user, an icon may be displayed on the layout screen GM1, or a divided screen may be displayed by the control terminal 40 having a microphone and recognizing the sound of a given word of the user by the control section 41.

In the divided screen, the presence of the user input is displayed at the position of the layout generation screen CM12 corresponding to the user input to the camera image. At this time, the control unit 51 acquires information of the input position of the camera image on the touch panel 44, and outputs position information of the layout creation screen CM12 corresponding thereto to the control terminal 40. Alternatively, in the divided screen, the presence of the user input is displayed at the position of the camera image corresponding to the user input to the layout generation screen CM 12. At this time, the control unit 51 acquires information of the input position of the layout generation screen CM12 of the touch panel 44, and outputs position information of the camera image corresponding thereto to the control terminal 40. That is, in the divided screen, when the user inputs an input to either one of the camera image and the layout generation screen CM12, the user's input to the other image is displayed.

Further, the operation information may be indicated by a voice of the user, and may be realized by mounting a voice recognition function as an input means on the communication unit 10, the electric device 30, or the control terminal 40.

Fig. 11 is a diagram showing an example of a screen displayed on the touch panel 44 of the control terminal 40 when the direction designation button 264 is switched to the layout in the Z direction. By the user's operation on the screen shown in fig. 11, the control unit 41 of the control terminal 40 executes processing corresponding to the operation, and displays data or information related to the execution result on the touch panel 44. When the direction specifying button 264 is switched to the layout in the Z direction, the column CM12 in the center shows the arrangement in the vertical direction of the camera 314 corresponding to the camera icon i13 specified by the object specifying button 262 and displayed in the identification information 241. Further, the angle of view taken by the camera 314 is a range shown sandwiched by the broken line l3.l 4. Here, the poster-attached signboard 235 is photographed as a subject. The imaging range of the object to be imaged changes according to the movement and orientation of the camera 314. In the live view 245, an image of the subject within the imaging range captured by the camera 314 is displayed. In addition, when the direction specifying button 264 is switched to the layout in the Z direction, the display items of the left column CM11 and the right column CM13 on the layout screen GM1 do not change.

When the position of the camera 314 is adjusted, the position and orientation of the camera 314 can be finely adjusted by detecting the movement of a person in the real space by the sensor 317 for detecting the movement of a person, displaying the camera 314 on the touch panel 44 of the control terminal 40 by VR (augmented reality), and moving the position of the camera 314 by a finger.

Fig. 12 is a diagram showing an example of a screen displayed on the touch panel 44 of the control terminal 40 when the tab tb2 for setting recipe information is selected by a touch operation. By the user's operation on the screen shown in fig. 12, the control unit 41 of the control terminal 40 executes processing corresponding to the operation, and displays data or information related to the execution result on the touch panel 44. When the tab tb2 is selected by the touch operation, the touch panel 44 displays the recipe screen GM 2. The recipe picture GM2 is composed of three columns. In the recipe screen GM2, the electric equipment list 220 is displayed in the left column CM21 in the drawing, similarly to the left column CM11 of the layout screen GM 1. The right column CM23 displays a list 270 of SNS and Web services 90. Here, examples of the SNS Web service 90 include IFTTT271, Twitter (registered trademark) 272, and Translation (Translation) 273. When an SNS Web service is newly added to the list 270 of SNS Web services 90 displayed in the column CM23, the ADD button 278 is selected.

The central column CM22 displays a recipe setting screen GM 22. In the recipe setting screen GM22, by performing a drag operation on the icon registered in the electrical appliance list 220, the recipe setting can be targeted. That is, when one of the icons i1 to i6 is touched by the user, moved to the center column CM22 by a drag operation, and a release operation is performed, an icon is displayed on the recipe setting screen GM22, and the electric device 30 corresponding to the icon is targeted for recipe setting. In fig. 12, a drag operation is performed on the icon i1 of the camera from the electric device list 220, and a tile (tile) te1 indicating that the camera 314 is a setting target is displayed on the recipe setting screen GM 22.

Below the block te1, blocks te2, te3 indicating the operation conditions of the camera 314 are registered. The operation condition can be set by a user performing a touch input to the touch panel 44. For example, at block te2 it is registered that the camera 314 detects a person as the action condition. Further, the date, time, and place are registered at block te 2. Further, a block te4 of the projector icon i5 dragged from the electrical device list 220 and a block te5 of the camera icon i1 newly dragged from the electrical device list 220 are connected to the block te 2. Further, at the block te3, the action content in the case where the action condition registered at the block te2 is satisfied is registered. As the operation content, registration is performed: the projector 313 corresponding to the projector icon i5 projects a video image onto a wall surface, and the camera 314 corresponding to the camera icon i1 captures a predetermined location, and determines the age level of a person included in the captured image.

Based on the above-described operation conditions and the above-described operation contents, for example, if a person is seen in the clothing section in a limited time period (predetermined time), the projector 313 can be activated to set a performance effect in which a woman wearing various fashion clothes is reflected on the wall surface. The camera 314 is activated, and can be set so as to determine the age group from the face images of a plurality of persons in the captured image, and display the clothes corresponding to the age.

By pressing the save button 265, the recipe information set by the above-described operation is transmitted from the control terminal 40 to the management server 50, and the control unit 51 of the management server 50 registers the transmitted recipe information in the memory 52. The storage destination to which the recipe information is stored by the click operation of the storage button 265 is not limited to the memory 52 of the management server 50, and may be the memory 42 of the control terminal 40 or a memory on a cloud. The memory 72 of the external server 70 may be stored for public use.

Fig. 13 is a diagram showing an example of a screen displayed on the touch panel 44 of the control terminal 40 when recipe information is set as the SNS Web service 90 using the translation 273. By the user's operation on the screen shown in fig. 13, the control unit 41 of the control terminal 40 executes processing corresponding to the operation, and displays data or information related to the execution result on the touch panel 44. In the recipe setting screen GM22, a tile te6 representing the microphone 315 is configured by a drag operation on the microphone icon i2 registered in the electrical appliance list 220. Furthermore, a block te7 showing the translation 273 is arranged by a drag operation on the translation 273 registered in the list 270 of the SNS Web service 90. Further, a tile te8 representing the speaker 316 is configured by performing a drag operation on the speaker icon i3 registered in the electrical device list 220. The recipe information is set by connecting the block te6 and the block te7, and connecting the block te7 and the block te 8. With this setting, the following recipe information is set with respect to the recipe information: when a voice in a foreign language is input by the microphone 315, the translation 273 as a Web service converts the input voice into a voice in japanese, and the speaker 316 sounds in japanese. The recipe information may include a setting for converting a japanese voice into a foreign language voice.

Thus, for example, when a foreigner makes an inquiry to a cashier of a store, the clerk can immediately understand the contents uttered in the foreign language in japanese. Therefore, the service etiquette is improved, and the increase in sales volume can be contributed.

Fig. 14 is a diagram showing an example of a screen displayed on the touch panel 44 of the control terminal 40 when recipe information is set using the photo wall 275 as the SNS Web service 90. By the user's operation on the screen shown in fig. 14, the control unit 41 of the control terminal 40 executes processing corresponding to the operation, and displays data or information related to the execution result on the touch panel 44. By performing a drag operation on the photo wall 275 registered in the list 270 of the SNS Web service 90, a block te9 indicating the photo wall 275 is arranged. Further, in the recipe setting screen GM22, a tile te10 indicating the projector 313 is configured by performing a drag operation on the projector icon i5 registered in the electric device list 220. The recipe information is set by connecting the block te9 and the block te 10. In this setting, when an image is posted to the photo wall 275, for example, when the image to be posted is an image in a store, the projector 313 can move to the place and project a video. This enables a person interested in the image to see various videos.

In addition, various recipe information may also be registered to a recipe store on the cloud, being disclosed in a paid or gratuitous manner through a network. Fig. 15 is a diagram showing an example of a screen in which a list of recipe information registered in the recipe store 310 is displayed on the touch panel 44 of the control terminal 40. In the recipe store 310, a plurality of pieces of recipe information are registered as indicated by recipe numbers 001 to 0012. The control unit 41 of the control terminal 40 can access the recipe store 310 via the communication unit 43, and download and store the registered recipe information in the memory 42. Thus, the user can save the time and effort for setting the recipe information, and can easily set new recipe information by reading a part of the newly set recipe information.

(action of device management System)

Next, the operation procedure of the device management system 5 according to embodiment 1 will be described.

First, an example of the operation of moving the communication unit 10 along the duct guide 8 is shown. Fig. 16 is a sequence diagram for explaining an example of an operation procedure in which the control terminal 40 directly moves the communicating unit 10.

In fig. 16, the user inputs control information for moving the communicating unit 10 to the touch panel 44 (that is, a user interface, i.e., UI) of the control terminal 40. As described above, the control information includes layout information, recipe information, electrical equipment movement information, and the like. Further, the electrical device movement information may also be included in the layout information. The control information to be input includes, for example, information for moving the projector 313 disposed in the fresh food area to the vegetable area. The control terminal 40 receives control information input by the user (T1).

The control terminal 40 transmits the input control information to the management server 50 (T2). Upon receiving the control information from the control terminal 40, the management server 50 identifies the communicating means 10 connected to the target electrical device 30 (T3). In this case, the management server 50 may add other information (for example, identification information of the control terminal 40 to which the control information is input) to the control information transmitted to the communication unit 10 connected to the target electrical device 30.

The management server 50 transmits control information to the connectivity unit 10 (T4). The communication unit 10 determines a destination to move based on the control information received from the management server 50 (T5).

Fig. 17 is a sequence diagram illustrating an example of an operation procedure for moving the connectivity unit 10 using control information of the external server 70.

In fig. 17, the external server 70 registers control information such as layout information and recipe information as an option list. The external server 70 reads out the option list of the control information (T11). The external server 70 transmits the read option list to the control terminal 40 (T12). The timing of transmitting the option list may be periodically or at a time requested from the control terminal 40.

The control terminal 40 receives the option list from the external server 70, and accepts desired control information selected by the user's input operation from the option list (T13). The control terminal 40 notifies the desired control information to the external server 70 (T14). The communication between the control terminal 40 and the external server 70 may be performed via the management server 50, or may be performed directly.

The external server 70 transmits the detailed information of the selected control information to the management server 50 (T15). The management server 50 sets the current control information based on the received detailed information of the control information (T16). The management server 50 transmits the set control information to the communicating means 10 connected to the target electrical device 30 (T17). The communicating unit 10 determines a destination to move based on the control information received from the management server 50 (T18). Here, the external server 70 transmits the detailed information of the control information to the management server 50, however, the control terminal 40 may receive the detailed information of the control information from the external server 70 and directly transmit the same to the management server 50.

For example, in the option list, spatial information may be included in addition to the control information. The external server 70 may also acquire control information from the space information (the size of the space, the shape of the space, and the use of the space) of the facility in which the device management system 5 is located (T11). Examples of the size of the space are the length of a three-dimensional space (x, y, z), a two-dimensional space (x, y). Here, z means height. Examples of the shape of the space are a shape of a two-dimensional space and a shape of a three-dimensional space.

Further, in the option list, in addition to the control information, information of the position of the user inside the facility may be included. The position of the user may be a two-dimensional position excluding the height information, or may be a three-dimensional position. The control terminal 40 displays information of the user's location when displaying the option list. For example, when the electrical device 30 is the speaker 316, a position (optimum position) at which the sound of the speaker 316 is easily heard is determined based on the directivity of the speaker 316 and the position of the speaker 316. At this time, in the control information of the option list, information for controlling the electric device 30 is included so that the sound of the speaker 316 is easily heard at the optimum position. For example, the information of the optimal position can be created by mapping the area where the function of the electric device 30 operates and the operation intensity thereof to the space of the facility. In the case where the electrical device 30 is a spotlight, a region where functions of the electrical device 30 work shows a range illuminated by the spotlight; the intensity of the functional operation of the electrical device 30 shows the brightness of the spotlight. An example of the brightness is illuminance (lux). For example, when the device management system 5 has a plurality of speakers 316, it is possible to obtain a position (optimum position) at which the sound of the speakers 316 is easily heard, based on the information on the directivity and the information on the degree of attenuation of the sound for each volume level. Thus, the user can confirm the display of the control terminal 40 and select desired control information according to the position of the user who wants to hear the sound of the speaker 316. The control terminal 40 receives control information selected by a user input operation corresponding to the position of the user who wants to hear the sound of the speaker 316 (T13). The user's location here does not mean the user's location detected by the location detection sensor 18, but means the user's location where the function of the electrical device 30 is most effectively operated. The user's location may also be other than 1 point, meaning an area.

Fig. 18 is a sequence diagram illustrating an example of an operation procedure for moving the connectivity unit 10 by using the SNS Web service 90.

In fig. 18, the SNS Web service 90 detects a regular date and time or an event (T21). Examples of the events detected by the SNS Web service 90 include posting a specific photo on a photo wall (registered trademark), uploading a message including a specific text to a twitter (registered trademark), and the like. The SNS Web service 90 transmits the detailed information of the control information to the management server 50 at regular date and time or at the detection of an event (T22). The control information includes the aforementioned layout information and recipe information. The management server 50 requests the SNS Web service 90 for the detailed information, and the SNS Web service 90 can transmit the detailed information in accordance with the request.

The management server 50 sets the current control information based on the received detailed information of the control information, and specifies the communication unit 10 to be the target (T23). The management server 50 transmits the set control information to the communicating means 10 connected to the target electrical device 30 (T24). The communicating unit 10 determines a destination to move based on the control information received from the management server 50 (T25).

Fig. 19 is a sequence diagram illustrating an example of an operation procedure for moving the communicating unit 10 using the probe information of the electric device 30.

In fig. 19, the electric device 30 generates probe information (T31). The detection information may also be, for example, room temperature detected by a temperature sensor in the case where the electric device 30 is the fan 319, so as to detect a rise in room temperature while the fan 319 is being activated. Further, the detection information may be information including the age of a person or the like included in an image captured by the camera 314 in the case where the electric device 30 is the camera 314. The electric device 30 transmits the generated probe information to the management server 50 (T32).

When receiving the probe information, the management server 50 stores the probe information in the memory 52 (T33). The management server 50 transmits the probe information to the cloud server 60 in order to request analysis of the probe information (T34).

The cloud server 60 receives probe information from a plurality of servers including the management server 50 (T35), and analyzes the probe information (T36). As this analysis, for example, a place where persons are gathered in a large amount may be searched for from the image captured by the camera 314. The results of the analysis gave the following information: in supermarkets such as store a, store B, and store C, a large number of people are gathered in a fruit area from 5:00 in the evening.

The cloud server 60 generates control information from the result of the analysis (T37). The control information generated by the cloud server 60 includes, for example: when the user arrives at about 5:00 evening, the spotlight is moved and lighted to illuminate the fruit area, and the projector is moved to the fruit area to project images and the like, which is helpful for promoting sales of the formula information. The cloud server 60 transmits the generated control information to the management server 50 (T38). The electric device can be moved and controlled not only based on the analysis related to the time information but also based on the results of the analysis related to weather information, day of the week, and degree of congestion in the store, for example.

In addition, the management server 50 also analyzes the in-store probe information received from the electrical device 30 in the own apparatus to generate control information (T39). As this analysis, for example, information that customers of young women gather in the clothing area is obtained from the image captured by the camera 314. As a result of the analysis, the management server 50 moves the speaker to the clothing section, and generates control information including recipe information for playing music suitable for the young. In other words, the control information including the function of the electrical device 30 corresponding to the user floor is generated from the analysis result of the information of the user floor at the given place within the facility. As a result of the analysis, a position (location) where a predetermined target user layer is collected may be acquired, and control information including the function of the electrical device 30 corresponding to the target user layer may be generated. In other words, the control information may further include information for controlling the electrical device 30 using only the probe information corresponding to a given target user layer. The target user layer is included with the attributes of the target. Further, a plurality of target user layers may be set in advance, and different locations may be set for each target user layer. Further, the target user layer may be changed according to the time period. That is, the condition of the probe information may also be different according to the time period. For example, the target user layer may also be set to the home layer (user with children) during the daytime (time included in 10 o 'clock to 17 o' clock); in the nighttime period (time included in 17 o 'clock to 24 o' clock), the target user layer is set to a female layer between 20 years old and 30 years old. At this time, the management server 50 acquires information of the target user layer and analyzes the information based on the probe information.

The management server 50 selects the control information generated by the own device and the control information generated by the cloud server 60, and transmits the selected control information to the communication unit 10 connected to the target electrical device 30 (T40). The control information which is set to have a high priority can be set arbitrarily. The communicating unit 10 determines a destination to move based on the control information received from the management server 50 (T41).

Further, in the example shown in fig. 16, in the option list, in addition to the control information, a condition of the probe information or a condition of the analysis result may be included. In the case where the probe information satisfies the condition of the probe information or the condition of the analysis result included in the desired control information selected by the user, the electrical device 30 is controlled according to the control information. In other words, when receiving the probe information satisfying the condition of the probe information, the management server 50 transmits the control information for the electrical device 30 to the connectivity unit 10 (T40). Here, examples of the condition of the probe information are a position of the user, a time period, a day of the week, a season, weather information outside the facility, a change in weather information outside the facility, and the like. Examples of conditions under which information is analyzed are attributes of the user (gender, height, clothing, etc.), number of users within the facility, etc. The communicating unit 10 determines a destination to move based on the control information received from the management server 50 (T41).

For example, in the case where the electrical device 30 is the plurality of sensors 317, when the user is detected at a predetermined position in the facility, control information for detecting the predetermined position in the facility from a plurality of angles may be registered in the option list. The set position may also be not 1 point, but means an area. Examples of the set position in the facility are a place that needs to be monitored in consideration of crime prevention, a place that wants to focus attention of the user, or a place that wants to obtain a reaction of the user. When a plurality of electrical devices 30 can be effectively used, the amount of information of a user to be acquired can be increased by performing detection from a plurality of angles. For example, in the case where the electrical device 30 is a plurality of sensors or a plurality of cameras 314, and the condition of the detection information includes a plurality of set positions, the control information is created so that the plurality of cameras 314 can be dispersed and detected at the set position where the user is detected. For example, the control information includes information on the destination of the electric device 30 in each of the plurality of setting positions, depending on whether or not the user is present in the other setting position. The device management system 5 has three electrical devices 30, and the detection conditions have three setting positions. The control information includes, for each of the three setting positions: information that functions at one set position using three electric devices 30 in the case where no user is detected at the other two set positions; information that the two electric devices 30 function at one set position in the case where the user is detected at the other set position; and information that one electric device 30 functions at one set position in the case where the user is detected at all three set positions.

As described above, in the facility management system 5 according to embodiment 1, the communicating means 10 (an example of the movable connecting device) includes: the device connection portion 16 (an example of a connection portion) to which the electrical device 30 can be connected and the movable connection portion 15 (an example of a driving portion) to move the electrical device 30 along the duct rail 8 provided on the ceiling 100 of a store (an example of a facility) can be attached to the duct rail 8. The management server 50 (an example of an information processing apparatus) includes a control unit 51 (an example of a management unit) that instructs movement of the communicating unit 10 along the duct guide 8.

Thus, according to the equipment management system 5, it is possible to control the electric equipment to be freely movable along the duct rail installed in the ceiling of the store, and it is possible to improve convenience for the user.

In the above, various embodiments have been described with reference to the drawings, however, the present disclosure is not limited to this example. It will be apparent to those skilled in the art that various modifications, substitutions, additions, deletions, and equivalents can be made within the scope of the claims and also fall within the technical scope of the present disclosure. In addition, the respective components in the above-described embodiments may be arbitrarily combined without departing from the scope of the invention.

The duct rail is disposed in a grid pattern on the ceiling of the store, but may be disposed in any shape. For example, the duct guide disposed on the ceiling surface may be disposed in a spiral shape not intersecting with each other, or in a plurality of curved shapes intersecting with each other at arbitrary points. Further, the pipe guide may also be configured so as to be laid inside a polygon, a rounded polygon, an ellipse including a circle, an uneven profile, or the like. Furthermore, the pipe guide may also be configured in various shapes as endless loops that do not end up.

Further, the present application is based on the japanese patent application filed on 26/1/2018 (japanese patent application 2018-012049), the contents of which are incorporated herein by reference.

Industrial applicability

The present disclosure is useful as an equipment management system and an equipment management method that are controlled to freely move at least one electrical equipment along a duct guide provided in a ceiling of a facility, improving convenience for a user.

-description of symbols-

5 device management system

8 pipeline guide rail

10 communicating unit

11 control part

12 memory

13 communication unit

14 motor

15 Movable connection part

16 device joint

18 position detection sensor

30 electric device

40 control terminal

50 management server

60 cloud servers.