WO2020217832A1 - Device installation assistance system, device installation assistance method and program - Google Patents

Abstract

A device installation assistance system, device installation assistance method and program are provided which enable increasing efficiency of device installation. This device installation assistance system (1) is provided with a display processing unit (109), an obstacle information acquisition unit (105) and a first determination processing unit (106). The display processing unit (109) displays on a display unit (12) an installation diagram relating to the multiple devices and the facility where a controller is to be installed, wherein the installation positions of the multiple devices and the installation position of the controller for controlling the multiple devices are added to said installation diagram. For each of the multiple devices, if an obstacle is present on the straight line connecting the device and the controller, the obstacle information acquisition unit (105) acquires obstacle information relating to the obstacle. Of the arrangement diagram and the obstacle information, the first determination processing unit (106) uses at least the arrangement diagram to calculate, for each of the multiple devices, the communication state between the device and the controller, and determines whether or not it is possible to control the device with the controller.

Description

Equipment installation support system, equipment installation support method and program

This disclosure generally relates to equipment installation support systems, equipment installation support methods and programs, and more specifically to equipment installation support systems, equipment installation support methods and programs that support when installing equipment in facilities.

Conventionally, a technique for supporting the installation of equipment is known (see, for example, Patent Document 1).

Patent Document 1 describes a technique for supporting the installation of a home controller. The home controller of Patent Document 1 communicates with a plurality of home appliances such as lighting devices already installed, and acquires an electric field strength level in communication with the home controller for each of the plurality of home appliances. As a result, the user can formulate an appropriate installation location of the home controller so that communication with all home appliances can be reliably performed.

In Patent Document 1, a home controller (controller) and a home electric appliance (equipment) are actually installed in a facility, and communication is performed to check the connection status. Therefore, it is extremely troublesome to change the installation location of the home controller or home appliances or add other devices according to the connection status.

JP-A-2015-35555

The present disclosure is made in view of the above problems, and an object of the present disclosure is to provide an equipment installation support system, an equipment installation support method, and a program capable of improving the efficiency of equipment installation work.

The device installation support system according to one aspect of the present disclosure includes a display processing unit, an obstacle information acquisition unit, and a controller control determination unit. The display processing unit displays an installation diagram of the plurality of devices and a facility to which the controllers are installed, to which the installation positions of the plurality of devices and the installation positions of the controllers for controlling the plurality of devices are added. Display it. The obstacle information acquisition unit acquires obstacle information related to obstacles existing on a straight line connecting the device and the controller for each of the plurality of devices. The controller control determination unit obtains the communication state between the device and the controller for each of the plurality of devices by using at least the installation drawing of the installation drawing and the obstacle information, and the controller. Determines whether or not control is possible for the device.

The device installation support method according to one aspect of the present disclosure is used in a device installation support system that supports the installation of a plurality of devices. The device installation support method includes a display processing step, a selection step, an acquisition step, and a controller control determination step. In the display processing step, an installation diagram relating to the plurality of devices and the facility to which the controllers are installed, to which the installation positions of the plurality of devices and the installation positions of the controllers for controlling the plurality of devices are added, is displayed on the display unit. Display it. In the selection step, one of the plurality of devices is selected as the target device. The acquisition step acquires obstacle information related to an obstacle existing on a straight line connecting the target device and the controller for the target device. In the controller control determination step, the communication state between the target device and the controller is obtained for the target device by using at least the installation drawing of the installation diagram and the obstacle information, and the controller performs the above. Determine whether control is possible for the target device. The selection step, the acquisition step, and the controller control determination step are repeated until all of the plurality of devices are selected.

The program according to one aspect of the present disclosure is used in a device installation support system that supports the installation of a plurality of devices. The program causes a computer to execute a display processing step, a selection step, an acquisition step, and a controller control determination step. In the display processing step, an installation diagram relating to the plurality of devices and the facility to which the controllers are installed, to which the installation positions of the plurality of devices and the installation positions of the controllers for controlling the plurality of devices are added, is displayed on the display unit. Display it. In the selection step, one of the plurality of devices is selected as the target device. The acquisition step acquires obstacle information related to an obstacle existing on a straight line connecting the target device and the controller for the target device. In the controller control determination step, the communication state between the target device and the controller is obtained for the target device by using at least the installation drawing of the installation diagram and the obstacle information, and the controller performs the above. Determine whether control is possible for the target device. The selection step, the acquisition step, and the controller control determination step are repeated until all of the plurality of devices are selected.

FIG. 1 is a diagram illustrating a configuration of an installation support device according to an embodiment. FIG. 2 is a plan view of a facility for explaining a situation in which a lighting device, a controller, and a repeater according to an embodiment are installed. FIG. 3A is a diagram illustrating a case where there is no obstacle between the lighting device and the controller or the repeater. FIG. 3B is a diagram illustrating a case where one obstacle exists between the lighting device and the controller or the repeater. FIG. 3C is a diagram illustrating a case where two obstacles exist between the lighting device and the controller or the repeater. FIG. 4 is a diagram illustrating an outline of the operation of the above-mentioned installation support device. FIG. 5 is a diagram illustrating a design data display process performed by the above-mentioned installation support device. FIG. 6 is a diagram for explaining the device arrangement process performed by the installation support device of the same. FIG. 7 is a diagram illustrating a controller arrangement process performed by the installation support device of the same. FIG. 8 is a diagram illustrating a first determination process performed by the installation support device of the same. FIG. 9 is a diagram illustrating a repeater arrangement process performed by the above-mentioned installation support device. FIG. 10 is a diagram illustrating a second determination process performed by the installation support device of the same. FIG. 11 is a diagram illustrating a design screen displayed by the installation support device of the same. FIG. 12 is a diagram illustrating an operation of arranging the lighting equipment on the same design screen. FIG. 13 is a diagram illustrating an operation of arranging a plurality of lighting devices on the same design screen. FIG. 14 is a diagram illustrating a controller placement operation on the same design screen. FIG. 15 is a diagram illustrating a selection operation of a lighting device to be the target of the first determination process on the same design screen. FIG. 16 is a diagram for explaining the display contents of the same design screen when an obstacle exists between the lighting device and the controller. FIG. 17 is a diagram illustrating a design screen when the processing result of the first determination processing for the selected lighting device is displayed. FIG. 18 is a diagram illustrating a design screen when the processing result of the first determination processing for the other selected lighting device is displayed. FIG. 19 is a diagram illustrating a design screen when the processing results of the first determination processing for all the lighting devices are displayed. FIG. 20 is a diagram illustrating a design screen before performing the arrangement operation of the repeater. FIG. 21 is a diagram illustrating an operation of arranging the repeater on the same design screen. FIG. 22 is a diagram illustrating a selection operation of a lighting device (uncontrollable device) to be subject to the second determination process on the same design screen. FIG. 23 is a diagram illustrating the display contents of the same design screen when an obstacle exists between the lighting device (uncontrollable device) and the repeater. FIG. 24 is a diagram illustrating a design screen when the processing result of the second determination process for the selected lighting device (uncontrollable device) is displayed. FIG. 25 is a diagram illustrating a design screen when the processing results of the second determination processing for all the uncontrollable devices are displayed. FIG. 26 is a diagram illustrating a design screen when the work related to the support for equipment installation is completed.

The embodiments and modifications described below are merely examples of the present disclosure, and the present disclosure is not limited to the embodiments and modifications. Other than the following embodiments and modifications, various changes can be made according to the design and the like as long as they do not deviate from the technical idea of the present disclosure.

(Embodiment)
Hereinafter, the device installation support system 1 according to the present embodiment will be described with reference to FIGS. 1 to 26.

(1) Outline The installation support device 10 as the device installation support system 1 according to the present embodiment is a controller that controls a plurality of lighting devices 50 (see FIG. 2) scheduled to be installed in the facility and the plurality of lighting devices 50 by communication. Assists in determining the installation position of 60 (see FIG. 2). Here, the communication between the controller 60 and each of the plurality of lighting devices 50 is wireless communication.

Further, the installation support device 10 is the installation position of the repeater 70 (see FIG. 2) that relays the communication between the lighting device 50 and the controller 60, which cannot be directly controlled by the controller 60 among the plurality of lighting devices 50. To support the decision. Here, "direct control" means another device (here, repeater 70) between the communication source device (here, controller 60) and the communication destination device (here, lighting device 50). ) Is not used, and the communication source device controls the communication destination device. Hereinafter, the lighting device 50 that cannot be directly controlled by the controller 60 is also referred to as an uncontrollable device.

The installation support device 10 displays a design drawing (for example, a plan view and a cross-sectional view) of a facility in which the lighting device 50 is installed. The installation support device 10 accepts the installation positions of the plurality of lighting devices 50 and the controller 60 by the operation of the user (the worker who installs the lighting device 50) while displaying the design drawing.

The installation support device 10 displays a design drawing (installation drawing) to which the installation positions of a plurality of lighting devices 50 and the installation positions of the controller 60 are added.

For each of the plurality of lighting devices 50, the installation support device 10 determines whether or not communication between the lighting device 50 and the controller 60 is possible depending on the presence or absence of obstacles on the straight line connecting the lighting device 50 and the controller 60. judge.

The installation support device 10 accepts the installation position of the repeater 70 by the user's operation when the above installation drawing is displayed.

The installation support device 10 determines whether or not the uncontrollable device can be controlled via the repeater 70 according to the presence or absence of an obstacle on the straight line connecting the uncontrollable device and the repeater 70. To do. Here, "control of an uncontrollable device via the repeater 70" means that between the communication source device and the communication destination device, the communication destination device is communicated via another device (here, the repeater 70). The communication source device controls the device.

The installation support device 10 displays that the work related to the device installation support has been completed when all of the plurality of lighting devices 50 can communicate with either the controller 60 or the repeater 70. After that, the installation support device 10 turns off the power of its own device.

(2) Configuration The configuration of the installation support device 10 as the device installation support system 1 will be described.

As shown in FIG. 1, the installation support device 10 includes a communication unit 11, a display unit 12, an operation unit 13, a storage unit 14, a power supply unit 15, and a control unit 16.

The installation support device 10 has, for example, a computer system having a processor and a memory. Then, when the processor executes the program stored in the memory, the computer system functions as the control unit 16. The program executed by the processor is recorded in advance in the memory of the computer system here, but may be recorded in a non-temporary recording medium such as a memory card and provided, or provided through a telecommunications line such as the Internet. May be done.

The communication unit 11 has a communication interface for communicating with the outside via a network such as the Internet.

The display unit 12 is a thin display device such as a liquid crystal display or an organic EL (electroluminescence) display.

The operation unit 13 has a function of accepting a user's operation. In the present embodiment, the installation support device 10 is equipped with the touch panel display 20, and the touch panel display 20 functions as the display unit 12 and the operation unit 13. Therefore, in the following description, various touch operations on the buttons on the screen displayed on the display unit 12 are expressed as "tap" and the like. However, the operation unit 13 is not limited to the touch panel display, and may be, for example, a keyboard, a pointing device, a mechanical switch, or the like.

The storage unit 14 is composed of an electrically rewritable non-volatile semiconductor memory such as a flash memory.

The storage unit 14 stores the design data related to the design drawing of the facility acquired from the outside via the network.

The storage unit 14 stores a plurality of device information which is a plurality of information acquired from the outside via a network and is related to each of the plurality of candidate lighting devices which are candidates for installation. In the present embodiment, each of the plurality of device information includes the part number of the corresponding candidate lighting device.

The storage unit 14 stores a plurality of controller information which is a plurality of information acquired from the outside via the network and is related to each of the plurality of candidate controllers which are installation candidates. In the present embodiment, each of the plurality of controller information includes the part number of the corresponding candidate controller and the transmission power value when the candidate controller outputs a signal.

The storage unit 14 stores a plurality of repeater information related to each of the plurality of candidate repeaters that are candidates for installation and are a plurality of information acquired from the outside via the network. In the present embodiment, each of the plurality of repeater information includes the part number of the corresponding candidate repeater and the transmission power value when the candidate repeater outputs a signal.

The storage unit 14 describes the material of the obstacle that may exist in the communication between the controller 60 and the lighting device 50 and the communication between the repeater 70 and the lighting device 50, and the transmission loss according to the material. A first table (see Table 1) containing a plurality of sets associated with coefficients is stored. It is a coefficient used when calculating the loss of transmission power when a signal passes through an obstacle. The transmission loss coefficient is obtained based on the transmission loss [dB] of the corresponding material. Specifically, the true value “X” of the transmission loss of the material is obtained by using the transmission loss “Y” [dB] and the mathematical formula “Y = 10 × log ₁₀ X”. The transmission loss coefficient is the reciprocal of the true value "X".

The storage unit 14 stores a second table (see Table 2) including a plurality of sets in which the cutoff distance described later and the cutoff loss coefficient corresponding to the cutoff distance are associated with each other. The interruption loss coefficient is a coefficient used when calculating the loss of transmission power when a signal avoiding an obstacle reaches the lighting device 50. The cutoff loss coefficient is calculated by, for example, the mathematical formula “k = 1 / (1 + h) ² ”. Here, h is the breaking distance and k is the breaking loss coefficient.

The power supply unit 15 is, for example, a storage battery, and supplies power to a circuit or the like included in the installation support device 10. The power supply unit 15 is controlled from the on state to the off state by the control of the control unit 16.

As shown in FIG. 1, the control unit 16 includes a data acquisition unit 101, a first arrangement setting unit 102, a second arrangement setting unit 103, a third arrangement setting unit 104, an obstacle information acquisition unit 105, and a first determination processing unit. It has 106 (controller control determination unit), second determination processing unit 107 (repeater control determination unit), storage processing unit 108, and display processing unit 109.

The data acquisition unit 101 acquires the design data of the facility from the outside via the communication unit 11 by the user's operation before performing the operation related to the installation support of the lighting device 50 or the like. The data acquisition unit 101 stores the acquired design data in the storage unit 14. Here, the design data is, for example, BIM (Building Information Modeling) data.

The data acquisition unit 101 acquires a plurality of device information related to each of the plurality of candidate lighting devices from the outside via the communication unit 11 by the user's operation before performing the operation related to the installation support of the lighting device 50 or the like. ..

The data acquisition unit 101 acquires a plurality of controller information from the outside via the communication unit 11 by the user's operation before performing the operation related to the installation support of the lighting device 50 or the like.

The data acquisition unit 101 acquires a plurality of repeater information from the outside via the communication unit 11 by the user's operation before performing the operation related to the installation support of the lighting device 50 or the like.

In the first arrangement setting unit 102, when the display unit 12 is displaying the design drawing (plan view and cross-sectional view of the facility) of the facility obtained from the design data, each of the plurality of lighting devices 50 is operated by the user. Set the position to be placed on the design drawing.

The data acquisition unit 101 acquires the information related to the first table and the information related to the second table from the outside via the communication unit 11 by the user's operation before performing the operation related to the installation support of the lighting device 50 or the like. To do.

The data acquisition unit 101 may acquire various information such as design data, device information, controller information, repeater information, information related to the first table, and information related to the second table from the same outside. , May be obtained from different sources.

The second arrangement setting unit 103 sets the position where the controller 60 is scheduled to be arranged by the user's operation on the design drawing when the display unit 12 is displaying the design drawing of the facility.

In the third arrangement setting unit 104, the repeater 70 is scheduled to be arranged by the user's operation when the display unit 12 is displaying the design drawing to which the arrangement positions of the plurality of lighting devices 50 and the controller 60 are added. Set the position on the design drawing.

When the display unit 12 is displaying a design drawing to which the arrangement positions of the plurality of lighting devices 50 and the controller 60 are added, the obstacle information acquisition unit 105 refers to the lighting device 50 for each of the plurality of lighting devices 50. When an obstacle exists on a straight line connecting the controller 60 and the controller 60, the obstacle information related to the obstacle is acquired by the user's operation.

The obstacle information acquisition unit 105 cannot be controlled among the plurality of lighting devices 50 when the display unit 12 is displaying a design drawing to which the arrangement positions of the plurality of lighting devices 50, the controller 60, and the repeater 70 are added. When an obstacle exists on a straight line connecting the uncontrollable device and the repeater 70, the repeater obstacle information related to the obstacle is acquired by the user's operation.

For example, as shown in FIG. 3B, it is assumed that an obstacle (for example, a beam 80 provided on the ceiling of a facility) exists on a straight line connecting the controller 60 (or the repeater 70) and the lighting device 50. In this case, the obstacle information acquisition unit 105 acquires the material of the beam 80 as obstacle information (or obstacle information for a repeater) by a user operation.

The first determination processing unit 106 obtains the communication state between the lighting device 50 and the controller 60 for each of the plurality of lighting devices 50 by using at least the installation drawing of the installation drawing and the obstacle information, and the controller It is determined whether or not the lighting device 50 can be controlled by the 60. When there is no obstacle between the lighting device 50 and the controller 60, the first determination processing unit 106 determines whether or not the controller 60 can control the lighting device 50 by using the installation drawing. When an obstacle exists between the lighting device 50 and the controller 60, the first determination processing unit 106 determines whether or not the controller 60 can control the lighting device 50 by using the installation drawing and the obstacle information. To do.

More specifically, the first determination processing unit 106 sets the attenuation information related to the attenuation of the transmission power until the signal output by the controller 60 reaches the illumination device 50 as the communication state for each of the plurality of illumination devices 50. Ask. The first determination processing unit 106 determines whether or not the controller 60 can control the lighting device 50 based on the obtained attenuation information.

Specifically, the first determination processing unit 106 determines the transmission power value of the signal output by the controller 60 for the first device in which there is no obstacle on the straight line between the plurality of lighting devices 50 and the controller 60. , And the result calculated by the distance between the first device and the controller 60 is used as the attenuation information. For example, the first determination processing unit 106 multiplies the transmission power value of the controller 60 by the reciprocal of the distance L0 (see FIG. 3A) of the straight line connecting the first device (lighting device 50) and the controller 60 for attenuation information. Ask as.

The first determination processing unit 106 determines the first distance of the linear path between the second device and the controller 60 and the first distance of the second device having an obstacle on the straight line between the plurality of lighting devices 50 and the controller 60. The first value determined from the transmission loss coefficient of the signal corresponding to the obstacle is obtained. The first determination processing unit 106 is determined from the second distance between the second device and the controller 60 on the avoidance route avoiding obstacles, and the interruption loss coefficient according to the interruption distance obtained from the linear route and the avoidance route. Find two values. The first determination processing unit 106 uses the result calculated by the larger value of the first value and the second value and the transmission power value as the attenuation information. Here, the avoidance path is formed by reflection, diffraction, or the like of radio waves. The blocking distance is the maximum separation distance between the avoidance path and the straight path.

For example, the first determination processing unit 106 acquires the data of the transmission loss coefficient according to the material of the obstacle from the first table. The first determination processing unit 106 multiplies the acquired transmission loss coefficient by the reciprocal of the first distance L1 (see FIG. 3B) of the linear path P1 connecting the second device (lighting device 50) and the controller 60. Obtained as one value. The first determination processing unit 106 obtains the blocking distance h1 from the avoidance path P2 and the linear path P1 that avoid the obstacle. In the present embodiment, the blocking distance h1 is the length of a perpendicular line drawn from the apex P3 in the avoidance path P2 to the straight line path P1. The first determination processing unit 106 acquires the data of the cutoff loss coefficient corresponding to the obtained cutoff distance h1 from the second table. The first determination processing unit 106 obtains the result of multiplying the acquired breaking loss coefficient by the reciprocal of the second distance L2 between the second device (lighting device 50) and the controller 60 as the second value. The first determination processing unit 106 uses the result of multiplying the transmission power value of the controller 60 by a larger value of the first value and the second value as attenuation information.

When there are a plurality of obstacles (two in FIG. 3C) on the straight line between the lighting device 50 and the controller 60, the first determination processing unit 106 corresponds to each of the materials of the plurality of obstacles. Data of a plurality of transmission loss coefficients to be used is acquired from the first table. The first determination processing unit 106 adds the reciprocal of the first distance L11 (see FIG. 3C) of the linear path P11 connecting the second device (lighting device 50) and the controller 60 to the multiplication result of the acquired plurality of transmission loss coefficients. The result of multiplication is obtained as the first value. Further, the first determination processing unit 106 obtains the blocking distance h2 from the avoidance path P21 and the linear path P11 that avoid the obstacle. The blocking distance h2 in this case is the length of the perpendicular line drawn from the apex P31 in the avoidance path P21 to the straight line path P11. The first determination processing unit 106 acquires the data of the cutoff loss coefficient corresponding to the obtained cutoff distance h2 from the second table. The first determination processing unit 106 obtains the result of multiplying the acquired breaking loss coefficient by the reciprocal of the second distance L21 between the second device (lighting device 50) and the controller 60 as the second value.

The first determination processing unit 106 determines that the controller 60 can control the lighting device 50 when the value represented by the obtained attenuation information is equal to or greater than a predetermined value. When the value represented by the obtained attenuation information is less than a predetermined value, the first determination processing unit 106 determines that the controller 60 cannot control the lighting device 50.

The second determination processing unit 107 uses at least the installation drawing of the installation drawing and the obstacle information for the repeater to obtain the communication state between the uncontrollable device and the repeater 70 for the uncontrollable device, and the repeater. It is determined whether or not control is possible for the uncontrollable device via 70. When there is no obstacle between the uncontrollable device and the repeater 70, the second determination processing unit 107 determines whether or not the uncontrollable device can be controlled via the repeater 70 by using the installation drawing. .. When an obstacle exists between the uncontrollable device and the repeater 70, the second determination processing unit 107 uses the installation drawing and the obstacle information for the repeater to use the uncontrollable device via the repeater 70. Judges whether or not control is possible.

More specifically, the second determination processing unit 107 obtains the repeater attenuation information related to the attenuation of the transmission power until the signal output by the repeater 70 reaches the uncontrollable device as the communication state for the uncontrollable device. .. The second determination processing unit 107 determines whether or not control is possible for the uncontrollable device via the repeater 70 based on the obtained attenuation information for the repeater.

Specifically, the second determination processing unit 107 controls the transmission power value of the signal output by the repeater 70 when there is no obstacle on the straight line between the uncontrollable device and the repeater 70. The result calculated by the distance L30 (see FIG. 3A) between the impossible device and the repeater 70 is used as the attenuation information for the repeater. For example, the second determination processing unit 107 multiplies the transmission power value of the repeater 70 by the reciprocal of the distance L30 (see FIG. 3A) of the straight line connecting the uncontrollable device (lighting device 50) and the repeater 70. Obtained as attenuation information for repeaters.

When an obstacle exists on the straight line between the uncontrollable device and the repeater 70, the second determination processing unit 107 sets the third distance and the obstacle on the straight line path between the uncontrollable device and the repeater 70. The third value determined from the transmission loss coefficient of the corresponding signal is obtained. The second determination processing unit 107 is determined by the fourth distance between the uncontrollable device and the repeater 70 in the avoidance route avoiding the obstacle, and the interruption loss coefficient according to the interruption distance obtained from the straight line and the avoidance route. Find the fourth value. The second determination processing unit 107 uses the result calculated by the larger value of the third value and the fourth value and the transmission power value of the repeater 70 as the attenuation information for the repeater.

For example, the second determination processing unit 107 acquires the data of the transmission loss coefficient according to the material of the obstacle from the first table, similarly to the first determination processing unit 106. The second determination processing unit 107 multiplies the acquired transmission loss coefficient by the reciprocal of the third distance L31 (see FIG. 3B) of the linear path P41 connecting the uncontrollable device (lighting device 50) and the repeater 70. Obtained as the third value. The second determination processing unit 107 obtains the blocking distance h31 from the avoidance path P42 and the straight path P41 that avoid the obstacle. The blocking distance h31 is the length of a perpendicular line drawn from the apex P43 on the avoidance path P42 to the straight line P41. Similar to the first determination processing unit 106, the second determination processing unit 107 acquires data of the interruption loss coefficient according to the obtained interruption distance h31 from the second table. The second determination processing unit 107 obtains the result of multiplying the acquired breaking loss coefficient by the reciprocal of the fourth distance L32 between the uncontrollable device (lighting device 50) and the repeater 70 as the fourth value. The second determination processing unit 107 uses the result of multiplying the transmission power value of the repeater 70 by the larger value of the third value and the fourth value as the attenuation information for the repeater.

When a plurality of obstacles are present on a straight line between the uncontrollable device (lighting device 50) and the repeater 70, the second determination processing unit 107 corresponds to the materials of the plurality of obstacles, respectively. Data of a plurality of transmission loss coefficients are acquired from the first table. The second determination processing unit 107 multiplies the acquired plurality of transmission loss coefficients by the reciprocal of the third distance L41 (see FIG. 3C) of the linear path P41 connecting the uncontrollable device (lighting device 50) and the repeater 70. The result of multiplying by is obtained as the third value. Further, the second determination processing unit 107 obtains the blocking distance h42 from the avoidance path P42 and the straight path P41 that avoid the obstacle. The blocking distance h42 in this case is the length of the perpendicular line drawn from the apex P43 on the avoidance path P42 to the straight line P41. The second determination processing unit 107 acquires the data of the cutoff loss coefficient corresponding to the obtained cutoff distance h42 from the second table. The second determination processing unit 107 obtains the result of multiplying the acquired breaking loss coefficient by the reciprocal of the fourth distance L42 between the uncontrollable device (lighting device 50) and the repeater 70 as the second value.

The second determination processing unit 107 determines that the lighting device 50 can be controlled via the repeater 70 when the value represented by the obtained attenuation information for the repeater is equal to or greater than a predetermined value. When the value represented by the obtained repeater attenuation information is less than a predetermined value, the second determination processing unit 107 determines that the lighting device 50 cannot be controlled via the repeater 70.

When each of the plurality of lighting devices 50 can be controlled by direct communication by the controller 60, the storage processing unit 108 determines the installation drawing in which the plurality of lighting devices 50 and the controller 60 are arranged in the storage unit 14. Store in the area of. Alternatively, if the storage processing unit 108 can be controlled by direct communication by the controller 60 or can be controlled via the repeater 70, the storage processing unit 108 has a plurality of lighting devices 50, the controller 60, and one or more repeaters. The installation drawing in which the 70 is arranged is stored in a predetermined area of the storage unit 14.

The display processing unit 109 causes the display unit 12 to display each screen used by the user when supporting the installation of the device.

For example, the display processing unit 109 causes the display unit 12 to display a design drawing including a plan view and a cross-sectional view of the facility based on the design data stored in the storage unit 14 by the user at the start of the installation support. When the first arrangement setting unit 102 sets the position where each of the plurality of lighting devices 50 is scheduled to be arranged on the design drawing, the display processing unit 109 represents the first icon representing each of the plurality of lighting devices 50. The design drawing in which is arranged is displayed on the display unit 12. When the second arrangement setting unit 103 sets the controller 60 on the design drawing, the display processing unit 109 displays a design drawing in which a plurality of first icons and a second icon representing the controller 60 are arranged. To display. In the display processing unit 109, when the repeater 70 is set on the design drawing by the third arrangement setting unit 104, a plurality of first icons and a second icon and a third icon representing the repeater 70 are arranged. The design drawing is displayed on the display unit 12.

When an obstacle exists on a straight line between the lighting device 50 and the controller 60 or between the uncontrollable device and the repeater 70, the display processing unit 109 selects the material of the obstacle by the user's operation. Display a list for you to select.

The display processing unit 109 causes the display unit 12 to display a design drawing obtained by reducing the actual dimensions to a predetermined scale using design data such as BIM data. In the present embodiment, the first determination processing unit 106 uses the distance on the design drawing and a predetermined scale to set the actual distances L0, L1, L2, L11, L21 and the actual blocking distance. Find certain blocking distances h1 and h2. Similarly, the second determination processing unit 107 uses the distance on the design drawing and a predetermined scale to cut off the actual distances L30, L31, L32, L41, L42 and the actual cutoff distance. Find the distances h31 and h42.

Further, when the display processing unit 109 can control each of the plurality of lighting devices 50 by direct communication by the controller 60 or can be controlled via the repeater 70, the display processing unit 109 is a work related to support for device installation. The work completion screen indicating that the above is completed is displayed on the display unit 12.

In the present embodiment, the control unit 16 controls the power supply unit 15 so that the power is turned off when a predetermined time elapses after the display processing unit 109 displays the work completion screen on the display unit 12.

(3) Operation (3-1) Outline of operation Here, an outline of the operation of the installation support device 10 will be described with reference to FIG.

The display processing unit 109 performs design data display processing by the user (step S1). Specifically, the display processing unit 109 displays a design screen including a design drawing (plan view and cross-sectional view of the facility) including a plan view and a cross-sectional view of the facility based on the design data stored in the storage unit 14. Display on 12.

The first arrangement setting unit 102 performs device arrangement processing by user operation (step S2). Specifically, the first arrangement setting unit 102 determines the position where each of the plurality of lighting devices 50 is to be arranged by an operation such as a drag operation on the first icon by the user when the design screen is displayed. Set on the design drawing.

The second arrangement setting unit 103 performs the controller arrangement process by user operation (step S3). Specifically, in the second arrangement setting unit 103, when the display unit 12 is displaying a design drawing to which a plurality of first icons are added, the controller 60 is operated by a user such as a drag operation on the second icon. Set the position to be placed on the design drawing.

The first determination processing unit 106 performs the first determination process (step S4). Specifically, the first determination processing unit 106 obtains attenuation information as a communication state for each lighting device 50. The first determination processing unit 106 determines whether or not the corresponding lighting device 50 can be controlled by the controller 60 based on the obtained attenuation information.

The first determination processing unit 106 determines whether or not there is an uncontrollable device among the plurality of lighting devices 50 (step S5). In other words, the first determination processing unit 106 determines whether or not there is a lighting device 50 that cannot be controlled by direct communication by the controller 60 among the plurality of lighting devices 50.

When the first determination processing unit 106 determines that an uncontrollable device exists (“Yes” in step S5), the third arrangement setting unit 104 performs repeater arrangement processing by user operation (step S6). Specifically, the third arrangement setting unit 104 performs an operation such as a drag operation on the third icon by the user when the display unit 12 is displaying the design drawing to which the first icon and the second icon are added. The position where the repeater 70 is to be arranged is set on the design drawing.

The second determination processing unit 107 performs the second determination process (step S7). Specifically, the second determination processing unit 107 obtains the attenuation information for the repeater as the communication state of the uncontrollable device for the uncontrollable device. The second determination processing unit 107 determines whether or not the corresponding uncontrollable device can be controlled via the repeater 70 based on the obtained attenuation information for the repeater.

The second determination processing unit 107 determines whether or not there is one or more uncontrollable devices that cannot be controlled via the repeater 70 (step S8).

When the second determination processing unit 107 determines that there is a device that cannot be controlled via the repeater 70 (“Yes” in step S8), the process returns to step S6 and further sets the repeater 70. ..

When the first determination processing unit 106 determines that there is no uncontrollable device (“No” in step S5), or when there is no device that cannot be controlled via the repeater 70, the second determination processing unit 107 determines. When making a determination (“No” in step S8), the storage processing unit 108 performs storage processing (step S9). In other words, when each of the plurality of lighting devices 50 can be controlled by direct communication by the controller 60, or each of the plurality of lighting devices 50 can be controlled by direct communication by the controller 60, or via the repeater 70. When the control is possible, the storage processing unit 108 performs the storage processing. Specifically, when each of the plurality of lighting devices 50 can be controlled by direct communication by the controller 60, the storage processing unit 108 provides an installation diagram in which the plurality of lighting devices 50 and the controller 60 are arranged. It is stored in a predetermined area of the storage unit 14. When the storage processing unit 108 can be controlled by direct communication by the controller 60 or can be controlled via the repeater 70, the plurality of lighting devices 50, the controller 60, and one or more repeaters 70 may be used. The arranged installation drawing is stored in a predetermined area of the storage unit 14.

When the storage process by the storage process unit 108 is completed, the display processing unit 109 causes the display unit 12 to display a work completion screen indicating that the work related to the support for installing the device is completed (step S10).

The control unit 16 controls the power supply unit 15 so that the power is turned off when a predetermined time has elapsed after the work completion screen is displayed on the display unit 12 (step S11).

(3-2) Design Data Display Processing Here, the details of the design data display processing will be described with reference to FIG.

The display processing unit 109 acquires design data from the storage unit 14 by an operation by the user (step S21).

Based on the acquired design data, the display processing unit 109 causes the display unit 12 to display a design screen including a design drawing (plan view and cross-sectional view of the facility) including a plan view and a cross-sectional view of the facility (step S22).

The display processing unit 109 determines whether or not the save operation of the design screen has been accepted (step S23).

When the display processing unit 109 determines that the save operation has been accepted (“Yes” in step S23), the storage processing unit 108 stores the data related to the design screen being displayed in the storage unit 14 (step S24).

If the display processing unit 109 determines that the save operation is not accepted (“No” in step S23), the process waits for the save operation to be accepted.

(3-3) Equipment Arrangement Processing Here, the details of the equipment arrangement processing will be described with reference to FIG.

The display processing unit 109 causes the display unit 12 to display the design screen as the display processing (step S31). In addition, step S31 may also serve as step S22 shown in FIG.

The operation unit 13 accepts the selection of the product number corresponding to the plurality of lighting devices 50 to be installed from among the plurality of product numbers corresponding to the plurality of candidate lighting devices (step S32). In the present embodiment, the plurality of lighting devices 50 have the same part number.

The first arrangement setting unit 102 sets the first icon on the design drawing at the installation location of the corresponding lighting device 50 by an arrangement operation such as a drag operation on the first icon corresponding to the lighting device 50 (step S33). ..

The first arrangement setting unit 102 determines whether or not the save operation has been accepted (step S34).

If the first arrangement setting unit 102 determines that the save operation is not accepted (“No” in step S34), the process returns to step S33, and the first icon corresponding to the other lighting device 50 is displayed on the design drawing. Set with.

When the first arrangement setting unit 102 determines that the save operation has been accepted (“Yes” in step S34), the storage processing unit 108 has a plurality of first icons corresponding to each of the plurality of lighting devices 50 being displayed. The data related to the design screen to which is added is stored in the storage unit 14 (step S35). For example, the storage processing unit 108 may update the data stored in step S24 to the data related to the design screen to which a plurality of first icons are added.

(3-4) Controller Arrangement Process Here, the details of the controller arrangement process will be described with reference to FIG. 7.

The display processing unit 109 causes the display unit 12 to display a design screen to which a plurality of first icons are added as display processing (step S41).

The operation unit 13 accepts the selection of the product number corresponding to the controller 60 to be installed from among the plurality of product numbers corresponding to the plurality of candidate controllers (step S42).

The second arrangement setting unit 103 sets the second icon on the design drawing at the installation location of the controller 60 by an arrangement operation such as a drag operation with respect to the second icon corresponding to the controller 60 (step S43).

The second arrangement setting unit 103 determines whether or not the save operation has been accepted (step S44).

When the second arrangement setting unit 103 determines that the save operation is not accepted (“No” in step S44), the process waits for the save operation to be accepted.

When the second arrangement setting unit 103 determines that the save operation has been accepted (“Yes” in step S44), the storage processing unit 108 is a design screen to which a plurality of displayed first icons and second icons are added. The data related to the above is stored in the storage unit 14 (step S45). For example, the storage processing unit 108 may update the data stored in step S35 to the data related to the design screen to which the plurality of first icons and the second icons are added.

(3-5) First Judgment Process Here, the details of the first determination process will be described with reference to FIG.

The display processing unit 109 causes the display unit 12 to display the design screen to which the first icon and the second icon are added as the display processing (step S51).

The operation unit 13 accepts the selection of one of the plurality of lighting devices 50 on the design screen displayed on the display unit 12 (step S52). Specifically, the operation unit 13 accepts the selection of one of the plurality of first icons included in the design screen displayed on the display unit 12 by an operation such as a tap operation by the user.

The obstacle information acquisition unit 105 determines whether or not an obstacle exists on a straight line between the selected lighting device 50 and the controller 60 (step S53). Specifically, the obstacle information acquisition unit 105 uses the displayed plan view and cross-sectional view to make an obstacle on a straight line between the selected first icon and the second icon representing the controller 60. Determine if an object exists.

When the obstacle information acquisition unit 105 determines that an obstacle exists (“Yes” in step S53), the display processing unit 109 displays a material list for allowing the user to select the material of the existing obstacle. It is displayed on 12 (step S54).

The obstacle information acquisition unit 105 acquires information on the material selected in the material list by user operation as obstacle information (step S55).

When the obstacle information acquisition unit 105 determines that the obstacle does not exist (“No” in step S53), or when the material of the obstacle is selected in step S55, the first determination processing unit 106 in step S52. A determination process is performed on the selected lighting device 50 (step S56).

For example, when there is no obstacle between the selected lighting device 50 and the controller 60, the first determination processing unit 106 determines whether or not the controller 60 can control the lighting device 50 by using the installation drawing. To do. Specifically, the first determination processing unit 106 acquires the controller information including the product number of the controller 60 among the plurality of controller information stored in the storage unit 14. The first determination processing unit 106 acquires the transmission power value of the controller 60 included in the acquired controller information. When there is no obstacle on the straight line between the selected lighting device 50 and the controller 60, the first determination processing unit 106 determines the transmission power value of the controller 60 and the selected lighting device 50 and the controller 60. The result calculated by the distance from is used as the attenuation information.

When an obstacle exists between the selected lighting device 50 and the controller 60, the first determination processing unit 106 controls the lighting device 50 by the controller 60 by using the installation drawing and the obstacle information. Judge whether it is possible or not. Specifically, the first determination processing unit 106 acquires the controller information including the product number of the controller 60 among the plurality of controller information stored in the storage unit 14. The first determination processing unit 106 acquires the data of the transmission power value of the controller 60 included in the acquired controller information. When an obstacle exists on a straight line between the selected lighting device 50 and the controller 60, the first determination processing unit 106 corresponds to the above-mentioned first distance and the material of the selected obstacle. The first value determined from the transmission loss coefficient of the signal is obtained. The first determination processing unit 106 obtains a second value determined from the above-mentioned second distance and the cutoff loss coefficient according to the cutoff distance. The first determination processing unit 106 uses the result calculated by the larger value of the first value and the second value and the acquired transmission power value of the controller 60 as the attenuation information.

The first determination processing unit 106 determines that the controller 60 can control the lighting device 50 when the value represented by the obtained attenuation information is equal to or greater than a predetermined value. When the value represented by the obtained attenuation information is less than a predetermined value, the first determination processing unit 106 determines that the controller 60 cannot control the lighting device 50.

The display processing unit 109 determines whether or not the selected lighting device 50 can be controlled by the direct communication of the controller 60 by the first determination process (step S57).

When it is determined that the selected lighting device 50 cannot be controlled by the direct communication of the controller 60, that is, cannot be controlled (“No” in step S57), the display processing unit 109 corresponds to the selected lighting device 50. The display unit 12 is controlled so as to indicate that control is not possible with respect to the first icon to be displayed (step S58). For example, the first icon corresponding to the selected lighting device 50 is displayed on the display unit 12 in a color indicating that control is not possible.

When it is determined that the selected lighting device 50 can be controlled by the direct communication of the controller 60 (“Yes” in step S57), the display processing unit 109 displays the first icon corresponding to the selected lighting device 50. The display unit 12 is controlled so as to indicate that the control is possible (step S59). For example, the first icon corresponding to the selected lighting device 50 is displayed on the display unit 12 in a color indicating that it can be controlled.

The display processing unit 109 determines whether or not all of the plurality of lighting devices 50 to be installed have been selected (step S60).

When the display processing unit 109 determines that all are not selected (“No” in step S60), that is, when there is an unselected lighting device 50 among the plurality of lighting devices 50, the process returns to step S52. , Another lighting device 50 is selected.

When it is determined that all have been selected (“Yes” in step S60), the display processing unit 109 determines whether or not the save operation has been accepted (step S61).

If the display processing unit 109 determines that the save operation is not accepted (“No” in step S61), the process waits for the save operation to be accepted.

When the display processing unit 109 determines that the save operation has been accepted (“Yes” in step S61), the storage processing unit 108 determines that each of the plurality of first icons being displayed is the determination result of the first determination processing unit 106. The data related to the design screen, which is displayed in the color corresponding to the above and includes the second icon, is stored in the storage unit 14 (step S62). For example, the storage processing unit 108 displays the data stored in step S45 in a color corresponding to the determination result of the first determination processing unit 106 for each of the plurality of first icons, and the design screen including the second icon. You may update to the data related to.

(3-6) Repeater Arrangement Process Here, the details of the repeater arrangement process will be described with reference to FIG. 7.

As a display process, the display processing unit 109 causes the display unit 12 to display a design screen in which each of the plurality of first icons is displayed in a color corresponding to the determination result of the first determination processing unit 106 and the second icon is included. (Step S71).

The operation unit 13 accepts the selection of the product number corresponding to the repeater 70 to be installed from among the plurality of product numbers corresponding to the plurality of candidate repeaters (step S72).

The third arrangement setting unit 104 sets the third icon on the design drawing at the installation location of the repeater 70 by an arrangement operation such as a drag operation with respect to the third icon corresponding to the repeater 70 (step S73).

The third arrangement setting unit 104 determines whether or not the save operation has been accepted (step S74).

If the third arrangement setting unit 104 determines that the save operation is not accepted (“No” in step S74), the process waits for the save operation to be accepted.

When the third arrangement setting unit 104 determines that the save operation has been accepted (“Yes” in step S74), the storage processing unit 108 determines that each of the plurality of first icons is the determination result of the first determination processing unit 106. The data related to the design screen displayed in the corresponding color and to which the second icon and one or more third icons are added is stored in the storage unit 14 (step S75). For example, the storage processing unit 108 displays the data stored in step S62 in a color corresponding to the determination result of the first determination processing unit 106, each of the plurality of first icons, and the second icon and one or more. It may be updated to the design screen data including the third icon of.

(3-7) Second Judgment Process Here, the details of the second determination process will be described with reference to FIG.

The display processing unit 109 is designed so that, as display processing, each of the plurality of first icons is displayed in a color corresponding to the determination result of the first determination processing unit 106, and includes the second icon and one or more third icons. The screen is displayed on the display unit 12 (step S81). At this time, the display processing unit 109 causes the display unit 12 to display a range that can be controlled by the controller 60 by direct communication on the design screen.

The operation unit 13 accepts the selection of one uncontrollable device from one or more uncontrollable devices (lighting device 50) on the design screen displayed on the display unit 12 (step S82). Specifically, the operation unit 13 is a first icon of one or more first icons displayed in a color indicating that the control is not possible, which is included in the design screen displayed on the display unit 12. The selection is accepted by an operation such as a tap operation by the user.

The obstacle information acquisition unit 105 determines whether or not an obstacle exists on a straight line between the selected uncontrollable device and the repeater 70 (step S83). Specifically, the obstacle information acquisition unit 105 uses the displayed plan view and cross-sectional view to select one first icon (the first icon displayed in a color indicating that it is out of control). It is determined whether or not there is an obstacle on the straight line between the repeater 70 and the third icon representing the repeater 70.

When the obstacle information acquisition unit 105 determines that an obstacle exists (“Yes” in step S83), the display processing unit 109 displays a material list for allowing the user to select the material of the existing obstacle. It is displayed on 12 (step S84).

The obstacle information acquisition unit 105 acquires the information of the material selected in the material list by the user operation as the obstacle information for the repeater (step S85).

When the obstacle information acquisition unit 105 determines that the obstacle does not exist (“No” in step S83), or when the material of the obstacle is selected in step S85, the second determination processing unit 107 in step S82. A determination process is performed on the selected uncontrollable device (step S86).

For example, when there is no obstacle between the selected uncontrollable device and the repeater 70, the second determination processing unit 107 controls the uncontrollable device via the repeater 70 by using the installation drawing. Judge whether or not. Specifically, the second determination processing unit 107 acquires the repeater information including the part number of the repeater 70 among the plurality of repeater information stored in the storage unit 14. The second determination processing unit 107 acquires the data of the transmission power value of the repeater 70 included in the acquired repeater information. When there is no obstacle on the straight line between the selected uncontrollable device and the repeater 70, the second determination processing unit 107 determines the acquired transmission power value of the repeater 70 and the selected uncontrollable device. The result calculated by the distance between the device and the repeater 70 is used as the repeater attenuation information.

When an obstacle exists between the selected uncontrollable device and the repeater 70, the second determination processing unit 107 uses the installation drawing and the obstacle information for the repeater to perform the obstacle via the repeater 70. Judges whether control is possible for uncontrollable devices. Specifically, the second determination processing unit 107 acquires the repeater information including the part number of the repeater 70 among the plurality of repeater information stored in the storage unit 14. The second determination processing unit 107 acquires the data of the transmission power value of the repeater 70 included in the acquired repeater information. When an obstacle exists on the straight line between the selected uncontrollable device and the controller 60, the second determination processing unit 107 gives a signal according to the above-mentioned third distance and the material of the selected obstacle. The third value determined from the transmission loss coefficient of is obtained. The second determination processing unit 107 obtains a fourth value determined from the above-mentioned fourth distance and the cutoff loss coefficient according to the cutoff distance. The second determination processing unit 107 uses the result calculated by the larger value of the third value and the fourth value and the acquired transmission power value of the repeater 70 as the attenuation information for the repeater.

The second determination processing unit 107 determines that control of the uncontrollable device via the repeater 70 is possible when the value represented by the obtained repeater attenuation information is equal to or greater than a predetermined value. When the value represented by the obtained repeater attenuation information is less than a predetermined value, the second determination processing unit 107 determines that control of the uncontrollable device via the repeater 70 is impossible.

The display processing unit 109 determines whether or not the selected uncontrollable device can be controlled via the repeater 70 based on the result of the determination processing of the second determination processing unit 107 (step S87).

When it is determined that the selected uncontrollable device cannot be controlled via the repeater 70, that is, cannot be controlled (“No” in step S87), the display processing unit 109 corresponds to the selected uncontrollable device. The display unit 12 is controlled so as to indicate that the first icon cannot be controlled (step S88). For example, the first icon corresponding to the selected uncontrollable device is displayed on the display unit 12 in a color indicating that the control is uncontrollable.

When it is determined that the selected uncontrollable device can be controlled via the repeater 70 (“Yes” in step S87), the display processing unit 109 changes to the first icon corresponding to the selected uncontrollable device. On the other hand, the display unit 12 is controlled so as to indicate that it can be controlled (step S89). For example, the first icon corresponding to the selected uncontrollable device is displayed on the display unit 12 in a color indicating that it can be controlled.

The display processing unit 109 determines whether or not all of one or more uncontrollable devices have been selected (step S90).

If the display processing unit 109 determines that all are not selected (“No” in step S90), that is, if there is an unselected uncontrollable device, the process returns to step S82 and the other uncontrollable device A selection is made.

When it is determined that all have been selected (“Yes” in step S90), the display processing unit 109 determines whether or not the save operation has been accepted (step S91).

If the display processing unit 109 determines that the save operation is not accepted (“No” in step S91), the process waits for the save operation to be accepted.

When the display processing unit 109 determines that the save operation has been accepted (“Yes” in step S91), the storage processing unit 108 determines that each of the plurality of first icons being displayed is the determination result of the first determination processing unit 106. Data related to the design screen, which is displayed in a color corresponding to the above and includes the second icon and one or more third icons, is stored in the storage unit 14 (step S92). For example, the storage processing unit 108 displays the data stored in step S75 in a color in which each of the plurality of first icons corresponds to the determination result of the first determination processing unit 106, and the second icon and one or more. The data may be updated to the data related to the design screen including the third icon of.

(4) Operation Example Here, an operation example of the installation support device 10 will be described together with screen transitions.

First, the display processing unit 109 causes the user to perform design data display processing by operating the design screen G1 on the display unit 12 (see FIG. 11).

As shown in FIG. 11, the design screen G1 includes a first display area R11 and a second display area R12.

In the first display area R11, a plurality of tags (first tag G11 to fifth tag G15) for switching the support target are displayed (see FIG. 11). In the first tag G11, "drawing capture" is displayed as the tag name. When the first tag G11 is selected, the result of the design data display processing by the display processing unit 109 is displayed in the second display area R12. In the second tag G12, "lighting" is displayed as the name of the tag. When the second tag G12 is selected, it is possible to set the installation of the plurality of lighting devices 50 on the design drawing. In the third tag G13, "controller" is displayed as the name of the tag. When the third tag G13 is selected, it is possible to set the installation of the controller 60 on the design drawing. In the fourth tag G14, "path setting" is displayed as the tag name. When the fourth tag G14 is selected, a determination (first determination process) is performed as to whether or not communication is possible between the selected lighting device among the plurality of lighting devices 50 and the controller 60. In the fifth tag G15, "repeater" is displayed as the name of the tag. When the fifth tag G15 is selected, the installation of the repeater 70 can be set on the design drawing. Further, a determination (second determination process) is performed as to whether or not communication is possible between the uncontrollable device and the repeater 70.

In the second display area R12, the cross-sectional view G31 and the plan view G32 of the facility are displayed. For example, in the cross-sectional view G31, the icon I80 corresponding to the beam 80 on the ceiling of the facility is displayed.

On the design screen G1, as shown in FIG. 11, the save button B11 is further displayed. When the save button B11 is pressed (tapped) while the design screen G1 shown in FIG. 11 is displayed, the storage processing unit 108 stores the data related to the current display contents in the storage unit 14.

When the second tag G12 is pressed while the design screen G1 shown in FIG. 11 is displayed, the selection buttons B21 and B22 are displayed in the first display area R11 in addition to the first tag G11 to the fifth tag G15. , Lighting equipment number name G41 is displayed (see FIG. 12). In the first display area R11, a first icon I1 corresponding to the lighting device 50 is further displayed. The user operates the selection buttons B21 and B22 to change the part number displayed in the lighting part number G41 until the part number of the lighting device 50 to be installed is displayed in the lighting part number G41. The user moves the first icon I1 to the position where the lighting device 50 is installed in the plan view G32 by the drag operation on the first icon I1. At this time, the first arrangement setting unit 102 sets the first icon I1 at the position in the plan view G32 moved by the drag operation (see FIG. 12). At this time, the first arrangement setting unit 102 also sets the first icon I1 at the position in the cross-sectional view corresponding to the position set in the plan view G32 (see FIG. 12).

The drag operation for the first icon I1 is repeated as many times as the number of lighting devices 50 installed in the facility. For example, when 14 lighting devices 50 are installed in the facility, as shown in FIG. 13, the drag operation for the first icon I1 is repeated 14 times. When the save button B11 is pressed while the design screen G1 shown in FIG. 13 is displayed, the storage processing unit 108 displays data related to the current display contents, that is, a design screen to which a plurality of first icons I1 are added. The data related to G1 is stored in the storage unit 14.

When the third tag G13 is pressed after the setting on the plan view and the cross-sectional view of the plurality of lighting devices 50 is completed, the selection buttons B21 and B22 and the lighting equipment number name G41 are displayed in the first display area R11. Instead, the selection buttons B31 and B32 and the controller part number name G42 are displayed (see FIG. 14). In the first display area R11, a second icon I2 corresponding to the controller 60 is further displayed. Further, a plurality of first icons I1 set by the first arrangement setting unit 102 are added to the cross-sectional view G31 and the plan view G32 of the second display area R12. That is, a plurality of lighting devices 50 are added to the cross-sectional view G31 and the plan view G32 of the second display area R12. The user operates the selection buttons B31 and B32 to change the part number displayed by the controller part number name G42 until the part number of the controller 60 to be installed is displayed by the controller part number name G42. By dragging the second icon I2, the user moves the second icon I2 to a position where the controller 60 is installed in the plan view G32 to which a plurality of first icons are added, that is, a plurality of lighting devices 50 are added. .. At this time, the second arrangement setting unit 103 sets the second icon I2 at the position on the plan view G32 moved by the drag operation (see FIG. 13). At this time, the second arrangement setting unit 103 also sets the second icon I2 at the position in the cross-sectional view corresponding to the position set in the plan view G32 (see FIG. 14). When the save button B11 is pressed while the design screen G1 shown in FIG. 14 is displayed, the storage processing unit 108 displays data related to the current display contents, that is, a plurality of first icons I1 and second icons I2. The data related to the added design screen G1 is stored in the storage unit 14.

When the fourth tag G14 is pressed after the setting on the plan view and the cross-sectional view of the controller 60 is completed, the selection buttons B31 and B32 and the controller part number name G42 are replaced in the first display area R11. The first product number G43, the second product number G44, the material name G45, the selection buttons B43 and B44, and the enter button B12 are displayed (see FIG. 15). The product number of the controller 60 is displayed on the first product number G43. The product number of the lighting device 50 is displayed on the second product number G44. Further, in the second display area R12, a drawing in which a plurality of first icons I1 and second icons are added to the design drawing of the facility is displayed. That is, in the second display area R12, an installation drawing which is a drawing in which a plurality of lighting devices 50 and controllers 60 are added to the design drawing of the facility is displayed. Specifically, a cross-sectional view G31 to which the plurality of lighting devices 50 and the controller 60 are added and a plan view G32 to which the plurality of lighting devices 50 and the controller 60 are added are displayed as installation views, respectively. The user selects one of the plurality of first icons I1 which is the target of determination of controllability by direct communication of the controller 60 by tap operation. At this time, the product number of the lighting device 50 corresponding to the selected first icon I11 is displayed on the second product number G44.

When the first icon I11 is selected, as shown in FIG. 15, the icons I81 and I82 exist as obstacles on the straight line between the second icon I2 and the first icon I11. That is, two beams 80 exist as obstacles on the straight line between the controller 60 and the lighting device 50 corresponding to the first icon I11. When an obstacle is present, the material name G45 displays a list G50 for selecting the material of the obstacle (see FIG. 16). In list G50, the name of the material is displayed. For example, the user selects the materials of the two beams as obstacles by operating the selection buttons B41 and B42. At this time, the obstacle information acquisition unit 105 acquires the selected material as obstacle information. When the decision button B12 is pressed after the material of the obstacle is selected, the first determination processing unit 106 performs determination processing for the first icon I11. The display processing unit 109 changes the display mode of the first icon I11 based on the result of the determination processing by the first determination processing unit 106 for the first icon I11, that is, for the selected lighting device 50. For example, the display processing unit 109 causes the display unit 12 to display the first icon I11 corresponding to the selected lighting device 50 in a color indicating that control is not possible (see FIG. 17).

When the first icon I12 is selected, as shown in FIG. 18, the icon I83 exists as an obstacle on the straight line between the second icon I2 and the first icon I12. That is, one beam 80 exists as an obstacle on the straight line between the controller 60 and the lighting device 50 corresponding to the first icon I12. When an obstacle is present, a list G50 for selecting the material of the obstacle is displayed in the material name G45 as in the case where the first icon I11 is selected. The user selects the material of the beam 80 as an obstacle. At this time, the obstacle information acquisition unit 105 acquires information on the selected material as obstacle information. When the decision button B12 is pressed after the material of the obstacle is selected, the first determination processing unit 106 performs determination processing for the first icon I12. The display processing unit 109 changes the display mode of the first icon I12 based on the result of the determination processing for the first icon I12 by the first determination processing unit 106. For example, the display processing unit 109 causes the display unit 12 to display the first icon I12 corresponding to the selected lighting device 50 in a color indicating that it can be controlled (see FIG. 18).

The user performs a selection operation so that the determination processing by the first determination processing unit 106 is performed for all of the plurality of lighting devices 50. The display processing unit 109 changes the display mode of the first icon I1 based on the result of the determination processing for each first icon I1 by the first determination processing unit 106. The display processing unit 109 displays the plurality of first icons I1 on the display unit 12 in a color indicating that the lighting device 50 corresponding to the first icon I1 can be controlled or cannot be controlled. (See FIG. 19). When the save button B11 is pressed while the design screen G1 shown in FIG. 19 is displayed, the storage processing unit 108 stores the data related to the current display contents in the storage unit 14. Specifically, in the storage processing unit 108, each of the plurality of first icons I1 is displayed in a color corresponding to the determination result of the first determination processing unit 106, and the data related to the design screen G1 including the second icon I2. Is stored in the storage unit 14.

When the fifth tag G15 is pressed while the design screen G1 shown in FIG. 19 is displayed, the selection buttons B61 and B62 are displayed in the first display area R11 in addition to the first tag G11 to the fifth tag G15. , The repeater part number name G46 is displayed (see FIG. 20). In the first display area R11, a third icon I3 corresponding to the repeater 70 is further displayed. Further, a plurality of first icons I1 and second icons I2 set by the first arrangement setting unit 102 are added to the cross-sectional view G31 and the plan view G32 of the second display area R12. That is, a plurality of lighting devices 50 and controllers 60 are added to the cross-sectional view G31 and the plan view G32 of the second display area R12. Further, the cross-sectional view G31 of the second display area R12 shows the controllable area G33 showing the range that the controller 60 can control by direct communication, and the plan view G32 shows the controllable area G34.

The user operates the selection buttons B61 and B62 to change the part number displayed in the repeater part number G46 until the part number of the repeater 70 to be installed is displayed in the repeater part number G46. The user moves the third icon I3 to the position where the repeater 70 is installed in the plan view G32 by the drag operation on the third icon I3. At this time, the third arrangement setting unit 104 sets the third icon I3 at the position on the plan view G32 moved by the drag operation (see FIG. 21). At this time, the third arrangement setting unit 104 also sets the third icon I3 at the position in the cross-sectional view corresponding to the position set in the plan view G32 (see FIG. 21). At this time, since the repeater 70 needs to directly communicate with the controller 60, the repeater 70 needs to be arranged in an area where communication with the controller 60 is possible. In the present embodiment, as shown in FIGS. 20 and 21, the controllable areas G33 and G34 are displayed, so that the user can easily specify the area in which the controller 60 can communicate. Therefore, the user can easily know the position where the repeater 70 can be installed.

When the save button B11 is pressed while the design screen G1 shown in FIG. 21 is displayed, the storage processing unit 108 displays data related to the current display contents, that is, a plurality of first icons I1, second icons I2, and the like. The storage unit 14 stores the data related to the design screen G1 to which the third icon I3 is added.

After the settings on the plan view and the cross-sectional view of the repeater 70 are completed, for example, after the save button B11 is pressed to save the data related to the current display contents, the selection button is displayed in the first display area R11. Instead of B61 and B62 and the repeater part number G46, the third part number G71, the fourth part number G72, the material name G73, the selection buttons B71 and B72, and the enter button B13 are displayed (see FIG. 22). The product number of the repeater 70 is displayed on the third product number G71. The product number of the lighting device 50 is displayed on the fourth product number G72. The user selects by tapping one first icon I11 corresponding to the uncontrollable device to be determined whether or not control is possible via the repeater 70. At this time, the product number of the lighting device 50 corresponding to the selected first icon I11 is displayed on the fourth product number G72.

When the first icon I11 is selected, as shown in FIG. 22, the icon I82 exists as an obstacle on the straight line between the third icon I3 and the first icon I11. That is, one beam 80 exists as an obstacle on the straight line between the repeater 70 and the lighting device 50 (uncontrollable device) corresponding to the first icon I11. When an obstacle is present, the material name G73 displays a list G51 for selecting the material of the obstacle (see FIG. 23). In list G51, the name of the material is displayed. For example, the user selects the material of the beam 80 as an obstacle by operating the selection buttons B71 and B72. At this time, the obstacle information acquisition unit 105 acquires the information of the selected material as the obstacle information for the repeater. When the decision button B13 is pressed after the material of the obstacle is selected, the second determination processing unit 107 performs determination processing for the first icon I11. The display processing unit 109 changes the display mode of the first icon I11 based on the result of the determination processing by the second determination processing unit 107 for the first icon I11, that is, for the selected lighting device 50. For example, the display processing unit 109 causes the display unit 12 to display the first icon I11 corresponding to the selected lighting device 50 in a color indicating that control via the repeater 70 is possible (see FIG. 24). .. In the present embodiment, the color indicating that control via the repeater 70 is possible is the same as the color indicating that control by the controller 60 is possible, for example, by direct communication. The color indicating that control via the repeater 70 is possible may be different from the color indicating that control by the controller 60 is possible, for example, by direct communication.

The user performs a selection operation so that the second determination processing unit 107 performs the determination processing for all the uncontrollable devices. The display processing unit 109 changes the display mode of the first icon I1 based on the result of the determination processing for each first icon I1 by the second determination processing unit 107. The display processing unit 109 has a color indicating that the uncontrollable device corresponding to the first icon I1 can be controlled via the repeater 70, or uncontrollable, for all of the first icon I1 corresponding to the uncontrollable device. It is displayed on the display unit 12 with a color indicating that. In this embodiment, all the uncontrollable devices can be controlled via the repeater 70. Therefore, the first icon I1 corresponding to each of the uncontrollable devices (the first icon I1 existing outside the controllable areas G33 and G34) is displayed in a color indicating that control is possible via the repeater 70. (See FIG. 25).

When the save button B11 is pressed while the design screen G1 shown in FIG. 25 is displayed, the storage processing unit 108 stores the data related to the current display contents in the storage unit 14. Specifically, in the storage processing unit 108, each of the plurality of first icons I1 is displayed in a color corresponding to the determination result of the first determination processing unit 106 or the second determination processing unit 107, and the second icon I2 and The storage unit 14 stores the data related to the design screen G1 including the third icon I3.

After the save button B11 is pressed while the design screen G1 shown in FIG. 25 is displayed and the data related to the current display contents are saved, the cross-sectional view G31 and the plan view G32 are displayed in the second display area R12. Instead, it is displayed that the work related to the support for equipment installation has been completed. Specifically, the display processing unit 109 causes the display unit 12 to display the work completion diagram G81 and the work completion message G82 (see FIG. 26) as information indicating that the work related to the support for equipment installation has been completed.

(5) Advantages As described above, in the installation support device 10 (equipment installation support system 1) of the present embodiment, the user installs a plurality of lighting devices 50 and controllers 60 on the design screen G1 to provide each lighting. Check the communication status between the device 50 and the controller 60. When there is an uncontrollable device in which direct communication with the controller 60 is added, the user arranges one or more repeaters 70 on the design screen G1 and communicates between the uncontrollable device and the repeater 70. Check the status of. Therefore, it is not necessary to actually install each device in the facility. Therefore, the user can reduce the time and effort required to change the installation location of the lighting device 50 and the like. That is, by using the installation support device 10 (equipment installation support system 1), the efficiency of the equipment installation work can be improved.

(6) Modified Examples The modified examples are listed below. The modifications described below can be applied in combination with the above embodiments as appropriate.

(6-1) Modification 1
In the above embodiment, the installation support device 10 is configured to display the plan view G32 and the cross-sectional view G31, but is not limited to this configuration.

The installation support device 10 may display a screen including a design drawing having a sense of depth of the facility.

(6-2) Modification 2
In the above embodiment, the installation support device 10 is configured to display a design drawing in which devices such as the lighting device 50 are not arranged at the start of support, but the configuration is not limited to this.

At the start of support, the installation support device 10 may display a design drawing in which only a plurality of lighting devices 50 are arranged. In this case, the installation support device 10 starts the operation from the setting process of the controller 60. Alternatively, the installation support device 10 may display a design drawing in which a plurality of lighting devices 50 and controllers 60 are arranged at the start of support. In this case, the installation support device 10 starts the operation from the first determination process. In short, the installation support device 10 may be in a state where the operation is started from the first determination process.

(6-3) Modification 3
In the above embodiment, the installation support device 10 is subjected to design data, device information, controller information, repeater information, information related to the first table, and second table before performing an operation related to installation support of the lighting device 50 or the like. Various information such as such information is acquired from the outside via the network. However, it is not limited to this configuration.

The installation support device 10 may acquire various information from the outside via a network during the operation related to the installation support.

(6-4) Modification 4
In the above embodiment, the lighting device 50 is taken as an example of the target device for installation support by the installation support device 10, but the target device is not limited to the lighting device 50.

The target device for installation support by the installation support device 10 may be an air conditioner.

Alternatively, the target equipment for installation support by the installation support device 10 may be both the air conditioning equipment and the lighting equipment 50. When the target equipment for installation support is both the air conditioning equipment and the lighting equipment 50, the installation support device 10 may support the installation of both the controller for the air conditioning equipment and the controller for the lighting equipment 50 as the controller. .. Alternatively, the installation support device 10 may support the installation of a controller that controls both the air conditioning device and the lighting device 50.

(6-5) Modification 5
In the above embodiment, the communication between the lighting device 50 and the controller 60 and the communication between the lighting device 50 (uncontrollable device) and the repeater 70 are defined as wireless communication. The communication between the lighting device 50 and the controller 60 and the communication between the lighting device 50 (uncontrollable device) and the repeater 70 may be other communication, for example, infrared communication.

(6-6) Modification 6
In the above embodiment, the obstacle information acquisition unit 105 is configured to acquire the material of the obstacle as obstacle information or obstacle information for the repeater at the user's option, but the configuration is not limited to this. For example, when the design data (BIM data) includes the material of the material, the obstacle information acquisition unit 105 may acquire the material of the obstacle from the design data.

(Other variants)
The above embodiment is only one of the various embodiments of the present disclosure. The above-described embodiment can be changed in various ways depending on the design and the like as long as the object of the present disclosure can be achieved. Further, the same function as the device installation support system 1 may be realized by a device installation support method, a computer program, a non-temporary recording medium on which the program is recorded, or the like. The device installation support method according to one aspect is used in the device installation support system 1 that supports the installation of a plurality of devices (for example, lighting device 50). The device installation support method includes a display processing step, a selection step, an acquisition step, and a controller control determination step. In the display processing step, the display unit displays an installation drawing relating to the plurality of devices and the facility to which the controller 60 is to be installed, to which the installation positions of the plurality of devices and the installation positions of the controllers for controlling the plurality of devices are added. The selection step selects one of the plurality of devices as the target device. In the acquisition step, when an obstacle exists on a straight line connecting the target device and the controller 60 for the target device, the obstacle information related to the obstacle is acquired. The controller control determination step obtains the communication state between the target device and the controller 60 by using at least the installation drawing of the installation diagram and obstacle information for the target device, and determines whether the target device can be controlled by the controller 60. judge. The selection step, the acquisition step, and the controller control determination step are repeated until all of the plurality of devices are selected.

The program according to one aspect is a program for making the computer system function as the above-mentioned device installation support method. Specifically, the program is used in the device installation support system 1 that supports the installation of a plurality of devices (for example, the lighting device 50). The program causes the computer to execute a display processing step, a selection step, an acquisition step, and a controller control determination step. In the display processing step, the display unit displays an installation drawing relating to the plurality of devices and the facility to which the controller 60 is to be installed, to which the installation positions of the plurality of devices and the installation positions of the controllers for controlling the plurality of devices are added. The selection step selects one of the plurality of devices as the target device. In the acquisition step, when an obstacle exists on a straight line connecting the target device and the controller 60 for the target device, the obstacle information related to the obstacle is acquired. The controller control determination step obtains the communication state between the target device and the controller 60 by using at least the installation drawing of the installation diagram and obstacle information for the target device, and determines whether the target device can be controlled by the controller 60. judge. The selection step, the acquisition step, and the controller control determination step are repeated until all of the plurality of devices are selected.

The execution subject of the device installation support system 1 or the device installation support method in the present disclosure includes a computer system. A computer system has a processor and memory as hardware. When the processor executes the program recorded in the memory of the computer system, the function as the execution subject of the device installation support system 1 or the device installation support method in the present disclosure is realized. The program may be pre-recorded in the memory of the computer system or may be provided through a telecommunication line. The program may also be provided recorded on a non-temporary recording medium such as a memory card, optical disk, or hard disk drive that can be read by a computer system. A processor in a computer system is composed of one or more electronic circuits including a semiconductor integrated circuit (IC) or a large scale integrated circuit (LSI). A plurality of electronic circuits may be integrated on one chip, or may be distributed on a plurality of chips. The plurality of chips may be integrated in one device, or may be distributed in a plurality of devices.

The device installation support system 1 which is a computer system may be a system composed of one or a plurality of computers. For example, at least a part of the functions of the device installation support system 1 may be realized by the cloud (cloud computing).

(Summary)
As described above, the device installation support system (1) of the first aspect includes a display processing unit (109), an obstacle information acquisition unit (105), and a controller control determination unit (first determination processing unit 106). And. The display processing unit (109) installs a plurality of devices and the controller (60) to which the installation positions of the plurality of devices (for example, the lighting device 50) and the installation positions of the controllers (60) for controlling the plurality of devices are added. The installation drawing related to the target facility is displayed on the display unit (12). The obstacle information acquisition unit (105) acquires obstacle information related to an obstacle (for example, a beam 80) existing on a straight line connecting the device and the controller (60) for each of the plurality of devices. The controller control determination unit obtains the communication state between the device and the controller (60) for each of the plurality of devices by using at least the installation drawing of the installation diagram and the obstacle information, and uses the controller (60). Determine whether control is possible for the device.

According to this configuration, the device installation support system (1) obtains the communication state between each device and the controller (60) by using the installation drawing in which a plurality of devices and the controller (60) are arranged, and the controller (60) Judges whether or not control is possible for each device. Therefore, it is not necessary to actually install each device in the facility. Therefore, the user can reduce the time and effort required to change the installation location of the device. That is, by using the device installation support system (1), the efficiency of the device installation work can be improved.

In the device installation support system (1) of the second aspect, in the first aspect, the controller control determination unit obtains attenuation information as a communication state for each of the plurality of devices, and the controller (60) is based on the attenuation information. ) Determines whether control is possible for the device. The attenuation information is information related to the attenuation of the transmission power until the signal output by the controller (60) reaches the device.

According to this configuration, it is possible to determine whether or not the controller (60) can control each device based on the attenuation information.

In the device installation support system (1) of the third aspect, in the second aspect, the controller control determination unit is the first device in which there is no obstacle on the straight line between the controller (60) and the plurality of devices. The attenuation information is the result calculated by the transmission power value of the controller (60) and the distance between the first device and the controller (60). The controller control determination unit determines the first distance of the linear path between the second device and the controller (60) and the first distance of the second device having an obstacle on the straight line between the plurality of devices (60). The first value determined from the transmission loss coefficient according to the obstacle information is obtained. The controller control determination unit is based on the second distance between the second device and the controller (60) on the avoidance route avoiding obstacles, and the interruption loss coefficient according to the interruption distance obtained from the linear route and the avoidance route. Find the second value to be determined. The controller control determination unit uses the result calculated by the larger value of the first value and the second value and the transmission power value as the attenuation information.

According to this configuration, for the first device in which no obstacle exists, the controller (60) is calculated based on the result calculated by the transmission power value of the controller (60) and the distance between the first device and the controller (60). It is possible to determine whether or not control for the first device is possible. For the second device in which an obstacle exists, of the transmission power value of the controller (60) and the first value obtained from the first distance and the transmission loss coefficient or the second value obtained from the second distance and the cutoff loss coefficient. Based on the result calculated with a large value, it is possible to determine whether or not the controller (60) can control the first device.

The device installation support system (1) of the fourth aspect further includes a setting unit (third arrangement setting unit 104) in any one of the first to third aspects. The setting unit is the arrangement position of the repeater (70) that relays the communication between the uncontrollable device and the controller (60), which is the device that the controller control determination unit determines as uncontrollable among the plurality of devices in the installation drawing. To set.

According to this configuration, the installation position of the repeater (70) can be specified on the installation drawing.

In the fourth aspect, the device installation support system (1) of the fifth aspect is the repeater control determination unit (second determination processing unit 107) that determines whether or not control is possible for the uncontrollable device via the repeater (70). ) Is further provided. The obstacle information acquisition unit (105) is used when the setting unit sets the arrangement position of the repeater (70) and when an obstacle exists on a straight line connecting the uncontrollable device and the repeater (70). Acquires obstacle information for repeaters related to obstacles. The repeater control determination unit controls using an installation drawing to which the arrangement position of the repeater (70) is added and an installation drawing to which at least the arrangement position of the repeater (70) is added among the obstacle information for the repeater. The communication state between the impossible device and the repeater (70) is obtained, and it is determined whether or not control of the device via the repeater (70) is possible.

According to this configuration, the communication state between the uncontrollable device and the repeater (70) can be obtained using the installation drawing, and it can be determined whether or not the uncontrollable device can be controlled via the repeater (70).

In the device installation support system (1) of the sixth aspect, in the fifth aspect, the repeater control determination unit transmits the attenuation information for the repeater between the uncontrollable device and the repeater (70) for the uncontrollable device. It is obtained as a communication state, and based on the attenuation information for the repeater, it is determined whether or not control is possible for the uncontrollable device via the repeater (70). The repeater attenuation information is information related to the attenuation of the transmission power until the signal output by the repeater (70) reaches the uncontrollable device.

According to this configuration, it is possible to determine whether or not control is possible for the uncontrollable device via the repeater (70) based on the attenuation information for the repeater.

In the device installation support system (1) of the seventh aspect, in the sixth aspect, when the repeater control determination unit does not have an obstacle on the straight line between the uncontrollable device and the repeater (70). Uses the result calculated by the transmission power value for the repeater, which is the transmission power value of the repeater (70), and the linear distance between the uncontrollable device and the repeater (70) as the attenuation information for the repeater. When an obstacle exists on the straight line between the uncontrollable device and the repeater (70), the repeater control determination unit determines the third distance of the straight line path between the uncontrollable device and the repeater (70) and The third value determined from the transmission loss coefficient of the repeater (70) transmission power according to the obstacle information for the repeater is obtained. The repeater control determination unit includes a fourth distance between the uncontrollable device and the repeater (70) in the avoidance route avoiding obstacles, a straight line route corresponding to the third distance, and an avoidance route corresponding to the fourth distance. The fourth value determined from the breaking loss coefficient according to the breaking distance obtained from is obtained. The repeater control determination unit uses the result calculated by the larger value of the third value and the fourth value and the transmission power value for the repeater as the attenuation information for the repeater.

According to this configuration, when there is no obstacle, the repeater (70) is calculated based on the transmission power value of the repeater (70) and the distance between the uncontrollable device and the repeater (70). ) Can be used to determine whether or not control is possible for uncontrollable devices. When an obstacle is present, the larger of the transmission power value of the repeater (70) and the third value obtained from the third distance and the transmission loss coefficient or the third value obtained from the third distance and the cutoff loss coefficient. Based on the result calculated by the value, it is possible to determine whether or not control is possible for the uncontrollable device via the repeater (70).

In the device installation support system (1) of the eighth aspect, in any of the fourth to seventh aspects, the display processing unit (109) sets the position of the repeater (70) when the setting unit sets the arrangement position. Displays the controllable areas (G33, G34) by the controller (60) on the display unit (12) in the installation drawing.

According to this configuration, the controllable area is displayed, so that the user can easily specify the area that can communicate with the controller (60). Therefore, the user can set the repeater (70) at a position where communication with the controller (60) is possible.

The device installation support system (1) of the ninth aspect further includes a storage processing unit (108) in any one of the first to third aspects. The storage processing unit (108) is installed with the installation positions of the plurality of devices and the installation positions of the controller (60) added when each of the plurality of devices can be controlled by direct communication by the controller (60). The figure is stored in a predetermined storage area (for example, the storage unit 14).

According to this configuration, the installation diagram of the arrangement state determined to be controllable by the controller (60) is stored for each of the plurality of devices. Therefore, the user can easily install each device and the controller (60) by using the installation drawing.

The device installation support system (1) of the tenth aspect further includes a storage processing unit (108) in any of the fourth to eighth aspects. The storage processing unit (108) determines the installation position of the plurality of devices and the controller (60) when each of the plurality of devices can be controlled by direct communication by the controller or can be controlled via the repeater (70). ) And the installation drawing to which the installation position of the repeater (70) is added are stored in a predetermined storage area (for example, the storage unit 14).

According to this configuration, the installation diagram of the arrangement state determined that each of the plurality of devices can be directly controlled by the controller (60) or controlled via the repeater (70) is stored. Therefore, the user can easily install each device, the controller (60), and the repeater (70) by using the installation drawing.

In the device installation support system (1) of the eleventh aspect, in the ninth or tenth aspect, the display processing unit (109) is a device when the storage processing unit (108) stores the installation drawing in a predetermined storage area. The display unit (12) displays that the work related to the installation support has been completed.

According to this configuration, the user can start the actual work related to the equipment installation based on the stored installation drawing.

The device installation support method of the twelfth aspect is used in the device installation support system (1) that supports the installation of a plurality of devices (for example, lighting device 50). The device installation support method includes a display processing step, a selection step, an acquisition step, and a controller control determination step. The display processing step displays an installation diagram relating to a plurality of devices and a facility to which the controller (60) is to be installed, to which the installation positions of the plurality of devices and the installation positions of the controllers (60) for controlling the plurality of devices are added. It is displayed in the part (12). The selection step selects one of the plurality of devices as the target device. The acquisition step acquires obstacle information related to an obstacle (for example, a beam 80) existing on a straight line connecting the target device and the controller (60) for the target device. In the controller control determination step, the communication state between the target device and the controller (60) is obtained for the target device by using at least the installation drawing of the installation diagram and obstacle information, and whether or not the controller can control the target device. To judge. The selection step, the acquisition step, and the controller control determination step are repeated until all of the plurality of devices are selected.

According to this device installation support method, the communication state between each device and the controller (60) is obtained by using the installation drawing in which a plurality of devices and the controller (60) are arranged, and the controller (60) controls each device. Judge whether or not. Therefore, it is not necessary to actually install each device in the facility. Therefore, the user can reduce the time and effort required to change the installation location of the device. That is, the efficiency of the equipment installation work can be improved.

In the device installation support method of the thirteenth aspect, in the twelfth aspect, the controller control determination step obtains the attenuation information of the target device as the communication state, and the controller (60) controls the target device based on the attenuation information. Judge whether or not. The attenuation information is information related to the attenuation of the transmission power until the signal output by the controller (60) reaches the target device.

According to this device installation support method, it is possible to determine whether or not control of each device by the controller (60) is possible based on the attenuation information.

The device installation support method of the fourteenth aspect further includes a setting step in the twelfth or thirteenth aspect. The setting step is the arrangement position of the repeater (70) that relays the communication between the uncontrollable device and the controller (60), which is the device determined to be uncontrollable by the controller control determination step among the plurality of devices in the installation drawing. To set.

According to this device installation support method, the installation position of the repeater (70) can be specified on the installation drawing.

The device installation support method of the fifteenth aspect further includes a device selection step, an obstacle information acquisition step, and a repeater control determination step in the fourteenth aspect. The device selection step selects uncontrollable devices. The obstacle information acquisition step acquires the obstacle information for the repeater related to the obstacle when the obstacle exists on the straight line connecting the uncontrollable device selected in the device selection step and the repeater (70). The repeater control determination step cannot be controlled by using the installation drawing to which the arrangement position of the repeater (70) is added and the installation drawing to which the arrangement position of the repeater (70) is added at least among the obstacle information for the repeater. The communication state between the device and the repeater (70) is obtained, and it is determined whether or not control is possible for the uncontrollable device via the repeater (70). The device selection step, the obstacle information acquisition step, and the repeater control determination step are repeated until all the uncontrollable devices are selected.

According to this device installation support method, it is possible to obtain the communication state between the uncontrollable device and the repeater (70) using the installation diagram and determine whether or not control of the uncontrollable device via the repeater (70) is possible. it can.

The device installation support method of the sixteenth aspect further includes a memory processing step in the twelfth or thirteenth aspect. In the storage processing step, when each of the plurality of devices can be controlled by direct communication by the controller (60), an installation diagram to which the installation positions of the plurality of devices and the installation positions of the controller (60) are added is determined. Is stored in the storage area (for example, the storage unit 14).

According to this device installation support method, the installation diagram of the arrangement state determined to be controllable by the controller (60) is stored for each of the plurality of devices. Therefore, the user can easily install each device and the controller (60) by using the installation drawing.

The device installation support method of the 17th aspect further includes a memory processing step in the 14th or 15th aspect. The storage processing step is the installation position of the plurality of devices and the controller (60) when each of the plurality of devices can be controlled by direct communication by the controller (60) or controlled via the repeater (70). ) And the installation drawing to which the installation position of the repeater (70) is added are stored in a predetermined storage area (for example, the storage unit 14).

According to this device installation support method, the installation diagram of the arrangement state determined that each of the plurality of devices can be directly controlled by the controller (60) or controlled via the repeater (70) is stored. To do. Therefore, the user can easily install each device, the controller (60), and the repeater (70) by using the installation drawing.

The device installation support method of the eighteenth aspect further includes a completion display step in the sixteenth or seventeenth aspect. When the completion display step stores the installation diagram in a predetermined storage area in the storage processing step, the device installation The display unit (12) is displayed to indicate that the work related to the support of is completed.

According to this device installation support method, the user can start the actual work related to the device installation based on the stored installation drawing.

The program of the nineteenth aspect is used in the device installation support system (1) that supports the installation of a plurality of devices (for example, the lighting device 50). The program causes a computer to execute a display processing step, a selection step, an acquisition step, and a controller control determination step. The display processing step displays an installation diagram relating to a plurality of devices and a facility to which the controller (60) is to be installed, to which the installation positions of the plurality of devices and the installation positions of the controllers (60) for controlling the plurality of devices are added. It is displayed in the part (12). The selection step selects one of the plurality of devices as the target device. The acquisition step acquires obstacle information related to an obstacle (for example, a beam 80) existing on a straight line connecting the target device and the controller (60) for the target device. In the controller control determination step, the communication state between the target device and the controller (60) is obtained for the target device by using at least the installation drawing of the installation diagram and obstacle information, and the controller (60) determines the communication state with respect to the target device. Determine whether control is possible. The selection step, the acquisition step, and the controller control determination step are repeated until all of the plurality of devices are selected.

According to this program, the communication status between each device and the controller (60) is obtained by using the installation drawing in which a plurality of devices and the controller (60) are arranged, and whether or not the controller (60) can control each device is possible. judge. Therefore, it is not necessary to actually install each device in the facility. Therefore, the user can reduce the time and effort required to change the installation location of the device. That is, the efficiency of the equipment installation work can be improved.

In the program of the twentieth aspect, in the nineteenth aspect, the controller control determination step obtains the attenuation information of the target device as the communication state, and whether or not the controller (60) can control the target device based on the attenuation information. To judge. The attenuation information is information related to the attenuation of the transmission power until the signal output by the controller (60) reaches the target device.

According to this program, it is possible to determine whether or not the controller (60) can control each device based on the attenuation information.

The program of the 21st aspect causes the computer to further perform the setting step in the 19th or 20th aspect. The setting step is the arrangement position of the repeater (70) that relays the communication between the uncontrollable device and the controller (60), which is the device determined to be uncontrollable by the controller control determination step among the plurality of devices in the installation drawing. To set.

According to this program, the installation position of the repeater (70) can be specified on the installation drawing.

In the 22nd aspect, the program causes the computer to further execute the device selection step, the obstacle information acquisition step, and the repeater control determination step in the 21st aspect. The device selection step selects uncontrollable devices. The obstacle information acquisition step acquires the obstacle information for the repeater related to the obstacle when the obstacle exists on the straight line connecting the uncontrollable device selected in the device selection step and the repeater (70). The repeater control determination step is controlled by using an installation drawing to which the arrangement position of the repeater (70) is added and an installation drawing to which at least the arrangement position of the repeater (70) is added among the obstacle information for the repeater. The communication state between the uncontrollable device and the repeater (70) is obtained, and it is determined whether or not control is possible for the uncontrollable device via the repeater (70). The device selection step, the obstacle information acquisition step, and the repeater control determination step are repeated until all the uncontrollable devices are selected.

According to this program, the communication state between the uncontrollable device and the repeater (70) can be obtained using the installation diagram, and it can be determined whether or not the uncontrollable device can be controlled via the repeater (70).

The program of the 23rd aspect causes the computer to further execute the storage processing step in the 19th or 20th aspect. In the storage processing step, when each of the plurality of devices can be controlled by direct communication by the controller (60), an installation diagram to which the installation positions of the plurality of devices and the installation positions of the controller (60) are added is determined. Is stored in the storage area (for example, the storage unit 14).

According to this program, the installation diagram of the arrangement state determined to be controllable by the controller (60) is stored for each of the plurality of devices. Therefore, the user can easily install each device and the controller (60) by using the installation drawing.

The program of the 24th aspect causes the computer to further execute the storage processing step in the 21st or 22nd aspect. The storage processing step is the installation position of the plurality of devices and the controller (60) when each of the plurality of devices can be controlled by direct communication by the controller (60) or controlled via the repeater (70). ) And the installation drawing to which the installation position of the repeater (70) is added are stored in a predetermined storage area (for example, the storage unit 14).

According to this program, the installation diagram of the arrangement state determined that each of the plurality of devices can be directly controlled by the controller (60) or controlled via the repeater (70) is stored. Therefore, the user can easily install each device, the controller (60), and the repeater (70) by using the installation drawing.

The program of the 25th aspect causes the computer to further execute the completion display step in the 23rd or 24th aspect. In the completion display step, when the installation drawing is stored in a predetermined storage area in the storage processing step, the display unit (12) displays that the work related to the support for equipment installation has been completed.

According to this program, the user can start the actual work of equipment installation based on the stored installation drawing.

1 Equipment installation support system 10 Installation support device 12 Display unit 14 Storage unit (predetermined storage area)
50 Lighting equipment (equipment)
60 Controller 70 Repeater 80 Beam (obstacle)
102 1st arrangement setting unit 103 2nd arrangement setting unit 104 3rd arrangement setting unit (setting unit)
105 Obstacle information acquisition unit 106 First judgment processing unit (controller control judgment unit)
107 Second judgment processing unit (repeater control judgment unit)
108 Storage processing unit 109 Display processing unit G31 Cross-sectional view (installation view)
G32 plan view (installation view)
G33, G34 Controllable area P1, P11, P41 Straight route P2, P21, P42 Avoidance route L0, L30 Distance L1, L11 First distance L2, L21 Second distance L31, L41 Third distance L32, L42 Fourth distance

Claims (25)

1. A display processing unit that displays an installation diagram of the plurality of devices and the facility to which the controller is installed on the display unit to which the installation positions of the plurality of devices and the installation positions of the controllers that control the plurality of devices are added. ,
   For each of the plurality of devices, an obstacle information acquisition unit that acquires obstacle information related to an obstacle existing on a straight line connecting the device and the controller, and
   Using at least the installation drawing of the installation drawing and the obstacle information, the communication state between the device and the controller is obtained for each of the plurality of devices, and whether or not the controller can control the device. A controller control determination unit for determining
   Equipment installation support system.
2. The controller control determination unit
   For each of the plurality of devices, attenuation information relating to the attenuation of the transmission power until the signal output by the controller reaches the device is obtained as the communication state, and based on the attenuation information, the controller refers to the device. Judging whether control is possible,
   The device installation support system according to claim 1.
3. The controller control determination unit
   For the first device having no obstacle on the straight line between the plurality of devices, the result calculated by the transmission power value of the controller and the distance between the first device and the controller. Is used as the attenuation information.
   Of the plurality of devices, the second device having an obstacle on the straight line between the controller is transparent according to the first distance of the linear path between the second device and the controller and the obstacle information. The first value determined from the loss coefficient was obtained, and it corresponded to the second distance between the second device and the controller in the avoidance path avoiding the obstacle, and the blocking distance obtained from the linear path and the avoidance path. A second value determined from the cutoff loss coefficient is obtained, and the result calculated by the larger value of the first value and the second value and the transmission power value is used as the attenuation information.
   The device installation support system according to claim 2.
4. In the installation drawing, the setting unit for setting the arrangement position of the repeater that relays the communication between the uncontrollable device, which is the device determined to be uncontrollable by the controller control determination unit among the plurality of devices, and the controller. , Further prepare
   The device installation support system according to any one of claims 1 to 3.
5. Further, a repeater control determination unit for determining whether or not control is possible for the uncontrollable device via the repeater is provided.
   The obstacle information acquisition unit sets the obstacle when the setting unit sets the arrangement position of the repeater, and when an obstacle exists on a straight line connecting the uncontrollable device and the repeater. Acquire obstacle information for repeaters related to objects,
   The repeater control determination unit uses the installation drawing to which the arrangement position of the repeater is added and the installation drawing to which at least the arrangement position of the repeater is added among the obstacle information for the repeater. The communication state between the uncontrollable device and the repeater is obtained, and it is determined whether or not control of the device via the repeater is possible.
   The device installation support system according to claim 4.
6. The repeater control determination unit
   With respect to the uncontrollable device, the repeater attenuation information relating to the attenuation of the transmission power until the signal output by the repeater reaches the uncontrollable device is used as the communication state between the uncontrollable device and the repeater. Based on the attenuation information for the repeater, it is determined whether or not control is possible for the uncontrollable device via the repeater.
   The device installation support system according to claim 5.
7. The repeater control determination unit
   When there is no obstacle on the straight line between the uncontrollable device and the repeater, the transmission power value for the repeater, which is the transmission power value of the repeater, and the uncontrollable device and the repeater The result calculated by the linear distance is used as the attenuation information for the repeater.
   When an obstacle exists on the straight line between the uncontrollable device and the repeater, the third distance of the straight line path between the uncontrollable device and the repeater and the obstacle information for the repeater are supported. The third value determined from the transmission loss coefficient is obtained, and the fourth distance between the uncontrollable device and the repeater in the avoidance path avoiding the obstacle, and the linear path corresponding to the third distance and the fourth. A fourth value determined from the breaking loss coefficient according to the breaking distance obtained from the avoidance path corresponding to the distance is obtained, and the larger value of the third value and the fourth value and the transmission power value for the repeater are used. The calculated result is used as the attenuation information for the repeater.
   The device installation support system according to claim 6.
8. When the setting unit sets the arrangement position of the repeater, the display processing unit causes the display unit to display a controllable area by the controller in the installation drawing.
   The device installation support system according to any one of claims 4 to 7.
9. When each of the plurality of devices can be controlled by direct communication by the controller, the installation positions of the plurality of devices and the installation drawing to which the installation positions of the controllers are added are stored in a predetermined storage area. Further equipped with a storage processing unit,
   The device installation support system according to any one of claims 1 to 3.
10. When each of the plurality of devices can be controlled by direct communication by the controller or can be controlled via the repeater, the installation position of the plurality of devices, the installation position of the controller, and the repeater A storage processing unit that stores the installation drawing to which the installation position is added in a predetermined storage area is further provided.
    The device installation support system according to any one of claims 4 to 8.
11. The display processing unit
    When the storage processing unit stores the installation drawing in a predetermined storage area, the display unit displays that the work related to the support for equipment installation has been completed.
    The device installation support system according to claim 9 or 10.
12. This is a device installation support method used in a device installation support system that supports the installation of multiple devices.
    A display processing step for displaying an installation diagram of the plurality of devices and the facility to which the controller is to be installed on the display unit to which the installation positions of the plurality of devices and the installation positions of the controllers for controlling the plurality of devices are added. ,
    A selection step of selecting one of the plurality of devices as a target device, and
    With respect to the target device, an acquisition step of acquiring obstacle information related to an obstacle existing on a straight line connecting the target device and the controller, and
    With respect to the target device, at least the installation drawing of the installation drawing and the obstacle information is used to obtain the communication state between the target device and the controller, and whether or not the controller can control the target device is possible. Including the controller control determination step to determine
    The selection step, the acquisition step, and the controller control determination step are repeated until all of the plurality of devices are selected.
    Equipment installation support method.
13. The controller control determination step is
    With respect to the target device, attenuation information relating to attenuation of transmission power until the signal output by the controller reaches the target device is obtained as the communication state, and the controller controls the target device based on the attenuation information. Judging whether or not
    The device installation support method according to claim 12.
14. In the installation drawing, the setting step for setting the arrangement position of the repeater that relays the communication between the uncontrollable device, which is the device determined to be uncontrollable by the controller control determination step among the plurality of devices, and the controller. , Further prepare
    The device installation support method according to claim 12 or 13.
15. The device selection step for selecting the uncontrollable device and
    When an obstacle exists on a straight line connecting the uncontrollable device and the repeater selected in the device selection step, the obstacle information acquisition step for acquiring the obstacle information for the repeater related to the obstacle, and the obstacle information acquisition step.
    The uncontrollable device and the repeater are used by using the installation drawing to which the arrangement position of the repeater is added and the installation drawing to which the arrangement position of the repeater is added at least among the obstacle information for the repeater. Further includes a repeater control determination step of obtaining a communication state with and determining whether or not control of the uncontrollable device via the repeater is possible.
    The device selection step, the obstacle information acquisition step, and the repeater control determination step are repeated until all of the uncontrollable devices are selected.
    The device installation support method according to claim 14.
16. When each of the plurality of devices can be controlled by direct communication by the controller, the installation positions of the plurality of devices and the installation drawing to which the installation positions of the controllers are added are stored in a predetermined storage area. Including additional amnestics steps,
    The device installation support method according to claim 12 or 13.
17. When each of the plurality of devices can be controlled by direct communication by the controller or can be controlled via the repeater, the installation position of the plurality of devices, the installation position of the controller, and the repeater A storage processing step of storing the installation drawing to which the installation position is added in a predetermined storage area is further included.
    The device installation support method according to claim 14 or 15.
18. When the installation drawing is stored in a predetermined storage area in the storage processing step, a completion display step of displaying on the display unit that the work related to the support for equipment installation has been completed is further included.
    The device installation support method according to claim 16 or 17.
19. A program used in a device installation support system that supports the installation of multiple devices.
    On the computer
    A display processing step for displaying an installation diagram of the plurality of devices and the facility to which the controller is to be installed on the display unit to which the installation positions of the plurality of devices and the installation positions of the controllers for controlling the plurality of devices are added. ,
    A selection step of selecting one of the plurality of devices as a target device, and
    With respect to the target device, an acquisition step of acquiring obstacle information related to an obstacle existing on a straight line connecting the target device and the controller, and
    With respect to the target device, at least the installation drawing of the installation drawing and the obstacle information is used to obtain the communication state between the target device and the controller, and whether or not the controller can control the target device is possible. To execute the controller control judgment step and
    The selection step, the acquisition step, and the controller control determination step are repeated until all of the plurality of devices are selected.
    program.
20. The controller control determination step is
    With respect to the target device, attenuation information relating to attenuation of transmission power until the signal output by the controller reaches the target device is obtained as the communication state, and the controller controls the target device based on the attenuation information. Judging whether or not
    The program according to claim 19.
21. On the computer
    In the installation drawing, the setting step for setting the arrangement position of the repeater that relays the communication between the uncontrollable device, which is the device determined to be uncontrollable by the controller control determination step among the plurality of devices, and the controller. , Let it run further,
    The program of claim 19 or 20.
22. On the computer
    The device selection step for selecting the uncontrollable device and
    When an obstacle exists on a straight line connecting the uncontrollable device and the repeater selected in the device selection step, the obstacle information acquisition step for acquiring the obstacle information for the repeater related to the obstacle, and the obstacle information acquisition step.
    The uncontrollable device and the repeater are used by using the installation drawing to which the arrangement position of the repeater is added and the installation drawing to which the arrangement position of the repeater is added at least among the obstacle information for the repeater. The repeater control determination step of determining whether or not control of the uncontrollable device via the repeater is possible by obtaining the communication state with the repeater is further executed.
    The device selection step, the obstacle information acquisition step, and the repeater control determination step are repeated until all of the uncontrollable devices are selected.
    21. The program of claim 21.
23. On the computer
    When each of the plurality of devices can be controlled by direct communication by the controller, the installation positions of the plurality of devices and the installation drawing to which the installation positions of the controllers are added are stored in a predetermined storage area. Further execution of amnestics steps,
    The program of claim 19 or 20.
24. On the computer
    When each of the plurality of devices can be controlled by direct communication by the controller or can be controlled via the repeater, the installation position of the plurality of devices, the installation position of the controller, and the repeater A storage processing step of storing the installation drawing to which the installation position is added in a predetermined storage area is further executed.
    The program according to claim 21 or 22.
25. On the computer
    When the installation drawing is stored in a predetermined storage area in the storage processing step, the completion display step of displaying on the display unit that the work related to the support for equipment installation has been completed is further executed.
    The program according to claim 23 or 24.

Images