JP2012199887A - Sensor, sensor module, and facility terminal control system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a facility terminal control system to which a sensor can be added easily.SOLUTION: A facility terminal control system 1 comprises a server 10, a facility terminal 20, a sensor module 30, and a sensor 40. A plurality of applications according to a type of the sensor 40 are stored in the server 10. The sensor 40 can be attached to and detached from the sensor module 30. When the sensor 40 is attached to the sensor module 30, an output signal including identification information of the sensor 40 is transmitted to the server 10 through the sensor module 30. When the server 10 receives the identification information, the server 10 transmits an application corresponding to the sensor 40 to the sensor module 30.

Description

  The present invention relates to a sensor, a sensor module, and an equipment terminal control system including a sensor and a server.

The thing of patent document 1 is known as said equipment terminal control system.
A server provided in the equipment terminal control system performs various controls based on the output signal of the sensor.

JP 2005-215789 A

  When a sensor is added to the facility terminal control system, work for attaching the sensor to a predetermined position of the building, wiring work for connecting the sensor and the server, and the like are required. That is, it takes a lot of time to add a sensor.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a sensor module, an equipment terminal control system, and a sensor corresponding to these devices, to which a sensor can be easily added. is there.

Means for achieving the above object will be described below.
The facility terminal control system of the present invention is a facility terminal control system including a sensor and a server, wherein a sensor module capable of attaching and detaching the sensor is provided, and an output of the sensor A signal is transmitted to the server via the sensor module.

-In this equipment terminal control system, it is preferable that the output signal according to the identification information memorize | stored in the said sensor is transmitted to the said server from the said sensor module.
-In this equipment terminal control system, it is preferable that the output signal according to the voltage of the circuit of the sensor is transmitted from the sensor module to the server.

  In this equipment terminal control system, a plurality of applications corresponding to the type of sensor is stored in the server, the application is transmitted from the server to the sensor module, and the sensor module When the sensor is attached, an application corresponding to the sensor is preferably stored in the sensor module.

  In this equipment terminal control system, a plurality of applications corresponding to the type of sensor is stored in the server, an application is transmitted from the server to the sensor module, and the sensor module When a sensor is attached, it is preferable that a list of applications corresponding to the sensor among the plurality of applications is created.

  -In this equipment terminal control system, a plurality of ports for mounting the sensor are provided in the sensor module, a plurality of applications corresponding to the type of the sensor are stored in the server, An application is transmitted from the server to the sensor module, and when a plurality of sensors are attached to the sensor module, an application corresponding to a combination of the plurality of sensors is stored in the sensor module. Is preferred.

  -In this equipment terminal control system, a plurality of ports for mounting the sensor are provided in the sensor module, a plurality of applications corresponding to the type of the sensor are stored in the server, It is preferable that an application is transmitted from the server to the sensor module, and when a plurality of the sensors are attached to the sensor module, a list of applications corresponding to a combination of these sensors is created.

  -In this equipment terminal control system, the equipment terminal controlled according to the output signal of the sensor is provided, the operation terminal for operating the equipment terminal is provided, and the type of the sensor is supported A plurality of applications stored in the server, an application is transmitted from the server to the operation terminal, and when the sensor is attached to the sensor module, an application corresponding to the sensor is It is preferably stored in the operation terminal.

In this equipment terminal control system, it is preferable that the execution mode of the application can be changed by the operation terminal.
-In this equipment terminal control system, it is preferable that the operation terminal is provided with a display unit.

-In this equipment terminal control system, it is preferable that the display part is provided with a liquid crystal panel.
-In this equipment terminal control system, it is preferable that the application memorize | stored in the said operation terminal contains the combination of the operation function and the design corresponding to an operation function.

  -In this equipment terminal control system, it is preferable that the said display part is comprised as a touchscreen, and the function and design of the said touchscreen are changed with the said application.

  -In this equipment terminal control system, when the application is updated in the server, it is preferable that notification control for notifying the user of information indicating that is performed.

  In this equipment terminal control system, it is preferable that when the application is updated in the server, an application corresponding to the application is updated in the sensor module.

In this facility terminal control system, it is preferable that wireless communication is performed between the server and the sensor module.
-The sensor module of this invention is characterized by attaching a sensor and removing the said sensor.

  -The sensor of this invention is attached to a sensor module, It is characterized by the above-mentioned.

  ADVANTAGE OF THE INVENTION According to this invention, the sensor module, the equipment terminal control system, and the sensor corresponding to these apparatuses can be provided.

The schematic diagram which shows typically the whole structure about the equipment terminal control system of 1st Embodiment of this invention. The block diagram which shows the structure of a sensor module and a sensor about the equipment terminal control system of the embodiment. The perspective view which shows the perspective structure of a sensor module and a sensor about the equipment terminal control system of the embodiment. Regarding the equipment terminal control system of the embodiment, (a) is a table showing the relationship between the application and the interface stored in the server, (b) is a table showing the relationship between the interface and the image file stored in the server, ( c) A table showing the relationship between the interface and the image file stored in the server. The schematic diagram which shows typically the display screen of a touchscreen about the equipment terminal control system of the embodiment. The sequence diagram which shows operation | movement of each component of the equipment terminal control system with execution of the "single application setting process" by a server about the equipment terminal control system of the embodiment. The schematic diagram which shows typically the display screen of a touchscreen about the equipment terminal control system of the embodiment. The sequence diagram which shows operation | movement of each component of the equipment terminal control system accompanying execution of the "cooperation application setting process" by a server about the equipment terminal control system of the embodiment. The schematic diagram which shows typically the display screen of a touchscreen about the equipment terminal control system of the embodiment. The schematic diagram which shows typically the display screen of a liquid crystal panel about the equipment terminal control system of 2nd Embodiment of this invention. The block diagram which shows the structure of a sensor module and a sensor about the equipment terminal control system of other embodiment of this invention. The schematic diagram which shows typically the whole structure about the equipment terminal control system of other embodiment of this invention.

(First embodiment)
The equipment terminal control system 1 of the present embodiment is configured as a system that centrally monitors and controls equipment terminals installed in each room of an office building. The equipment includes a plurality of lighting fixtures and a plurality of air conditioning facilities.

With reference to FIG. 1, the structure of the equipment terminal control system 1 is demonstrated.
The equipment terminal control system 1 is provided with a server 10 that manages and manages information of each component included in the system 1 and a plurality of equipment terminals 20 connected to the server 10. In addition to this, a sensor module 30 capable of attaching various sensors 40 and removing the sensors 40 is provided. As the facility terminal 20, a lighting fixture and an air conditioner that are controlled according to the output signal of the sensor 40 are provided.

  The server 10 stores a plurality of applications corresponding to the type of sensor 40. Further, the application is transmitted to the sensor module 30 according to the type of the sensor 40 attached to the sensor module 30. In addition, an output signal including identification information of the sensor 40 is received via the sensor module 30.

The configuration of the sensor module 30 and the sensor 40 will be described with reference to FIG.
The sensor module 30 includes a processing unit 31, a detection unit 32, a communication unit 33, a storage unit 34, and a touch panel 35. In addition, four ports 37 for attaching the sensor 40 are provided. In FIG. 2, only one port 37 is shown.

  The processing unit 31 performs various controls based on the input signal. The detection unit 32 detects an output signal of the sensor 40 attached to the port 37 of the sensor module 30. The output signal of the sensor 40 includes an identification information signal of the sensor 40 and a detection information signal of the sensor 40. The detection unit 32 constitutes a part of the processing unit 31.

  The communication unit 33 transmits and receives signals to and from the server 10. The storage unit 34 stores identification information of the sensor 40 attached to the port 37, an application downloaded from the server 10, and identification information of the sensor module 30.

  The touch panel 35 is configured as a man-machine interface that serves as both a display unit configured by a liquid crystal screen that displays various types of information and an operation unit for setting various types of controls by the user touching the screen and operating the screen. Has been.

  The sensor 40 is provided with a detection unit 41, a storage unit 42, and a port 44. The detection unit 41 outputs a detection signal corresponding to the physical parameter to be monitored. The storage unit 42 stores identification information corresponding to the type of the sensor 40. Examples of the sensor 40 attached to the sensor module 30 include a humidity sensor, a temperature sensor, a human sensor, and a brightness meter.

The relationship between the sensor module 30 and the sensor 40 will be described.
The detection unit 32 of the sensor module 30 supplies power to the sensor 40 via the port 37 and the port 44. Further, when an output signal including identification information is received from the detection unit 41 of the sensor 40, the identification information is stored in the storage unit 34. The detection unit 41 of the sensor 40 outputs an output signal including a detection signal and identification information to the detection unit 32 of the sensor module 30 via the port 44 and the port 37. The sensor module 30 and the sensor 40 are grounded.

In FIG. 3, the external appearance of the sensor module 30 and the sensor 40 is shown.
The main body 36 of the sensor module 30 is configured as a box-shaped housing. The main body 36 is provided with four ports 37 corresponding to the port 44 of the sensor 40, that is, a first port 37A, a second port 37B, a third port 37C, and a fourth port 37D.

  The main body 43 of the sensor 40 is configured as a box-shaped housing. A port 44 corresponding to the port 37 of the sensor module 30 is provided at the end of the main body 43. In FIG. 3, a state in which the port 44 of the sensor 40 is inserted into the fourth port 37D is shown as an example of an insertion mode of the sensor 40 with respect to the sensor module 30.

With reference to FIG. 4, the configuration of the application in the server 10 will be described.
As shown in FIG. 4A, each application corresponds to each interface as an operation function of the facility terminal 20. Further, it is associated with identification information of various sensors 40.

  As shown in FIG. 4B, the interface for switching the operation state of the equipment terminal 20 is associated with N image files as a design. Moreover, “ON” and “OFF” are included in the operation state of the facility terminal 20 switched by the interface. On the application, “ON” and “OFF” are displayed as “ON” and “OFF”, respectively.

  As shown in FIG. 4C, the interface for changing the output state of the equipment terminal 20 is N image files as a design, and the image file associated with the interface for switching the operation state of the equipment terminal 20 Associated with another file. The output state of the facility terminal 20 switched by the interface includes “increase” and “decrease”. On the application, “increase” and “decrease” are displayed as “UP” and “DOWN”, respectively.

  Note that the interfaces other than the interface for switching the operation state of the facility terminal 20 and the interface for changing the output of the facility terminal 20 are also associated with a plurality of image files in the same manner as the above interfaces. That is, each application includes a combination of an operation function and a design corresponding to the operation function.

With reference to FIG. 5, an example of the display format of the touch panel 35 will be described.
Here, a case where a brightness meter as the sensor 40 is attached to the sensor module 30 and a plurality of lighting fixtures are provided as the equipment terminal 20 is taken as an example. In addition, when the sensor 40 and the equipment terminal 20 different from those exemplified here as the sensor 40 and the equipment terminal 20 are provided, the display format of the touch panel 35 is a part or all of the display format described below. The sensor 40 and the equipment terminal 20 are adapted.

  The touch panel 35 is provided with a total of four areas arranged in two vertical rows and two horizontal rows, that is, a first area 35A, a second area 35B, a third area 35C, and a fourth area 35D. Each area 35A to 35D displays a design corresponding to one type of interface.

  In the first area 35A, an interface for setting the operation state of the facility terminal 20 to ON is displayed. In the second area 35B, an interface for displaying the illuminance corresponding to the detection signal of the sensor 40 is displayed. In the third area 35C, an interface for setting the output state of the facility terminal 20 to increase is displayed. In the fourth area 35D, an interface for setting the output state of the facility terminal 20 to decrease is displayed.

  With reference to FIGS. 1 and 5, the operation of each device related to the touch panel 35 will be described. In the following (A) to (C), the operation of each device according to the operation of the touch panel 35 by the user is shown, and in (D), the operation of the touch panel 35 according to the output of the sensor 40 is shown.

  (A) When the user presses the first area 35 </ b> A of the touch panel 35, the sensor module 30 transmits an output signal that sets the driving state of the equipment terminal 20 to the server 10. When the server 10 receives the output signal from the sensor module 30, the server 10 transmits the output signal to the corresponding equipment terminal 20. When the facility terminal 20 receives the output signal from the server 10, the facility terminal 20 sets the drive state to ON based on the information of the output signal.

  (B) When the user presses the third area 35C of the touch panel 35, the sensor module 30 transmits an output signal for setting the output state of the equipment terminal 20 to increase to the server 10. When the server 10 receives the output signal from the sensor module 30, the server 10 transmits the output signal to the corresponding equipment terminal 20. When the facility terminal 20 receives the output signal from the server 10, the facility terminal 20 sets the output state to increase based on the information of the output signal.

  (C) When the user presses the fourth area 35D of the touch panel 35, the sensor module 30 transmits an output signal for setting the output state of the equipment terminal 20 to decrease to the server 10. When the server 10 receives the output signal from the sensor module 30, the server 10 transmits the output signal to the corresponding equipment terminal 20. When the facility terminal 20 receives the output signal from the server 10, the facility terminal 20 sets the output state to decrease based on the information of the output signal.

  (D) The brightness meter as the sensor 40 transmits an output signal including a detection signal corresponding to the illuminance of the equipment terminal 20 to the sensor module 30. When the sensor module 30 receives the output signal from the sensor 40, the sensor module 30 displays the illuminance of the equipment terminal 20 in the second area 35B based on the information of the detection signal included therein.

  Between the server 10 and the sensor module 30, an “application setting process” for downloading the application stored in the server 10 to the sensor module 30 and adjusting the usage environment of the sensor 40 is performed. As the “application setting process”, the following “single application setting process” and “linked application setting process” are prepared.

  The “single application setting process” downloads an application corresponding to one sensor 40 to the sensor module 30 when one or a plurality of sensors 40 are attached to the sensor module 30.

  The “cooperative application setting process” downloads a cooperative application corresponding to a combination of the plurality of sensors 40 to the sensor module 30 when the plurality of sensors 40 are attached to the sensor module 30.

  In one sensor module 30, the application setting for each of the areas 35A to 35D can be completed by executing one or both of the application setting processes. In addition, for at least one of the areas 35A to 35D, application setting can be performed by both “single application setting processing” and “cooperative application setting processing”.

  With reference to FIG. 5 and FIG. 6, the flow of “single application setting process” between the server 10 and the sensor module 30 will be described. Note that “AP” in FIG. 6 indicates an application.

  Here, a case where a brightness meter as the sensor 40 is attached to the sensor module 30 and a plurality of lighting fixtures are provided as the equipment terminal 20 is taken as an example. In addition, when the sensor 40 and the equipment terminal 20 different from those exemplified here are provided as the sensor 40 and the equipment terminal 20, the contents of the “single application setting process” are part or all of the setting process described below. Is adapted to another sensor 40 and the equipment terminal 20.

  When the sensor module 30 detects an application download request for the first area 35 </ b> A of the touch panel 35, the sensor module 30 transmits the download request to the server 10. The download request includes identification information of the sensor module 30 and identification information of the sensor 40 attached to the sensor module 30.

  When the server 10 receives the download request from the sensor module 30, the server 10 creates an application list corresponding to the type of the sensor 40 based on the identification information of the sensor 40 included in the download request. Then, the created application list is transmitted to the corresponding sensor module 30.

  When the sensor module 30 receives the application list from the server 10, the sensor module 30 displays the application list on the liquid crystal screen of the touch panel 35. When a request for selecting one application from the application list is detected, application selection information is transmitted to the server 10. The application selection information includes information on one selected application and identification information on the sensor module 30.

  When the server 10 receives application selection information from the sensor module 30, the server 10 transmits application configuration information including an interface and a design corresponding to the selected one application to the sensor module 30.

  When receiving the application configuration information from the server 10, the sensor module 30 stores the interface and design included in the application configuration information in the storage unit 34. Thereby, the download of the application from the server 10 to the sensor module 30 is completed.

  In addition, the same “single application setting process” as in the first area 35A is performed for the second area 35B, the third area 35C, and the fourth area 35D. And the environment for controlling the installation terminal 20 based on the sensor 40 is prepared by completing the setting of the application of all the areas. If there is an area that does not require the “single application setting process” in each area, the environment for controlling the equipment terminal 20 is prepared even if the “single application setting process” for that area is omitted. .

  With reference to FIG. 7, an application download procedure performed by operating the touch panel 35 as part of the “single application setting process” will be described. In FIG. 7, the hand mark with the symbol “H” indicates the user's hand.

  Here, a case where a brightness meter as the sensor 40 is attached to the sensor module 30 and a plurality of lighting fixtures are provided as the equipment terminal 20 is taken as an example. In addition, when the sensor 40 and the equipment terminal 20 different from those exemplified here are provided as the sensor 40 and the equipment terminal 20, the execution procedure of the “single application setting process” is a part of the execution procedure described below or All of them are adapted to the same sensor 40 and equipment terminal 20.

  When one or more sensors 40 are attached to the sensor module 30, the user can select an application to be downloaded to the sensor module 30 by operating the touch panel 35. Then, by completing the download of the application for one or a plurality of sensors 40, the use environment of the one or a plurality of sensors 40 can be adjusted.

Specific execution procedures are shown in the following (Procedure 1) to (Procedure 9).
(Procedure 1) As indicated by the two-dot chain line in FIG.
(Procedure 2) As shown by a solid line in FIG. 7A, one arbitrary application is selected from an application list displayed by a pull-down menu, that is, a list including a plurality of applications related to the operating state of the equipment terminal 20. . Here, an application including a combination of an interface and an image file for setting the operation state of the equipment terminal 20 to ON is selected.

(Procedure 3) As indicated by the two-dot chain line in FIG. 7B, the second area 35B is long pressed.
(Procedure 4) As shown by the solid line in FIG. 7B, an arbitrary application is selected from an application list displayed by a pull-down menu, that is, a list including a plurality of applications related to illumination display. Here, an application including a combination of an interface and an image file for displaying the illuminance detected by the brightness meter as the sensor 40 is selected.

(Procedure 5) As indicated by a two-dot chain line in FIG. 7C, the third area 35C is long pressed.
(Procedure 6) As shown by the solid line in FIG. 7C, one arbitrary application is selected from an application list displayed by a pull-down menu, that is, a list including a plurality of applications related to the output state of the equipment terminal 20. . Here, an application including a combination of an interface and an image file for setting the output state of the facility terminal 20 to increase is selected.

(Procedure 7) As indicated by a two-dot chain line in FIG. 7D, the fourth area 35D is long pressed.
(Procedure 8) As shown by the solid line in FIG. 7D, one arbitrary application is selected from the application list displayed by the pull-down menu, that is, a list including a plurality of applications related to the operating state of the equipment terminal 20. . Here, an application including a combination of an interface and an image file for setting the output state of the facility terminal 20 to decrease is selected.

  (Procedure 9) As shown in FIG. 7E, the area outside the areas 35A to 35D of the touch panel 35 is long pressed. Thereby, as shown in FIG. 7F, the background image of the entire touch panel 35 is changed.

  With reference to FIG. 8, the flow of “cooperative application setting process” between the server 10 and the sensor module 30 will be described. Note that “AP” in FIG. 8 indicates an application.

  Here, a case where a thermometer and a hygrometer are attached to the sensor module 30 as the plurality of sensors 40 and a plurality of air conditioning equipment is provided as the equipment terminal 20 is taken as an example. In addition, when the sensor 40 and the equipment terminal 20 different from those exemplified here are provided as the sensor 40 and the equipment terminal 20, the content of the “cooperative application setting process” is a part or all of the setting process described below. Are adapted to the same sensor 40 and equipment terminal 20.

  When the sensor module 30 detects an application download request for the first area 35 </ b> A of the touch panel 35, the sensor module 30 transmits the download request to the server 10. The download request includes identification information of the sensor module 30 and identification information of the plurality of sensors 40 attached to the sensor module 30.

  When the server 10 receives a download request from the sensor module 30, the server 10 creates a cooperative application list corresponding to the combination of the plurality of sensors 40 based on the identification information of the plurality of sensors 40 included in the download request. Then, the created cooperation application list is transmitted to the corresponding sensor module 30.

  When the sensor module 30 receives the cooperation application list from the server 10, the sensor module 30 displays the cooperation application list on the liquid crystal screen of the touch panel 35. When detecting a request for selecting one cooperative application from the cooperative application list, the cooperative application selection information is transmitted to the server 10. The cooperative application selection information includes information on one selected cooperative application and identification information of the sensor module 30.

  When the server 10 receives the cooperative application selection information from the sensor module 30, the server 10 transmits cooperative application configuration information including an interface and a design corresponding to the selected single cooperative application to the sensor module 30.

  When receiving the cooperative application configuration information from the server 10, the sensor module 30 stores the interface and design included in the cooperative application configuration information in the storage unit 34. Thereby, the download of the cooperative application from the server 10 to the sensor module 30 is completed.

  Further, the same “cooperative application setting process” as that of the first area 35A is performed for the second area 35B, the third area 35C, and the fourth area 35D. And the environment for controlling the equipment terminal 20 based on cooperation of the some sensor 40 is prepared by completing the setting of the application of all the areas. If there is an area that does not require the “cooperative application setting process” in each area, the environment for controlling the equipment terminal 20 is prepared even if the “cooperative application setting process” for that area is omitted. .

  With reference to FIG. 9, the procedure for setting the environment of the cooperative application performed by operating the touch panel 35 as part of the “cooperative application setting process” will be described. In FIG. 9, the hand mark with the symbol “H” indicates the user's hand.

  Here, a case where a thermometer and a hygrometer as a plurality of sensors 40 are attached to the sensor module 30 and a plurality of air conditioning equipment is provided as the equipment terminal 20 is taken as an example. In addition, when the sensor 40 and the equipment terminal 20 different from those exemplified here are provided as the sensor 40 and the equipment terminal 20, the execution procedure of the “cooperative application setting process” is a part of the execution procedure described below or All of them are adapted to the same sensor 40 and equipment terminal 20.

  The user can set the environment of the linked application by operating the touch panel 35 when the plurality of sensors 40 are attached to the sensor module 30 and after the linked application has been downloaded to the sensor module 30. Then, by completing the environment setting of the cooperative application, it is possible to prepare a use environment for linking the plurality of sensors 40.

  As shown in FIG. 9A, the temperature and humidity display functions are displayed in the first area 35 </ b> A of the touch panel 35 in accordance with the download of the thermometer and hygrometer cooperation application. Moreover, the display function of the operation state of the equipment terminal 20 is displayed in the second area 35B.

  As an example of the environment setting of the cooperative application, a specific example of changing the automatic operation start condition of the air conditioner from “temperature 26.5 ° C. and humidity 50% or more” to “temperature 26 ° C. and humidity 60% or more”. The procedure is shown in the following (Procedure 1) to (Procedure 4).

(Procedure 1) As shown in FIG. 9A, the first area 35A is pressed long.
(Procedure 2) As shown in FIG. 9B, the temperature and humidity as the automatic operation start conditions of the equipment terminal 20 are set by pressing the numeric keys displayed in the third area 35C and the fourth area 35D. .

  (Procedure 3) As shown in FIG. 9C, the display of the temperature and humidity set in (Procedure 2) is dragged to the second area 35B. That is, the automatic operation start condition of (Procedure 2) is associated with the operation state of the equipment terminal 20.

  (Procedure 4) As shown in FIG. 9D, “ON” is selected from the pull-down menu for selecting the operating state of the equipment terminal 20. That is, the association for setting the operation state of the equipment terminal 20 to ON is performed when the automatic driving start condition of (Procedure 2) is satisfied.

(Effect of embodiment)
According to the equipment terminal control system 1 of the present embodiment, the following effects can be obtained.
(1) In the equipment terminal control system 1, the sensor module 30 which can attach the sensor 40 and can remove the sensor 40 is provided. Further, the output signal of the sensor 40 attached to the sensor module 30 is transmitted to the server 10.

  According to this configuration, by attaching the sensor 40 to the sensor module 30, the equipment terminal 20 using the sensor 40 can be controlled in the equipment terminal control system 1. That is, the sensor 40 can be easily added to the equipment terminal control system 1.

  (2) In the equipment terminal control system 1, an output signal corresponding to the identification information stored in the sensor 40 is transmitted from the sensor module 30 to the server 10. According to this configuration, since the type of the sensor 40 is detected by the sensor module 30, it is possible to save the trouble of inputting the type of the sensor 40 attached to the sensor module 30 to the server 10 or the like.

  (3) In the equipment terminal control system 1, a plurality of applications corresponding to the type of sensor 40 is stored in the server 10. Further, when the sensor 40 is attached to the sensor module 30, an application corresponding to the sensor 40 is transmitted from the server 10 to the sensor module 30.

  According to this configuration, information necessary for preparing the usage environment of the sensor 40 is automatically prepared in the sensor module 30. For this reason, compared with the structure which a user downloads an application manually, the effort for preparing the use environment of the sensor 40 is reduced.

  (4) In the equipment terminal control system 1, when the sensor 40 is attached to the sensor module 30, a list of applications corresponding to the sensor 40 among a plurality of applications is created. According to this configuration, for example, compared with a configuration in which the user accesses the server 10 and searches for an application corresponding to the sensor 40, the labor for preparing the use environment of the sensor 40 is reduced.

  (5) In the equipment terminal control system 1, a plurality of applications corresponding to the type of sensor 40 is stored in the server 10. When a plurality of sensors 40 are attached to the sensor module 30, a cooperative application corresponding to the combination of the plurality of sensors 40 is transmitted from the server 10 to the sensor module 30.

  According to this configuration, information necessary for preparing the usage environment of the plurality of sensors 40 is automatically prepared in the sensor module 30. For this reason, compared with the structure which a user downloads a cooperation application manually, the effort for preparing the use environment of the sensor 40 is reduced.

  (6) In the equipment terminal control system 1, when a plurality of sensors 40 are attached to the sensor module 30, a list of cooperative applications corresponding to the combination of these sensors 40 is created. According to this configuration, for example, as compared with a configuration in which the user accesses the server 10 and searches for a cooperative application corresponding to the plurality of sensors 40, labor for preparing the use environment of the plurality of sensors 40 is reduced.

  (7) In the equipment terminal control system 1, application environment settings can be made by operating the sensor module 30. According to this configuration, when a user attaches a sensor to the sensor module 30, the environment can be set immediately by operating the module 30.

  (8) In the facility terminal control system 1, an operation function of the facility terminal 20 and an application including a design corresponding to the operation function are stored in the sensor module 30. According to this configuration, the operation function of the sensor module 30 can be easily added. Further, by combining the operation function and the design, the design can be set for each operation function.

  (9) In the equipment terminal control system 1, the sensor module 30 is provided with a touch panel 35. According to this configuration, it is possible to grasp the contents of the application stored in the sensor module 30 by checking the touch panel 35.

(Second Embodiment)
The equipment terminal control system 1 of the present embodiment is configured as a part of the equipment terminal control system 1 of the first embodiment changed. For this reason, below, the detail of a different point from the equipment terminal control system 1 of 1st Embodiment is demonstrated, about the structure which is common in the same embodiment, the same code | symbol is attached | subjected and the one part or all part of the description is abbreviate | omitted. .

  In the equipment terminal control system 1 of the first embodiment, the touch panel 35 as an operation unit and a display unit is provided in the sensor module 30. On the other hand, in the equipment terminal control system 1 of this embodiment, instead of the touch panel 35, a liquid crystal panel 38 as a display unit and four operation buttons 39 as an operation unit are provided in the sensor module 30.

  With reference to FIG. 10, the application download procedure performed by operating the operation button 39 as part of the “single application setting process” will be described. In FIG. 10, the hand mark with the symbol “H” indicates the user's hand.

  Here, a case where a brightness meter as the sensor 40 is attached to the sensor module 30 and a plurality of lighting fixtures are provided as the equipment terminal 20 is taken as an example. In addition, when the sensor 40 and the equipment terminal 20 different from those exemplified here are provided as the sensor 40 and the equipment terminal 20, the execution procedure of the “single application setting process” is a part of the execution procedure described below or All of them are adapted to the same sensor 40 and equipment terminal 20.

  When one or more sensors 40 are attached to the sensor module 30, the user can select an application to be downloaded to the sensor module 30 by operating the operation button 39. Then, by completing the download of the application for one or a plurality of sensors 40, the use environment of the one or a plurality of sensors 40 can be adjusted.

Specific execution procedures are shown in the following (Procedure 1) to (Procedure 4).
(Procedure 1) As shown in FIG. 10A, when there are a plurality of applications corresponding to the sensor 40, a message “Multiple applications are available. Do you want to display a list?” On the liquid crystal panel 38; And answer options for this are displayed. Here, the operation button 39 corresponding to “YES” is pressed.

  (Procedure 2) As indicated by the solid line in FIG. 10B, the list of applications displayed on the liquid crystal panel 38 is referred to and the operation button 39 corresponding to the number of the application desired to be downloaded is pressed.

  (Procedure 3) When “1” is selected in the above (Procedure 2), as shown in FIG. 10C, an interface and an image for changing the operation state of the equipment terminal 20 are downloaded.

  Here, “ON”, “OFF”, “ON operation”, and “OFF operation” are downloaded as images for changing the operation state. The second operation button 39 from the left is associated with the “ON operation” function and the image. The second operation button 39 from the right is associated with the “OFF operation” function and the image.

  (Procedure 4) When “2” is selected in (Procedure 2), an interface and an image for increasing and decreasing the output state of the facility terminal 20 are downloaded as shown in FIG.

  Here, “UP”, “DOWN”, “UP operation”, and “DOWN operation” are downloaded as images for changing the output state. Then, the “UP operation” function and the image are associated with the second operation button 39 from the left. Further, the “DOWN operation” function and the image are associated with the second operation button 39 from the right.

  When a plurality of applications are downloaded in the above (procedure 2), each application can be sequentially called by operating the operation button 39, and the environment can be set for each application.

(Effect of embodiment)
According to the equipment terminal control system 1 of the present embodiment, the effects (1) to (8) of the first embodiment and the following effect (11) can be obtained.

  (11) In the equipment terminal control system 1, the liquid crystal panel 3 is provided in the sensor module 30. According to this configuration, it is possible to grasp the contents of the application stored in the sensor module 30 by checking the liquid crystal panel 38.

(Other embodiments)
The embodiment of the present invention is not limited to the first and second embodiments, and may be modified as shown below, for example. The following modifications are not applied only to the first and second embodiments, and different modifications can be combined with each other.

  In the first and second embodiments (FIG. 2), the type of the sensor 40 is identified based on the identification information of the sensor 40, but the type of the sensor 40 is changed based on the output signal corresponding to the voltage of the circuit of the sensor 40. It can also be identified. This identification method will be described with reference to FIG.

  In the sensor 40 of this modification, a capacitor 45 is provided on the signal output side. In addition, a voltage is generated between the power supply current supplied from the sensor module 30 to the sensor 40 and the current of the output signal transmitted from the sensor 40 to the sensor module 30 by the resistor R1 of the internal circuit of the sensor 40. . In addition, a voltage is generated between the current of the output signal transmitted from the sensor 40 to the sensor module 30 and the ground current connecting the sensor module 30 and the sensor 40 by the resistor R2. That is, the sensor 40 forms a voltage dividing circuit by the resistors R1 and R2.

  The output voltage corresponding to the divided voltage of the voltage dividing circuit, that is, the ratio between the resistor R1 and the resistor R2, is different for each type of sensor 40. Therefore, the sensor module 30 identifies the type of the sensor 40 based on the output signal corresponding to the partial pressure of the voltage dividing circuit, and stores the identification information of the sensor 40 in the storage unit 34. When making a download request to the server 10, an output signal is transmitted to the server 10 including the identification information.

  -In 1st and 2nd embodiment (FIG. 1), although transmission / reception of a signal is performed via the transmission line between the server 10, the equipment terminal 20, and the sensor module 30, as FIG. 12 shows, it is wireless. Signals can also be transmitted and received by communication.

  In the equipment terminal control system 1 of FIG. 12, a wireless communication device 50 is connected to the server 10. The equipment terminal 20 and the sensor module 30 transmit and receive signals to and from the wireless communication device 50 by wireless communication. The wireless communication device 50 transmits signals received from the equipment terminal 20 and the sensor module 30 to the server 10. Further, the signal received from the server 10 is transmitted to the equipment terminal 20 and the sensor module 30. According to this configuration, since the facility terminal 20 and the sensor module 30 can be moved, the sensor module 30 can be easily moved to a place suitable for the detection operation of the sensor 40.

  In the first and second embodiments (FIGS. 7 and 10), an application configured by a combination of an interface and a design is stored in the sensor module 30, but an application not including a design is stored in the sensor module 30. You can also. In this application, an interface is displayed on the touch panel 35 or the liquid crystal panel 38 by a character display preset in the sensor module 30.

  In the first and second embodiments (FIG. 1), the sensor module 30 is provided as an operation terminal, but a portable operation terminal can be provided separately from the sensor module 30. Alternatively, an operation terminal can be provided as a part of the facility terminal 20. In this configuration, signal transmission / reception of the server 10 is performed as follows.

  That is, when receiving a download request from the operation terminal, the server 10 acquires identification information of the sensor 40 attached to the sensor module 30 and transmits an application list corresponding to the sensor 40 to the operation terminal. When the information on the selected application is received from the operation terminal, the application is transmitted to the sensor module 30.

  In the first and second embodiments (FIG. 2), the type of the sensor 40 is identified based on the identification information of the sensor 40. However, when the user operates the touch panel 35 or the operation button 39, the sensor module 30 It is also possible to input the type of sensor 40.

  The following configuration can be added to the first and second embodiments (FIG. 6). That is, the server 10 transmits information including that the application has been updated to the sensor module 30 based on the update of the application stored in the server 10. When the sensor module 30 receives the information from the server 10, the sensor module 30 displays a message prompting the application to be updated on the touch panel 35 or the liquid crystal panel 38. When the user who has confirmed this message operates the sensor module 30 to set a download request, the sensor module 30 transmits a download request to the server 10. According to this configuration, the user can easily grasp that the application has been updated.

  In the first and second embodiments (FIG. 6), the application is downloaded from the server 10 to the sensor module 30 based on the download request. However, the download method can be changed as follows. That is, when an application stored in the server 10 is updated, the application can be automatically downloaded to the sensor module 30. That is, management of the server 10 can synchronize the version of the application stored in the sensor module 30 with the application of the server 10. According to this configuration, the user is not required to update the application of the sensor module 30.

  In the first and second embodiments (FIG. 1), the detection signal of the sensor 40 is output to the equipment terminal 20 via the server 10, but directly from the sensor 40 to the equipment terminal 20 without going through the server 10. A detection signal can also be output.

  In the first and second embodiments (FIG. 1), the operation state of the equipment terminal 20 is controlled by the equipment terminal 20, but the server 10 or the sensor module 30 may control the operation state of the equipment terminal 20. it can.

  DESCRIPTION OF SYMBOLS 1 ... Equipment terminal control system, 10 ... Server, 20 ... Equipment terminal, 30 ... Sensor module (operation terminal), 35 ... Touch panel (display part, operation part), 37 ... Port, 38 ... Liquid crystal panel (display part), 39 ... operation buttons (operation part) 40 ... sensor, 44 ... port, 50 ... wireless communication device.

Claims (18)

In an equipment terminal control system including a sensor and a server,
A sensor module capable of attaching and detaching the sensor is provided;
And the output signal of the said sensor is transmitted to the said server via the said sensor module. The equipment terminal control system characterized by the above-mentioned. In the equipment terminal control system according to claim 1,
An equipment terminal control system, wherein an output signal corresponding to identification information stored in the sensor is transmitted from the sensor module to the server. In the equipment terminal control system according to claim 1 or 2,
The equipment terminal control system, wherein an output signal corresponding to the voltage of the sensor circuit is transmitted from the sensor module to the server. In the equipment terminal control system according to any one of claims 1 to 3,
A plurality of applications corresponding to the type of sensor are stored in the server;
The application is transmitted from the server to the sensor module;
In addition, when the sensor is attached to the sensor module, an application corresponding to the sensor is stored in the sensor module. In the equipment terminal control system according to any one of claims 1 to 4,
A plurality of applications corresponding to the type of sensor are stored in the server;
An application is transmitted from the server to the sensor module;
In addition, when the sensor is attached to the sensor module, a list of applications corresponding to the sensor among the plurality of applications is created. In the equipment terminal control system according to any one of claims 1 to 5,
A plurality of ports for mounting the sensor are provided in the sensor module;
A plurality of applications corresponding to the type of sensor are stored in the server;
An application is transmitted from the server to the sensor module;
In addition, when a plurality of the sensors are attached to the sensor module, an application corresponding to a combination of the plurality of sensors is stored in the sensor module. In the equipment terminal control system according to any one of claims 1 to 6,
A plurality of ports for mounting the sensor are provided in the sensor module;
A plurality of applications corresponding to the type of sensor are stored in the server;
An application is transmitted from the server to the sensor module;
In addition, when a plurality of the sensors are attached to the sensor module, a list of applications corresponding to a combination of the sensors is created. In the equipment terminal control system according to any one of claims 1 to 7,
An equipment terminal to be controlled according to the output signal of the sensor;
An operation terminal for operating the equipment terminal is provided;
A plurality of applications corresponding to the type of sensor are stored in the server;
An application is transmitted from the server to the operation terminal;
And when the said sensor is attached to the said sensor module, the application corresponding to the said sensor is memorize | stored in the said operation terminal. The equipment terminal control system characterized by the above-mentioned. In the equipment terminal control system according to claim 8,
The execution mode of the application can be changed by the operation terminal. In the equipment terminal control system according to claim 8 or 9,
A facility terminal control system, wherein a display unit is provided in the operation terminal. In the equipment terminal control system according to claim 10,
An equipment terminal control system, wherein the display unit is provided with a liquid crystal panel. In the equipment terminal control system according to claim 10 or 11,
The equipment stored in the operation terminal includes a combination of an operation function and a design corresponding to the operation function. In the equipment terminal control system according to any one of claims 10 to 12,
The display unit is configured as a touch panel;
And the function and design of the said touch panel are changed by the said application, The equipment terminal control system characterized by the above-mentioned. In the equipment terminal control system according to claim 4, or the equipment terminal control system according to any one of claims 5 to 13, which cites claim 4.
When the application is updated in the server, notification control for notifying a user of information indicating that is performed. In the equipment terminal control system according to claim 4 or the equipment terminal control system according to any one of claims 5 to 14 that cites claim 4,
When the application is updated in the server, an application corresponding to the application is updated in the sensor module. In the equipment terminal control system according to any one of claims 1 to 15,
A facility terminal control system, wherein wireless communication is performed between the server and the sensor module.   A sensor module capable of attaching a sensor and removing the sensor.   A sensor attached to the sensor module according to claim 17.

Images