CN219418145U - Console module identification system - Google Patents

Abstract

The utility model provides a console module identification system, comprising: the terminal comprises a control module, a terminal display module and at least two functional modules; the control module is respectively connected with the terminal display module and each functional module; the control module adopts LUA programming and is used for receiving a transmission signal of the functional module, controlling the functional module, and identifying the functional information of the functional module according to the transmission signal so as to control the terminal display module to display a control page of the corresponding functional module according to the functional information; wherein, the control pages of different functional modules are different; the terminal display module is used for displaying a control page of the function module connected with the control module and responding to a control request of a user for the control page. The console module identification system provided by the scheme realizes the identification of the functional module and the display of the control page, and improves the use experience of the user.

Description

Console module identification system

Technical Field

The utility model relates to the technical field of office appliances, in particular to a control console module identification system.

Background

Intelligent offices have become a trend, in which for consoles used in office occasions, they include a platen, side legs for supporting the left and right sides of the platen, a screen assembled behind the platen, and a bottom cabinet located below the platen, the bottom cabinet being located in a space surrounded by the platen and the side legs. The current control console is equipped with functional modules, but with the higher requirements of users on the control console, more functional modules are needed to be added on the control console, but the control console accessories on the market at present are feedback-free functional modules, and the functional modules and the control console management system are independent of each other and cannot generate linkage, so that the added functional modules cannot be controlled, and the use state of the functional modules cannot be checked through a display screen, so that the use experience of the users is poor.

Disclosure of Invention

First, the technical problem to be solved

The utility model provides a control console module identification system, which solves the problem that a control module and a functional module are mutually independent, realizes the identification of the functional module and the display of a control page, and improves the use experience of a user.

(II) technical scheme

In order to solve the above technical problems, the present utility model provides a console module identification system, including: the terminal comprises a control module, a terminal display module and at least two functional modules; the control module, the terminal display module and the at least two functional modules are all arranged on the control console;

the control module is respectively connected with the terminal display module and each functional module;

the control module adopts LUA programming and is used for receiving a transmission signal of the functional module, controlling the functional module, and identifying the functional information of the functional module according to the transmission signal so as to control the terminal display module to display a control page of the corresponding functional module according to the functional information; wherein, the control pages of different functional modules are different;

the terminal display module is used for displaying a control page of the function module connected with the control module and responding to a control request of a user for the control page.

As a further illustration of the utility model, the control module preferably connects at least two functional modules via a MODBUS protocol.

As a further explanation of the present utility model, it is preferable that the functional module includes: sedentary reminding module, hot air module, new trend disinfection module, intelligent humidification module, warning lamp module, working lamp module, camera module.

As a further explanation of the present utility model, preferably, the sedentary reminding module is fixed on the lower end surface of the console, the sedentary reminding module is provided with a horizontal sensing module and a vertical sensing module, both the horizontal sensing module and the vertical sensing module are fixed on the front end of the sedentary reminding module, the horizontal sensing module is positioned above the vertical sensing module, the horizontal sensing module is opposite to the abdomen of the user in a sitting posture state, and the vertical sensing module is opposite to the legs of the user in the sitting posture state;

the control module is internally provided with a timer and is also used for determining the time of the sitting posture state of the user according to the transmission signal of the sedentary reminding module, and the control terminal display module displays a control page corresponding to the sedentary reminding module so as to remind the user of the time of the sitting posture state.

As a further explanation of the present utility model, it is preferable that the warning lamp module is mounted on the console;

when the control module determines that the time of the user in the sitting state is greater than the preset time threshold, the control module controls the alarm lamp module to perform flickering alarm so as to remind the user of being in the sedentary state.

As a further illustration of the utility model, it is preferred that the hot air module is mounted below and/or above the console;

when the hot air module is erected below the control console, the hot air module is used for outputting hot air to the legs of the user;

when the hot air module is erected above the control console, the hot air module is used for outputting hot air to the upper trunk part of the user;

the control module receives the transmission signal of the hot air module and controls the terminal display module to display the control page of the hot air module according to the transmission signal.

As a further explanation of the present utility model, preferably, the fresh air sterilizing module is mounted on the console, the ultraviolet sterilizing lamp and the fan are built in the fresh air sterilizing module, and the output port of the fresh air sterilizing module is directed to the surface of the user and the console;

the control module receives the transmission signal of the fresh air disinfection module and controls the terminal display module to display the control page of the fresh air disinfection module according to the transmission signal.

As a further explanation of the present utility model, preferably, the intelligent humidification module is mounted on a console, and an output port of the intelligent humidification module is directed to a user;

the control module receives the transmission signal of the intelligent humidification module and controls the terminal display module to display the control page of the intelligent humidification module according to the transmission signal.

As a further illustration of the utility model, the work light module is preferably mounted on a console;

the control module receives the transmission signal of the working lamp module and controls the terminal display module to display a control page of the working lamp module according to the transmission signal so that a user can adjust the working lamp module through the control page.

As a further explanation of the present utility model, preferably, the image capturing module is erected above the console for acquiring posture information of the user;

the control module receives the transmission signal of the camera module and controls the terminal display module to display the control page of the camera module according to the transmission signal.

(III) beneficial effects

The technical scheme of the utility model has the following advantages:

the utility model designs an intelligent control console module identification system comprising at least two functional modules, wherein the control module is matched with the LUA for programming, so that the control of the functional modules can be realized, the functional information of the functional modules can be identified and corresponding control pages can be displayed through a terminal display module based on the received transmission signals of the functional modules, any functional module and the control module can be effectively connected together, and different control pages can be simultaneously displayed on the terminal display module according to the needs of users. Therefore, the control console can be updated on the basis of the original control console, linkage between the functional module and the control module is realized, resource waste is effectively avoided, and a new control console is not required to be replaced.

Drawings

FIG. 1 is a block diagram of a console module identification system according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram illustrating an installation of a console module identification system according to an embodiment of the present utility model;

in the figure: 100. a control module; 102. a terminal display module; 104. a functional module; 3. a sedentary reminding module; 31. a horizontal sensing module; 32. a vertical induction module; 4. a hot air module; 5. a fresh air disinfection module; 6. an intelligent humidifying module; 7. a warning lamp module; 8. a work light module; 9. and an image pickup module.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present utility model are within the scope of protection of the present utility model.

An embodiment of the present utility model provides a console module identification system, as shown in fig. 1, including: a control module 100, a terminal display module 102 and at least two functional modules 104; the control module 100, the terminal display module 102 and the at least two functional modules 104 are all installed on the console;

the control module 100 is respectively connected with the terminal display module 102 and each functional module 104;

the control module 100 adopts LUA programming, and is used for receiving a transmission signal of the functional module 104, controlling the functional module 104, and identifying functional information of the functional module 104 according to the transmission signal, so as to control the terminal display module 102 to display a control page corresponding to the functional module 104 according to the functional information; wherein, the control pages of different functional modules are different;

the terminal display module 102 is configured to display a control page of the function module 104 connected to the control module 100, and is configured to respond to receiving a control request from a user for the control page.

It should be noted that each module is connected to a power supply, and the power supply is used for supplying power to each module. The power supply may be built into the control module.

In the utility model, the terminal display module, the control module and the functional module are all connected by adopting standard aviation connectors, and meanwhile, a fool-proof design is added, so that equipment damage caused by connection errors is avoided. Therefore, the problem that the control console needs to be modified greatly when the intelligent upgrading of the control console carries the function modules is solved, meanwhile, each function module can be used in a plug-and-play mode, the touch screen displays the control interface of the function module in real time, the operation is simple, and the user experience is friendly.

It should be noted that, when the functional module on the console is disconnected, the console module identification system also automatically identifies, and the terminal display module no longer displays the control page corresponding to the disconnected functional module.

An embodiment of the present utility model provides a console module identification system, as shown in fig. 2, including: a control console (namely a table board), table legs, a control module 100, a terminal display module 102, a sedentary reminding module 3, a hot air module 4, a fresh air disinfection module 5, an intelligent humidification module 6, a warning lamp module 7, a working lamp module 8 and a camera shooting module 9; wherein, the table leg is fixed in the control cabinet lower part, and control module 100, sedentary warning module 3 are all fixed at the lower terminal surface of control cabinet, and terminal display module 102 is fixed at the up end of control cabinet, and hot-blast module 4 erects in the below of control cabinet, and fresh air disinfection module 5, intelligent humidification module 6, warning lamp module 7 all erect in the up end of control cabinet, and work lamp module 8 and camera module 9 all erect in the top of control cabinet.

As shown in fig. 2, the sedentary reminder module 3 is provided with a horizontal sensing module 31 and a vertical sensing module 32, the input end of the control module 100 is electrically connected with the horizontal sensing module 31 and the vertical sensing module 32 through cables, and the output end is electrically connected with the terminal display module 102 through cables; the horizontal sensing module 31 and the vertical sensing module 32 are both microwave sensing modules, so that the problem that a conventional infrared external switch can be triggered by mistake is avoided, and the accuracy of a detection result is ensured. The horizontal sensing module 31 is fixed at the front end of the sedentary reminding module 3 to be opposite to the abdomen of the user in a sitting posture state, and the vertical sensing module 32 is fixed at the lower part of the front end of the sedentary reminding module 3 to be opposite to the legs of the user in a sitting posture state. The control module 100 is built with a programming control board, which adopts a LUA programming controller, adopts a LUA programming environment and is connected with the functional modules through a MODBUS protocol. The control module 100 also has a timer built in, and the timer is electrically connected to the programming board through a cable.

With reference to fig. 1 and fig. 2, when the console is connected to the seven functional modules at the same time, the control module may identify the functional information of the functional modules, and display a control page corresponding to the seven functional modules on the terminal display module, so that a user may complete control of the functional modules on the corresponding control page. For example, for the hot air module 4, the user can control the on-off of the hot air module 4, the fan rotation speed adjustment, etc. on the control page thereof.

Referring to fig. 1 and 2, when the user is in a sitting posture state, a signal emitted by the horizontal sensing module 31 contacts the abdomen of the user and is reflected and transmitted to the control module 100, a signal emitted by the vertical sensing module 32 contacts the legs of the user and is reflected and transmitted to the control module 100, and whether the user is in the sitting posture state is judged by detecting the horizontal direction and the vertical direction and performing logic operation on the detection result, if both sensing modules receive the changed feedback signal, the user is determined to be in the sitting posture state, at this time, the timer is controlled to start timing, and if only one sensing module generates a signal, the timer does not work. In addition, in the timing process of the timer, the signal is required to be kept, and when the signal is in a keeping stage, the signal of the sensing module is needed. When no signal is generated by the sensing module, the programming control board controls the equipment to reset automatically, and when the timer reaches the preset time threshold, the alarm lamp module 7 alarms to remind the user that the user is in a sedentary state.

Referring to fig. 1 and 2, the terminal display module 102 includes a speaker and a touch screen, which are electrically connected to the programming board through cables, so that the terminal display module 102 is connected to an output end of the programming board. A 10 inch touch screen is mounted on the console with a 75 ° tilt, and a reset button is provided on the touch screen and displays time. When the programming control board judges that the human body is in a sitting posture state, the touch screen is controlled to display sitting posture time corresponding to the timer, and when the timer reaches the set time, the programming control board can also control the loudspeaker to sound so as to remind the user that the sitting posture time is long.

As shown in fig. 2, the hot air module 4 is electrically connected to the control module 100 through a cable, and the output end of the hot air module 4 is inclined to be directed to the leg of the user. The hot air module 3 has two modes of operation based on the LUA programming controller: firstly, reading the numerical value of an external temperature and humidity sensor through a MODBUS protocol, comparing the set numerical value (capable of being freely set) of a system, detecting the numerical value to be less than or equal to the set numerical value, detecting a human body by an induction module, and starting a hot air module 4; the detection value is larger than the set value, or no human body is detected, and the hot air module 4 is not opened. Second, the user may also directly control the hot air module through a control page corresponding to the hot air module 4 on the terminal display module 102.

As shown in fig. 2, the fresh air sterilizing module 5 is internally provided with an ultraviolet sterilizing lamp and a fan, the ultraviolet sterilizing lamp and the fan are electrically connected with the programming control board through cables, and an output port of the fresh air sterilizing module 5 points to a user. The fresh air disinfection module 4 is based on a LUA programming controller, controls related functional modules through a MODBUS protocol, and has two working modes: firstly, if the sensing human body detection logic is established, starting a fan, turning on a disinfection UV lamp and blowing fresh air; the sensing human detection logic is not established, and the fresh air disinfection module 5 is not started. Second, the user may also directly control the fresh air sterilization module 5 on the terminal display module 102 through a control page corresponding to the fresh air sterilization module 5.

As shown in fig. 2, the intelligent humidification module 6 is electrically connected with the programming control board through a cable, and the output port points to the user. The intelligent humidification module 6 has two modes of operation based on the LUA programming controller: firstly, reading the numerical value of an external temperature and humidity sensor through a MODBUS protocol, comparing the set numerical value (capable of being freely set) of a system, detecting the numerical value to be less than or equal to the set numerical value, detecting a human body by an induction module, and starting an intelligent humidifying module 6; the detected value is greater than the set value, or no human body is detected, and the intelligent humidification module 6 is not started. Second, the user may also directly control the intelligent humidification module 6 through a control page corresponding to the intelligent humidification module 6 on the terminal display module 102.

As shown in fig. 2, the working lamp module 8 is electrically connected with the programming board through a cable, and the working lamp module 8 has two working modes based on the LUA programming controller: firstly, reading the value of an external brightness sensor through a MODBUS protocol, comparing the set value (capable of being freely set) of a system, detecting the value less than or equal to the set value, detecting a human body by an induction module, and starting a working lamp module 8; the detection value > the set value, or no human body is detected, the work light module 8 is not turned on. Second, the user may also directly control the work light module 8 through a control page corresponding to the work light module 8 on the terminal display module 102.

As shown in fig. 2, the camera module 9 is electrically connected with the programming board through a cable, the camera module 9 is used for obtaining gesture information of a user, and the user can check and adjust his sitting posture on the terminal display module 102 through a control page corresponding to the camera module 9 so as to develop good sitting posture habit.

In summary, the whole system of the utility model is installed on a console, and under the system based on LUA programming, the plug-and-play of the functional modules can be realized, the use state of the corresponding functional modules can be checked through a display screen, the use experience of a user is improved, the intelligent office of the user is realized, and meanwhile, the complicated work brought by equipment upgrading is greatly reduced, so that the intelligent console can be provided with various functional modules for upgrading.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model. The utility model is not described in detail in a manner known to those skilled in the art.

Claims (6)

1. A console module identification system, comprising: the terminal comprises a control module, a terminal display module and at least two functional modules; the control module, the terminal display module and the at least two functional modules are all arranged on a console;

the functional module includes: the intelligent humidifier comprises a sedentary reminding module, a hot air module, a fresh air disinfection module, an intelligent humidifying module, a warning lamp module, a working lamp module and a camera shooting module; the control module is respectively connected with the terminal display module and each functional module;

the sedentary reminding module is fixed on the lower end face of the control console, a horizontal sensing module and a vertical sensing module are arranged on the sedentary reminding module, the horizontal sensing module and the vertical sensing module are both fixed at the front end of the sedentary reminding module, the horizontal sensing module is positioned above the vertical sensing module, the horizontal sensing module is opposite to the abdomen of a user in a sitting posture state, and the vertical sensing module is opposite to the legs of the user in the sitting posture state;

the control module is internally provided with a timer and is also used for determining the time of the user in the sitting posture state according to the transmission signal of the sedentary reminding module and controlling the terminal display module to display a control page corresponding to the sedentary reminding module so as to remind the user of the time in the sitting posture state;

the alarm lamp module is erected on the control console;

when the control module determines that the time of the user in the sitting state is greater than a preset time threshold, the control module controls the alarm lamp module to perform flickering alarm so as to remind the user that the user is in the sedentary state;

the hot air module is erected below and/or above the control console;

when the hot air module is erected below the control console, the hot air module is used for outputting hot air to the legs of a user; when the hot air module is erected above the control console, the hot air module is used for outputting hot air to the upper trunk part of a user;

the control module receives the transmission signal of the hot air module and controls the terminal display module to display a control page of the hot air module according to the transmission signal;

the fresh air disinfection module is erected on the control console, an ultraviolet disinfection lamp and a fan are arranged in the fresh air disinfection module, and an output port of the fresh air disinfection module points to the surfaces of a user and the control console;

the intelligent humidification module is arranged on the control console, and an output port of the intelligent humidification module points to a user;

the working lamp module is erected on the control console;

the camera module is arranged above the control console and used for acquiring the gesture information of the user;

the terminal display module is used for displaying a control page of the function module connected with the control module.

2. The console module identification system of claim 1, wherein the control module connects the at least two functional modules via a MODBUS protocol.

3. The console module identification system of claim 1 wherein,

the control module receives the transmission signal of the fresh air disinfection module and controls the terminal display module to display a control page of the fresh air disinfection module according to the transmission signal.

4. The console module identification system of claim 1 wherein,

and the control module receives the transmission signal of the intelligent humidification module and controls the terminal display module to display a control page of the intelligent humidification module according to the transmission signal.

5. The console module identification system of claim 1 wherein,

the control module receives the transmission signal of the working lamp module, and controls the terminal display module to display a control page of the working lamp module according to the transmission signal, so that a user can adjust the working lamp module through the control page.

6. The console module identification system of any one of claims 3 to 5,

the control module receives the transmission signal of the camera module and controls the terminal display module to display the control page of the camera module according to the transmission signal.