CN210366447U - Elevator intelligence human-computer interface control system - Google Patents

Abstract

The utility model belongs to elevator control field relates to an elevator intelligence human-computer interface operating system. An elevator intelligent human-machine interface control system, comprising: input unit, man-machine unit, repeater, matrix module and main control unit, wherein: the input unit is connected with the man-machine unit and the matrix module, the man-machine unit is connected with the input unit and the repeater, the repeater is connected with the man-machine unit, the main control unit and the matrix module, and the man-machine unit comprises a projection unit, a button unit, an optical sensor, a logic processor and a man-machine unit communication module. The utility model discloses the customer can freely set up composing, colour, luminance and the demonstration character of button according to the actual demand, has satisfied customer to elevator controlling device human-computer interface's variety, intelligent, humanized demand. Under the condition of strong light, the brightness and the color of the button of the man-machine unit are automatically adjusted, and the button has good identifiability even under the condition of strong light.

Description

Elevator intelligence human-computer interface control system

Technical Field

The utility model belongs to elevator control field relates to an elevator intelligence human-computer interface operating system.

Background

At present, an operating device in an elevator car mainly adopts a mechanical button or a touch button, human-computer interfaces such as the luminous color, the brightness, the arrangement, the size and the font of displayed characters of the button need to be determined in advance by a customer when purchasing an elevator, an elevator manufacturer carries out production and manufacture according to the determined human-computer interfaces, and due to the selection difference of the customer, the operating device is different in personality, and the elevator manufacturer cannot carry out production in advance. If the operating device is manufactured, when a user modifies the button model and displays characters, the panel of the operating device needs to be manufactured again, the buttons need to be replaced, and the replacement is complicated.

For a sightseeing elevator, when sunlight irradiates on a control device, if the luminous color of a button is in a light color system or the luminous brightness of the button is high, passengers cannot recognize the displayed characters of the button and determine whether destination floor registration is finished.

For the operating device of the elevator in the high-landing area, no matter which rule the buttons are arranged, the buttons of certain floors are difficult to avoid on the upper part of the operating device, and when the elevator passengers are children and disabled persons, the buttons on the upper part of the operating device are difficult to touch, so that inconvenience is brought to the passengers.

SUMMERY OF THE UTILITY MODEL

To not enough among the prior art, the utility model provides an elevator intelligence human-computer interface operating system.

The utility model discloses a following technical scheme realizes:

an elevator intelligent human-machine interface control system, comprising: the system comprises an input unit, a man-machine unit, a repeater, a matrix module and a main control unit, wherein the input unit is connected with the man-machine unit and the matrix module; wherein:

the human-computer unit comprises a projection unit, a button unit, an optical sensor, a logic processor and a human-computer unit communication module, the projection unit is connected with the human-computer unit communication module and the logic processor, the button unit is connected with the human-computer unit communication module and the logic processor, the optical sensor is connected with the logic processor, the logic processor is connected with the projection unit, the button unit, the optical sensor and the human-computer unit communication module, the human-computer unit communication module is connected with the projection unit, the button unit and the logic processor, and meanwhile the human-computer unit communication module is connected with the input unit and the repeater.

Further, the projection unit of the man-machine unit comprises a DLP circuit module, an image control module, a color control module, a light source module and a rotation module, wherein the DLP circuit module is connected with the image control module, the rotation module, a man-machine unit communication module and a logic processor, the image control module is connected with the DLP circuit module, the color control module and the light source module, the color control module is connected with the image control module, the light source module is connected with the image control module, and the rotation module is connected with the DLP circuit module.

Furthermore, the button unit of the human-computer unit comprises a trigger, a ground color module and a projection fusion device, wherein the trigger is connected with the ground color module, the human-computer unit communication module and the logic processor, the ground color module is connected with the trigger and the projection fusion device, and the projection fusion device is connected with the ground color module.

Furthermore, the input unit comprises a data acquisition module, a data storage module and an intelligent judgment module, the intelligent judgment module is connected with the matrix module and the man-machine unit, and the data acquisition module is connected with the data storage module and the intelligent judgment module.

Furthermore, the main control unit comprises a central processing unit and a communication module, and the communication module of the main control unit is connected with the repeater.

Preferably, the input unit and the human-machine unit are located in a car.

Preferably, the repeater and matrix module are located on top of the car.

Preferably, the main control unit is located in a machine room.

The utility model discloses for prior art have following advantage and effect:

(1) the client can freely set the typesetting, the color, the brightness and the display characters of the buttons according to actual requirements, and the requirements of the client on the diversity, the intelligence and the humanization of the man-machine interface of the elevator operating device are met.

(2) Under the condition of strong light, the brightness and the color of the button of the man-machine unit are automatically adjusted, and the button has good identifiability even under the condition of strong light.

(3) When a customer buys the elevator operating device, the number of floors and the shape of the buttons of the elevator are only required to be provided, and an elevator manufacturer carries out standard button hole opening and typesetting according to the number of floors and the shape requirements of the buttons provided by the customer, so that the operating device is produced in batches, and the customer can freely set the luminous color, the brightness and the display characters of the buttons according to actual requirements.

Drawings

Fig. 1 is a schematic structural view of an elevator intelligent human-machine interface control system in an embodiment of the present invention;

fig. 2 is a schematic diagram of an elevator intelligent human-machine interface control system in an embodiment of the present invention;

fig. 3 is a partial block diagram of the elevator intelligent human-machine interface control system according to an embodiment of the present invention;

fig. 4 is a logic flow diagram illustrating operation of the operating system according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to specific embodiments, but the embodiments of the present invention are not limited thereto.

An elevator intelligent human-machine interface operating system, as shown in fig. 1-3, comprising: input unit, man-machine unit 1, repeater, matrix module and main control unit, wherein: the input unit and the man-machine unit are located in the lift car 5, the repeater and the matrix module are located at the top of the lift car, the main control unit is located in the machine room, the input unit is connected with the man-machine unit and the matrix module, the man-machine unit is connected with the input unit and the repeater, and the repeater is connected with the man-machine unit, the main control unit and the matrix module. Specifically, the method comprises the following steps:

the input unit contains data acquisition module, data storage module and intelligent judgment module, and intelligent judgment module and matrix module, man-machine unit intercommunication, wherein:

the data acquisition module is an operation port for a client to input a modification instruction;

the data storage module is used for storing modification instructions of clients;

the intelligent judgment module is used for distinguishing the types of the client modification instructions, such as a matrix instruction, a button character instruction, a button color instruction and a button brightness instruction, if the client modification instructions are the matrix instructions, the client modification instructions are transmitted to the matrix module and the man-machine unit, and otherwise, the client modification instructions are only transmitted to the man-machine unit.

The man-machine unit comprises a projection unit 2, a button unit 3, a light sensor 4, a logic processor and a man-machine unit communication module, wherein: the projection unit comprises a DLP (digital light processing) circuit module, an image control module, a color control module, a light source module and a rotating module capable of rotating by 360 degrees; the button unit comprises a trigger, a ground color module and a projection fusion device. The man-machine unit communication module is connected with the repeater and the input unit intelligent judgment module, wherein:

the projection unit DLP (digital light processing) circuit module is used for decomposing a customer modification instruction and transmitting the customer modification instruction to the projection unit color control module and the projection unit light source module;

the projection unit image control module is used for processing the content related to the image in the client modification instruction;

the projection unit color control module is used for processing content related to color in the client modification instruction;

the projection unit light source module is used for adjusting the intensity of the light energy projected to the button unit;

the projection unit rotating module is used for adjusting the angle of the projection unit projected to the button unit;

the button unit trigger is used for triggering a client destination layer;

the button unit ground color module is used for setting the button luminous ground color when the elevator leaves a factory;

the button unit projection fusion device is used for fusing projection content of the projection unit with content of the button ground color module;

the light sensor is used for sensing light energy from ultraviolet light to infrared light and converting the light energy into an electric signal;

the logic processor is used for processing the logic relation before and after the address change of the button and comparing the illumination parameters;

the communication module is used for communicating with the input and output information between the input unit and the repeater.

The repeater is positioned at the top of the lift car, is connected with the matrix module, the man-machine unit communication module and the main control unit communication module, transmits a matrix address command, a target layer command and a button address in real time, and simultaneously converts a communication protocol.

The main control unit comprises a central processing unit and a main control unit communication module, wherein the central processing unit realizes the logical control of the elevator on the target layer operation and the storage and conversion of the communication protocol, and the main control unit communication module realizes the information communication with the input and output of the repeater.

The matrix module is used for converting the matrix instruction into a matrix address instruction and realizing matrix information input and output communication between the input unit and the repeater.

It should be noted that: in this embodiment, the button light-emitting ground color includes but is not limited to: red, green or blue.

The following explains the control flow of the intelligent man-machine interface control system of the elevator.

The utility model discloses elevator intelligence human-computer interface operating system's control flow, include:

A. responding to the order of the client to modify the typesetting, display characters, colors and brightness of the buttons, comprising:

the input unit receives and stores the modification instructions of the typesetting and the display characters, the colors and the brightness of the client modification buttons, judges the client modification instructions, and transmits the matrix instructions to the matrix module and the man-machine unit if the client modification instructions are matrix instructions; otherwise, only transmitting to the man-machine unit;

the man-machine unit sends the instruction sent by the input unit to the projection unit, and the projection unit changes the button projection according to the instruction;

the matrix module converts the matrix instruction into a matrix address instruction and transmits the matrix address instruction to the repeater, the repeater compiles the matrix address instruction into a new communication protocol and sends the new communication protocol to the main control unit, the main control unit updates the communication protocol, and meanwhile, the repeater converts the matrix address instruction into a new button address and sends the new button address to the man-machine unit;

when a client triggers a button unit trigger of the man-machine unit, the trigger sends a target layer instruction and forwards the target layer instruction to the repeater, the repeater sends a communication protocol to the main control unit, the central processing unit of the main control unit controls the elevator to reach a target layer and sends a target layer execution result back to the repeater, and the repeater compares the target layer instruction with the target layer execution result, if the target layer instruction and the target layer execution result are consistent, the client requirement is met; if the two are not consistent, the repeater sends a validation request to the human-computer unit logic processor and the main control unit central processing unit for validation until the two are consistent;

B. under the condition of strong light, the brightness and the color of the button of the man-machine unit are automatically adjusted.

The following specifically explains the implementation processes of the client to modify the layout of the buttons, display characters, colors and brightness, and the implementation processes of the automatic adjustment of the brightness and the color of the buttons of the human-computer unit under the strong light condition, respectively, according to fig. 4.

① implementation process for modifying button typesetting

The client inputs the instruction for modifying the button typesetting in the input unit data acquisition module.

The input unit data storage module stores the order of the client's modification button typesetting, and the input unit intelligent judgment module judges the client modification order, judges the client modification order as a matrix order, and outputs the matrix order to the matrix module and the man-machine unit communication module through the input unit intelligent judgment module.

On one hand, the man-machine unit communication module transmits the matrix instruction to the projection unit image control module;

the projection unit image control module transmits a matrix instruction to the projection unit DLP (digital light processing) circuit module, the projection unit DLP (digital light processing) circuit module extracts color and illumination required values in the matrix instruction and transmits the color and illumination required values to the projection unit color control module and the projection unit light source module, the projection unit color control module and the projection unit light source module project required light energy to the button, and the button unit projection fusion device fuses the light energy and the button ground color module, so that typesetting change of the button is realized.

On the other hand, the matrix module converts the matrix instruction into a matrix address instruction and transmits the matrix address instruction to the repeater, the repeater compiles the matrix address instruction into a new communication protocol and transmits the new communication protocol to the main control unit communication module, the main control unit communication module transmits the new communication protocol to the main control unit central processing unit, and meanwhile, the repeater converts the matrix address instruction into a new button address and transmits the new button address to the man-machine unit logic processor, so that the change of the destination address of the button is realized and the new button address corresponds to the new button typesetting of the button unit.

When a client triggers the trigger of the button unit, the trigger sends a target layer command and transfers the target layer command to the repeater, the repeater sends a communication protocol to the main control unit, the central processing unit of the main control unit controls the elevator to reach a target layer and returns a target layer execution result to the repeater, and the repeater compares the target layer command with the target layer execution result, if the target layer command and the target layer execution result are consistent, the client requirement is met; if not, the repeater sends a validation request to the human-computer unit logic processor and the main control unit central processing unit for validation until the requests are consistent.

② implementation of the modification of button display characters

The client inputs the instruction of modifying the button display character in the input unit data acquisition module.

The input unit data storage module stores a command of a client for displaying characters by a button, and the input unit intelligent judgment module judges a modification command of the client, judges the modification command as a command for modifying the button characters and outputs the command for modifying the button characters to the man-machine unit communication module;

the man-machine unit communication module transmits the button character command to the projection unit image control module;

the projection unit projects images to the buttons according to the button character instructions received by the image control module, and the projection fusion device fuses the button ground color module and the projected images to achieve button display character change.

It should be noted that, in the present embodiment, the cases where the modification button displays characters include, but are not limited to, for example, the lower floor of a building, some customers prefer to name the-1 floor, some prefer to name the G floor, and so on.

③ implementation procedure for modifying button color

The client inputs a command for modifying the color of the button in the input unit data acquisition module;

the input unit data storage module stores a command of modifying the color of the button of the client, and the input unit intelligent judgment module judges the modification command of the client, judges the modification command as a command of modifying the color of the button and outputs the command of modifying the color of the button to the man-machine unit communication module;

the man-machine unit communication module transmits the button color instruction to the projection unit color control module;

the projection unit projects colors to the buttons according to button color instructions received by the color control module, and the projection fusion device fuses the button ground color module and the projection colors to achieve button color change.

④ implementation of modifying button brightness

The client inputs a command for modifying the button brightness in the input unit data acquisition module;

the input unit data storage module stores a command of modifying the brightness of the button of the client, and the input unit intelligent judgment module judges the modifying command of the client, judges the modifying command as the command of modifying the brightness of the button and outputs the command of modifying the brightness of the button to the man-machine unit communication module;

the man-machine unit communication module transmits the button brightness instruction to the projection unit light source module;

the projection unit projects light energy to the button according to the button brightness instruction received by the light source module, and the projection fusion device fuses the button ground color module and the projection light energy to achieve button display brightness change.

⑤ under strong light, the button brightness and color of the man-machine unit can be automatically adjusted

When the man-machine unit optical sensor receives solar energy, converts the solar energy into an electric signal and transmits the electric signal to the man-machine unit logic processor, and simultaneously compares the electric signal with a set illumination parameter, if the illumination intensity is abnormal, an adjusting instruction is transmitted to the projection unit light source module, the color control module and the rotating module;

the projection unit rotating module drives the projection unit to project colored light energy to the button of the button unit, and the projection fusion device fuses the ground color module of the button and the projected colored light energy to realize automatic adjustment of the brightness and the color of the button.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (8)

1. An elevator intelligent human-machine interface control system, comprising: the system comprises an input unit, a man-machine unit, a repeater, a matrix module and a main control unit, wherein the input unit is connected with the man-machine unit and the matrix module; wherein:

the human-computer unit comprises a projection unit, a button unit, an optical sensor, a logic processor and a human-computer unit communication module, the projection unit is connected with the human-computer unit communication module and the logic processor, the button unit is connected with the human-computer unit communication module and the logic processor, the optical sensor is connected with the logic processor, the logic processor is connected with the projection unit, the button unit, the optical sensor and the human-computer unit communication module, the human-computer unit communication module is connected with the projection unit, the button unit and the logic processor, and meanwhile the human-computer unit communication module is connected with the input unit and the repeater.

2. The elevator intelligent human-computer interface control system according to claim 1, wherein the projection unit of the human-computer unit comprises a DLP circuit module, an image control module, a color control module, a light source module and a rotation module, the DLP circuit module is connected with the image control module, the rotation module, the human-computer unit communication module and the logic processor, the image control module is connected with the DLP circuit module, the color control module and the light source module, the color control module is connected with the image control module, the light source module is connected with the image control module, and the rotation module is connected with the DLP circuit module.

3. The elevator intelligent human-computer interface control system according to claim 1, wherein the button unit of the human-computer unit comprises a trigger, a ground color module and a projection fusion device, the trigger is connected with the ground color module, the human-computer unit communication module and the logic processor, the ground color module is connected with the trigger and the projection fusion device, and the projection fusion device is connected with the ground color module.

4. The elevator intelligent human-computer interface control system according to claim 1, wherein the input unit comprises a data acquisition module, a data storage module and an intelligent judgment module, the intelligent judgment module is connected with the matrix module and the human-computer unit, and the data acquisition module is connected with the data storage module and the intelligent judgment module.

5. The elevator smart hmi operating system of claim 1 wherein the master control unit includes a central processor and a communication module, the master control unit communication module being connected to the repeater.

6. The elevator smart human interface manipulation system of claim 1, wherein the input unit, human unit is located within a car.

7. The elevator smart human interface manipulation system of claim 1, wherein the repeater and matrix module are located on top of a car.

8. The elevator smart human interface handling system of claim 1, wherein the master control unit is located in a machine room.

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