CN117345075A - Electric motor control system of automobile glass lifter - Google Patents

Abstract

The application relates to the field of automobile engineering, and discloses an electric motor control system of an automobile glass lifter, comprising: an electric motor module: for driving a mechanical device; and a switch module: is a key interface for the interaction between a driver and a system, and adopts a multifunctional touch type design; and the control module is used for: for taking care of the control of the electric motor; and a detection module: for detection and data uploading according to different applications, the electric motor module further comprises an autonomous module and a database module: the autonomous module: the elevator position recognition device is used for recognizing and autonomously learning elevator positions of different environments; the database module: for adapting the rotational speed of the electric motor according to different models and requirements. The sensor unit acquires the situation information through various sensors to detect the situation information required by the lifting operation of the automobile window, so that the system can respond to different environmental conditions better, and the safety and the efficiency are improved.

Description

Electric motor control system of automobile glass lifter

Technical Field

The invention relates to the technical field of automobile engineering, in particular to an electric motor control system of an automobile glass lifter.

Background

The background of development of electric motor control systems for automotive window lifters is the rapid development of the automotive industry and the continual increase in the demands of people for automotive performance and comfort. Traditional mechanical lifting modes can not meet the performance and safety requirements of modern automobiles on lifting systems. Therefore, with the development of motor technology and control technology, an electric lifting system gradually becomes a mainstream mode of lifting and lowering of a glass of an automobile, and a core component of the system is an electric motor which controls the movement of a glass window through rotary power. Most modern vehicles employ a direct current electric motor that is powered by a battery and controlled by an electronic switch to access the motor. When the power supply enters the motor, the motor starts to run, the internal gear and the chain drive the window to move up and down, in addition, the system is also provided with an electronic control unit which is used as a brain of the electric lifting system, detects the current position of the automobile glass through a sensor and monitors whether an obstacle exists, and the electronic control unit can also carry out intelligent control according to the state of the vehicle and environmental factors.

The traditional electric motor control system of the automobile glass lifter has different environments and using requirements which cannot be self-adaptive, and meanwhile, the problem that the whole efficiency is low due to the fact that the automatic adaptation cannot be carried out according to the requirements of different models can be solved.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an electric motor control system of an automobile glass lifter, which solves the problems that the whole efficiency is lower due to the fact that the self-adaption cannot be carried out according to the requirements of different models and the requirements of different environments and uses are met.

In order to achieve the above purpose, the invention is realized by the following technical scheme: an automotive window regulator electric motor control system comprising:

an electric motor module: for driving a mechanical device;

and a switch module: is a key interface for the interaction between a driver and a system, and adopts a multifunctional touch type design;

and the control module is used for: for taking care of the control of the electric motor;

and a detection module: for performing detection and data uploading according to data of different applications.

Preferably, the electric motor module further comprises an autonomous module and a database module:

the autonomous module: the elevator position recognition device is used for recognizing and autonomously learning elevator positions of different environments;

the database module: for adapting the rotational speed of the electric motor according to different models and requirements.

Preferably, the switch module comprises a starting unit, a positioning unit and a sensor unit, wherein the switch module is connected with the starting unit, the starting unit is connected with the positioning unit, and the positioning unit is connected with the sensor unit;

the starting unit: the starting unit is responsible for starting and stopping the electric glass lifting operation. It receives a start command from a user or system and ensures that the electric motor starts in a safe and controlled manner.

Preferably, the sensor unit comprises a detection data unit, a data collection unit and a feedback unit, wherein the sensor unit is connected with the detection data unit, the detection data unit is connected with the data collection unit, and the data collection unit is connected with the feedback unit;

the detection data unit: information obtained by various sensors is used to monitor context information required for the window-lifting operation of the vehicle.

Preferably, the autonomous unit comprises a factor detection unit, a temperature unit and a solar energy unit, wherein the autonomous unit is connected with the factor detection unit, the factor detection unit is connected with the temperature unit, and the temperature unit is connected with the solar energy unit;

the factor detection unit: for determining whether to start the electric motor according to different environments.

Preferably, the control module comprises a data integration unit and a communication interconnection unit, the control module is connected with the data integration unit, and the data integration unit is connected with the communication interconnection unit;

the data integration unit: the method is used for integrating the data with other vehicle system data, so that comprehensive vehicle operation data can be obtained.

Preferably, the detection module comprises a warning and stopping unit, an obstacle detection unit and a position detection unit, the detection module is connected with the warning and stopping unit, the warning and stopping unit is connected with the obstacle detection unit, and the obstacle detection unit is connected with the position detection unit;

the obstacle detection unit: is used for detecting and identifying whether abnormal articles exist.

Preferably, the database module comprises a data sharing unit, a rotation speed adjusting unit and a display terminal unit, the database module is connected with the data sharing unit, the data sharing unit is connected with the rotation speed adjusting unit, and the rotation adjusting unit is connected with the display terminal unit;

the data sharing unit: for sharing data of different models with the system.

Preferably, the display terminal unit includes a data detection unit;

the data detection unit; the method is used for judging different data to calibrate so as to avoid data deviation.

Preferably, the data detection unit further comprises a data checking unit and a rotation speed judging unit, the data detection unit is connected with the data checking unit, and the data checking unit is connected with the rotation speed judging unit;

the data collation unit: the electric motor synchronous control device is used for carrying out real-time control according to electric motors of different models and simultaneously carrying out internal data synchronization.

Working principle: the electric motor module is the core of the system and is responsible for driving the mechanical device to realize the lifting of the window of the automobile, the module controls the rotating speed and the rotating direction of the electric motor by receiving the instruction from the control module, so that the window can be lifted to a designated position, the switch module is a key interface between a driver and the system, and the multifunctional touch type design is adopted, so that the driver can send out the instruction of lifting the window through the module. These commands are transmitted to the control module, which is responsible for receiving the commands from the switching module and controlling the electric motor module according to the commands. The window lifting device determines the rotating speed and the rotating direction of the electric motor according to the instruction so as to realize the lifting of the window, and the detection module is used for detecting and uploading data according to different application scenes. This module is able to monitor various environmental factors, such as temperature, sunlight, etc., so that the system can make intelligent adjustments, and the autonomous module is responsible for identifying and learning the elevator position in different environments. The learned information is transmitted to a database module which is adapted according to the rotation speeds of the electric motors with different models and requirements, the efficiency and the stability of the electric motors are ensured, the sensor unit is realized by a detection data unit, a data collecting unit and a feedback unit, the sensor unit acquires situation information required by the lifting operation of the window of the automobile through different sensors, such as obstacle detection and position detection, and the unit is responsible for judging whether to start the electric motors according to different environmental factors. The system can detect factors such as temperature and sunlight to determine whether window lifting is allowed, the data integration unit of the control module is used for integrating data of different modules so that the system can obtain comprehensive vehicle operation data, the communication interconnection unit ensures data communication and cooperative work among the modules, the units of the detection module are used for detecting abnormal conditions, the alarm unit is responsible for monitoring whether the window should stop lifting operation or not, the obstacle detection unit is used for detecting whether an obstacle exists or not, the position detection unit is used for determining the current position of the window, the database module is responsible for storing data of different models and sharing the data with the system, the rotating speed adjustment unit adjusts the rotating speed of the electric motor according to the data in the database so as to adapt to driving requirements of different models, and the display terminal unit comprises the data detection unit for judging that the data of different models are calibrated to avoid data deviation and ensure the accuracy of the system data.

The invention provides an electric motor control system of an automobile glass lifter. The beneficial effects are as follows:

1. according to the invention, the lifter position under different environments can be learned through the autonomous module, the database module can be adapted according to the electric motor rotating speeds of different models and requirements, so that the system can be automatically adapted to different vehicle types and environments, more flexible control is provided, the starting unit is responsible for starting and stopping the electric glass lifting operation, the electric motor is ensured to be started in a safe and controllable manner, unexpected operation is prevented, safety is improved, the sensor unit acquires situation information through various sensors, so that the situation information required by the automobile window lifting operation is monitored, the system can respond to different environmental conditions better, and safety and efficiency are improved.

2. The autonomous unit comprises a factor detection unit for judging whether the electric motor is started or not according to different environmental conditions, which is helpful for reducing energy consumption and prolonging service life of the electric motor, and the control module comprises a data integration unit for integrating system data with other vehicle system data so as to obtain comprehensive vehicle operation data, which is helpful for providing more comprehensive information and monitoring vehicle performance, and the system comprises an obstacle detection unit for detecting and identifying whether abnormal articles exist, which is helpful for improving safety and preventing accidents during window lifting

3. The database module can share data of different models with the system, so that the system is more universal and has stronger adaptability, and the display terminal unit comprises a data detection unit for judging different data to check so as to avoid data deviation. This helps to ensure accuracy and consistency of data, and the data collation unit is used to control different models of electric motors in real time while internal data synchronization is performed to ensure stability and performance of the system.

Drawings

FIG. 1 is a main frame diagram of the present invention;

FIG. 2 is a flow chart of a switch module according to the present invention;

FIG. 3 is a flow chart of a sensor unit of the present invention;

FIG. 4 is a flow chart of an autonomous module of the present invention;

FIG. 5 is a flow chart of a control module of the present invention;

FIG. 6 is a flow chart of a detection module according to the present invention;

FIG. 7 is a flow chart of the database module of the invention;

fig. 8 is a flow chart of the display terminal unit of the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Examples:

referring to fig. 1, an embodiment of the present invention provides an electric motor control system for a glass lifter of an automobile, including:

an electric motor module: for driving a mechanical device;

and a switch module: is a key interface for the interaction between a driver and a system, and adopts a multifunctional touch type design;

and the control module is used for: for taking care of the control of the electric motor;

and a detection module: for performing detection and data uploading according to data of different applications.

The electric motor module further includes an autonomous module and a database module:

and (3) an autonomous module: the elevator position recognition device is used for recognizing and autonomously learning elevator positions of different environments;

a database module: for adapting the rotational speed of the electric motor according to different models and requirements.

In one embodiment, the database module may also analyze the historical data to learn the performance of different models of electric motors under different conditions. This helps the system to better understand the performance and potential problems of the electric motor and take appropriate action to improve its stability and life, and the database module can monitor the performance of the electric motor in real time and react quickly when a problem arises or needs to be adjusted. Such real-time adjustment helps to ensure that the operation of the electric motor is always in an optimal state.

Referring to fig. 2, the switch module includes a starting unit, a positioning unit and a sensor unit, the switch module is connected with the starting unit, the starting unit is connected with the positioning unit, and the positioning unit is connected with the sensor unit;

a starting unit: the starting unit is responsible for starting and stopping the electric glass lifting operation. It receives a start command from a user or system and ensures that the electric motor starts in a safe and controlled manner.

In one embodiment, the primary function of the activation unit is to receive user input or system signals and to initiate or stop different operations accordingly, and the positioning unit is typically used to determine or manage the position or state of the device, which cooperates closely with the activation unit to ensure that the position of the device is accurate.

Referring to fig. 3, the sensor unit includes a detection data unit, a data collection unit and a feedback unit, the sensor unit is connected with the detection data unit, the detection data unit is connected with the data collection unit, and the data collection unit is connected with the feedback unit;

detecting data units: information obtained by various sensors is used to monitor context information required for the window-lifting operation of the vehicle.

In one embodiment, the data collection unit is used to receive and sort information from the detected data units, which to some extent plays the role of data aggregation and processing, in order to better understand the context information required for window-lifting operations, which may include processing, screening and ordering the data to ensure that they are passed to other parts of the system in an understandable manner.

Referring to fig. 4, the autonomous unit includes a factor detecting unit, a temperature unit and a sunlight unit, the autonomous unit is connected with the factor detecting unit, the factor detecting unit is connected with the temperature unit, and the temperature unit is connected with the sunlight unit;

factor detection unit: for determining whether to start the electric motor according to different environments.

Referring to fig. 5, the control module includes a data integration unit and a communication interconnection unit, the control module is connected with the data integration unit, and the data integration unit is connected with the communication interconnection unit;

a data integration unit: the method is used for integrating the data with other vehicle system data, so that comprehensive vehicle operation data can be obtained.

Referring to fig. 6, the detection module includes a warning stop unit, an obstacle detection unit, and a position detection unit, the detection module is connected with the warning stop unit, the warning stop unit is connected with the obstacle detection unit, and the obstacle detection unit is connected with the position detection unit;

an obstacle detection unit: is used for detecting and identifying whether abnormal articles exist.

Referring to fig. 7, the database module includes a data sharing unit, a rotation speed adjusting unit and a display terminal unit, the database module is connected with the data sharing unit, the data sharing unit is connected with the rotation speed adjusting unit, and the rotation adjusting unit is connected with the display terminal unit;

a data sharing unit: for sharing data of different models with the system.

Referring to fig. 8, the display terminal unit includes a data detection unit;

a data detection unit; the method is used for judging different data to calibrate so as to avoid data deviation.

The data detection unit also comprises a data checking unit and a rotating speed judging unit, the data detection unit is connected with the data checking unit, and the data checking unit is connected with the rotating speed judging unit;

a data collation unit: the electric motor synchronous control device is used for carrying out real-time control according to electric motors of different models and simultaneously carrying out internal data synchronization.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. An electric motor control system for a window regulator of an automobile, comprising:

an electric motor module: for driving a mechanical device;

and a switch module: is a key interface for the interaction between a driver and a system, and adopts a multifunctional touch type design;

and the control module is used for: for taking care of the control of the electric motor;

and a detection module: for performing detection and data uploading according to data of different applications.

2. The automotive glazing lifter electric motor control system of claim 1, wherein the electric motor module further comprises an autonomous module and a database module:

the autonomous module: the elevator position recognition device is used for recognizing and autonomously learning elevator positions of different environments;

the database module: for adapting the rotational speed of the electric motor according to different models and requirements.

3. The electric motor control system for an automotive window regulator of claim 1, wherein the switch module comprises a start unit, a positioning unit, and a sensor unit, the switch module is connected to the start unit, the start unit is connected to the positioning unit, and the positioning unit is connected to the sensor unit;

the starting unit: the starting unit is responsible for starting and stopping the electric glass lifting operation. It receives a start command from a user or system and ensures that the electric motor starts in a safe and controlled manner.

4. A vehicle glazing lifter electric motor control system according to claim 3, wherein the sensor unit comprises a detection data unit, a data acquisition unit and a feedback unit, the sensor unit being connected to the detection data unit, the detection data unit being connected to a data collection unit, the data collection unit being connected to the feedback unit;

the detection data unit: information obtained by various sensors is used to monitor context information required for the window-lifting operation of the vehicle.

5. The electric motor control system for an automotive window regulator according to claim 2, wherein the autonomous unit includes a factor detecting unit, a temperature unit, and a solar cell unit, the autonomous unit being connected to the factor detecting unit, the factor detecting unit being connected to the temperature unit, the temperature unit being connected to the solar cell;

the factor detection unit: for determining whether to start the electric motor according to different environments.

6. The electric motor control system for an automotive window regulator of claim 1, wherein the control module comprises a data integration unit and a communication interconnection unit, the control module being connected to the data integration unit, the data integration unit being connected to the communication interconnection unit;

the data integration unit: the method is used for integrating the data with other vehicle system data, so that comprehensive vehicle operation data can be obtained.

7. The electric motor control system for a vehicle window regulator according to claim 1, wherein the detection module includes a warning stop unit, an obstacle detection unit, and a position detection unit, the detection module is connected to the warning stop unit, the warning stop unit is connected to the obstacle detection unit, and the obstacle detection unit is connected to the position detection unit;

the obstacle detection unit: is used for detecting and identifying whether abnormal articles exist.

8. The electric motor control system for the automobile window regulator according to claim 2, wherein the database module comprises a data sharing unit, a rotation speed adjusting unit and a display terminal unit, the database module is connected with the data sharing unit, the data sharing unit is connected with the rotation speed adjusting unit, and the rotation speed adjusting unit is connected with the display terminal unit;

the data sharing unit: for sharing data of different models with the system.

9. The electric motor control system for an automotive window regulator of claim 8, wherein the display terminal unit includes a data detection unit;

the data detection unit; the method is used for judging different data to calibrate so as to avoid data deviation.

10. The electric motor control system for an automotive window regulator according to claim 9, wherein the data detecting unit further comprises a data collating unit and a rotation speed judging unit, the data detecting unit being connected to the data collating unit, the data collating unit being connected to the rotation speed judging unit;

the data collation unit: the electric motor synchronous control device is used for carrying out real-time control according to electric motors of different models and simultaneously carrying out internal data synchronization.