CN216672583U - Intelligent electric seat controller - Google Patents

Abstract

The utility model discloses an intelligent electric seat controller which comprises an electronic control module, and a manual adjusting switch, a storage reset switch and a motor which are integrally connected to the electronic control module, wherein the input end of the manual adjusting switch is connected with a relay, the input end of the relay is connected with an overload protection device, and the input end of the overload protection device is connected with a storage battery anode access port. This intelligent electric seat controller passes through the anodal access port of battery and inserts electric seat controller with the power, at this moment, it transships to be used for placing equipment through carrying protection device, and protection circuit, and store reset switch through storing reset switch in advance through the manipulation, the voltage signal storage that comes with position sensor transport in electronic control module, as the foundation of later regulation, reset switch makes the seat resume original position according to memory is stored in the rethread manipulation, and can cooperate manual regulating switch to carry out manual regulation control.

Description

Intelligent electric seat controller

Technical Field

The utility model relates to the technical field of electric seat controllers, in particular to an intelligent electric seat controller.

Background

The memory storage type seat control system is a typical electronic control system of an automobile. An automobile Electronic Control System (ECS) is a computer control system which is formed by taking a single chip microcomputer as a center and can also be called as an automobile microcomputer control system, and the ECS is formed by combining an Electronic Control Unit (ECU), a sensor and an actuator. The sensor is the main part of information acquisition, mainly used for gathering car state information and various physics, chemistry and electric information to signal input to ECU. The signals collected by the sensors are divided into analog signals and digital signals, and the analog signals need to be converted into digital signals through an A/D converter and then processed. The ECU is a core component of an automobile electronic control system, can process information transmitted by a sensor, responds to signals through a pre-programmed control program, and sends out various control instructions to command an execution mechanism to work. The actuator is a member that operates in accordance with an instruction from the ECU, and mainly completes various instructions issued by the ECU.

The intelligent electric seat controller is provided aiming at the problems that the existing electric seat controller is single in control mode, is easily limited by the current control element and has single auxiliary functions.

SUMMERY OF THE UTILITY MODEL

The present invention provides an intelligent power seat controller, which solves the problems of the prior art that the control mode of the power seat controller is single, the power seat controller is easily limited by the current control element, and the accessory functions of the seat are single.

In order to achieve the purpose, the utility model provides the following technical scheme: an intelligent electric seat controller comprises an electronic control module, a manual adjusting switch, a storage reset switch and a motor, wherein the manual adjusting switch, the storage reset switch and the motor are integrally connected to the electronic control module;

the positive electrode access port of the storage battery is used for providing a driving power supply;

the overload protection device is used for preventing the electrical equipment from being overloaded and protecting the safety of the electrical equipment;

the manual adjusting switch is used for manually adjusting the state of the seat;

the storage reset switch is used for storing the voltage signal transmitted by the position sensor in the electronic control module and restoring the seat to the original position according to the memory by operating the storage reset switch.

Preferably, the electronic control module is also connected with position sensors which correspond to the motors one by one.

Preferably, the motor is also connected with a motor sensor;

the motor sensor is used for converting each motor rotation signal into a voltage signal and transmitting the voltage signal to the electronic control module, and the electronic control module judges whether the motor works normally according to the control signal and the motor rotation signal so as to control the running state of the motor.

Preferably, the electronic control module is further provided with a communication interface.

Preferably, the communication interface can be accessed to one or more of a LIN communication control switch, a touch screen, a Bluetooth connection controller, a WIFI connection controller or a voice control module.

Preferably, a seat massage module or a seat ventilation heating module can be connected to the electronic control module.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model accesses the power supply to the electric seat controller through the positive electrode access port of the storage battery, at the moment, the power supply is used for placing equipment overload through the load protection device, protecting the circuit, and storing a voltage signal transmitted by the position sensor in the electronic control module through the storage reset switch by operating the storage reset switch in advance as a basis for later adjustment, and then the seat is restored to the original position according to memory by operating the storage reset switch and can be matched with the manual adjustment switch to carry out manual adjustment control;

the motor sensor is used for converting a rotation signal of each motor into a voltage signal and transmitting the voltage signal to the electronic control module, the electronic control module judges whether the motor works normally or not according to the control signal and the rotation signal of the motor, and then the running state of the motor is controlled, and if the motor is abnormal, the correspondingly controlled motor is cut off in time, so that the motor and the seat mechanism are protected.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic diagram of a circuit structure of the electronic control module according to the present invention;

FIG. 3 is a schematic diagram of a relay according to the present invention;

fig. 4 is a schematic diagram of a part of the control circuit of the manual regulating switch of the present invention.

In the figure: 1. a storage battery positive electrode access port; 2. an overload protection device; 3. a relay; 4. a manual adjustment switch; 5. a storage reset switch; 6. an electronic control module; 7. a position sensor; 8. an electric motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Embodiment 1

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, the present invention provides a technical solution: an intelligent electric seat controller comprises an electronic control module 6, a manual adjusting switch 4, a storage reset switch 5 and an electric motor 8, wherein the manual adjusting switch 4, the storage reset switch 5 and the electric motor 8 are integrally connected to the electronic control module 6, and the electric motor 8 is also connected with a motor sensor; the motor sensor is used for converting a rotation signal of each motor 8 into a voltage signal and transmitting the voltage signal to the electronic control module 6, the electronic control module 6 judges whether the motor 8 works normally according to the control signal and the rotation signal of the motor 8 so as to control the running state of the motor 8, if the motor 8 controlled correspondingly is abnormally and timely cut off, the motor 8 and the seat mechanism are protected, the electronic control module 6 is also connected with the position sensors 7 corresponding to the motors 8 one by one, the input end of the manual regulating switch 4 is connected with the relay 3, the input end of the relay 3 is connected with the overload protection device 2, and the input end of the overload protection device 2 is connected with the positive electrode access port 1 of the storage battery;

the storage battery positive electrode access port 1 is used for providing a driving power supply;

the overload protection device 2 is used for preventing the electrical equipment from being overloaded and protecting the safety of the electrical equipment;

the manual adjusting switch 4 is used for manually adjusting the state of the seat;

the storage reset switch 5 is used for storing the voltage signal transmitted by the position sensor 7 in the electronic control module 6 and restoring the seat to the original position according to the memory by operating the storage reset switch 5;

the power supply is connected into the electric seat controller through the storage battery anode access port 1, at the moment, the overload protection device 2 is used for placing equipment, the circuit is protected, the storage reset switch 5 is operated to store the reset switch 5 in advance through the storage reset switch 5, a voltage signal transmitted by the position sensor 7 is stored in the electronic control module 6 and used as the basis for later adjustment, the storage reset switch 5 is operated to restore the seat to the original position according to memory, and the manual adjustment control can be carried out by matching with the manual adjustment switch 4.

Example two

The scheme in the first embodiment is further described in the following with reference to specific working modes, which are described in detail in the following:

as a preferred embodiment, on the basis of the above manner, further, the electronic control module 6 is further provided with a communication interface, and the communication interface can be accessed to one or more of a LIN communication control switch, a touch screen, a bluetooth connection controller, a WIFI connection controller, or a voice control module.

In a preferred embodiment, in addition to the above-mentioned mode, a seat massage module or a seat ventilation and heating module may be further connected to the electronic control module 6.

The working principle of the intelligent electric seat controller is as follows: firstly, the power supply is connected to the electric seat controller through the positive electrode access port 1 of the storage battery, at the moment, the electric seat controller is used for placing equipment overload through the load protection device 2 and protecting the circuit, the voltage signal transmitted by the position sensor 7 is stored in the electronic control module 6 through the storage reset switch 5 by operating the storage reset switch 5 in advance and used as the basis for later adjustment, the seat is restored to the original position according to the memory by operating the storage reset switch 5, manual adjustment control can be carried out by matching with the manual adjustment switch 4, then, the motor sensor is used for converting the rotation signal of each motor 8 into the voltage signal and transmitting the voltage signal to the electronic control module 6, the electronic control module 6 judges whether the motor 8 works normally according to the control signal and the rotation signal of the motor 8 so as to control the running state of the motor 8, if the motor 8 correspondingly controlled is abnormal, the motor 8 is cut off in time, to protect the motor 8 and the seat mechanism;

then, the electronic control module 6 is also provided with a communication interface, and can be accessed to one or more of a LIN communication control switch, a touch screen, a Bluetooth connection controller, a WIFI connection controller or a voice control module through the communication interface to realize remote control.

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

Claims (6)

1. The utility model provides an intelligence electric seat controller, includes electronic control module (6) to and manual regulating switch (4), storage reset switch (5) and motor (8) of integrated connection on electronic control module (6), its characterized in that: the input end of the manual regulating switch (4) is connected with a relay (3), the input end of the relay (3) is connected with an overload protection device (2), and the input end of the overload protection device (2) is connected with a storage battery positive electrode access port (1);

the positive electrode access port (1) of the storage battery is used for providing a driving power supply;

the overload protection device (2) is used for preventing the electrical equipment from being overloaded and protecting the safety of the electrical equipment;

the manual adjusting switch (4) is used for manually adjusting the state of the seat;

the storage reset switch (5) is used for storing the voltage signal transmitted by the position sensor (7) in the electronic control module (6), and the seat is restored to the original position according to the memory by operating the storage reset switch (5).

2. The intelligent power seat controller of claim 1, wherein: and the electronic control module (6) is also connected with position sensors (7) which are in one-to-one correspondence with the motors (8).

3. The intelligent power seat controller of claim 1, wherein: the motor (8) is also connected with a motor sensor;

the motor sensor is used for converting a rotation signal of each motor (8) into a voltage signal and transmitting the voltage signal to the electronic control module (6), and the electronic control module (6) judges whether the motor (8) works normally or not according to the control signal and the rotation signal of the motor (8) so as to control the running state of the motor (8).

4. The intelligent power seat controller of claim 1, wherein: and the electronic control module (6) is also provided with a communication interface.

5. The intelligent power seat controller of claim 4, wherein: the communication interface can be accessed to one or more of a LIN communication control switch, a touch screen, a Bluetooth connection controller, a WIFI connection controller or a voice control module.

6. The intelligent power seat controller of claim 1, wherein: the electronic control module (6) can also be connected with a seat massage module or a seat ventilation heating module.

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