阅读说明：本技术 一种充电装置的辅助收放线装置及操作方法 (Auxiliary winding and unwinding device of charging device and operation method ) 是由 刘冬 张宝亮 张云亮 于 2021-08-10 设计创作，主要内容包括：一种充电装置的辅助收放线装置及操作方法,包括电机、电机控制器、整机控制器、收放线装置、微动开关和插枪座检测开关；电机控制器连接电机,电机输出端连接收放线装置,收放线装置连接充电线；充电枪上设置有微动开关,充电枪插座里设置有插枪座检测开关；电机控制器、微动开关和插枪座检测开关均连接到整机控制器。本发明通过增加电动机控制系统,同时加以软件控制策略,配合以操作时序；来达到自动辅助收放枪线,改善充电机的客户使用体验,客户在实际充电过程中,只需要按动枪头微动开关,再施加轻微的方向力量,就可以完成充电过程中的插、拔枪,大幅提高客户在使用充电机过程中的体验度。(An auxiliary winding and unwinding device of a charging device and an operation method thereof comprise a motor, a motor controller, a complete machine controller, a winding and unwinding device, a microswitch and a gun socket detection switch; the motor controller is connected with the motor, the output end of the motor is connected with the take-up and pay-off device, and the take-up and pay-off device is connected with the charging wire; a microswitch is arranged on the charging gun, and a gun inserting seat detection switch is arranged in the charging gun socket; the motor controller, the microswitch and the gun inserting seat detection switch are all connected to the whole machine controller. The invention adds a motor control system and a software control strategy to cooperate with an operation time sequence; the gun line is automatically assisted to be collected and released, the use experience of a customer of the charger is improved, the customer can complete gun insertion and gun pulling in the charging process only by pressing the gun head microswitch and applying slight directional force in the actual charging process, and the experience degree of the customer in the charger using process is greatly improved.)

1. An auxiliary winding and unwinding device of a charging device is characterized by comprising a motor (2), a motor controller (3), a complete machine controller (4), a winding and unwinding device, a microswitch (11) and a gun socket detection switch (12); the motor controller is connected with the motor, the output end of the motor is connected with the take-up and pay-off device, and the take-up and pay-off device is connected with the charging wire; a microswitch is arranged on the charging gun, and a gun inserting seat detection switch is arranged in the charging gun socket; the motor controller, the microswitch and the gun inserting seat detection switch are all connected to the whole machine controller.

2. The auxiliary winding and unwinding device of the charging device according to claim 1, wherein the winding and unwinding device comprises a roller (9), a steel wire rope (8) and a wire clamping clip (10); the output of motor (2) is connected the one end of wire rope (8), and gyro wheel (9) setting is walked around in wire rope (8), and wire clamp (10) are connected to the other end of wire rope (8), and the charging wire setting is in wire clamp (10).

3. The auxiliary winding and unwinding device of the charging device according to claim 2, wherein the motor (2), the motor controller (3) and the overall controller (4) are all arranged in the cabinet (1).

4. The auxiliary winding and unwinding device of the charging device according to claim 3, wherein the roller (9) is provided at a top of one end of the cabinet (1).

5. The auxiliary winding and unwinding device of the charging device according to claim 3, wherein a power supply (5) is further arranged in the cabinet (1), and the power supply (5) is connected with the motor controller (3).

6. The auxiliary winding and unwinding device of the charging device according to claim 3, wherein the overall controller (4) is connected with the charging wire (6).

7. An operation method of an auxiliary winding and unwinding device of a charging device, characterized in that the auxiliary winding and unwinding device of the charging device based on any one of claims 1 to 6 comprises the following steps:

when charging is to be started, the gun is pulled out, and when a gun seat feedback switch detects a switch action signal, the switch action signal is fed back to a complete machine controller; when the microswitch on the gun head is pressed frequently, the signals are fed back to the complete machine controller, when the complete machine controller receives feedback signals from two positions, the signals are sent to the motor controller, the motor is controlled by the electric controller through a power supply to rotate, the motor drives the steel wire to rotate, the steel wire rope extends through the idler wheel, and the cable extends along with the pressing time of the microswitch;

when a client inserts a gun and stops pressing the gun head microswitch, the complete machine controller detects a new signal at the moment, and the motor is controlled to stop rotating by sending the new signal to the motor controller, and the steel wire rope stops extending and the cable descends and stops;

after charging is finished, feeding back a charging signal to the whole machine controller, and stopping a charging process; when the signal of the microswitch of the electronic lock of the gun head frequently pressed by the user is detected again, the complete machine controller detects the signal and combines the charging signal, the complete machine controller sends a signal to the motor controller, and the motor is controlled by the motor controller through the power supply to rotate so as to drive the steel wire rope to contract; along with the pressing time of the microswitch, the steel wire rope continuously contracts, and the steel wire contraction cable is pulled up; when the gun head returns to the gun inserting seat, the gun seat detection switch is triggered to act, and when the whole machine controller detects a gun head returning signal, a signal is sent to the motor controller, so that the cable is pulled up to a preset position of the system, and the motor stops rotating.

8. The operating method of the auxiliary winding and unwinding device of the charging device according to claim 7, wherein the charging signal is a signal fed back to the controller of the whole device through CC, S +, S-.

Technical Field

The invention belongs to the technical field of chargers, and particularly relates to an auxiliary winding and unwinding device of a charging device and an operation method.

Background

With the strong support of the policy of the country for clean energy and vehicles adopting the clean energy, the popularity of the electric vehicle is higher and higher, and the acceptance of people is higher and higher. The charger is used as an energy supplementing device essential to the use of the electric automobile, and is contacted more and more frequently by people. However, the gun line is too heavy in the using process, and the user is difficult and inconvenient to operate when using the gun line, so that the user experience is poor.

Disclosure of Invention

The invention aims to provide an auxiliary winding and unwinding device of a charging device and an operation method thereof, so as to solve the problems.

In order to achieve the purpose, the invention adopts the following technical scheme:

an auxiliary winding and unwinding device of a charging device comprises a motor, a motor controller, a complete machine controller, a winding and unwinding device, a microswitch and a gun socket detection switch; the motor controller is connected with the motor, the output end of the motor is connected with the take-up and pay-off device, and the take-up and pay-off device is connected with the charging wire; a microswitch is arranged on the charging gun, and a gun inserting seat detection switch is arranged in the charging gun socket; the motor controller, the microswitch and the gun inserting seat detection switch are all connected to the whole machine controller.

Furthermore, the take-up and pay-off device comprises a roller, a steel wire rope and a wire clamping clamp; the output of motor is connected wire rope's one end, and wire rope walks around the gyro wheel setting, and the fastener is connected to wire rope's the other end, and the charging wire setting is in the fastener.

Further, the motor controller and the complete machine controller are all arranged in the cabinet.

Further, the roller is arranged at the top of one end of the cabinet.

Further, a power supply is arranged in the cabinet and connected with the motor controller.

Further, the complete machine controller is connected with a charging wire.

Further, an operation method of an auxiliary winding and unwinding device of a charging device comprises the following steps:

when charging is to be started, the gun is pulled out, and when a gun seat feedback switch detects a switch action signal, the switch action signal is fed back to a complete machine controller; when the microswitch on the gun head is pressed frequently, the signals are fed back to the complete machine controller, when the complete machine controller receives feedback signals from two positions, the signals are sent to the motor controller, the motor is controlled by the electric controller through a power supply to rotate, the motor drives the steel wire to rotate, the steel wire rope extends through the idler wheel, and the cable extends along with the pressing time of the microswitch;

when a client inserts a gun and stops pressing the gun head microswitch, the complete machine controller detects a new signal at the moment, and the motor is controlled to stop rotating by sending the new signal to the motor controller, and the steel wire rope stops extending and the cable descends and stops;

after charging is finished, feeding back a charging signal to the whole machine controller, and stopping a charging process; when the signal of the microswitch of the electronic lock of the gun head frequently pressed by the user is detected again, the complete machine controller detects the signal and combines the charging signal, the complete machine controller sends a signal to the motor controller, and the motor is controlled by the motor controller through the power supply to rotate so as to drive the steel wire rope to contract; along with the pressing time of the microswitch, the steel wire rope continuously contracts, and the steel wire contraction cable is pulled up; when the gun head returns to the gun inserting seat, the gun seat detection switch is triggered to act, and when the whole machine controller detects a gun head returning signal, a signal is sent to the motor controller, so that the cable is pulled up to a preset position of the system, and the motor stops rotating.

Further, the charging signal is a signal fed back to the whole machine controller through CC, S + and S-.

Compared with the prior art, the invention has the following technical effects:

the invention adds a motor control system and a software control strategy to cooperate with an operation time sequence; the gun line is automatically assisted to be collected and released, the use experience of a customer of a charger is improved, the customer can complete gun insertion and gun pulling in the charging process only by pressing a gun head microswitch and applying slight direction force in the actual charging process, and the experience degree of the customer in the use charging process is greatly improved.

Drawings

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

fig. 2 is a partially enlarged view.

Wherein: the automatic power-saving device comprises a cabinet 1, a motor 2, a motor controller 3, a complete machine controller 4, a power supply 5, a charging wire 6, a gun socket 7, a steel wire rope 8, a roller 9, a wire clamping clamp 10, a microswitch 11 and a gun socket detection switch 12.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

referring to fig. 1, the apparatus mainly includes a cabinet 1, a motor 2, a motor controller 3, a complete machine controller 4, a power supply 5, a charging wire 6, a gun socket 7, a steel wire rope 8, a roller 9, a cable suspension ring 10, and other conducting control cables.

When charging is to be started, a user starts to pull the gun, and when a gun seat feedback switch detects a switch action signal, the signal is fed back to a complete machine controller;

meanwhile, when a user frequently presses the microswitch on the gun head, the feedback is also fed back to the complete machine controller, when the complete machine controller receives feedback signals from two positions, a signal is sent to the motor controller, the motor is controlled by the electric controller through a power supply to rotate, the motor drives the steel wire to rotate, the steel wire rope extends through the rotating shaft and the roller, and the cable extends along with the pressing time of the microswitch.

When a client inserts a gun and stops pressing the gun head microswitch, the complete machine controller detects a new signal at the moment, and the motor is controlled to stop rotating by sending the new signal to the motor controller, so that the steel wire rope stops extending and the cable stops descending and stopping.

After charging is finished, feeding back signals to the whole machine through CC, S + and S-, and stopping the charging process; when the signal of the microswitch of the electronic lock of the gun head frequently pressed by the user is detected again, the complete machine controller detects the signal, and then the complete machine controller sends the signal to the motor controller by combining the signals of CC, S + and S-, and the motor is controlled by the motor controller to rotate through the power supply to drive the steel wire rope to contract;

along with the pressing time of the microswitch, the steel wire rope continuously contracts, and the cable is pulled up along with the contraction of the steel wire; when the gun head returns to the gun inserting seat, the gun seat detection switch is triggered to act, and when the whole machine controller detects a gun head returning signal, a signal is sent to the motor controller, so that the cable is pulled up to a preset position of the system, and the motor stops rotating.

This completes a complete cable stowing process.

Example (b):

an auxiliary take-up and pay-off device of a charging device comprises a motor 2, a motor controller 3, a complete machine controller 4, a take-up and pay-off device, a microswitch 11 and a gun socket detection switch 12; the motor controller is connected with the motor, the output end of the motor is connected with the take-up and pay-off device, and the take-up and pay-off device is connected with the charging wire; a microswitch is arranged on the charging gun, and a gun inserting seat detection switch is arranged in the charging gun socket; the motor controller, the microswitch and the gun inserting seat detection switch are all connected to the whole machine controller.

The take-up and pay-off device comprises a roller 9, a steel wire rope 8 and a wire clamping clamp 10; wire rope 8's one end is connected to motor 2's output, and wire rope 8 bypasses the setting of gyro wheel 9, and wire clamp 10 is connected to wire rope 8's the other end, and the charging wire setting is in wire clamp 10.

The motor 2, the motor controller 3 and the complete machine controller 4 are all arranged in the cabinet 1.

The roller 9 is arranged on the top of one end of the cabinet 1.

Still be provided with power 5 in the rack 1, power 5 connects motor controller 3.

The complete machine controller 4 is connected with a charging wire 6.

According to the implementation process, in the actual charging process, a user only needs to press the gun head microswitch and apply slight directional force to complete gun insertion and pulling in the charging process, and the experience degree of the user in the charger using process is greatly improved.