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CN-121973612-A - Vehicle battery collet control system

CN121973612ACN 121973612 ACN121973612 ACN 121973612ACN-121973612-A

Abstract

The invention provides a vehicle battery holder control system, which relates to the technical field of vehicle battery replacement and comprises a battery holder, an executing mechanism and a processing unit, wherein the executing mechanism is respectively arranged at a preset position on the battery holder, the battery holder is used for bearing a battery and locking and unlocking the battery through the executing mechanism, the processing unit is in communication connection with the executing mechanism, and the processing unit is used for generating a corresponding control signal according to a received user locking and unlocking instruction and controlling the executing mechanism to synchronously execute corresponding locking and unlocking actions according to the control signal. The invention can effectively improve the battery replacement efficiency of the vehicle.

Inventors

  • WANG KUN
  • SUN HUA
  • YANG YONG
  • HUANG XIAODONG
  • YANG WEN
  • BI ZHONGJIE
  • GAO JINGXIN
  • TANG XIAOZHE

Assignees

  • 杭州极能时代科技有限公司

Dates

Publication Date
20260505
Application Date
20260224

Claims (10)

  1. 1. The vehicle battery bracket control system is characterized by comprising a battery bracket, an executing mechanism and a processing unit, wherein the executing mechanism is respectively arranged at a preset position on the battery bracket, the battery bracket is used for bearing a battery and locking and unlocking the battery through the executing mechanism, and the processing unit is in communication connection with the executing mechanism; The processing unit is used for: generating a corresponding control signal according to the received user locking and unlocking instruction; and controlling the executing mechanism to synchronously execute corresponding locking and unlocking actions according to the control signal.
  2. 2. The vehicle battery shoe control system of claim 1, wherein the generating a corresponding control signal based on the received user unlock command comprises: When the user locking and unlocking instruction is a locking instruction, controlling the executing mechanism to synchronously execute locking action according to a locking voltage signal generated by the locking instruction; When the user locking and unlocking instruction is an unlocking instruction, the executing mechanism is controlled to synchronously execute the unlocking action according to an unlocking voltage signal generated by the unlocking instruction.
  3. 3. The vehicle battery shoe control system of claim 2, further comprising an extension output unit communicatively coupled to the processing unit, wherein the locking voltage signal generated in accordance with the locking command controls the actuator to synchronously perform a locking action, comprising: controlling the stretching output unit to generate the locking voltage signal according to the locking instruction; And controlling the executing mechanism to synchronously execute the locking action according to the locking voltage signal.
  4. 4. The vehicle battery shoe control system of claim 2, further comprising a retract output unit communicatively coupled to the processing unit, wherein the locking voltage signal generated in accordance with the locking command controls the actuator to synchronously perform a locking action, comprising: controlling the retraction output unit to generate the locking voltage signal according to the locking instruction; And controlling the executing mechanism to synchronously execute the locking action according to the locking voltage signal.
  5. 5. The vehicle battery shoe control system of claim 1, further comprising a pushrod status monitoring unit including pushrod indicator lights mated to the actuators, the pushrod status monitoring unit communicatively coupled to the processing unit, the pushrod status monitoring unit configured to control a status of the corresponding pushrod indicator lights based on a status of the actuators.
  6. 6. The vehicle battery shoe control system of claim 5, wherein said controlling the state of the corresponding push rod indicator light according to the state of the actuator comprises: Acquiring a push rod state signal of the executing mechanism; when the push rod state signal is an in-place signal, the push rod indicator lamp corresponding to the executing mechanism is controlled to be normally on; Otherwise, the push rod indicator lamp corresponding to the executing mechanism is controlled to flash.
  7. 7. The vehicle battery shoe control system of claim 6, further comprising a motion state monitoring unit communicatively coupled to the processing unit, the processing unit further configured to: When all the push rod state signals corresponding to the execution mechanisms are the in-place signals, judging that the locking and unlocking are successful, and controlling the indicator lights corresponding to the motion monitoring units to be normally on; Otherwise, judging that the locking and unlocking are failed, and controlling the indicator lamp corresponding to the motion monitoring unit to flash.
  8. 8. The vehicle battery shoe control system of claim 7, wherein the processing unit is further configured to: and after the preset time of the user locking and unlocking instruction is received, judging that the locking and unlocking fails, and stopping the locking and unlocking action.
  9. 9. The vehicle battery shoe control system of claim 1, further comprising a button control unit communicatively coupled to the processing unit, the button control unit configured to input the user locking and unlocking instructions to the processor unit.
  10. 10. The vehicle battery shoe control system of claim 1, wherein the processing unit is further configured to; acquiring the current state of the executing mechanism; when the user locking and unlocking instruction is consistent with the current state, maintaining the current state; Otherwise, executing the user locking and unlocking instruction.

Description

Vehicle battery collet control system Technical Field The invention relates to the technical field of vehicle battery replacement, in particular to a vehicle battery bracket control system. Background With the rapid popularization of new energy electric vehicles in the fields of logistics transportation, engineering operation, urban traffic and the like, the new energy electric vehicles become an important carrier for promoting traffic energy transformation and green low-carbon development. In order to solve the problems of long energy supplementing time, low operation efficiency, high battery maintenance cost and the like in the traditional charging mode, the rapid replacement technology of the vehicle battery is widely applied. The power conversion mode can be used for completing the replacement of the battery with the full power battery in a short time, the vehicle operation efficiency is obviously improved, the initial vehicle purchasing cost of a user is reduced, the centralized management and the echelon utilization of the battery are convenient to realize, and the power conversion mode becomes a core energy supplementing scheme of high-frequency operation scenes such as commercial vehicles, heavy trucks and the like. In the related art, in the existing battery replacement process, most locking mechanisms rely on manual assistance or single driving control, deviation exists in the action execution process of a plurality of groups of execution units, and therefore current replacement process is interrupted or delayed, and battery replacement efficiency is affected. Disclosure of Invention The invention solves the problem of improving the battery replacement efficiency of a vehicle. In order to solve the problems, the invention provides a vehicle battery bracket control system. In a first aspect, the invention provides a vehicle battery bracket control system, which comprises a battery bracket, an executing mechanism and a processing unit, wherein the executing mechanism is respectively arranged at a preset position on the battery bracket, the battery bracket is used for bearing a battery and locking and unlocking the battery through the executing mechanism, and the processing unit is in communication connection with the executing mechanism; The processing unit is used for: generating a corresponding control signal according to the received user locking and unlocking instruction; and controlling the executing mechanism to synchronously execute corresponding locking and unlocking actions according to the control signal. Optionally, the generating a corresponding control signal according to the received user locking and unlocking instruction includes: When the user locking and unlocking instruction is a locking instruction, controlling the executing mechanism to synchronously execute locking action according to a locking voltage signal generated by the locking instruction; When the user locking and unlocking instruction is an unlocking instruction, the executing mechanism is controlled to synchronously execute the unlocking action according to an unlocking voltage signal generated by the unlocking instruction. Optionally, the system further comprises an extension output unit, wherein the extension output unit is in communication connection with the processing unit, and the locking voltage signal generated according to the locking instruction controls the executing mechanism to synchronously execute locking action, and the system comprises: controlling the stretching output unit to generate the locking voltage signal according to the locking instruction; And controlling the executing mechanism to synchronously execute the locking action according to the locking voltage signal. Optionally, the system further comprises a retraction output unit, wherein the retraction output unit is in communication connection with the processing unit, and the locking voltage signal generated according to the locking instruction controls the executing mechanism to synchronously execute locking action, and the system comprises: controlling the retraction output unit to generate the locking voltage signal according to the locking instruction; And controlling the executing mechanism to synchronously execute the locking action according to the locking voltage signal. Optionally, the system further comprises a push rod state monitoring unit, the push rod state monitoring unit comprises a push rod indicator lamp matched with the executing mechanism, the push rod state monitoring unit is in communication connection with the processing unit, and the push rod state monitoring unit is used for controlling the state of the corresponding push rod indicator lamp according to the state of the executing mechanism. Optionally, the controlling the state of the corresponding push rod indicator lamp according to the state of the actuating mechanism includes: Acquiring a push rod state signal of the executing mechanism; when the push rod state s