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EP-4737070-A1 - HUMAN-COMPUTER INTERACTION CONTROL METHOD AND SYSTEM FOR WELDING

EP4737070A1EP 4737070 A1EP4737070 A1EP 4737070A1EP-4737070-A1

Abstract

Disclosed in embodiments of the present disclosure are a human-computer interaction control method and system for welding. The human-computer interaction control method for welding comprises: in response to triggering of a scheme switching control on a main menu bar, displaying a scheme switching interface on a human-computer interaction device; on the basis of a scheme uploading selection box, determining, from a scheme uploading library, a target scheme to be uploaded, and displaying an identifier of said target scheme in the scheme uploading selection box; when said target scheme has been determined and a scheme uploading control has been enabled, updating a current scheme corresponding to the current scheme selection box and displaying same as said target scheme; and on the basis of working parameters of said target scheme, controlling a battery welding process device to perform welding work on a current battery to be welded. In this way, the effect of flexibly switching schemes can be achieved.

Inventors

  • WU, KAI
  • MA, Yuhang
  • ZHAO, JUN
  • Xie, Wenjie

Assignees

  • Contemporary Amperex Technology Co., Limited

Dates

Publication Date
20260506
Application Date
20240813

Claims (20)

  1. A human-computer interaction control method for welding, comprising: in response to triggering of a scheme switching control on a main menu bar, displaying a scheme switching interface on a human-computer interaction device, wherein the scheme switching interface comprises a scheme uploading control, a scheme uploading selection box, and a current scheme selection box; on the basis of the scheme uploading selection box, determining, from a scheme uploading library, a target scheme to be uploaded, and displaying an identifier of the target scheme to be uploaded in the scheme uploading selection box; when the target scheme to be uploaded has been determined and the scheme uploading control has been enabled, updating a current scheme corresponding to the current scheme selection box and displaying same as the target scheme; and on the basis of working parameters of the target scheme, controlling a battery welding process device to perform welding work on a current battery to be welded.
  2. The human-computer interaction control method for welding according to claim 1, wherein the scheme switching interface further comprises a scheme copying control and a scheme copying selection box, and the human-computer interaction control method for welding further comprises: on the basis of the scheme copying selection box, determining a scheme identifier to be replaced from a target library to which a scheme is copied, and displaying the scheme identifier to be replaced in the scheme copying selection box; and when the scheme identifier to be replaced has been displayed and the scheme copying control has been enabled, updating a scheme corresponding to the scheme identifier to be replaced to the current scheme.
  3. The human-computer interaction control method for welding according to claim 1 or 2, further comprising: during the welding process, displaying the working parameters of the battery welding process device on a monitoring interface, and displaying an alarm result on an alarm information interface, wherein the alarm result indicates that the working parameter exceeds a corresponding welding operating parameter value.
  4. The human-computer interaction control method for welding according to claim 3, further comprising: in response to triggering of an operating parameter setting control on the main menu bar, displaying an operating parameter setting interface for the battery welding process device on the human-computer interaction device, wherein the welding parameters to be set in the operating parameter setting interface include at least one of the following: the allowable error of accuracy of a sensor, the cleaning parameters of a cleaning device, the allowable error of accuracy of a welding device, and the allowable error of accuracy of a driving device of the welding device; and on the basis of the operating parameter setting interface, acquiring and storing the set welding operating parameter values.
  5. The human-computer interaction control method for welding according to claim 4, further comprising: in response to triggering of a weld point single-point compensation parameter setting control on the main menu bar, displaying a weld point single-point compensation interface on the human-computer interaction device, wherein the weld point single-point compensation interface comprises: at least one point display box for the welding device, and a scheme display box for displaying the current scheme identifier; displaying or inputting a compensation value in at least one point display box for the welding device; and on the basis of the compensation value, controlling the welding device to weld the corresponding point.
  6. The human-computer interaction control method for welding according to claim 4 or 5, further comprising: displaying at least one pagination control interface in a manual operation interface, wherein one of the pagination control interfaces comprises an adjustment control for the working parameter and a real-time display box for the working parameter; and in response to the operation on the adjustment control for the working parameter, displaying the adjusted working parameter value in the real-time display box for the working parameter, and controlling the corresponding battery welding process device on the basis of the adjusted working parameter value.
  7. The human-computer interaction control method for welding according to claim 6, further comprising: in response to triggering of a manual operation control on the main menu bar, displaying a layout interface of the manual operation interface, the layout interface being used for displaying the layout of the battery welding process device and at least one jump control, the at least one jump control comprising: a jump control for the welding battery welding process device, a jump control for the rack safety signal, a jump control for the shutdown reason, and a jump control for the network topology; and in response to a selection operation on the at least one jump control, entering the pagination control interface on the basis of the selected jump control.
  8. The human-computer interaction control method for welding according to any one of claims 1 to 7, further comprising: in response to triggering of an initialization selection control on the main menu bar, displaying an initialization pagination interface for the initialization selection control, the initialization selection control comprising: a selection control for whole machine initialization, and a selection control for welding device initialization; and in response to a selection operation on the initialization selection control, on the basis of the selected initialization selection control, initializing the battery welding process device as a whole, or initializing the welding device.
  9. The human-computer interaction control method for welding according to any one of claims 1 to 8, further comprising: in response to triggering of a working mode control, displaying a working mode interface, wherein the working mode interface comprises a repair welding mode control, operating instructions, and a to-be-repair-welded-point selection box; determining and displaying an identifier of a target point to be repair-welded on the basis of the to-be-repair-welded-point selection box; and controlling the welding device to perform repair welding on the target point on the basis of the identifier of the target point to be repair-welded.
  10. The human-computer interaction control method for welding according to claim 9, wherein: the working mode interface further comprises a point selection layout diagram and an all-point selection confirmation completion control; and when there is at least one target point, the human-computer interaction control method for welding further comprises: each time after the identifier of the target point to be repair-welded is determined on the basis of the to-be-repair-welded-point selection box, displaying the position of the target point on the point selection layout diagram; and when the all-point selection confirmation completion control is enabled, controlling the welding device to perform repair welding on the at least one target point on the basis of the identifier of the at least one target point.
  11. The human-computer interaction control method for welding according to claim 10, wherein: the working mode interface further comprises a point selection completion control, and the current state of the point selection completion control is distinguished by color; and the human-computer interaction control method for welding further comprises: after determining the identifier of the current target point to be repair-welded on the basis of the to-be repair-welded-point selection box, when the current state of the point selection completion control is a non-enabled state, displaying the position of the current target point to be repair-welded in a first color on the point selection layout diagram; in response to triggering of the point selection completion control so that the current state of the point selection completion control is an enabled state, displaying the position of the target point in a second color on the point selection layout diagram, the first color being different from the second color; and when the identifier of the next target point to be repair-welded is determined on the basis of the to-be repair-welded-point selection box, displaying the current state of the point selection completion control as a non-enabled state.
  12. A human-computer interaction control system for welding, comprising: a control device, used for: in response to triggering of a scheme switching control on a main menu bar, displaying a scheme switching interface on a human-computer interaction device, wherein the scheme switching interface comprises a scheme uploading control, a scheme uploading selection box, and a current scheme selection box; on the basis of the scheme uploading selection box, determining, from a scheme uploading library, a target scheme to be uploaded, and displaying an identifier of the target scheme to be uploaded in the scheme uploading selection box; when the target scheme to be uploaded has been determined and the scheme uploading control has been enabled, updating a current scheme corresponding to the current scheme selection box and displaying same as the target scheme; and on the basis of working parameters of the target scheme, controlling a battery welding process device to perform welding work on a current battery to be welded; a human-computer interaction device, used for displaying a human-computer interaction interface; and a battery welding process device, used for implementing measurement and welding operations on a battery to be welded.
  13. The human-computer interaction control system for welding according to claim 12, wherein: the scheme switching interface further comprises a scheme copying control and a scheme copying selection box; the control device is used for, on the basis of the scheme copying selection box, determining a scheme identifier to be replaced from a target library to which a scheme is copied, and displaying the scheme identifier to be replaced in the scheme copying selection box; and the control device is used for, when the scheme identifier to be replaced has been displayed and the scheme copying control has been enabled, updating a scheme corresponding to the scheme identifier to be replaced to the current scheme.
  14. The human-computer interaction control system for welding according to claim 12 or 13, wherein: the control device is used for, during the welding process, displaying the working parameters of the battery welding process device on a monitoring interface; and the control device is used for displaying an alarm result on an alarm information interface, the alarm result indicating that the working parameter exceeds a corresponding welding operating parameter value.
  15. The human-computer interaction control system for welding according to claim 14, wherein: the control device is used for, in response to triggering of an operating parameter setting control on the main menu bar, displaying an operating parameter setting interface for the battery welding process device on the human-computer interaction device, wherein the welding parameters to be set in the operating parameter setting interface include at least one of the following: the allowable error of accuracy of a sensor, the cleaning parameters of a cleaning device, the allowable error of accuracy of a welding device, and the allowable error of accuracy of a driving device of the welding device; and the control device is used for, on the basis of the operating parameter setting interface, acquiring and storing the set welding operating parameter values.
  16. The human-computer interaction control system for welding according to claim 15, wherein: the control device is used for, in response to triggering of a weld point single-point compensation parameter setting control on the main menu bar, displaying a weld point single-point compensation interface on the human-computer interaction device, wherein the weld point single-point compensation interface comprises: at least one point display box for the welding device, and a scheme display box for displaying the current scheme identifier; and the control device is used for: displaying or inputting a compensation value in at least one point display box for the welding device; and on the basis of the compensation value, controlling the welding device to weld the corresponding point.
  17. The human-computer interaction control system for welding according to claim 15 or 16, wherein: the control device is used for displaying at least one pagination control interface in a manual operation interface, wherein one of the pagination control interfaces comprises an adjustment control for the working parameter and a real-time display box for the working parameter; and the control device is used for, in response to the operation on the adjustment control for the working parameter, displaying the adjusted working parameter value in the real-time display box for the working parameter, and controlling the corresponding battery welding process device on the basis of the adjusted working parameter value.
  18. The human-computer interaction control system for welding according to claim 17, wherein: the control device is used for, in response to triggering of a manual operation control on the main menu bar, displaying a layout interface of the manual operation interface, the layout interface being used for displaying the layout of the battery welding process device and at least one jump control, the at least one jump control comprising: a jump control for the welding battery welding process device, a jump control for the rack safety signal, a jump control for the shutdown reason, and a jump control for the network topology; and the control device is used for, in response to a selection operation on the at least one jump control, entering the pagination control interface on the basis of the selected jump control.
  19. The human-computer interaction control system for welding according to any one of claims 12 to 18, wherein: the control device is used for, in response to triggering of an initialization selection control on the main menu bar, displaying an initialization pagination interface for the initialization selection control, the initialization selection control comprising: a selection control for whole machine initialization, and a selection control for welding device initialization; and the control device is used for, in response to a selection operation on the initialization selection control, on the basis of the selected initialization selection control, initializing the battery welding process device as a whole, or initializing the welding device.
  20. The human-computer interaction control system for welding according to any one of claims 12 to 19, wherein: the control device is used for, in response to triggering of a working mode control, displaying a working mode interface, the working mode interface comprising a repair welding mode control, operating instructions, and a to-be-repair-welded-point selection box; the control device is used for determining and displaying an identifier of a target point to be repair-welded on the basis of the to-be-repair-welded-point selection box; and the control device is used for controlling the welding device to perform repair welding on the target point on the basis of the identifier of the target point to be repair-welded.

Description

CROSS-REFERENCE TO RELATED APPLICATION The present disclosure is filed on the basis of and claims priority to Chinese Patent Application No. 202311289736.0, entitled "HUMAN-COMPUTER INTERACTION CONTROL METHOD AND SYSTEM FOR WELDING" and filed on October 08, 2023, which is incorporated herein by reference in its entirety. TECHNICAL FIELD The present disclosure relates to, but is not limited to, the field of human-computer interaction control technology, and particularly to a human-computer interaction control method and system for welding. BACKGROUND During the production process of battery cell modules, busbar welding is required, that is, a plurality of battery cells are connected together through busbar welding to form a battery cell module. Due to the differences in battery module types and welding processes, busbar welding involves many welding scheme parameters. Therefore, there is an urgent need for a method that can centrally manage the scheme parameters required for various types of welding, so as to achieve the effect of flexible switching of production compatible with various products. SUMMARY OF THE INVENTION In view of this, embodiments of the present disclosure at least provide a human-computer interaction control method and system for welding, which can solve the problem that related technologies can not achieve flexible switching of production compatible with various products. Technical solutions of the embodiments of the present disclosure are implemented as follows: In one aspect, an embodiment of the present disclosure provides a human-computer interaction control method for welding, the human-computer interaction control method for welding comprising: in response to triggering of a scheme switching control on a main menu bar, displaying a scheme switching interface on a human-computer interaction device, wherein the scheme switching interface comprises a scheme uploading control, a scheme uploading selection box, and a current scheme selection box; on the basis of the scheme uploading selection box, determining, from a scheme uploading library, a target scheme to be uploaded, and displaying an identifier of the target scheme to be uploaded in the scheme uploading selection box; when the target scheme to be uploaded has been determined and the scheme uploading control has been enabled, updating a current scheme corresponding to the current scheme selection box and displaying same as the target scheme; and on the basis of working parameters of the target scheme, controlling a battery welding process device to perform welding work on a current battery to be welded. In another aspect, an embodiment of the present disclosure provides a human-computer interaction control system for welding, and the human-computer interaction control system for welding comprises: a control device, used for executing some or all of the steps in the above-mentioned human-computer interaction control method for welding; a human-computer interaction device, used for displaying a human-computer interaction interface; and a battery welding process device, used for implementing measurement and welding operations on a battery to be welded. In an embodiment of the present disclosure, during the battery welding process, when the welding scheme needs to be changed, a target scheme to be uploaded can be selected from a scheme uploading library through a scheme uploading selection box, and when the target scheme to be uploaded has been determined and the scheme uploading control has been enabled, the current scheme corresponding to the current scheme selection box is updated and displayed as the target scheme; finally, on the basis of working parameters of the target scheme, the battery welding process device is controlled to perform welding work on a current battery to be welded. In this way, after the current battery to be welded is replaced, on the basis of the scheme switching interface on the human-computer interaction device, it is possible to switch to a welding scheme corresponding to the replaced current battery to be welded, and on the basis of the welding scheme, the replaced current battery to be welded is welded, thereby achieving the effect of flexible switching of schemes and solving the problem that related technologies can not achieve flexible switching of production compatible with various products; and after the target scheme to be uploaded is determined, an identifier of the target scheme to be uploaded can be displayed in the scheme uploading selection box, so that it is possible to confirm again whether the target scheme to be uploaded is correct, thereby reducing the problem of selecting the wrong scheme due to misoperation. It should be understood that the foregoing general descriptions and the following detailed descriptions are merely for illustration and explanation purposes and are not intended to limit the technical solutions of the present disclosure. DESCRIPTION OF DRAWINGSINGS The accompanying