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CN-117963438-B - Stacking method and device of photovoltaic module, computer equipment and storage medium

CN117963438BCN 117963438 BCN117963438 BCN 117963438BCN-117963438-B

Abstract

The application relates to a stacking method, a stacking device, computer equipment and a storage medium of a photovoltaic module, which comprise the steps of determining the capacity state of a stack module to be replaced in a plurality of stack modules, wherein each stack module is used for storing the photovoltaic module to be processed of a corresponding processing module, and under the condition that the capacity state is in an abnormal state, carrying out position exchange on a target stack module meeting a preset replacement condition and the stack module to be replaced, wherein the target stack module comprises any stack module except the stack module to be replaced in the plurality of stack modules. And further, the target stack module in the normal state is called to replace the stack module to be replaced in the abnormal state, so that the stack module to be replaced cannot influence the production takt and the productivity due to the abnormal capacity state, and the balance of the operation among all the processing modules is ensured, so that the productivity and the working efficiency are improved.

Inventors

  • CHEN WEI
  • LI ZHEN

Assignees

  • 通威太阳能(盐城)有限公司

Dates

Publication Date
20260505
Application Date
20240122

Claims (8)

  1. 1. A method of stacking photovoltaic modules, comprising: Determining the capacity state of a stack module to be replaced in a plurality of stack modules, wherein each stack module is used for storing a photovoltaic module to be processed by a corresponding processing module; under the condition that the capacity state is in an abnormal state, carrying out position exchange on a target stack module meeting a preset replacement condition and the stack module to be replaced, wherein the target stack module comprises any stack module except the stack module to be replaced in the stack modules; the processing module cascade connection is configured, and the determining the capacity state of the stack module to be replaced in the stack modules includes: acquiring a first production quantity of a previous-stage processing module adjacent to a current processing module, and acquiring a second production quantity of a next-stage processing module adjacent to the current processing module, wherein the current processing module corresponds to the module to be replaced; determining a capacity state of the stack module to be replaced according to the first stack quantity of the stack module to be replaced and a comparison result of the first production quantity and the second production quantity; and under the condition that the capacity state is in an abnormal state, performing position exchange on the target stack module meeting the preset replacement condition and the stack module to be replaced, wherein the method comprises the following steps: Determining a candidate stack module as the target stack module when the first state information of the candidate stack module is larger than the second state information of the remaining stack modules in a plurality of stack modules except the stack module to be replaced; The first status information is a difference between a second stack number of the candidate stack module and a first stack number of the stack module to be replaced, and the second status information is a difference between a third stack number of the remaining stack modules and the first stack number of the stack module to be replaced.
  2. 2. The method of stacking photovoltaic modules according to claim 1, wherein the abnormal state includes a full state, and the determining the capacity state of the stack module to be replaced according to the first stack number of the stack module to be replaced and the comparison result of the first production number and the second production number includes: When the first stack number of the stack modules to be replaced is larger than or equal to a first preset value, judging that the capacity state of the stack modules to be replaced is in the full state when the first production number is larger than the second production number; and under the condition that the first stack quantity of the stack modules to be replaced is larger than or equal to a first preset value, when the first production quantity is smaller than the second production quantity, judging that the capacity state of the stack modules to be replaced is in a normal state.
  3. 3. The method of stacking photovoltaic modules according to claim 1, wherein the abnormal state includes an idle state, and the determining the capacity state of the stack module to be replaced according to the first stack number of the stack module to be replaced and the comparison result of the first production number and the second production number includes: When the first production quantity is larger than the second production quantity under the condition that the first stack quantity of the stack modules to be replaced is smaller than or equal to a second preset value, judging that the capacity state of the stack modules to be replaced is in a normal state; and under the condition that the first stack number of the stack modules to be replaced is smaller than or equal to the second preset value, when the first production number is smaller than the second production number, judging that the capacity state of the stack modules to be replaced is in the idle state.
  4. 4. The method of stacking photovoltaic modules according to claim 1, wherein when the number of the candidate stack modules is plural, among the plurality of stack modules other than the stack module to be replaced, when the first state information of the candidate stack module is larger than the second state information of the remaining stack modules, determining the candidate stack module as the target stack module includes: determining any candidate stack module as the target stack module under the condition that the comparison result of the third state information and the fourth state information of the any candidate stack module meets a preset comparison condition; The third state information is the third production quantity of the upper-stage processing modules adjacent to the processing module corresponding to any one of the candidate stack modules, and the fourth state information is the fourth production quantity of the lower-stage processing modules adjacent to the processing module corresponding to any one of the candidate stack modules.
  5. 5. The method according to claim 4, wherein the preset contrast condition includes that the third state information is smaller than the fourth state information in a case that the capacity state is in a full state, and The third state information is greater than the fourth state information in the case where the capacity state is in an idle state.
  6. 6. A photovoltaic module stacking apparatus, comprising: A plurality of the stack modules are arranged in a stack, each stack module is used for storing the photovoltaic modules to be processed by the corresponding processing module; The determining module is used for determining the capacity state of a stack module to be replaced in the plurality of stack modules; the mobile module is used for carrying out position exchange on a target stack module meeting a preset replacement condition and the stack module to be replaced under the condition that the capacity state is in an abnormal state, wherein the target stack module comprises any stack module except the stack module to be replaced in the stack modules; The system comprises a plurality of processing modules, a determining module, a stacking module, a first production quantity determining module, a second production quantity determining module and a stacking module, wherein the plurality of processing modules are arranged in cascade, the determining module is also used for obtaining a first production quantity of a previous processing module adjacent to a current processing module and obtaining a second production quantity of a next processing module adjacent to the current processing module, the current processing module corresponds to the stacking module to be replaced; The mobile module is further configured to determine, among a plurality of stack modules other than the stack module to be replaced, the candidate stack module as the target stack module when the first state information of the candidate stack module is greater than the second state information of the remaining stack modules; The first status information is a difference between a second stack number of the candidate stack module and a first stack number of the stack module to be replaced, and the second status information is a difference between a third stack number of the remaining stack modules and the first stack number of the stack module to be replaced.
  7. 7. A computer device comprising a memory and a processor, the memory storing a computer program, characterized in that the processor implements the steps of the method of any one of claims 1 to 5 when the computer program is executed.
  8. 8. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method according to any one of claims 1 to 5.

Description

Stacking method and device of photovoltaic module, computer equipment and storage medium Technical Field The present application relates to the field of photovoltaic technologies, and in particular, to a stacking method and apparatus for a photovoltaic module, a computer device, and a storage medium. Background In the manufacturing process of the photovoltaic module, in order to keep equal production rhythm between the upstream production line and the downstream production line, the stack equipment can be utilized to temporarily store redundant production of the production line so as to ensure normal circulation among the production lines. However, when the capacity of the stacking apparatus is fully stacked, the surplus capacity on the corresponding production line cannot be stored, or when the capacity of the stacking apparatus is zero, the upstream of the corresponding production line is abnormal, which results in downstream line stop, so that the capacity of the stacking apparatus is easy to affect the normal operation of the manufacturing process, resulting in reduced capacity and working efficiency. Disclosure of Invention Based on this, it is necessary to provide a stacking method, apparatus, computer device and storage medium for photovoltaic modules, which solve the problem that the capacity of the stacking device in the prior art is liable to affect the normal operation of the manufacturing process, resulting in reduced productivity and working efficiency. In order to achieve the above object, the present application provides a stacking method of a photovoltaic module, including: Determining the capacity state of a stack module to be replaced in a plurality of stack modules, wherein each stack module is used for storing a photovoltaic module to be processed by a corresponding processing module; And under the condition that the capacity state is in an abnormal state, performing position exchange on the target stack module meeting the preset replacement condition and the stack module to be replaced, wherein the target stack module comprises any stack module except the stack module to be replaced in the stack modules. In one embodiment, a plurality of the processing modules are configured in cascade, and the determining the capacity status of the stack module to be replaced in the plurality of stack modules includes: acquiring a first production quantity of a previous-stage processing module adjacent to a current processing module, and acquiring a second production quantity of a next-stage processing module adjacent to the current processing module, wherein the current processing module corresponds to the module to be replaced; and determining the capacity state of the stack module to be replaced according to the first stack quantity of the stack module to be replaced and the comparison result of the first production quantity and the second production quantity. In one embodiment, the abnormal state includes a full state, and the determining, according to the first stack number of the stack module to be replaced and a comparison result of the first production number and the second production number, the capacity state of the stack module to be replaced includes: When the first stack number of the stack modules to be replaced is larger than or equal to a first preset value, judging that the capacity state of the stack modules to be replaced is in the full state when the first production number is larger than the second production number; and under the condition that the first stack quantity of the stack modules to be replaced is larger than or equal to a first preset value, when the first production quantity is smaller than the second production quantity, judging that the capacity state of the stack modules to be replaced is in a normal state. In one embodiment, the abnormal state includes an idle state, and the determining the capacity state of the stack module to be replaced according to the first stack number of the stack module to be replaced and the comparison result of the first production number and the second production number includes: When the first production quantity is larger than the second production quantity under the condition that the first stack quantity of the stack modules to be replaced is smaller than or equal to a second preset value, judging that the capacity state of the stack modules to be replaced is in a normal state; and under the condition that the first stack number of the stack modules to be replaced is smaller than or equal to the second preset value, when the first production number is smaller than the second production number, judging that the capacity state of the stack modules to be replaced is in the idle state. In one embodiment, the performing, when the capacity state is in an abnormal state, the position exchange between the target stack module and the stack module to be replaced, where the target stack module and the stack module to be replaced meet a preset r