CN111215346A - Intelligent cell prediction sorting system and sorting method - Google Patents

Abstract

The invention discloses an intelligent cell predicting and sorting system in the technical field of lithium battery manufacturing, which comprises a conveying module, the conveying module is electrically connected with a central processing unit, the central processing unit is respectively electrically connected with the feeding and discharging module, the detecting module, the fixing module, the classification module and the positioning module, the central processor is electrically connected with the display module, the sequential arrangement module and the control module in output, the control module is electrically connected with the hydraulic rod in output, the sequential arrangement module is electrically output and connected with the display module, the battery cell is detected by the detection module, the battery cores are graded through the classification module, the battery cores are automatically classified into corresponding areas, thereby automatically, select separately electric core, increase the efficiency that electric core was selected separately, also increase the quality that electric core was selected separately, reduce the error, guarantee the life of lithium cell group.

Description

Intelligent cell prediction sorting system and sorting method

Technical Field

The invention relates to the technical field of lithium battery manufacturing, in particular to an intelligent cell predicting and sorting system and a sorting method.

Background

The lithium cell is a neotype energy storage equipment, and current lithium cell need be selected separately to electric core at the in-process of making to guarantee that the difference between each monomer is little behind the lithium cell combination, ensure the life of lithium cell group, however current mode generally detects the selection to electric core through the manual work, and the efficiency that leads to electric core to select separately is relatively poor, for this reason, we propose electric core intelligence foreknowledge and select separately system and sorting method.

Disclosure of Invention

The invention aims to provide an intelligent cell forecasting and sorting system and a sorting method, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: battery cell intelligence foresees sorting system, including transport module, transport module electrical output connects central processing unit, central processing unit electric input connection goes up unloading module, detection module, fixed module, categorised division module and orientation module respectively, central processing unit electrical output connects display module, sequence arrangement module and control module, control module electrical output connects the hydraulic stem, sequence arrangement module electrical output connects display module.

Preferably, the detection module comprises a resistance detection module, the resistance detection module is electrically output and connected with the identification module, the identification module is respectively electrically input and connected with the voltage detection module and the capacitance detection module, and the identification module is electrically output and connected with the information transmission module.

Preferably, the positioning module comprises a scanning module, and the scanning module electrically outputs a connecting instruction and issues a module.

Preferably, the central processing unit is electrically connected with the query module in input and the storage module in output.

Preferably, the classification module is electrically connected to the editing module, and the editing module includes a classification information editing unit.

Preferably, the sorting method of the intelligent cell forecasting and sorting system includes the following steps:

s1: placing a battery cell at equipment, inputting the battery cell into a preset area through a conveying module, loading the battery cell through a loading and unloading module, fixing the battery cell by a fixing module, carrying out electrical test on the battery cell through a resistance detection module, a voltage detection module and a capacitance detection module in the detection module, obtaining electrical parameters of the battery cell, loosening the battery cell by the fixing module, unloading the battery cell by the loading and unloading module, and repeatedly detecting the electrical parameters of other battery cells;

s2: the detected electric core is conveyed to a classification area by a conveying module, the electric parameters of the electric core are matched with the data in the classification module, and the grade of the electric core is classified;

s3: after the positioning module detects that the battery core moves to the preset area, the control module controls the corresponding hydraulic rod to work, the battery core is pushed into the corresponding collecting box, and the battery core is sorted through repeated operation.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the battery cell is detected through the detection module, the battery cell is graded through the classification and division module, and the battery cell is automatically divided into corresponding areas, so that the battery cell is automatically sorted, the sorting efficiency of the battery cell is increased, the sorting quality of the battery cell is also increased, the error is reduced, and the service life of the lithium battery pack is ensured.

Drawings

FIG. 1 is a schematic diagram of the present invention;

FIG. 2 is a schematic block diagram of a detection module of the present invention;

fig. 3 is a schematic block diagram of a positioning module of the present invention.

In the figure: 1. a delivery module; 2. a central processing unit; 3. a feeding and discharging module; 4. a detection module; 41. a resistance detection module; 42. a voltage detection module; 43. a capacitance detection module; 44. an identification module; 45. an information transmission module; 5. a fixed module; 6. a classification and division module; 7. a positioning module; 71. a scanning module; 72. an instruction issuing module; 8. an editing module; 9. a query module; 10. a storage module; 11. a display module; 12. a sequential arrangement module; 13. a control module; 14. a hydraulic rod.

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.

The invention provides a technical scheme that: referring to fig. 1, the battery cell intelligent prediction sorting system includes a conveying module 1, where the conveying module 1 is a conveyor belt and is used for conveying battery cells;

referring to fig. 1, the conveying module 1 is electrically connected to the cpu 2, the cpu 2 is electrically connected to the loading/unloading module 3, the detecting module 4, the fixing module 5, the classifying and dividing module 6, and the positioning module 7, the loading/unloading module 3 is used for moving the battery cell, the fixing module 5 is a clamp used for fixing the battery cell and ensuring that the battery cell does not move during detection, the classification module 6 records data of classification of electrical parameters of the battery cell, the data generated by the battery cell detection is compared with the data in the classification module 6, the battery cores are graded and sorted, the positioning module 7 is used for detecting the transmission position of the battery cores and ensuring that the battery cores can be moved into corresponding collection boxes, the battery cores are automatically sorted, so that the quality of sorting the battery cores is ensured, and the quality of sorting the battery cores is also improved;

referring to fig. 1, a central processing unit 2 is electrically connected to a display module 11, a sequence arrangement module 12 and a control module 13, the display module 11 is configured to display detected data information, the sequence arrangement module 12 sequences detected electrical parameters of the battery cells according to their sizes, so that the battery cells can be conveniently observed, the control module 13 is electrically connected to a hydraulic rod 14, the hydraulic rod 14 at a corresponding position is controlled by the control module 13 to operate, so that the battery cells are pushed into a collection box by the hydraulic rod 14, the sequence arrangement module 12 is electrically connected to the display module 11, and electric devices related to the apparatus are electrically connected to an external power switch through wires;

referring to fig. 2, the detection module 4 includes a resistance detection module 41, the resistance detection module 41 is electrically connected to an identification module 44, the resistance detection module 41, the voltage detection module 42 and the capacitance detection module 43 detect the resistance, the voltage and the capacitance of the battery cell, and then after being identified by the identification module 44, the information is transmitted to the central processing unit 2 through the information transmission module 45, the central processing unit 2 processes the detected data information for grading the detected battery cell, the identification module 44 is electrically connected to the voltage detection module 42 and the capacitance detection module 43 respectively, and the identification module 44 is electrically connected to the information transmission module 45;

referring to fig. 3, the positioning module 7 includes a scanning module 71, the scanning module 71 electrically outputs and is connected with an instruction issuing module 72, the scanning module 71 is configured to scan the position of the battery cell, and after the battery cell reaches the corresponding region, the instruction issuing module 72 issues an instruction to the control module 13 to operate the hydraulic rod 14, so as to ensure the accuracy of battery cell sorting, ensure that the difference between the individual cells in the lithium battery pack is not large, avoid the damage to the battery due to the uneven real-time voltage distribution of the individual cells, and ensure the service life of the lithium battery pack;

referring to fig. 1, a central processing unit 2 is electrically connected to an inquiry module 9, a central processing unit 2 is electrically connected to a storage module 10, and the storage module 10 stores detected information, so that a worker can search for information through the inquiry module 9, and the information is used for checking the sorting quality and increasing the precision of cell sorting;

referring to fig. 1, the classification module 6 is electrically connected to the editing module 8, and the editing module 8 includes a classification information editing unit, and the editing module 8 edits or modifies data in the classification module 6, so as to ensure that the sorting level of the battery cells can be adjusted according to requirements, thereby increasing the using effect of the device.

The sorting method of the intelligent cell prediction sorting system comprises the following steps:

s1: placing a battery cell at equipment, inputting the battery cell into a preset area through a conveying module 1, loading the battery cell through a loading and unloading module 3, fixing the battery cell by a fixing module 5, performing an electrical test on the battery cell through a resistance detection module 41, a voltage detection module 42 and a capacitance detection module 43 in a detection module 4, obtaining an electrical parameter of the battery cell, loosening the battery cell by the fixing module 5, unloading the battery cell by the loading and unloading module 3, and repeatedly detecting the electrical parameters of other battery cells;

s2: the detected electric core is conveyed to a classification area by the conveying module 1, the electric parameters of the electric core are matched with the data in the classification module 6, and the grade of the electric core is classified;

s3: after the positioning module 7 detects that the battery core moves to the predetermined area, the control module 13 controls the corresponding hydraulic rod 14 to work, the battery core is pushed into the corresponding collection box, and the battery core is sorted by repeated operation.

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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Electric core intelligence is foreseen and is selected separately system, including transport module (1), its characterized in that: conveying module (1) electrical output connects central processing unit (2), central processing unit (2) electric input connection goes up unloading module (3), detection module (4), fixed module (5), categorised division module (6) and orientation module (7) respectively, central processing unit (2) electrical output connects display module (11), arranges module (12) and control module (13) in proper order, control module (13) electrical output connects hydraulic stem (14), arrange module (12) electrical output connection display module (11) in proper order.

2. The intelligent cell forecasting and sorting system of claim 1, wherein: the detection module (4) comprises a resistance detection module (41), the resistance detection module (41) is electrically output and connected with an identification module (44), the identification module (44) is respectively electrically input and connected with a voltage detection module (42) and a capacitance detection module (43), and the identification module (44) is electrically output and connected with an information transmission module (45).

3. The intelligent cell forecasting and sorting system of claim 1, wherein: the positioning module (7) comprises a scanning module (71), and the scanning module (71) is electrically connected with an instruction issuing module (72) in an output mode.

4. The intelligent cell forecasting and sorting system of claim 1, wherein: the electrical input of the central processing unit (2) is connected with the query module (9), and the electrical output of the central processing unit (2) is connected with the storage module (10).

5. The intelligent cell forecasting and sorting system of claim 1, wherein: the classification and division module (6) is electrically input and connected with the editing module (8), and the editing module (8) comprises a classification information editing unit.

6. The sorting method of the intelligent cell pre-known sorting system according to any one of claims 1 to 5, wherein: the method comprises the following steps:

s1: placing an electric core at equipment, inputting the electric core into a preset area through a conveying module (1), feeding the electric core through a feeding and discharging module (3), fixing the electric core through a fixing module (5), performing an electrical test on the electric core through a resistance detection module (41), a voltage detection module (42) and a capacitance detection module (43) in a detection module (4), obtaining electrical parameters of the electric core, loosening the electric core through the fixing module (5), discharging the electric core through the feeding and discharging module (3), and detecting the electrical parameters of other electric cores through repeated operation;

s2: the detected electric core is conveyed to a classification area by a conveying module (1), the electric parameters of the electric core are matched with the data in a classification module (6), and the grade of the electric core is classified;

s3: after the positioning module (7) detects that the battery core moves to a preset area, the control module (13) controls the corresponding hydraulic rod (14) to work, the battery core is pushed into the corresponding collection box, and the battery core is sorted through repeated operation.

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