CN108906663B

CN108906663B - Device for battery core sorting

Info

Publication number: CN108906663B
Application number: CN201810640803.1A
Authority: CN
Inventors: 游诚琦
Original assignee: Wenzhou Manxiwei Clothing Co ltd
Current assignee: Jiaxing Dingshan Information Technology Co.,Ltd.
Priority date: 2018-06-21
Filing date: 2018-06-21
Publication date: 2020-09-01
Anticipated expiration: 2038-06-21
Also published as: CN108906663A

Abstract

The invention discloses a device for sorting battery cells, which comprises a blanking part, an electrical property testing part, a sorting part and a material collecting part, and is characterized in that: the blanking part comprises a blanking hopper and a blanking conveying belt; the electrical property testing part comprises a base, a first probe and a second probe, wherein a battery positioning groove is formed in the base; the sorting part comprises a sorting conveyer belt, a plurality of limiting plates are circumferentially arranged on the outer side wall of the sorting conveyer belt at intervals, a material pushing assembly is arranged on one side of the sorting conveyer belt, and a plurality of sorting channels allowing a single battery cell to longitudinally pass through are arranged on the other side of the sorting conveyer belt at intervals; the part of gathering materials is including setting up in the terminal rotary column of separation passageway, and the equipartition has a plurality of electric core holding tanks on the periphery wall of rotary column, is provided with the passageway that gathers materials on the lateral wall of rotary column, and the end of the passageway that gathers materials is provided with the subassembly that gathers materials. The invention provides a device for sorting battery cores, which is used for finishing the sorting operation of the battery cores of lithium batteries and effectively improving the production efficiency.

Description

Device for battery core sorting

Technical Field

The invention relates to the field of lithium battery processing, in particular to a device for sorting battery cores.

Background

The quality of the battery cell has a direct relationship with the capacity of the battery cell, and the system capacity causes a short plate effect due to a certain low-capacity battery cell, namely, the overall capacity is reduced. For the same type of battery cell, the quality difference between the battery cells mainly comes from the filling amount of the active material of the battery cell, and if the filling amount is too much, the capacity of the battery cell is higher; if the filling amount is small, the capacity is low. If the consistency of the cell capacity is to be controlled, the control of the cell quality can be used as a detection means.

The consistency of the cell voltage and the internal resistance is poor, and the overall performance and the service life of the battery system are reduced according to the short plate effect of the battery. Therefore, the control of the voltage and the internal resistance of the battery core is necessary, most battery system manufacturers in the industry can control the voltage and the internal resistance of the battery core at present, but the quality, the size and the appearance of the pole column of the battery core are not controlled completely, all the measurements basically depend on manual measurement, the measurement error is large, and the efficiency is low.

Therefore, the traditional chinese patent publication No. CN 103594733a discloses an automatic separator for lithium battery cells, which includes a control unit, and a feeding mechanism, a code-spraying scanning mechanism, a testing mechanism, a separating part, a discharging mechanism and a conveying trough electrically connected to the control unit, wherein the feeding mechanism is located at the head end of the conveying trough, the testing mechanism is disposed on the conveying trough, the code-spraying scanning mechanism is disposed beside the conveying trough and between the feeding mechanism and the testing mechanism, the discharging mechanism and the testing mechanism are arranged side by side, the separating part is erected above the testing mechanism and the discharging mechanism, and the separating part correspondingly sucks up the lithium battery cells which are tested on the testing mechanism and places the lithium battery cells on a receiving trough corresponding to the discharging mechanism.

Disclosure of Invention

The invention aims to solve the technical problem of the prior art, and provides a device for sorting battery cores, which is used for finishing the sorting operation of the battery cores of lithium batteries and effectively improving the production efficiency.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a device for electric core is selected separately, includes blanking part, electrical property test section, selects separately part and the part of collecting, its characterized in that: the blanking part comprises a blanking hopper and a blanking conveyer belt arranged below the blanking hopper, wherein a blanking channel enabling a single battery cell to transversely pass through is formed at the lower part of the blanking hopper, a notch is formed in the blanking conveyer belt, a material limiting cylinder is arranged below the blanking conveyer belt, a swing rod is arranged at the notch, the middle part of the swing rod is hinged below the blanking conveyer belt, an arc part inserted into the notch is formed at the upper end of the swing rod, and the lower end of the swing rod is connected with a piston rod of the material limiting cylinder;

the electrical testing part is arranged on the blanking conveying belt and is positioned behind the gap, the electrical testing part comprises a base, a first probe, a second probe, a first probe seat and a second probe seat which are obliquely arranged, the first probe seat and the second probe seat are oppositely arranged on the base, the first probe is arranged on the first probe seat, the second probe is arranged on the second probe seat, a battery positioning groove is formed between the first probe seat and the second probe seat on the base, and a testing electromagnet is arranged below the battery positioning groove on the base;

the sorting part is arranged at the tail end of the blanking conveyer belt and comprises a sorting conveyer belt, the conveying directions of the blanking conveyer belt and the sorting conveyer belt are the same, a plurality of limiting plates are arranged at intervals in the circumferential direction of the outer side wall of the sorting conveyer belt, a limiting channel for a single electric core is formed between every two adjacent limiting plates, a material pushing assembly is arranged on one side of the sorting conveyer belt, a plurality of sorting channels allowing the single electric core to longitudinally pass through are arranged on the other side of the sorting conveyer belt at intervals, each material pushing assembly comprises a fixing plate opposite to the sorting channel, material pushing holes opposite to the sorting channels are formed in the fixing plates at intervals, a material pushing cylinder is arranged at each material pushing hole, and the output end of each material pushing cylinder;

the collecting part is arranged at the tail end of each sorting channel and comprises a rotating column arranged at the tail end of the sorting channel, a plurality of battery cell accommodating grooves are uniformly distributed on the peripheral wall of the rotating column, the end surface of the rotating column is opposite to the sorting channel, the side wall of the rotary column is provided with a material collecting channel, the end of the material collecting channel is provided with a material collecting assembly, the material collecting assembly comprises a material collecting platform arranged at the end of the material collecting channel, a material box frame vertically lifted and arranged on the material collecting platform, a material box placed on the side surface of the material box frame, a material limiting plate vertically arranged on the material collecting platform in a sliding manner, and a material blocking plate opposite to the outlet of the material collecting channel, a material pushing cylinder is arranged on the material collecting platform, the output end of the material pushing cylinder is provided with a material pushing plate opposite to the material limiting plate, the material blocking plate and the material pushing plate form a material collecting cavity with an opening facing the outlet of the material collecting channel, and.

As an improvement, the first probe is slidably disposed on the first probe seat, the second probe is slidably disposed on the second probe seat, when the lithium battery cell enters the battery positioning slot or rolls out of the battery positioning slot, the first probe retracts into the first probe seat, the second probe retracts into the second probe seat, and when an electrical test needs to be performed on the lithium battery cell, the first probe and the second probe extend out to be respectively in contact with the positive electrode and the negative electrode of the lithium battery cell.

Improve again, it is provided with the shell fragment to lie in battery positioning groove department on the base, when the test electro-magnet was got electric, the test electro-magnet had an appeal to the shell fragment, the elasticity of shell fragment is overcome to the appeal, make the shell fragment laminate in battery positioning groove, thus, make lithium cell electricity core can fall into the battery positioning groove, when the test electro-magnet loses electricity, the appeal of test electro-magnet to the shell fragment disappears, the shell fragment reconversion, be hunch-up state, at this moment, the lithium cell electricity core in the battery positioning groove can leave the battery positioning groove better under the effect of shell fragment and get into on the blanking conveyer belt.

And the blanking conveyer belt is improved, a baffle is arranged at the notch of the blanking conveyer belt, and the battery core is prevented from falling off by arranging the baffle.

And the discharging channel is further improved, a discharging window is formed in the side wall of the discharging channel, a rocker swinging up and down is arranged at the discharging window, the rocker swings up and down, the outer end of the rocker has an up-and-down stirring effect on the electric core in the discharging channel, so that the electric core in the discharging hopper can smoothly pass through the discharging channel, and the situation that the electric core is blocked in the discharging channel is prevented.

Improve again, breach department is provided with an oblique platform, and when electric core carried breach department, when the pendulum rod was in the state that rises, the arc portion outer wall on the pendulum rod had the effect of cutting off and blockking to electric core for electric core's the transport on the blanking conveyer belt stops, when the pendulum rod luffing down, arc portion upper end was at ordinary times with the blanking conveyer belt, and an electric core falls on the up end of arc portion, when the pendulum rod arc portion upswing next time, electric core on the arc portion up end just was pushed on the oblique platform, and fall into the opposite side of breach on the blanking conveyer belt along the oblique platform, realize the single transport of electric core.

Compared with the prior art, the invention has the advantages that: when the sorting operation is carried out on the lithium battery cores, the cores in the blanking hopper fall onto the blanking conveying belt through the blanking channel and are conveyed to the gap through the blanking conveying belt, the swing rod rises to block the cores, when the cores need to pass through, the limiting cylinder acts, the arc-shaped part of the swing rod rotates downwards to be flush with the blanking conveying belt, one core close to the swing rod falls onto the upper end face of the arc-shaped part of the swing rod, the limiting cylinder drives the arc-shaped part of the swing rod to rotate upwards again, the cores are fed into the electrical property testing part again along the inclined platform, then the cores enter the base of the electrical property testing part, meanwhile, the testing electromagnet on the base is electrified, so that the cores fall into the battery positioning groove along the inclined surface of the base, meanwhile, the first probe and the second probe act to collect the electrical parameters on the lithium battery cores in the, the controller records the electric parameter value of the lithium battery cell, after collection, the lithium battery cell moves to the separation conveyer belt, the cells fall into the spacing channels between the spacing plates one by one along with the rotation of the separation conveyer belt, the cells on the separation conveyer belt move towards the pushing component, when the cells move to the separation channel corresponding to the electric value of the cells, the corresponding pushing cylinder acts to push the cells into the corresponding separation channel, meanwhile, the cells with the same cell electric gear range in the corresponding separation channel are gathered at the rotary column, the cells enter the cell holding tank of the rotary column one by one, then rotate along with the rotary column, the cells on the separation channel fall onto the material collecting channel, so that each cell is changed from a single longitudinal arrangement mode to a transverse parallel arrangement mode, then, the cells fall into the material collecting cavity along the material collecting channel, when the counting sensor counts the set electric value, lithium cell electricity core is piled up and is expected the chamber, and the flitch descends, and the material pushing cylinder action, within the material box was pushed into with one row of lithium cell electricity core to the scraping wings, later, the material box followed a distance that the material box frame descends, waits for the push-in of next row of lithium cell electricity core, fills up until whole material box, and the material box frame is taking the overall rising of material box, takes out the material box of filling with lithium cell electricity core, later puts into empty material box, and like this, realized the sorting operation to lithium cell electricity core, effectively improved production efficiency.

Drawings

Fig. 1 is a schematic overall structural layout diagram of an apparatus for cell sorting according to an embodiment of the present invention;

FIG. 2 is a schematic view of the structure of the drop hopper of FIG. 1;

FIG. 3 is a schematic structural diagram of a swing link on the blanking conveying belt in the embodiment of the invention;

FIG. 4 is a schematic structural view of the electrical testing portion of FIG. 1;

FIG. 5 is a schematic view of the structure of a sorting section in an embodiment of the present invention;

FIG. 6 is a schematic structural view of a rotary column according to an embodiment of the present invention;

figure 7 is a schematic structural view of a collection assembly in an embodiment of the invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

As shown in fig. 1 to 7, the apparatus for cell sorting in this embodiment includes a blanking portion 1, an electrical property testing portion 2, a sorting portion 4, an aggregate portion, and a controller.

Wherein, the blanking part 1 comprises a blanking hopper 11 and a blanking conveyer belt 12 arranged below the blanking hopper 11, a blanking channel 111 for allowing a single cell 7 to pass through is formed at the lower part of the blanking hopper 11, a blanking window 112 is formed on the side wall of the blanking channel 111, a rocker 13 swinging up and down is arranged at the position of the blanking window 112, the rocker 13 swings up and down, the outer end of the rocker 13 has an up-and-down stirring effect on the cell 7 in the blanking channel 111, so that the cell 7 in the blanking hopper 11 can pass through the blanking channel 111 more smoothly, the blocking of the cell 7 in the blanking channel 111 is prevented, a notch is formed on the blanking conveyer belt 12, a baffle 121 is arranged at the notch of the blanking conveyer belt 12, the dropping of the cell 7 is prevented by arranging the baffle 121, a material limiting cylinder 31 is arranged below the blanking conveyer belt 12, a swing rod 32 is arranged at the notch, and the middle part of the swing rod, an arc part 321 inserted into the gap is formed at the upper end of the swing rod 32, and the lower end of the swing rod 32 is connected with the piston rod of the material limiting cylinder 31.

Further, the notch is provided with an oblique table 122, when the battery cell 7 is conveyed to the notch, when the swing rod 32 is in an ascending state, the outer wall of the arc-shaped portion 321 on the swing rod 32 has a cutting-off and blocking effect on the battery cell 7, so that the conveyance of the battery cell 7 on the blanking conveyer belt 12 is stopped, when the swing rod 32 swings downward, the upper end of the arc-shaped portion 321 is level with the blanking conveyer belt 12, one battery cell 7 falls on the upper end face of the arc-shaped portion 321, when the arc-shaped portion of the swing rod 32 swings upward next time, the battery cell 7 on the upper end face of the arc-shaped portion 321 is pushed onto the oblique table 122, and falls into the other side of the notch on the blanking conveyer belt 12 along the oblique table 122.

The electrical testing part 2 is arranged on the blanking conveying belt 12 and located behind the gap, the electrical testing part 2 comprises a base 21, a first probe 241, a second probe 242, a first probe seat 231 and a second probe seat 232 which are obliquely arranged, the first probe seat 231 and the second probe seat 232 are oppositely arranged on the base 21, the first probe 241 is arranged on the first probe seat 231, the second probe 242 is arranged on the second probe seat 232, a battery positioning groove 211 is arranged between the first probe seat 231 and the second probe seat 232 on the base 21, and a testing electromagnet 22 is arranged below the battery positioning groove 211 on the base 21.

Further, the first probe 241 is slidably disposed on the first probe seat 231, the second probe 242 is slidably disposed on the second probe seat 232, when the lithium battery cell 5 enters the battery positioning slot 211 or rolls out of the battery positioning slot 211, the first probe 241 retracts into the first probe seat 231, the second probe 242 retracts into the second probe seat 232, and when the electrical test of the lithium battery cell 5 is required, the first probe 241 and the second probe 242 extend out to respectively contact with the positive electrode and the negative electrode of the lithium battery cell 5.

In addition, it is provided with shell fragment 212 to lie in battery positioning groove 211 department on base 21, when test electro-magnet 22 got electric, test electro-magnet 22 had an appeal to shell fragment 212, the elasticity of shell fragment 212 is overcome to the appeal, make shell fragment 212 laminate in battery positioning groove 211, thus, make lithium battery electricity core 5 can fall into in battery positioning groove 211, when test electro-magnet 22 loses electricity, test electro-magnet 22 disappears to the appeal of shell fragment 212, shell fragment 212 reconversion, be the hunch-up state, at this moment, lithium battery electricity core 5 in the battery positioning groove 211 can leave battery positioning groove 211 better under the effect of shell fragment 212 and get into on the blanking conveyer belt 12.

The sorting part 4 is arranged at the tail end of the blanking conveyer belt 12, the sorting part 4 comprises a sorting conveyer belt 41, the conveying directions of the blanking conveyer belt 12 and the sorting conveyer belt 41 are the same, a plurality of limiting plates 411 are circumferentially arranged at intervals on the outer side wall of the sorting conveyer belt 41, a limiting channel 412 for a single electric core 7 is formed between every two adjacent limiting plates 411, a material pushing assembly is arranged on one side of the sorting conveyer belt 41, a plurality of sorting channels 42 allowing the single electric core 7 to longitudinally pass are arranged on the other side of the sorting conveyer belt 41 at intervals, the material pushing assembly comprises a fixing plate 43 opposite to the sorting channels 42, material pushing holes opposite to the sorting channels 42 are arranged on the fixing plate 43 at intervals, a material pushing cylinder 431 is arranged at each material pushing hole, and the output end of the material pushing cylinder 431 is;

the material collecting part is arranged at the tail end of each sorting channel 42, the material collecting part comprises a rotary column 5 arranged at the tail end of the sorting channel 42, a plurality of battery cell accommodating grooves 501 are uniformly distributed on the peripheral wall of the rotary column 5, the end surface of the rotary column 5 is opposite to the sorting channel 42, a material collecting channel 51 is arranged on the side wall of the rotary column 5, a material collecting component 6 is arranged at the tail end of the material collecting channel 51, the material collecting component 6 comprises a material collecting platform 61 arranged at the tail end of the material collecting channel 51, a material box frame 62 vertically arranged above the material collecting platform 61 in a lifting way, a material box 63 arranged on the side surface of the material box frame 62, a material limiting plate 64 vertically arranged above the material collecting platform 61 in a sliding way, and a material baffle plate 65 opposite to the outlet of the material collecting channel 51, a material pushing cylinder 66 is arranged on the material collecting platform 61, a material pushing plate 661 opposite to the material limiting plate 64 is arranged at the output end of the material pushing cylinder 66, a counting sensor 511 is provided at the outlet of the collecting channel 51.

When the lithium battery cell 7 is sorted, the cell 7 in the blanking hopper 11 falls onto the blanking conveyer belt 12 through the blanking channel 111 and is conveyed to the gap through the blanking conveyer belt 12, the swing rod 32 rises to block the cell 7, when the cell 7 is required to pass through, the material limiting cylinder 31 acts, the arc-shaped part 321 on the swing rod 32 rotates downwards to be flush with the blanking conveyer belt 12, one cell 7 close to the swing rod 32 falls onto the upper end face of the arc-shaped part 321 of the swing rod, the material limiting cylinder 31 drives the arc-shaped part 321 of the swing rod 32 to rotate upwards again, the cell 7 again falls onto the blanking conveyer belt 12 along the sloping platform 122, the cell 7 enters the electrical property testing part 2 singly, then the cell 7 enters the base 21 of the electrical property testing part 2, meanwhile, the testing electromagnet 22 on the base 21 is powered, so that the cell 7 falls into the battery positioning groove 211 along the sloping surface of, meanwhile, the first probe 241 and the second probe 242 act to collect the electrical parameters on the lithium battery cell 7 in the battery positioning slot 211, the controller records the electrical parameter values of the lithium battery cell 7, after the collection is completed, the lithium battery cell 7 moves to the separation conveyer belt 41, the cells 7 fall into the limiting channels 412 between the limiting plates 411 one by one along with the rotation of the separation conveyer belt 41, the cells 7 on the separation conveyer belt 41 move towards the pushing assembly, when the cells 7 move to the separation channel 42 corresponding to the electrical values of the cells, the corresponding material pushing cylinders 431 act to push the cells 7 into the corresponding separation channels 42, meanwhile, the cells with the same electrical gear range of the cells 7 in the corresponding separation channels 42 are gathered at the position of the rotary column 5, the cells 7 enter the cell holding slots 501 of the rotary column 5 one by one, then rotate along with the rotary column 5, and then the cells 7 on the separation channels 42 fall into the material collecting channels 51, each battery cell 7 is changed from a single longitudinal arrangement mode to a transverse parallel arrangement mode, then the battery cells 7 fall into the material collecting cavity 67 along the material collecting channel 51, when the counting sensor 511 measures the electricity to set a numerical value, the lithium battery cells 7 are fully stacked in the material collecting cavity 67, the material limiting plate 64 descends, the material pushing cylinder 66 acts, the material pushing plate 661 pushes one row of lithium battery cells 7 into the material box 63, then the material box 63 descends a distance along with the material box frame 62 to wait for the pushing of the next row of lithium battery cells 7 until the whole material box 63 is filled, the material box frame 62 takes the material box 63 to ascend integrally, the material box 63 filled with the lithium battery cells 7 is taken out, and then the empty material box 63 is put in, so that the sorting operation of the lithium battery cells 7 is realized, and the production efficiency is effectively improved.

Claims

1. The utility model provides a device for electric core is selected separately, includes blanking part (1), electrical property test section (2), selects separately part (4) and gathers materials part, its characterized in that: the blanking part (1) comprises a blanking hopper (11) and a blanking conveyer belt (12) arranged below the blanking hopper (11), wherein a blanking channel (111) enabling a single battery cell (7) to transversely pass through is formed at the lower part of the blanking hopper (11), a notch is formed in the blanking conveyer belt (12), a material limiting cylinder (31) is arranged below the blanking conveyer belt (12), a swing rod (32) is arranged at the notch, the middle part of the swing rod (32) is hinged below the blanking conveyer belt (12), an arc-shaped part (321) inserted into the notch is formed at the upper end of the swing rod (32), and the lower end of the swing rod (32) is connected with a piston rod of the material limiting cylinder (31);

the electric testing part (2) is arranged on the blanking conveying belt (12) and is positioned behind the gap, the electric testing part (2) comprises a base (21), a first probe (241), a second probe (242), a first probe seat (231) and a second probe seat (232) which are obliquely arranged, the first probe seat (231) and the second probe seat (232) are oppositely arranged on the base (21), the first probe (241) is arranged on the first probe seat (231), the second probe (242) is arranged on the second probe seat (232), a battery positioning groove (211) is formed in the base (21) and is positioned between the first probe seat (231) and the second probe seat (232), and a testing electromagnet (22) is arranged on the base (21) and is positioned below the battery positioning groove (211);

the sorting part (4) is arranged at the tail end of the blanking conveyer belt (12), the sorting part (4) comprises a sorting conveyer belt (41), the conveying directions of the blanking conveyer belt (12) and the sorting conveyer belt (41) are the same, a plurality of limiting plates (411) are arranged at intervals in the circumferential direction of the outer side wall of the sorting conveyer belt (41), a limiting channel (412) used for a single electric core (7) is formed between every two adjacent limiting plates (411), a material pushing assembly is arranged on one side of the sorting conveyer belt (41), a plurality of sorting channels (42) allowing the single electric core (7) to longitudinally pass through are arranged on the other side of the sorting conveyer belt (41) at intervals, the material pushing assembly comprises a fixing plate (43) opposite to the sorting channel (42), material pushing holes opposite to the sorting channels (42) are arranged on the fixing plate (43) at intervals, and a material pushing cylinder (431, the output end of the material pushing cylinder (431) is inserted into the corresponding material pushing hole;

the collecting part is arranged at the tail end of each sorting channel (42), the collecting part comprises a rotary column (5) arranged at the tail end of the sorting channel (42), a plurality of battery cell accommodating grooves (501) are uniformly distributed on the peripheral wall of the rotary column (5), the end face of the rotary column (5) is opposite to the sorting channel (42), a collecting channel (51) is arranged on the side wall of the rotary column (5), a collecting component (6) is arranged at the tail end of the collecting channel (51), the collecting component (6) comprises a collecting platform (61) arranged at the tail end of the collecting channel (51), a material box frame (62) vertically arranged above the collecting platform (61), a material box (63) arranged on the side face of the material box frame (62), a material limiting plate (64) vertically arranged above the collecting platform (61) in a sliding manner, and a material blocking plate (65) opposite to an outlet of the collecting channel (51), and a material pushing cylinder (66) is arranged on the collecting platform (61, the output end of the material pushing cylinder (66) is provided with a material pushing plate (661) opposite to the material limiting plate (64), the material stopping plate (65) and the material pushing plate (661) form a material collecting cavity (67) with an opening facing the outlet of the material collecting channel (51), and the outlet of the material collecting channel (51) is provided with a counting inductor (511);

the first probe (241) is slidably disposed on the first probe seat (231), and the second probe (242) is slidably disposed on the second probe seat (232);

an elastic sheet (212) is arranged on the base (21) and positioned at the battery positioning groove (211);

an inclined platform (122) is arranged at the gap.

2. The apparatus for cell sorting of claim 1, wherein: and a baffle (121) is arranged at the gap of the blanking conveying belt (12).

3. The apparatus for cell sorting of claim 1, wherein: the side wall of the blanking channel (111) is provided with a blanking window (112), and a rocker (13) which swings up and down is arranged at the blanking window (112).