CN218223601U - Cylindrical battery sorting facilities of general type - Google Patents

Abstract

The utility model discloses a universal cylindrical battery sorting device, which comprises a machine table, wherein a conveyor belt is arranged above the machine table; the battery cell feeding device comprises a feeding mechanism, a conveying belt and a battery cell conveying mechanism, wherein the feeding mechanism is arranged on one side of the conveying belt and is positioned above the conveying belt, and the feeding mechanism feeds a battery cell in a horizontal state; the detection mechanism is positioned between the feeding mechanism and the conveyor belt and is used for detecting the battery cell put by the feeding mechanism; sorting mechanism, sorting mechanism sets up in the board top, just sorting mechanism corresponds the conveyer belt setting, sorting mechanism is used for sorting the electric core on the conveyer belt. The utility model provides a cylinder battery sorting facilities of general type can detect every electric core, selects out the electric core that corresponds the group according to the result branch of detecting.

Description

Cylindrical battery sorting facilities of general type

Technical Field

The utility model relates to an electricity core check out test set technical field especially relates to a cylinder battery sorting facilities of general type.

Background

The lithium battery industry is along with the demand of fields such as new energy automobile, garden instrument, electric tool, ups reserve power to the lithium electricity promotes fast, also is more and more strict to the requirement of technology and life, has also promoted the standardized execution of industry.

The same cylinder lithium electricity technology also improves constantly, and the battery package type that market required also is different, and battery package technology also is constantly progressing, and is also more and more high to the requirement of the precision and the error of electric core, especially in a set of group battery, the electric core that adopts need keep better uniformity, and the lithium cell uniformity indicates: the consistency of initial performance indicators for grouped individual cells includes: capacity, impedance, electrical characteristics of the electrodes, electrical connections, temperature characteristics, decay rate, etc., and the plurality of strings of cells within the same battery, each parameter, preferably all within a small range, maintains good consistency. Therefore, before assembling the battery pack, each battery cell needs to be detected first, and the battery cells with the initial performance indexes closer to each other are sorted out.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cylinder battery sorting facilities of general type can detect every electric core, selects out the electric core that corresponds the group according to the result that detects.

The utility model discloses a cylindrical battery sorting facilities of general type adopts technical scheme is:

a universal cylindrical battery sorting device comprises a machine table, wherein a conveyor belt is arranged above the machine table;

the battery cell feeding device comprises a feeding mechanism, a conveying belt and a feeding mechanism, wherein the feeding mechanism is arranged on one side of the conveying belt and is positioned above the conveying belt, and the feeding mechanism is used for feeding a battery cell in a horizontal state;

the detection mechanism is positioned between the feeding mechanism and the conveyor belt and used for detecting a battery cell put by the feeding mechanism, the detection mechanism comprises a detection channel, two first material blocking cylinders, a second material blocking cylinder and two groups of detection probes, the detection channel is arranged below the feeding mechanism and positioned above the conveyor belt, the two first material blocking cylinders are oppositely arranged on two sides of the detection channel and used for clamping the battery cell in the detection channel, the second material blocking cylinder is arranged below the first material blocking cylinders, a material blocking block is arranged on an output rod of the second material blocking cylinder and moved into the detection channel through the second material blocking cylinders, the two groups of detection probes are correspondingly arranged on two sides of the detection channel, the detection probes are positioned between the material blocking block and the first material blocking cylinders, and the detection probes are used for detecting the positive and negative poles of the battery cell;

sorting mechanism, sorting mechanism sets up in the board top, just sorting mechanism corresponds the conveyer belt setting, sorting mechanism is used for sorting the electric core on the conveyer belt.

As preferred scheme, feed mechanism is including the hopper that is used for placing electric core, and electric core is in become the level in the hopper and place, the hopper below is equipped with the discharge gate, the hopper bottom surface sets up towards discharge gate one side downward sloping, the discharge gate is equipped with the runner, hopper one side is equipped with the material loading motor, material loading motor and runner fixed connection, the runner surface is equipped with a plurality of recess, the recess encircles the setting along the runner axle center, the discharge gate below is equipped with the dog, the dog is located runner one side, the dog is close to runner one side and runner looks adaptation, just the runner below is equipped with the deflector, the deflector is tangent with the dog surface, the deflector is kept away from dog one end and is located detection channel one side.

As a preferred scheme, one side of the detection channel, which is far away from the guide plate, is provided with an external feeding channel, the external feeding channel is obliquely arranged towards the detection channel, and the external feeding channel, the guide plate and the detection channel form a Y-shaped structure.

As a preferable scheme, the vertical section of the material blocking block is of a triangular structure, and one surface of the material blocking block, which faces the detection channel, is of an inclined plane structure.

Preferably, the detection mechanism further comprises two groups of probe cylinders and two connecting plates, the probe cylinders are fixed on two sides of the detection channel, and an output shaft of each probe cylinder is fixedly connected with the detection probe through the connecting plates.

As preferred scheme, sorting mechanism includes a plurality of silo and a plurality of separation cylinder, a plurality of the silo is arranged along conveyer belt direction of motion and is set up, just the silo sets up in the conveyer belt both sides with separation cylinder correspondence, just silo one end flushes with the conveyer belt surface, the separation cylinder is located the conveyer belt top.

Preferably, the trough is inclined, and the end of the trough, which is far away from the conveyor belt, is inclined downwards.

As a preferred scheme, the sorting mechanism further comprises a full material sensor, a plurality of through detection holes are formed in the side wall of one end, close to the conveyor belt, of the trough, the detection holes of the trough are located on the same axis, and the full material sensor is correspondingly arranged in the detection holes of the troughs on the two sides.

As a preferred scheme, a plurality of baffle plates are arranged on the surface of the conveying belt and arranged at the same interval.

The utility model discloses a cylindrical battery sorting facilities of general type's beneficial effect is: the battery cell is horizontally thrown into a detection channel of the detection mechanism by the feeding mechanism, the material blocking block is pushed by the second material blocking cylinder to move to the inside of the detection channel so as to limit the falling of the battery cell in the detection channel, and two groups of first material blocking cylinders above the second material blocking cylinder move towards the mutually approaching direction so as to clamp and fix the battery cell between the two first material blocking cylinders and also achieve the purpose of limiting the sliding of the battery cell along the detection channel, the battery cell on the material blocking block can be detected by the detection probes at two sides of the detection channel, after the detection of the battery cell is finished, the second material blocking cylinder drives the material blocking block to move out of the detection channel, the first material blocking cylinders keep the clamping state, so that the battery cell which is detected on the material blocking block falls onto a conveyor belt, transmit to sorting mechanism through the conveyer belt, carry out the grouping that corresponds according to the data that detect, and electric core after dropping, keep off the material piece and get back to the test passage again under the drive of second fender material cylinder, at this moment, first fender material cylinder moves towards the direction of keeping away from each other, loosen the electric core of centre gripping, make electric core whereabouts to keep off the material piece top, first fender material cylinder moves again, keep the state of centre gripping, so reciprocal, make the regular and controllable whereabouts of electric core detect, and make the regular transmission of arranging of electric core on the conveyer belt, be convenient for sorting of follow-up sorting mechanism, thereby every electric core that can feed mechanism put in detects, and select out the other electric core of corresponding group according to the result branch that detects.

Drawings

Fig. 1 is a schematic structural diagram of a general cylindrical battery sorting device of the present invention.

Fig. 2 is the utility model discloses a cylindrical battery sorting facilities's of general type feed mechanism structure sketch map.

Fig. 3 is the utility model discloses a detection mechanism structure sketch map of cylinder battery sorting facilities of general type.

Fig. 4 is the utility model discloses a sorting mechanism structure sketch map of cylinder battery sorting facilities of general type.

Detailed Description

The invention will be further elucidated and described with reference to the following embodiments and drawings in which:

referring to fig. 1, a general cylindrical battery sorting apparatus includes a machine 10, and a conveyor belt 11 is disposed above the machine 10. Feed mechanism 20, feed mechanism 20 sets up in conveyer belt 11 one side, and feed mechanism 20 is located conveyer belt 11 top, and feed mechanism 20 puts in the horizontal state of electric core.

Referring to fig. 3, the detecting mechanism 30 is located between the feeding mechanism 20 and the conveyor belt 11, the detecting mechanism 30 is used for detecting the battery cell thrown by the feeding mechanism 20, the detecting mechanism 30 includes a detecting channel 31, two first material blocking cylinders 32, a second material blocking cylinder 33 and two groups of detecting probes 34, the detecting channel 31 is disposed below the feeding mechanism 20, the detecting channel 31 is located above the conveyor belt 11, the two first material blocking cylinders 32 are disposed on two sides of the detecting channel 31, and the first material blocking cylinders 32 are used for clamping the battery cell in the detecting channel 31.

The second material blocking cylinder 33 is arranged below the first material blocking cylinder 32, the material blocking block 35 is arranged on an output rod of the second material blocking cylinder 33, the material blocking block 35 moves into the detection channel 31 through the second material blocking cylinder 33, the two groups of detection probes 34 are correspondingly arranged on two sides of the detection channel 31, the detection probes 34 are located between the material blocking block 35 and the first material blocking cylinder 32, and the detection probes 34 are used for detecting the positive and negative poles of the battery cell.

Sorting mechanism 40, sorting mechanism 40 set up in board 10 top, and sorting mechanism 40 corresponds conveyer belt 11 and sets up, and sorting mechanism 40 is used for sorting out the electric core on the conveyer belt 11.

The battery cell is thrown to the detection channel 31 of the detection mechanism 30 in a horizontal state through the feeding mechanism 20, the material blocking block 35 is pushed by the second material blocking air cylinder 33 and moves to the inside of the detection channel 31, so that the battery cell in the detection channel 31 is limited to fall, two groups of first material blocking air cylinders 32 above the second material blocking air cylinder 33 move towards the mutual approaching direction, the battery cell between the two first material blocking air cylinders 32 is clamped and fixed, the purpose of limiting the battery cell to slide along the detection channel 31 is achieved, and the battery cell on the material blocking block 35 can be detected through the detection probes 34 on two sides of the detection channel 31.

After electric core detection is finished, the second material blocking cylinder 33 drives the material blocking block 35 to move out of the detection channel 31, and the first material blocking cylinder 32 keeps the clamping state, so that the electric core which is detected on the material blocking block 35 falls onto the conveyor belt 11, the electric core is transmitted to the sorting mechanism 40 through the conveyor belt 11, and corresponding grouping is carried out according to the detected data.

And electric core is after dropping, keep off material block 35 and get back to in the test channel 31 again under the drive of second fender material cylinder 33, at this moment, first fender material cylinder 32 moves towards the direction of keeping away from each other, loosen the electric core of centre gripping, make electric core whereabouts to keep off material block 35 top, first fender material cylinder 32 moves again, keep the state of centre gripping, so reciprocal, make the regular and controllable whereabouts of electric core detect, and make arranging the transmission of the regular electric core on the conveyer belt 11, be convenient for the sorting of follow-up sorting mechanism 40, thereby every electric core that can feed mechanism 20 put in detects, and select out the electric core that corresponds the group and distinguish according to the result branch that detects.

Referring to fig. 2, in the above scheme, the feeding mechanism 20 includes a hopper 21 for placing the battery cells, the battery cells are horizontally placed in the hopper 21, a discharge hole 211 is formed below the hopper 21, and a bottom surface of the hopper 21 is inclined downward toward one side of the discharge hole 211, so that the battery cells in the hopper 21 are gathered to the position of the discharge hole 211.

And discharge gate 211 is equipped with runner 22, hopper 21 one side is equipped with material loading motor 23, material loading motor 23 and runner 22 fixed connection, runner 22 surface is equipped with a plurality of recess 221, recess 221 encircles along runner 22 axle center and sets up, discharge gate 211 below is equipped with dog 24, dog 24 is located runner 22 one side, dog 24 is close to runner 22 one side and runner 22 looks adaptation, and runner 22 below is equipped with deflector 25, deflector 25 is tangent with dog 24 surface, deflector 25 keeps away from dog 24 one end and is located detection channel 31 one side.

Thereby the electric core of discharge gate 211 department can slide in the recess 221 of runner 22, runner 22 rotates under the drive of material loading motor 23, the recess 221 that fills the upper end with electric core rotates to dog 24 one side, dog 24 blocks the electric core in the recess 221, avoid roll-off recess 221, runner 22 continues to rotate towards deflector 25 one side, when recess 221 rotates to deflector 25 top, under the restriction that does not receive dog 24, the electric core in the recess 221 drops to in the deflector 25, roll down to in the detection passageway 31 along the deflector 25.

Referring to fig. 3 again, an external feeding channel 26 is disposed on a side of the detecting channel 31 away from the guiding plate 25, the external feeding channel 26 is inclined toward the detecting channel 31, and the external feeding channel 26, the guiding plate 25 and the detecting channel 31 form a "Y" shape. The accessible is external other feed arrangement, realizes that two kinds or two sets of feed mechanism 20 carry out the material loading earlier detection mechanism 30 simultaneously, for example detects the electric core of two kinds of different specifications simultaneously.

The vertical section of the material blocking block 35 is of a triangular structure, and the material blocking block 35 is of an inclined plane structure towards the detection channel 31, so that when an electric core is placed above the material blocking block 35, the electric core moves along the inclined plane, better limitation is achieved, and the situation that the electric core is not determined to be located on the side of the material blocking block 35 is avoided.

The detection mechanism 30 further includes two sets of probe cylinders 36 and two connecting plates 37, the probe cylinders 36 are fixed on two sides of the detection channel 31, an output shaft of the probe cylinder 36 is fixedly connected with the detection probe 34 through the connecting plates 37, the probe cylinder 36 and the detection probe 34 can be in a staggered fixed connection through the connecting plates 37, so that the probe cylinder 36 can be better fixed, the connecting plates 37 are driven by the probe cylinder 36 to move, the connecting plates 37 drive the detection probe 34 to move, the effect of moving towards the detection channel 31 is achieved, and the positive and negative poles of the battery cell in the detection channel 31 are detected.

Referring to fig. 4, in the above scheme, the sorting mechanism 40 includes a plurality of material troughs 41 and a plurality of sorting cylinders 42, the material troughs 41 are arranged along the moving direction of the conveyor belt 11, the material troughs 41 and the sorting cylinders 42 are correspondingly arranged at two sides of the conveyor belt 11, one end of the material trough 41 is flush with the surface of the conveyor belt 11, and the sorting cylinders 42 are located above the conveyor belt 11.

When the battery cell on the conveyor belt 11 moves to the corresponding trough 41, the conveyor belt 11 stops moving, the battery cell on the conveyor belt 11 is pushed to the corresponding trough 41 through the sorting cylinder 42, and after the sorting cylinder 42 finishes pushing and resetting, the conveyor belt 11 continues moving to perform the sorting process of other battery cells on the conveyor belt 11.

Silo 41 becomes the slope form, and silo 41 keeps away from 11 one end downward sloping of conveyer belt to the electric core that gets into silo 41 rolls towards the other end, makes the electric core of sorting concentrate on silo 41 and keeps away from 11 one end of conveyer belt, and subsequent continuation of being convenient for is sorted.

And sorting mechanism 40 still includes full material sensor 43, and the lateral wall that silo 41 is close to conveyer belt 11 one end is seted up the inspection opening 411 that runs through, and the inspection opening 411 of a plurality of silo 41 is located the same axis, and full material sensor 43 corresponds sets up in the inspection opening 411 of both sides silo 41.

When electric core in silo 41 piles up to inspection hole 411 position, full material sensor 43's detection receives and blocks to trigger the signal that full material detected, send out the full material alarm that corresponds, and trigger equipment pause work, will select separately good electric core through artificial mode and take away, and electric core takes away the back, and whole equipment restarts work.

Above-mentioned 11 surfaces of conveyer belt are equipped with a plurality of separation blade 12, and separation blade 12 sets up according to same interval, from when transmission, corresponds between two separation blades 12 and places an electric core, separates between with electric core, avoids causing the condition of establishing ties because of the contact between the electric core, also makes things convenient for sorting mechanism 40 to select separately simultaneously.

The utility model provides a universal cylindrical battery sorting device, which puts the battery core into the detecting channel of the detecting mechanism in a horizontal state through the feeding mechanism, the material blocking block moves to the inside of the detecting channel under the push of the second material blocking cylinder, thereby limiting the falling of the battery core in the detecting channel, and two groups of first material blocking cylinders above the second material blocking cylinder move towards the mutually approaching direction, the battery core between the two first material blocking cylinders is clamped and fixed, the aim of limiting the sliding of the battery core along the detecting channel is achieved, the battery core on the material blocking block can be detected through the detecting probes at the two sides of the detecting channel, when the detection of the battery core is completed, the second material blocking cylinder drives the material blocking block to move out of the detecting channel, the first material blocking cylinder keeps the clamped state, thereby the time keeps off and has accomplished electric core whereabouts to the conveyer belt that detects on the material piece, transmit to sorting mechanism through the conveyer belt, carry out corresponding grouping according to the data that detect, and electric core is after dropping, keep off the material piece and get back to the testing channel again under the drive of second fender material cylinder, at this moment, first fender material cylinder moves towards the orientation of keeping away from each other, loosen the electric core of centre gripping, make electric core whereabouts to keeping off the material piece top, first fender material cylinder moves again, keep the state of centre gripping, so reciprocal, make the regular and controllable whereabouts of electric core detect, and make the regular transmission of arranging of electric core on the conveyer belt, be convenient for sorting of follow-up sorting mechanism, thereby every electric core that can feed mechanism put in detects, and select to correspond the other electric core of group according to the result branch that detects.

It should be finally noted that the above embodiments are only intended to illustrate the technical solutions of the present invention, and not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims (9)

1. A universal type cylindrical battery sorting device is characterized by comprising a machine table, wherein a conveyor belt is arranged above the machine table;

the battery cell feeding device comprises a feeding mechanism, a conveying belt and a battery cell conveying mechanism, wherein the feeding mechanism is arranged on one side of the conveying belt and is positioned above the conveying belt, and the feeding mechanism feeds a battery cell in a horizontal state;

the detection mechanism is positioned between the feeding mechanism and the conveyor belt and used for detecting a battery cell put by the feeding mechanism, the detection mechanism comprises a detection channel, two first material blocking cylinders, a second material blocking cylinder and two groups of detection probes, the detection channel is arranged below the feeding mechanism and positioned above the conveyor belt, the two first material blocking cylinders are oppositely arranged on two sides of the detection channel and used for clamping the battery cell in the detection channel, the second material blocking cylinder is arranged below the first material blocking cylinders, a material blocking block is arranged on an output rod of the second material blocking cylinder and moved into the detection channel through the second material blocking cylinders, the two groups of detection probes are correspondingly arranged on two sides of the detection channel, the detection probes are positioned between the material blocking block and the first material blocking cylinders, and the detection probes are used for detecting the positive and negative poles of the battery cell;

sorting mechanism, sorting mechanism sets up in the board top, just sorting mechanism corresponds the conveyer belt setting, sorting mechanism is used for sorting the electric core on the conveyer belt.

2. The universal cylindrical battery sorting device according to claim 1, wherein the feeding mechanism comprises a hopper for placing battery cells, the battery cells are horizontally placed in the hopper, a discharge port is arranged below the hopper, the bottom surface of the hopper is inclined downward toward one side of the discharge port, a rotating wheel is arranged at the discharge port, a feeding motor is arranged at one side of the hopper, the feeding motor is fixedly connected with the rotating wheel, a plurality of grooves are arranged on the surface of the rotating wheel, the grooves are arranged around the axis of the rotating wheel, a stop block is arranged below the discharge port, the stop block is arranged at one side of the rotating wheel, the stop block is close to one side of the rotating wheel and is matched with the rotating wheel, a guide plate is arranged below the rotating wheel, the guide plate is tangent to the surface of the stop block, and one end of the guide plate, which is far away from the stop block, is arranged at one side of the detection channel.

3. The universal cylindrical battery sorting device according to claim 2, wherein an external feeding channel is arranged on the side of the detection channel away from the guide plate, the external feeding channel is inclined towards the detection channel, and the external feeding channel, the guide plate and the detection channel form a Y-shaped structure.

4. The universal type cylindrical battery sorting device according to claim 1, wherein the vertical section of the material blocking block is of a triangular structure, and one surface of the material blocking block facing the detection channel is of an inclined surface structure.

5. The universal cylindrical battery sorting device according to claim 1, wherein the detection mechanism further comprises two sets of probe cylinders and two connecting plates, the probe cylinders are fixed on two sides of the detection channel, and the output shafts of the probe cylinders are fixedly connected with the detection probes through the connecting plates.

6. The universal cylindrical battery sorting device according to claim 1, wherein the sorting mechanism comprises a plurality of material troughs and a plurality of sorting cylinders, the material troughs are arranged along the moving direction of the conveyor belt, the material troughs and the sorting cylinders are correspondingly arranged on two sides of the conveyor belt, one end of each material trough is flush with the surface of the conveyor belt, and the sorting cylinders are positioned above the conveyor belt.

7. The cylindrical battery sorting apparatus of the general type as set forth in claim 6, wherein said chute is inclined, said chute being inclined downwardly away from the conveyor belt end.

8. The universal cylindrical battery sorting device according to claim 7, wherein the sorting mechanism further comprises a full material sensor, the side wall of the trough near one end of the conveyor belt is provided with a through detection hole, the detection holes of the troughs are located on the same axis, and the full material sensor is correspondingly arranged in the detection holes of the troughs on two sides.

9. The cylindrical battery sorting apparatus of a general type according to claim 1, wherein the conveyor belt is provided with a plurality of baffle plates on a surface thereof, the baffle plates being arranged at equal intervals.

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