CN212845691U

CN212845691U - Button cell detection mechanism

Info

Publication number: CN212845691U
Application number: CN202021550951.3U
Authority: CN
Inventors: 吴玉双; 郭少雄
Original assignee: Fujian Jinde Power Technology Co ltd
Current assignee: Fujian Jinde Power Technology Co ltd
Priority date: 2020-07-31
Filing date: 2020-07-31
Publication date: 2021-03-30
Anticipated expiration: 2030-07-31

Abstract

The utility model relates to a button cell detection mechanism, which comprises a frame, the top of frame is equipped with relative up-down setting and all can follow vertical movement's last detection needle group and detect needle group down, it is equipped with the test table to go up between detection needle group and the lower detection needle group, the top surface that detects the table is equipped with the annular transport slide of rectangle, the inside of carrying the slide is equipped with a plurality of and is used for placing button cell's battery tray, and a plurality of battery tray is round the transport slide removal by the actuating mechanism drive, the front side of carrying the slide violently is equipped with waste product conveyor belt, be equipped with between waste product conveyor belt and the transport slide and be used for removing the interior button cell who is unqualified through the inspection of transport slide to waste product conveyor belt's material picking mechanism. The utility model has the advantages of reasonable design, can realize carrying out open circuit voltage detection to button cell automatically, unqualified after detecting simultaneously can reject voluntarily, convenient to use liberates manual operation, improves detection efficiency.

Description

Button cell detection mechanism

The technical field is as follows:

the utility model relates to a button cell detection mechanism.

Background art:

the open-circuit voltage detection is needed after the button cell is produced, so that the quality of the button cell after production is ensured. Traditional detection mode is mostly artifical the detection, and selects unqualified button cell by the manual work, and whole process operation is loaded down with trivial details, and not only staff's intensity of labour is big, the human cost is high, and detection efficiency is lower moreover.

The utility model has the following contents:

the utility model discloses make the improvement to the problem that above-mentioned prior art exists, promptly the utility model aims to solve the technical problem that a button cell detection mechanism is provided, not only rational in infrastructure, it is convenient high-efficient moreover.

In order to realize the purpose, the utility model discloses a technical scheme is: the utility model provides a button cell detection mechanism, includes the frame, the top of frame is equipped with relative about and all can follow vertical movement's last detection needle group and detect the needle group down, go up and detect the needle group and be equipped with down between the needle group and detect the platform, the top surface that detects the platform is equipped with the annular transport slide of rectangle, the inside of carrying the slide is equipped with a plurality of and is used for placing button cell's battery tray, and a plurality of battery tray is round carrying the slide by the actuating mechanism drive and removes, carry the front side of slide and violently be equipped with waste product conveyor belt, be equipped with between waste product conveyor belt and the transport slide and be used for carrying the slide in through the inspection for unqualified button cell remove to waste product conveyor belt's material picking mechanism.

Furthermore, the bottom of the right end of the conveying slide way is provided with a plurality of abdicating holes which are beneficial to the upward penetration of the lower detection needle group.

Furthermore, the conveying slide comprises a feeding and discharging conveying slide and a rejecting conveying slide which are parallel to each other in front and back, the length of the feeding and discharging conveying slide and the length of the rejecting conveying slide are the sum of the lengths of five battery trays, the feeding and discharging conveying slide comprises a first transition area, a discharging area, a feeding area, a first detection area and a second transition area which are sequentially arranged from left to right, the rejecting conveying slide comprises a third transition area, a second detection area, a first rejecting area, a second rejecting area and a fourth transition area which are sequentially arranged from right to left, a first upper detection needle group and a first lower detection needle group are respectively arranged on the upper side and the lower side of the first detection area, and a plurality of first abdicating holes which are distributed in a matrix are formed in the bottom of the first detection area; the upper and lower both sides of second detection zone are equipped with respectively on the second and detect needle group and second and detect needle group down, and the bottom of second detection zone is equipped with the second hole of stepping down that a plurality of is matrix distribution.

Furthermore, the first upper detection needle group and the first lower detection needle group are used for detecting half of the button batteries on the battery tray, and the second upper detection needle group and the second lower detection needle group are used for detecting the remaining half of the button batteries on the battery tray.

Furthermore, the first upper detection needle group and the second upper detection needle group respectively comprise an upper needle group mounting plate which is horizontally arranged, an ascending and descending cylinder for driving the upper needle group mounting plate to vertically move is vertically arranged above the upper needle group mounting plate, a plurality of upper detection needles which are distributed in a matrix form are arranged on the upper needle group mounting plate, and the upper detection needles vertically penetrate through the upper needle group mounting plate; detect needle group and second down and detect needle group and all include the lower needle group mounting panel that the level set up, the below of needle group mounting panel is erect and is equipped with the lower lift cylinder that is used for driving its edge vertical movement down, be provided with down on the needle group mounting panel with a plurality of on detect the needle a plurality of the position one-to-one be the lower detection needle that the matrix distributes, detect the needle down and vertically run through needle group mounting panel down.

Further, the driving mechanism comprises a first transverse pushing assembly, a first longitudinal pushing assembly, a second transverse pushing assembly and a second longitudinal pushing assembly, wherein the first transverse pushing assembly is used for pushing the battery trays in the first transition area, the blanking area, the loading area and the first detection area towards the second transition area; the first longitudinal pushing assembly is used for pushing the battery tray in the second transition area to the third transition area; the second transverse pushing assembly is used for pushing the battery trays in the third transition area, the second detection area, the first material rejecting area and the second material rejecting area towards the fourth transition area; and the second longitudinal pushing assembly is used for pushing the battery tray in the fourth transition area into the first transition area.

Furthermore, the material rejecting mechanism comprises a material rejecting base plate, the material rejecting base plate is driven by a longitudinal screw rod nut mechanism to move back and forth between the waste product conveying belt and the first material rejecting area and the second material rejecting area, a vertically arranged material rejecting cylinder is installed in the middle of the bottom surface of the material rejecting base plate, a cylinder rod of the material rejecting cylinder extends downwards and is fixedly provided with a horizontally arranged sucking disc installation plate, and a plurality of material rejecting suction nozzles used for sucking the unqualified button batteries in the first material rejecting area and the second material rejecting area through inspection are installed on the sucking disc installation plate.

Further, the top surface of battery tray is equipped with that a plurality of is matrix distribution and is used for placing button cell's battery and places the hole, and the bottom that every battery placed the hole is equipped with the vertical through-hole that upwards passes with the lower needle group that does benefit to open circuit voltage detection mechanism.

Compared with the prior art, the utility model discloses following effect has: the utility model has the advantages of reasonable design, can realize carrying out open circuit voltage detection to button cell automatically, unqualified after detecting simultaneously can reject voluntarily, convenient to use liberates manual operation, improves detection efficiency.

Description of the drawings:

FIG. 1 is a schematic view of the front view structure of the embodiment of the present invention;

fig. 2 is a schematic top view of an embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view taken along line K-K in FIG. 1;

FIG. 4 is a schematic view of the use state of FIG. 3;

FIG. 5 is a schematic top view of the inspection table according to the embodiment of the present invention;

fig. 6 is a schematic view of the configuration of fig. 5 with the battery tray omitted;

FIG. 7 is a schematic sectional view taken along line A-A in FIG. 5;

FIG. 8 is a schematic sectional view taken along line B-B in FIG. 5;

FIG. 9 is a schematic cross-sectional view taken along line C-C of FIG. 5;

fig. 10 is a schematic cross-sectional view taken along line D-D in fig. 5.

In the figure:

1-detection table; 2-conveying a slide way; 3-a battery tray; 4-battery placement holes; 5-vertical through holes; 6-a first transition zone; 7-a blanking area; 8-a feeding area; 9-a first detection zone; 10-a second transition zone; 11-a third transition zone; 12-a second detection zone; 13-a first rejecting area; 14-a second rejecting area; 15-a fourth transition zone; 16-a first abdicating hole; 17-a second abdicating hole; 18-a first transverse chute; 19-a first transverse push plate; 20-a first transverse cylinder; 21-a first longitudinal runner; 22-a first longitudinal push plate; 23-a first longitudinal cylinder; 24-a second transverse chute; 25-a second transverse push plate; 26-a second transverse cylinder; 27-a second longitudinal runner; 28-a second longitudinal push plate; 29-a second longitudinal cylinder; 30-a button cell; 31-a first relief recess; 32-a second relief recess; 33-a third relief recess; 34-a fourth relief recess; 35-a frame; 36-upper detection needle group; 361-first upper detecting pin group; 362-second upper set of detection pins; 37-lower detection needle group; 371-first lower detection needle group; 372-a second lower detection needle group; 38-waste conveyor belt; 39-mounting plate of upper needle group; 40-lifting the cylinder; 41-upper detection needle; 42-lower needle group mounting plate; 43-lower lifting cylinder; 44-lower detection pin; 45-material picking seat board; 46-a longitudinal feed screw nut mechanism; 47-material rejecting cylinder; 48-a suction cup mounting plate; 49-material rejecting suction nozzle; 50-material rejecting mechanism.

The specific implementation mode is as follows:

the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description of the present invention, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

As shown in FIGS. 1-10, the button cell detecting mechanism of the present invention comprises a frame 35, an upper detection needle group 37 and a lower detection needle group 38 which are arranged oppositely up and down and can move vertically are arranged above the frame 35, the upper detection needle group 37 and the lower detection needle group 38 are two contact points of an open-circuit voltage detection mechanism, the upper detection needle group and the lower detection needle group are respectively contacted with the anode and the cathode of the button cell during detection, a detection platform 1 is arranged between the upper detection needle group 37 and the lower detection needle group 38, a rectangular annular conveying slideway 2 is arranged on the top surface of the detection platform 1, a plurality of battery trays 3 for placing button batteries are arranged inside the conveying slide way 2, the battery trays 3 are driven by a driving mechanism to move around the conveying slide way 2, a plurality of abdicating holes which are beneficial for the lower detection needle group 37 to penetrate upwards are formed in the bottom of the right end of the conveying slide way 2; a waste conveying belt 38 is transversely arranged on the front side of the conveying slide way 2, and a material removing mechanism 50 used for moving button batteries which are detected to be unqualified in the conveying slide way 2 to the waste conveying belt 38 is arranged between the waste conveying belt 38 and the conveying slide way 2. It should be noted that the detection principle of the open-circuit voltage detection mechanism is the existing mature technology, and the detection principle thereof is not described herein in too much detail.

In this embodiment, the top surface of the battery tray 3 is provided with a plurality of battery placing holes 4 which are distributed in a matrix and used for placing the button batteries 30, and the bottom of each battery placing hole 4 is provided with a vertical through hole 5 which is beneficial for the lower needle set of the open-circuit voltage detection mechanism to pass through upwards.

In this embodiment, the conveying slide way 2 comprises a feeding and discharging conveying slide way and a rejecting conveying slide way which are parallel to each other, the length of the feeding and discharging conveying slide way and the length of the rejecting conveying slide way are the sum of the lengths of the five battery trays 3, the feeding and discharging conveying slide way comprises a first transition area 6, a discharging area 7, a feeding area 8, a first detection area 9 and a second transition area 10 which are arranged from left to right in sequence, the material rejecting conveying slide way comprises a third transition area 11, a second detection area 12, a first material rejecting area 13, a second material rejecting area 14 and a fourth transition area 15 which are arranged from right to left in sequence, the shapes of the first transition area, the blanking area, the feeding area, the first detection area, the second transition area, the third transition area, the second detection area, the first material rejecting area, the second material rejecting area and the fourth transition area are all the same as the shape of the battery tray and are all rectangular; the upper and lower both sides of first detection zone are equipped with first detection needle group 361 and first detection needle group 371 on respectively, the bottom of first detection zone 9 is equipped with the first hole of stepping down 16 that a plurality of is the matrix distribution, the upper and lower both sides of second detection zone are equipped with respectively on the second and detect needle group 362 and second and detect needle group 372 down, the bottom of second detection zone 12 is equipped with the second hole of stepping down 17 that a plurality of is the matrix distribution, and the quantity in first hole of stepping down and second hole of stepping down all places the hole the same with the battery on the battery tray, and the distribution form is the same.

In this embodiment, the first upper detection needle group 361 and the second upper detection needle group 361 both include an upper needle group installation 39 horizontally arranged, an upper lifting cylinder 40 vertically arranged above the upper needle group installation plate 39 for driving the upper lifting cylinder to vertically move is provided, a plurality of upper detection needles 41 arranged in a matrix are provided on the upper needle group installation plate 39, the upper detection needles 41 vertically penetrate through the upper needle group installation plate 39, and the upper lifting cylinder 40 drives the plurality of upper detection needles 41 to vertically lift through the upper needle group installation plate 39. Detect needle group 371 and second down and detect needle group 372 all include the lower needle group mounting panel 42 that the level set up, the below of needle group mounting panel 42 is erect and is equipped with and is used for driving its lower lift cylinder 43 along vertical movement down, be provided with down on the needle group mounting panel 42 with a plurality of on detect the position one-to-one of needle 41 a plurality of be the lower detection needle 44 of matrix distribution, detect needle 44 vertical under passing through needle group mounting panel 42 down, lift cylinder 43 down through needle group mounting panel 42 drive a plurality of down detect needle 44 along vertical lift down. When detecting button cell, lower lift cylinder drive down detects the needle and upwards runs through behind the vertical through-hole on abdicating hole, the battery tray and contact with button cell's negative pole, rises to descend and falls cylinder drive and go up the detection needle and move down to contact with button cell's positive pole, and upper and lower detection needle group is connected with the digital display voltmeter, shows button cell's open circuit voltage that awaits measuring through the digital display voltmeter.

In this embodiment, the first upper detection pin set 361 and the first lower detection pin set 371 are used for detecting one half of the button cells on the battery tray, and the second upper detection pin set 362 and the second lower detection pin set 372 are used for detecting the other half of the button cells on the battery tray.

In this embodiment, the driving mechanism includes a first transverse pushing assembly, a first longitudinal pushing assembly, a second transverse pushing assembly, and a second longitudinal pushing assembly, where the first transverse pushing assembly is used to push the battery trays 3 in the first transition region 6, the blanking region 7, the loading region 8, and the first detection region 9 toward the second transition region 10; the first longitudinal pushing assembly is used for pushing the battery tray 3 in the second transition area 10 to the third transition area 11; the second transverse pushing assembly is used for pushing the battery trays 3 in the third transition area 11, the second detection area 12, the first rejecting area 13 and the second rejecting area 14 towards the fourth transition area 15; the second longitudinal pushing assembly is used for pushing the battery tray in the fourth transition area 15 into the first transition area 6.

In this embodiment, the material rejecting mechanism 50 includes a material rejecting base plate 45, the material rejecting base plate 45 is driven by a longitudinal screw and nut mechanism 46 to move back and forth between the waste product conveying belt and the first material rejecting area 13 and the second material rejecting area 14, a vertically arranged material rejecting cylinder 47 is installed in the middle of the bottom surface of the material rejecting base plate 45, a cylinder rod of the material rejecting cylinder 47 extends downwards and is fixedly installed with a horizontally arranged suction cup installation plate 48, the suction cup installation plate 48 is installed with a plurality of material rejecting suction nozzles 49 for sucking unqualified button batteries detected in the first material rejecting area 13 and the second material rejecting area 14, the material rejecting suction nozzles are connected with a negative pressure fan through an air pipe, and the material rejecting suction nozzles absorb the button batteries by using negative pressure. During work, the longitudinal screw rod nut mechanism 46 drives the material rejecting base plate 45 to move to the positions above the first material rejecting area 13 and the second material rejecting area 14, the material rejecting cylinder 45 drives the suction disc mounting plate 48 to move downwards until the material rejecting suction nozzle 49 is contacted with the button cell 3, and the material rejecting suction nozzle 49 adsorbs the button cell which is detected to be unqualified by using negative pressure; then, the cylinder rod of the rejecting cylinder 47 retracts upwards, the longitudinal screw rod nut mechanism 46 drives the rejecting seat plate 45 to move to the position above the waste conveying belt 38, the rejecting cylinder 47 drives the rejecting seat plate 45 to move downwards to be close to the waste conveying belt 38, and the rejecting suction nozzle 49 releases negative pressure, so that unqualified button batteries fall on the waste conveying belt 38 and are output by the waste conveying belt.

In this embodiment, the moving process of the plurality of battery trays in the conveying slide way is as follows: in an initial state, an empty battery tray 3 is arranged in the blanking area 7, and button batteries in the battery tray 3 are taken away; the battery trays 3 are arranged in the feeding area 8, the first detection area 9, the third transition area 11, the second detection area 12, the first material removing area 13, the second material removing area 14 and the first transition area 6, the button batteries are arranged in the battery trays 3, the newly-arranged button batteries to be detected are arranged in the feeding area 8, the button batteries to be detected as qualified products are arranged in the first transition area 6, and no battery trays are arranged in the second transition area 10 and the fourth transition area 15; in operation, the first transverse cylinder 20 and the second transverse cylinder 26 are simultaneously activated, the first transverse cylinder 20 drives the first transverse pushing plate 19 to start moving along the first transverse sliding groove 18 from the first abdicating concave part 31, and the first transverse pushing plate 19 pushes the battery trays 3 in the first transition area 6, the blanking area 7, the loading area 8 and the first detection area 9 towards the second transition area 10, so that: (1) the battery tray in the first transition area 6 moves into the blanking area 7 so as to take away the button battery which is detected to be qualified; (2) a battery tray of an inner hole of the blanking area 7 moves to the feeding area 8 so as to load a button battery to be detected; (3) a battery tray provided with a new button battery and arranged in the feeding area 8 moves to a first detection area 9 so as to carry out open-circuit voltage detection; (4) the battery tray in the first detection area 9 moves to the second transition area 10 so as to be pushed into the rejecting conveying slide way. And; the second transverse cylinder 26 drives the second transverse pushing plate 25 to start moving along the second transverse sliding chute 24 from the third abdicating concave portion 33, and the second transverse pushing plate 25 pushes the battery trays of the third transition region 11, the second detection region 12, the first rejecting region 13 and the second rejecting region 14 toward the fourth transition region 15, so that: (1) the battery tray in the third transition region 11 moves into the second detection region 12 so as to perform open-circuit voltage detection; (2) the battery tray in the second detection area 12 moves into the first material rejecting area 13, and the battery tray in the first material rejecting area 13 moves into the second material rejecting area 14, so that unqualified products in the two material rejecting areas can be rejected at one time; (3) the battery tray in the second reject zone 14 moves to a fourth transition zone 15 for pushing into an upper feed delivery chute. Then the first longitudinal cylinder 23 and the second longitudinal cylinder 29 are started simultaneously, the first longitudinal cylinder 23 drives the first longitudinal push plate 22 to move along the first longitudinal slide groove 21 from the second abdicating concave portion 32, the first longitudinal push plate 22 pushes the battery tray in the second transition region 10 into the third transition region 11, the second longitudinal cylinder 29 drives the second longitudinal push plate 28 to move along the second longitudinal slide groove 27 from the fourth abdicating concave portion 34, and the second longitudinal push plate 28 pushes the battery tray in the fourth transition region 15 into the first transition region 6.

The utility model discloses if disclose or related to mutual fixed connection's spare part or structure, then, except that other the note, fixed connection can understand: a detachable fixed connection (for example using bolts or screws) is also understood as: non-detachable fixed connections (e.g. riveting, welding), but of course, fixed connections to each other may also be replaced by one-piece structures (e.g. manufactured integrally using a casting process) (unless it is obviously impossible to use an integral forming process).

In addition, the terms used in any aspect of the present disclosure as described above to indicate positional relationships or shapes include similar, analogous, or approximate states or shapes unless otherwise stated.

The utility model provides an arbitrary part both can be assembled by a plurality of solitary component parts and form, also can be the solitary part that the integrated into one piece technology was made.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention and not to limit it; although the present invention has been described in detail with reference to preferred embodiments, it should be understood by those skilled in the art that: the invention can be modified or equivalent substituted for some technical features; without departing from the spirit of the present invention, it should be understood that the scope of the claims is intended to cover all such modifications and variations.

Claims

1. The utility model provides a button cell detection mechanism which characterized in that: the button cell detection device comprises a frame, the top of frame is equipped with relative up-down setting and all can follows vertical movement's last detection needle group and lower detection needle group, go up detection needle group and be equipped with down between the detection needle group and detect the needle group and examine the platform, the top surface that examines the platform is equipped with the annular transport slide of rectangle, the inside of carrying the slide is equipped with a plurality of and is used for placing button cell's battery tray, and a plurality of battery tray is moved round carrying the slide by actuating mechanism drive, the front side of carrying the slide violently is equipped with waste product conveyor belt, be equipped with between waste product conveyor belt and the transport slide and be used for carrying the slide in through the inspection for unqualified button cell and remove the material mechanism to waste product conveyor belt.

2. The button cell detection mechanism according to claim 1, wherein: the right-hand member bottom of carrying the slide is equipped with a plurality of and is favorable to down detecting the hole of stepping down that the needle group upwards run through.

3. The button cell detection mechanism according to claim 2, wherein: the battery tray inspection device comprises a conveying slide way, a plurality of battery trays, a plurality of inspection holes and a plurality of inspection holes, wherein the conveying slide way comprises a feeding and discharging conveying slide way and a material picking conveying slide way which are parallel to each other in front and back, the length of the feeding and discharging conveying slide way and the length of the material picking conveying slide way are the sum of the lengths of the five battery trays, the feeding and discharging conveying slide way comprises a first transition area, a feeding area, a first inspection area and a second transition area which are sequentially arranged from left to right, the material picking conveying slide way comprises a third transition area, a second inspection area, a first material picking area, a second material picking area and a fourth transition area which are sequentially arranged from right to left, a first upper inspection pin group and a first lower inspection pin group are respectively arranged on the upper side and the lower side of the first inspection area; the upper and lower both sides of second detection zone are equipped with respectively on the second and detect needle group and second and detect needle group down, and the bottom of second detection zone is equipped with the second hole of stepping down that a plurality of is matrix distribution.

4. The button cell detection mechanism according to claim 3, wherein: the first upper detection needle group and the first lower detection needle group are used for detecting half of button batteries on the battery tray, and the second upper detection needle group and the second lower detection needle group are used for detecting the remaining half of button batteries on the battery tray.

5. The button cell detection mechanism according to claim 4, wherein: the first upper detection needle group and the second upper detection needle group respectively comprise an upper needle group mounting plate which is horizontally arranged, an ascending and descending cylinder for driving the upper needle group mounting plate to vertically move is vertically arranged above the upper needle group mounting plate, a plurality of upper detection needles which are distributed in a matrix form are arranged on the upper needle group mounting plate, and the upper detection needles vertically penetrate through the upper needle group mounting plate; detect needle group and second down and detect needle group and all include the lower needle group mounting panel that the level set up, the below of needle group mounting panel is erect and is equipped with the lower lift cylinder that is used for driving its edge vertical movement down, be provided with down on the needle group mounting panel with a plurality of on detect the needle a plurality of the position one-to-one be the lower detection needle that the matrix distributes, detect the needle down and vertically run through needle group mounting panel down.

6. The button cell detection mechanism according to claim 3, wherein: the driving mechanism comprises a first transverse pushing assembly, a first longitudinal pushing assembly, a second transverse pushing assembly and a second longitudinal pushing assembly, wherein the first transverse pushing assembly is used for pushing the battery trays in the first transition region, the blanking region, the loading region and the first detection region towards the second transition region; the first longitudinal pushing assembly is used for pushing the battery tray in the second transition area to the third transition area; the second transverse pushing assembly is used for pushing the battery trays in the third transition area, the second detection area, the first material rejecting area and the second material rejecting area towards the fourth transition area; and the second longitudinal pushing assembly is used for pushing the battery tray in the fourth transition area into the first transition area.

7. The button cell detection mechanism according to claim 3, wherein: the material rejecting mechanism comprises a material rejecting base plate, the material rejecting base plate is driven by a longitudinal screw rod nut mechanism to move back and forth between a waste product conveying belt and a first material rejecting area and a second material rejecting area, a vertically arranged material rejecting cylinder is mounted in the middle of the bottom surface of the material rejecting base plate, a cylinder rod of the material rejecting cylinder extends downwards and is fixedly provided with a horizontally arranged sucking disc mounting plate, and a plurality of material rejecting suction nozzles used for sucking unqualified button batteries in the first material rejecting area and the second material rejecting area through inspection are mounted on the sucking disc mounting plate.

8. The button cell detection mechanism according to claim 1, wherein: the top surface of battery tray is equipped with that a plurality of is matrix distribution and is used for placing button cell's battery and places the hole, and the bottom that hole was placed to every battery is equipped with the vertical through-hole that upwards passes with the lower needle group that does benefit to open circuit voltage detection mechanism.