CN113212918A - Automatic labeling mechanism with multi-station structure for automatic production of lithium batteries - Google Patents

Abstract

The invention relates to an automatic labeling mechanism with a multi-station structure for automatic production of lithium batteries, which comprises an equipment shell, an installation mechanism and a labeling mechanism, wherein the equipment shell is provided with a plurality of positioning holes; a mounting mechanism mounted through the front wall of the device housing; the labeling mechanism is connected to the rear end direction of the mounting mechanism; labeling mechanism includes: the supporting bottom plate is a convex plate, and the invention has the advantages that: this automatic lithium cell automated production is with automatic labeller constructs that has multistation structure can paste the mark to a plurality of work pieces simultaneously, reduces the energy loss that pastes the mark one by one, can detect accumulational work piece number simultaneously, improve the target degree of accuracy of equipment subsides, equipment also can make to paste the mark area and continuously keep fastening to make equipment paste the mark high position unanimous, equipment can be continuous supplements the label, makes equipment can continuously move, cooling body can be convenient for the label and equipment break away from the adhesion to the work piece on.

Description

Automatic labeling mechanism with multi-station structure for automatic production of lithium batteries

Technical Field

The invention relates to the technical field of automatic production of lithium batteries, in particular to an automatic labeling mechanism with a multi-station structure for automatic production of lithium batteries.

Background

The lithium battery is a battery using lithium metal or lithium alloy as a negative electrode material and using a nonaqueous electrolyte solution, and therefore, the battery is also called a lithium metal battery, and unlike other batteries, the lithium battery has the characteristics of high charging density, long service life, high unit cost and the like, and the lithium battery needs to be labeled by an automatic labeling mechanism in the production process.

The existing automatic labeling device can only label one by one, and each labeling operation requires equipment to perform a labeling action, so that the energy loss is too large, and the labeling belt is loose, so that the labeling position is not accurate enough when the equipment labels.

Therefore, an automatic labeling mechanism with a multi-station structure for automatic production of lithium batteries needs to be designed for solving the problems.

Disclosure of Invention

The invention aims to provide an automatic labeling mechanism with a multi-station structure for automatic production of lithium batteries, which aims to solve the problems that the automatic labeling device provided in the background technology can only label one by one, equipment is required to perform a labeling action every time, energy consumption is overlarge, and a labeling belt is loose, so that the labeling position is not accurate enough when the equipment performs labeling.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a lithium cell automated production is with automatic labeller structure that has multistation structure, includes:

an equipment housing;

a mounting mechanism mounted through the front wall of the device housing;

the labeling mechanism is connected to the rear end direction of the mounting mechanism;

the labeling mechanism comprises:

the supporting bottom plate is a convex plate;

a fourth motor installed at a lower end of the support base plate;

the steering driving wheel is arranged at the upper end of the supporting bottom plate and is connected with the rotating end of the fourth motor in an embedded mode;

the low-temperature transparent pet self-adhesive tape is arranged in the outer side direction of the steering driving wheel;

the glue supplementing wheel is arranged on the right side of the low-temperature transparent pet self-adhesive tape;

the damping rod is connected to the right side of the rubber replenishing wheel, and the low-temperature transparent pet non-setting adhesive tape passes through the damping rod and forms an elastic structure with the supporting bottom plate;

the fixing plate is arranged at the upper end of the supporting bottom plate and arranged in the inner side direction of the low-temperature transparent pet self-adhesive tape;

the fourth multi-section hydraulic cylinder is arranged at the rear end of the fixed plate;

and a pressing plate connected to a rear end of the fourth multi-stage hydraulic cylinder.

Preferably, the inner lower wall of the equipment shell is provided with a conveying mechanism;

the collecting mechanism is arranged on the inner lower wall of the equipment shell and is positioned in the right direction of the conveying mechanism;

a shielding positioning mechanism disposed at an inner rear wall of the device housing;

a condensation mechanism provided on an inner upper wall of the apparatus case;

the cover sealing mechanism is arranged on the upper wall of the inner part of the equipment shell and is positioned in the right side direction of the cold fixing mechanism;

the glue coating mechanism is arranged on the upper wall of the interior of the mounting mechanism;

and the mark supplementing mechanism is arranged on the upper wall of the interior of the installation mechanism and is positioned in the right side direction of the gluing mechanism.

Preferably, the conveying mechanism includes:

a belt conveyor;

the lithium battery body is placed at the upper end of the belt conveyor;

and the fixed baffle is arranged at the rear end of the lithium battery body.

Preferably, the collecting mechanism includes:

an elevating frame;

the first electric slide rail is arranged at the upper end of the overhead frame;

the first chuck clamp is arranged at the upper end of the first electric slide rail;

and the lower collecting box body is arranged at the upper end of the first sucking disc clamp.

Preferably, the shade positioning mechanism includes:

the fixing frame is concave;

a first motor installed at a right side of the fixing frame;

the movable plate is movably connected to the front end of the fixed frame, and a rotating structure is formed between the movable plate and the fixed frame through a first motor;

a pressure sensor installed at a left side of the movable plate;

a positioning baffle disposed on a left side of the pressure sensor.

Preferably, the condensation mechanism includes:

a cooling box;

the fan is arranged on the left side of the cooling box;

a condensation duct installed inside the cooling box;

a compressor installed at a right side of the cooling box;

the air guide pipe is connected to the lower end of the cooling box;

and the air jet is connected to the lower end of the air guide pipe.

Preferably, the capping mechanism comprises:

a first multi-section hydraulic cylinder;

the second sucker clamp is arranged at the lower end of the first multi-section hydraulic cylinder;

and the upper collection box body is arranged at the lower end of the second sucker clamp.

Preferably, the mounting mechanism comprises:

the mounting box body is a square frame with four closed sides;

the glue box is arranged on the inner lower wall of the mounting box body;

the label box is arranged on the inner lower wall of the mounting box body and is positioned in the right side direction of the glue box;

and the coding machine is arranged on the right wall of the inner part of the mounting box body.

Preferably, the gluing mechanism comprises:

a second multi-section hydraulic cylinder;

the clamping plate is connected to the lower end of the second multi-section hydraulic cylinder;

the gluing brush is clamped and arranged in the middle of the clamping plate;

and the mounting bolts are penetratingly mounted at the left side and the right side of the clamping plate.

Preferably, the label complementing mechanism comprises:

a second electric slide rail;

the third multi-section hydraulic cylinder is arranged at the lower end of the second electric slide rail;

the second motor is arranged at the lower end of the third multi-section hydraulic cylinder;

the low-viscosity rubber plate is movably arranged at the lower end of the second motor;

and the third motor is arranged at the front end of the low-viscosity rubber plate, and the low-viscosity rubber plate forms a rotating structure between the third motor and the second motor.

Compared with the prior art, the invention has the beneficial effects that: the automatic labeling machine can simultaneously label a plurality of workpieces, reduces energy consumption of one-by-one labeling, can detect the number of stacked workpieces, improves the accuracy of the labeling of the equipment, can continuously keep the labeling belt fastened by the equipment, so that the labeling height and position of the equipment are consistent, the equipment can continuously supplement labels, can continuously run, and the cooling mechanism can facilitate the labels to be separated from the equipment and adhered to the workpieces.

1. According to the invention, the pressing plate can be pushed by the fourth multi-section hydraulic cylinder, so that the lithium battery bodies are labeled, the number of the pressing blocks on the pressing plate can be set according to the situation, so that the pressing plate can label a plurality of lithium battery bodies at the same time, equipment can label at multiple stations, the energy loss of equipment in labeling is reduced, and the labeling processing cost is reduced.

2. The low-temperature transparent pet self-adhesive tape can be continuously pushed to be in a fastening state by the aid of the adhesive supplementing wheel through the telescopic structure formed between the damping rod and the supporting bottom plate, adhesive liquid can be supplemented to the surface of the low-temperature transparent pet self-adhesive tape, the low-temperature transparent pet self-adhesive tape can be used permanently, and meanwhile, the elastic structure cannot influence the pressing of the pressing plate on the low-temperature transparent pet self-adhesive tape during labeling.

3. The pressure sensor can detect the thrust applied to the positioning baffle plate, so that the number of lithium battery bodies stacked on the left side of the positioning baffle plate can be calculated, the equipment is controlled to label, the movable plate can be rotated by the aid of the movable plate through a rotating structure formed between the first motor and the fixed frame, the positioning baffle plate can not shield the lithium battery bodies, the labeled lithium battery bodies can pass through the pressure sensor conveniently, and the equipment can label the next time.

4. According to the invention, when labeling is carried out, external air is pumped into the cooling box through the fan, then the air in the cooling box is cooled through the condensing tube and the compressor, and then the air is conveyed to the air jet through the air duct to be sprayed out, so that the labeling part is cooled, the glue on the label is convenient to solidify, and the label is convenient to separate from the low-temperature transparent pet adhesive tape.

5. According to the invention, the blank label in the label paper box can be taken out through the label supplementing mechanism, then the blank label is marked through the coding machine, and then the low-viscosity rubber plate is driven by the second electric slide rail and the third multi-section hydraulic cylinder to move to stick the marked label to the low-temperature transparent pet self-adhesive tape, so that the label is supplemented to the low-temperature transparent pet self-adhesive tape, and the equipment can continuously mark the label.

Drawings

Fig. 1 is a schematic front sectional view of an automatic labeling mechanism with a multi-station structure for automatic production of lithium batteries according to the present invention;

fig. 2 is a schematic top view of a partial structure of an automatic labeling mechanism with a multi-station structure for automatic production of lithium batteries according to the present invention;

fig. 3 is an enlarged structural diagram of an installation box of an automatic labeling mechanism with a multi-station structure for automatic production of lithium batteries according to the present invention;

fig. 4 is an enlarged schematic structural diagram of a position a in fig. 3 of an automatic labeling mechanism with a multi-station structure for automatic production of lithium batteries according to the present invention;

fig. 5 is a schematic view of a three-dimensional structure of a lower collecting box of an automatic labeling mechanism with a multi-station structure for automatic production of lithium batteries according to the present invention;

fig. 6 is a schematic perspective view of a glue applying brush of an automatic labeling mechanism with a multi-station structure for automatic production of lithium batteries according to the present invention.

In the figure: 1. an equipment housing; 2. a conveying mechanism; 201. a belt conveyor; 202. a lithium battery body; 203. fixing a baffle plate; 3. a collection mechanism; 301. an elevating frame; 302. a first electric slide rail; 303. a first chuck holder; 304. a lower collection box body; 4. a shielding positioning mechanism; 401. a fixed mount; 402. a first motor; 403. a movable plate; 404. a pressure sensor; 405. positioning a baffle plate; 5. a condensation mechanism; 501. a cooling box; 502. a fan; 503. a condenser tube; 504. a compressor; 505. an air duct; 506. an air jet; 6. a capping mechanism; 601. a first multi-section hydraulic cylinder; 602. a second chuck clamp; 603. an upper collection box body; 7. an installation mechanism; 701. installing a box body; 702. a glue solution tank; 703. marking a paper box; 704. a coding machine; 8. a gluing mechanism; 801. a second multi-section hydraulic cylinder; 802. a splint; 803. a gluing brush; 804. installing a bolt; 9. a label supplementing mechanism; 901. a second electric slide rail; 902. a third multi-section hydraulic cylinder; 903. a second motor; 904. a low viscosity slab rubber; 905. a third motor; 10. a labeling mechanism; 1001. a support base plate; 1002. a fourth motor; 1003. a steering driving wheel; 1004. low temperature transparent pet non-setting adhesive tape; 1005. a rubber supplement wheel; 1006. a damping lever; 1007. a fixing plate; 1008. a fourth multi-section hydraulic cylinder; 1009. and pressing the plate.

Detailed Description

As shown in fig. 1 and 5, an automatic labeling mechanism with a multi-station structure for automatic production of lithium batteries includes: the inner lower wall of the equipment shell 1 is provided with a conveying mechanism 2; the conveying mechanism 2 includes: the belt conveyor 201, the belt conveyor 201 mainly plays a role in conveying the lithium battery body 202; a lithium battery body 202 placed on the upper end of the belt conveyor 201; the fixed baffle 203 is arranged at the rear end of the lithium battery body 202, and the fixed baffle 203 mainly has the effect of shielding and positioning the lithium battery body 202; a collecting mechanism 3 provided at an inner lower wall of the apparatus casing 1, the collecting mechanism 3 being located in a right direction of the conveying mechanism 2; the collection mechanism 3 includes: the elevating frame 301 mainly supports and mounts the first electric slide rail 302; a first electric slide rail 302 provided at an upper end of the bed frame 301; the first suction cup clamp 303 is arranged at the upper end of the first electric slide rail 302, and the first suction cup clamp 303 can fix the lower collection box body 304; a lower collection box 304 provided at an upper end of the first chuck holder 303; a condensation mechanism 5 provided on an inner upper wall of the apparatus casing 1; the condensation mechanism 5 includes: a cooling box 501; a fan 502 installed at the left side of the cooling box 501; a condenser pipe 503 installed inside the cooling box 501; a compressor 504 installed on the right side of the cooling box 501, the compressor 504 being capable of cooling the air inside the cooling box 501 in cooperation with the condenser pipe 503; an air duct 505 connected to the lower end of the cooling box 501, the air duct 505 guiding the cold air inside the cooling box 501 to the air outlet 506; an air jet 506 connected with the lower end of the air duct 505, wherein cold air is sprayed out from the air jet 506 to cool and solidify glue solution on the label, so that the label is conveniently separated from the low-temperature transparent pet self-adhesive tape 1004; a cover mechanism 6 provided on the inner upper wall of the apparatus case 1, the cover mechanism 6 being located in the right direction of the condensation mechanism 5; the capping mechanism 6 includes: a first multi-section hydraulic cylinder 601; a second suction cup holder 602 mounted on the lower end of the first multi-section hydraulic cylinder 601; and an upper collection box 603 provided at a lower end of the second suction cup jig 602, the upper collection box 603 being capable of being combined with the lower collection box 304 to form a complete box.

As shown in fig. 2 and 3, an automatic labeling mechanism with a multi-station structure for automatic production of lithium batteries, a shielding and positioning mechanism 4, is arranged on the inner rear wall of an equipment housing 1; the shielding positioning mechanism 4 includes: a fixing frame 401, wherein the fixing frame 401 is concave; a first motor 402 installed at the right side of the fixed frame 401; the movable plate 403 is movably connected to the front end of the fixing frame 401, the movable plate 403 forms a rotating structure with the fixing frame 401 through the first motor 402, and the movable plate 403 can rotate through the rotating structure, so that the positioning baffle 405 does not shield the lithium battery body 202 any more, and the labeled lithium battery body 202 can pass through the positioning baffle 405 conveniently; a pressure sensor 404 installed on the left side of the movable plate 403, wherein the pressure sensor 404 can detect the thrust force applied to the positioning baffle 405, so that the number of lithium battery bodies 202 stacked on the left side of the positioning baffle 405 can be calculated; the positioning baffle 405 is arranged on the left side of the pressure sensor 404, and the positioning baffle 405 can shield and position the lithium battery body 202; a labeling mechanism 10 connected to the rear end direction of the mounting mechanism 7; the labeling mechanism 10 includes: a support chassis 1001, the support chassis 1001 being a convex plate; a fourth motor 1002 installed at a lower end of the support base 1001; a steering driving wheel 1003 installed on the upper end of the support base plate 1001, the steering driving wheel 1003 being connected to the rotation end of the fourth motor 1002 in an embedded manner; a low-temperature transparent pet self-adhesive tape 1004 arranged in the outer direction of the steering moving wheel 1003; the glue supplementing wheel 1005 is arranged on the right side of the low-temperature transparent pet self-adhesive tape 1004, and the glue supplementing wheel 1005 can supplement glue to the surface of the low-temperature transparent pet self-adhesive tape 1004; the damping rod 1006 is connected to the right side of the adhesive filling wheel 1005, the low-temperature transparent pet self-adhesive tape 1004 and the supporting bottom plate 1001 form an elastic structure through the damping rod 1006, and the low-temperature transparent pet self-adhesive tape 1004 can be continuously pushed through the elastic structure to enable the low-temperature transparent pet self-adhesive tape 1004 to be in a fastened state; a fixing plate 1007 provided at the upper end of the supporting base 1001, the fixing plate 1007 being provided in the inner direction of the low temperature transparent pet non-setting adhesive tape 1004; the fourth hydraulic cylinder 1008 is installed at the rear end of the fixing plate 1007, and the fourth hydraulic cylinder 1008 can push the pressing plate 1009, so that the lithium battery body 202 is labeled; according to the pressure board 1009, its rear end at fourth multisection pneumatic cylinder 1008 of connecting, according to the pressure piece on the pressure board 1009 and can increase or reduce according to actual conditions, makes and presses the pressure board 1009 to paste the mark to a plurality of lithium cell body 202 simultaneously, makes equipment can the multistation paste the mark, reduces the energy loss when equipment pastes the mark to reduce and paste the cost of mark processing.

As shown in fig. 3, 4 and 6, an automatic labeling mechanism with a multi-station structure for the automatic production of lithium batteries is provided, wherein a mounting mechanism 7 penetrates through the front wall of the equipment housing 1; the mounting mechanism 7 includes: the installation box body 701 is a square frame with four closed surfaces; a glue tank 702 mounted on the inner lower wall of the mounting case 701; a label box 703 mounted on the inner lower wall of the mounting box 701, the label box 703 being located in the right direction of the glue box 702; a coding machine 704 installed on the inner right wall of the installation case 701; a glue coating mechanism 8 arranged on the inner upper wall of the mounting mechanism 7; the gluing mechanism 8 comprises: the second multi-section hydraulic cylinder 801 drives the gluing brush 803 to lift to coat the glue solution on the label; a clamp plate 802 connected to a lower end of the second multi-stage hydraulic cylinder 801; a gluing brush 803 which is clamped and arranged in the middle of the clamping plate 802 and used for gluing the glue solution in the glue solution tank 702; mounting bolts 804 penetratingly mounted at left and right sides of the clamping plate 802; the label supplementing mechanism 9 is arranged on the upper wall in the installation mechanism 7, and the label supplementing mechanism 9 is positioned in the right side direction of the gluing mechanism 8; the label complementing mechanism 9 includes: a second electric slide 901; the third multi-section hydraulic cylinder 902 is arranged at the lower end of the second electric sliding rail 901, and the marked label paper can be pasted on the low-temperature transparent pet self-adhesive tape 1004 through the second electric sliding rail 901 and the third multi-section hydraulic cylinder 902; a second motor 903 which is arranged at the lower end of the third multi-section hydraulic cylinder 902, and adjusts the angle of the low-viscosity rubber plate 904 by means of the low-viscosity rubber plate 904 through a rotating structure formed between the second motor 903 and the third multi-section hydraulic cylinder 902, so that the marked label paper is aligned to the low-temperature transparent pet self-adhesive tape 1004; the low-viscosity rubber plate 904 is movably arranged at the lower end of the second motor 903, and the low-viscosity rubber plate 904 can take out the blank label in the label box 703; the third motor 905 is installed at the front end of the low-viscosity rubber plate 904, the low-viscosity rubber plate 904 forms a rotating structure through the third motor 905 and the second motor 903, and the low-viscosity rubber plate 904 can be rotated through the rotating structure, so that the marking machine 704 can mark the label paper conveniently.

The working principle is as follows: at first carry lithium cell 202 through band conveyer 201, shelter from the location to lithium cell 202 through fixed stop 203, can detect out the thrust that positioning stop 405 received through pressure sensor 404, thereby can calculate the accumulational lithium cell 202 quantity in positioning stop 405 left side, after the quantity of lithium cell 202 reaches a definite value, promote the pressure plate 1009 through fourth multisection pneumatic cylinder 1008 and make the label of low temperature transparent pet non-setting adhesive tape 1004 paste on lithium cell 202, through fan 502 in the outside air suction cooling case 501, through condenser pipe 503 and compressor 504 to the air cooling of cooling case 501 inside, carry the jet 506 through air duct 505 and spout, cool down subsides mark department, be convenient for glue on the label solidifies, be convenient for label and low temperature transparent pet non-setting adhesive tape 1004 to break away from, rely on mending rubber wheel 1005 can promote low temperature transparent pet non-setting adhesive tape through the elastic telescopic structure that constitutes between damping rod 1006 and bottom plate 1001 The tape 1004 makes the low-temperature transparent pet self-adhesive tape 1004 in a fastened state, so that the label can be conveniently pasted on the same height by equipment, meanwhile, the low-temperature transparent pet self-adhesive tape 1004 can be driven to rotate by a steering driving wheel 1003 through a rotating structure formed between a fourth motor 1002 and a supporting bottom plate 1001, so that the equipment can continuously run, glue can be supplemented to the low-temperature transparent pet self-adhesive tape 1004 through a glue supplementing wheel 1005, the low-temperature transparent pet self-adhesive tape 1004 is prevented from being stuck to the label after being used for a long time, a low-viscosity adhesive plate 904 is driven to adhere label paper in a label paper box 703 through a third hydraulic cylinder 902, then the angle of the low-viscosity adhesive plate 904 is adjusted by the low-viscosity adhesive plate 904 through a rotating structure formed between a third motor 905 and a second motor 903, so that the marking machine can mark the blank label paper, the low-viscosity adhesive plate 904 is driven to rotate by the second motor 903 after the marking is completed, the low-viscosity adhesive plate 904 is aligned with the low-temperature transparent pet adhesive tape 1004, the low-viscosity adhesive plate 904 is driven by the second electric slide rail 901 to move to attach label paper on the low-temperature transparent pet adhesive tape 1004, the clamping plate 802 is driven by the second multi-section hydraulic cylinder 801 to descend, the gluing brush 803 is dipped in glue in the glue box 702 and then coats the back of the label paper, so that label supplement is completed, the equipment can run continuously, after the labeling of the lithium battery body 202 is completed, the movable plate 403 can rotate the movable plate 403 through a rotating structure formed between the first motor 402 and the fixed frame 401, the positioning baffle 405 can not shield the lithium battery body 202 any longer, the labeled lithium battery body 202 can pass through the positioning baffle, the labeled lithium battery body 202 moves into the lower collecting box 304, and the collecting box 304 is driven by the first electric slide rail 302 to move, the lithium battery bodies 202 can be arranged in the lower collection box 304 in order, and when the lower collection box 304 is filled with the lithium battery bodies, the first multi-section hydraulic cylinder 601 drives the second sucker fixture 602 to descend, so that the upper collection box 603 and the lower collection box 304 are clamped together to store the lithium battery bodies 202 in a sealed manner.

Claims (10)

1. The utility model provides a lithium cell automated production is with automatic labeller structure that has multistation structure, includes:

a device housing (1);

the method is characterized in that:

a mounting mechanism (7) mounted through the front wall of the device housing (1);

a labeling mechanism (10) connected to the rear end direction of the mounting mechanism (7);

the labelling mechanism (10) comprises:

a support chassis (1001), the support chassis (1001) being a convex plate;

a fourth motor (1002) installed at a lower end of the support base plate (1001);

the steering driving wheel (1003) is installed at the upper end of the supporting bottom plate (1001), and the steering driving wheel (1003) is connected to the rotating end of the fourth motor (1002) in an embedded mode;

a low-temperature transparent pet self-adhesive tape (1004) arranged in the outer side direction of the steering driving wheel (1003);

a glue filling wheel (1005) arranged on the right side of the low-temperature transparent pet self-adhesive tape (1004);

the damping rod (1006) is connected to the right side of the glue supplementing wheel (1005), and the low-temperature transparent pet self-adhesive tape (1004) forms an elastic structure with the supporting bottom plate (1001) through the damping rod (1006);

a fixing plate (1007) disposed at an upper end of the supporting base plate (1001), the fixing plate (1007) being disposed in an inner direction of the low temperature transparent pet adhesive tape (1004);

a fourth multi-section hydraulic cylinder (1008) mounted at the rear end of the fixed plate (1007);

and a pressing plate (1009) connected to the rear end of the fourth multi-stage hydraulic cylinder (1008).

2. The automatic labeling mechanism with the multi-station structure for the automatic production of the lithium battery according to claim 1, wherein the inner lower wall of the equipment housing (1) is provided with a conveying mechanism (2);

a collecting mechanism (3) arranged at the inner lower wall of the equipment shell (1), wherein the collecting mechanism (3) is positioned in the right side direction of the conveying mechanism (2);

a shielding positioning mechanism (4) arranged on the inner rear wall of the equipment housing (1);

a condensation mechanism (5) provided on an inner upper wall of the apparatus case (1);

a cover sealing mechanism (6) arranged on the inner upper wall of the equipment shell (1), wherein the cover sealing mechanism (6) is positioned in the right side direction of the cold fixing mechanism (5);

a glue spreading mechanism (8) arranged on the inner upper wall of the mounting mechanism (7);

and the mark supplementing mechanism (9) is arranged on the upper wall of the interior of the installation mechanism (7), and the mark supplementing mechanism (9) is positioned in the right side direction of the gluing mechanism (8).

3. The automatic labeling mechanism with the multi-station structure for the automatic production of lithium batteries according to claim 2, wherein the conveying mechanism (2) comprises:

a belt conveyor (201);

a lithium battery body (202) placed at the upper end of the belt conveyor (201);

a fixing baffle (203) disposed at a rear end of the lithium battery body (202).

4. The automatic labeling mechanism with the multi-station structure for the automatic production of lithium batteries according to claim 2, wherein the collecting mechanism (3) comprises:

an elevating frame (301);

a first electric slide rail (302) provided at an upper end of the bed frame (301);

a first chuck clamp (303) arranged at the upper end of the first electric slide rail (302);

a lower collection box (304) disposed at an upper end of the first suction cup jig (303).

5. The automatic labeling mechanism with the multi-station structure for the automatic production of lithium batteries according to claim 2, wherein the shielding and positioning mechanism (4) comprises:

the fixing frame (401), the shape of the fixing frame (401) is concave;

a first motor (402) installed at a right side of the fixed frame (401);

the movable plate (403) is movably connected to the front end of the fixed frame (401), and a rotating structure is formed between the movable plate (403) and the fixed frame (401) through a first motor (402);

a pressure sensor (404) installed at a left side of the movable plate (403);

a positioning baffle (405) disposed to the left of the pressure sensor (404).

6. The automatic labeling mechanism with the multi-station structure for the automatic production of lithium batteries according to claim 2, wherein the cold fixation mechanism (5) comprises:

a cooling box (501);

a fan (502) installed at the left side of the cooling box (501);

a condensation duct (503) installed inside the cooling box (501);

a compressor (504) installed at a right side of the cooling box (501);

an air duct (505) connected to the lower end of the cooling tank (501);

an air jet (506) connected to the lower end of the air duct (505).

7. The automatic labeling mechanism with the multi-station structure for the automatic production of lithium batteries according to claim 2, wherein the capping mechanism (6) comprises:

a first multi-linked hydraulic cylinder (601);

a second suction cup clamp (602) mounted at the lower end of the first multi-section hydraulic cylinder (601);

an upper collection bin (603) disposed at a lower end of the second suction cup fixture (602).

8. The automatic labeling mechanism with a multi-station structure for the automatic production of lithium batteries according to claim 1, wherein the mounting mechanism (7) comprises:

the mounting box body (701), the shape of the mounting box body (701) is a square frame with four closed sides;

a glue tank (702) mounted on the inner lower wall of the mounting case (701);

a label box (703) mounted on the inner lower wall of the mounting box (701), the label box (703) being located in the right direction of the glue box (702);

and the coding machine (704) is installed on the right wall of the inner part of the installation box body (701).

9. The automatic labeling mechanism with the multi-station structure for the automatic production of lithium batteries according to claim 2, wherein the gluing mechanism (8) comprises:

a second multi-link hydraulic cylinder (801);

a clamp plate (802) connected to a lower end of the second multi-link hydraulic cylinder (801);

the gluing brush (803) is clamped and installed in the middle of the clamping plate (802);

and mounting bolts (804) which are penetratingly mounted at the left and right sides of the clamping plate (802).

10. The automatic labeling mechanism with the multi-station structure for the automatic production of lithium batteries according to claim 2, wherein the label supplementing mechanism (9) comprises:

a second motorized sled (901);

a third multi-section hydraulic cylinder (902) which is arranged at the lower end of the second electric slide rail (901);

a second motor (903) mounted to a lower end of the third multi-stage hydraulic cylinder (902);

a low-viscosity rubber plate (904) movably arranged at the lower end of the second motor (903);

and the third motor (905) is arranged at the front end of the low-viscosity rubber plate (904), and the low-viscosity rubber plate (904) forms a rotating structure between the third motor (905) and the second motor (903).

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