CN114447502B - Lithium battery safety dismounting device for new energy equipment - Google Patents

Abstract

The invention discloses a lithium battery safety dismounting device for new energy equipment, belonging to the field of lithium battery dismounting; the cleaning device comprises a mounting seat and is characterized in that a first supporting arm is movably mounted on the mounting seat, a first mounting chute is formed in the first supporting arm, a battery supporting plate is movably mounted in the first mounting chute, a first sliding boss is arranged on the first supporting arm, a movable cross beam is movably mounted on the first sliding boss, a cleaning roller mounting groove is formed below the movable cross beam, and a cleaning roller is movably arranged in the cleaning roller mounting groove; through the slip of battery backup pad in first installation spout, the battery backup pad is to be supported fixedly to the lithium cell of dismantlement installation, and the position of first support arm up-and-down motion adjustment lithium cell, the reciprocating motion of movable cross beam washs the battery backup pad through wasing the gyro wheel simultaneously, is pricked by impurity when avoiding the lithium cell to fall on the battery backup pad and leads to the battery to become invalid.

Description

Lithium battery safety dismounting device for new energy equipment

Technical Field

The disclosure belongs to the field of lithium battery disassembly and assembly, and particularly relates to a lithium battery safe disassembly and assembly device for new energy equipment.

Background

Lithium batteries are a type of batteries using a nonaqueous electrolyte solution with lithium metal or a lithium alloy as a negative electrode material. 1912. Lithium metal batteries were first proposed and studied by Gilbert n.lewis. At 70 s of the 20 th century, m.s. whittingham proposed and began to study lithium ion batteries. The chemical characteristics of lithium metal are very active, so that the processing, storage and use of lithium metal have very high requirements on environment. Therefore, lithium batteries have not been used for a long time. With the development of science and technology, lithium batteries have become the mainstream. Lithium batteries can be broadly divided into two categories: lithium metal batteries and lithium ion batteries. Lithium ion batteries do not contain metallic lithium and are rechargeable. The lithium metal battery of the fifth generation product of the rechargeable battery is born in 1996, and the safety, the specific capacity, the self-discharge rate and the cost performance ratio of the lithium metal battery are all superior to those of the lithium ion battery. Due to its own high technical requirements, only a few countries of companies are currently producing such lithium metal batteries;

the invention discloses a device capable of rapidly supporting and fixing a battery, which is characterized in that the weight of a lithium battery of new energy equipment is hundreds of thousands of kilograms, a common bracket mounting mode is time-consuming and labor-consuming, and various auxiliary tools are needed for supporting during mounting and dismounting.

Disclosure of Invention

Aiming at the defects of the prior art, the purpose of the present disclosure is to provide a lithium battery safety dismounting device for new energy equipment, which solves the problem that the lithium battery is difficult to fix during dismounting in the prior art.

The purpose of the disclosure can be achieved by the following technical scheme:

a lithium cell safety dismouting device for new energy equipment, includes the mount pad, its characterized in that, movable mounting has first support arm on the mount pad, has seted up first installation spout on the first support arm, movable mounting has the battery support board in the first installation spout, is equipped with first slip boss on the first support arm, movable mounting has movable cross beam on the first slip boss, has seted up the cleaning roller mounting groove below the movable cross beam, and the activity has the cleaning roller in the cleaning roller mounting groove.

Further, a first mounting groove is formed in the battery support plate, a lithium battery placing plate is movably mounted in the first mounting groove, a gas connection through hole is formed below the first mounting groove, a high-pressure air cavity is formed below the lithium battery placing plate, the high-pressure air cavity is communicated with the gas connection through hole, and first purging through holes which are uniformly distributed are formed in the high-pressure air cavity.

Further, the cleaning roller is movably mounted in the cleaning roller mounting groove through the roller mounting shaft, the cleaning roller is of a hollow structure, a second dust collection through hole is formed in the outer wall of the cleaning roller, a dust collection inner pipe is arranged in the cleaning roller, a first dust collection through hole is formed in the dust collection inner pipe, and one end of the first dust collection through hole is connected with a negative pressure dust collection pipeline.

Further, a plurality of dust collection electromagnetic valves are arranged on the outer wall of the cleaning roller, a second installation chute is arranged on the first supporting arm, the second installation chute is positioned below the first installation chute, and a receiving box is movably installed in the second installation chute;

the movable cross beam is provided with a first rotating shaft, one end of the first rotating shaft is provided with a first gear, the other end of the first rotating shaft is provided with a second gear, the cleaning roller is provided with a third gear, the third gear is meshed with the first gear, the side face of the movable cross beam is provided with a second rack, a first abdicating groove is formed in the second rack, the side face of the first supporting arm is provided with a first rack, the first rack is meshed with the second gear, and the second rack is meshed with the first driving gear.

Further, the second mounting groove has all been seted up to four sides of first mounting groove, and movable mounting has first slider in the second mounting groove, has seted up conflict piece mounting groove on the first slider, and movable mounting has the side conflict piece in the conflict piece mounting groove, is equipped with the guide post in the conflict piece mounting groove.

Further, be equipped with the fourth spout below the first mounting groove, the gear mounting groove has been seted up to the side of fourth spout and second mounting groove intercommunication each other, and the gas connection through-hole is located the gear mounting inslot, movable mounting has the fourth gear in the gear mounting groove, has seted up the connection through-hole on the fourth gear, and the side of first slider is equipped with the third rack, third rack movable mounting in the fourth spout, third rack and fourth gear intermeshing.

Further, the third spout has all been seted up on the four sides of high-pressure air cavity, and the side of first slider is equipped with the gas connection post, and gas connection post movable mounting is in the third spout, and gas connection post both sides are equipped with first through-hole and second through-hole, and first through-hole and second through-hole all communicate each other with conflict piece mounting groove, are equipped with first exhaust groove in the side conflict piece, and the side of first exhaust groove is equipped with the second and sweeps the mouth.

Further, a first chip removal groove is formed below the second mounting groove.

Further, a third purging port is formed in the gas connecting column, and the axis of the third purging port is inclined towards the direction of the side abutting block.

Further, the slider mounting groove has been seted up to the gas connection post, and movable mounting has spring slider and spring mounting panel in the slider mounting groove, has seted up the third through-hole on the spring mounting panel, is equipped with first spring between spring mounting panel and the spring slider, has seted up the gas intercommunication groove in the spring slider, and the fifth through-hole has been seted up to the side in gas intercommunication groove, and gas intercommunication groove top is equipped with the fourth through-hole, is equipped with the conflict piece in the high-pressure air cavity, the conflict piece is contradicted each other with the terminal surface of spring slider.

The beneficial effects of the present disclosure are:

through the slip of battery backup pad in first installation spout, the battery backup pad is to be supported fixedly to the lithium cell of dismantlement installation, and the position of first support arm up-and-down motion adjustment lithium cell, the reciprocating motion of movable cross beam washs the battery backup pad through wasing the gyro wheel simultaneously, is pricked by impurity when avoiding the lithium cell to fall on the battery backup pad and leads to the battery to become invalid.

Drawings

In order to more clearly illustrate the embodiments of the present disclosure or the prior art, the drawings that are required for the description of the embodiments or the prior art will be briefly described, and it will be apparent to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic overall construction of an embodiment of the present disclosure;

FIG. 2 is a schematic structural view of a first support arm according to an embodiment of the present disclosure;

FIG. 3 is a schematic view of the structure of a battery support plate according to an embodiment of the present disclosure;

FIG. 4 is a schematic view of the mounting structure of a battery support plate according to an embodiment of the present disclosure;

FIG. 5 is a schematic view of a movable cross member according to an embodiment of the present disclosure

FIG. 6 is a schematic structural view of a gear mounting slot according to an embodiment of the present disclosure;

FIG. 7 is a schematic view of a cleaning roller according to an embodiment of the present disclosure;

fig. 8 is a schematic view of the internal structure of a battery support plate according to an embodiment of the present disclosure;

FIG. 9 is a schematic diagram of a side interference block according to an embodiment of the present disclosure;

FIG. 10 is a schematic view of the structure of a spring slider according to an embodiment of the present disclosure;

fig. 11 is a schematic structural view of a first slider according to an embodiment of the present disclosure.

Detailed Description

The following description of the technical solutions in the embodiments of the present disclosure will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present disclosure, and it is apparent that the described embodiments are only some embodiments of the present disclosure, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments in this disclosure without inventive faculty, are intended to fall within the scope of this disclosure.

As shown in fig. 1-11, a lithium battery safety dismounting device for new energy equipment comprises a mounting seat 1, wherein a first supporting arm 2 is movably mounted on the mounting seat 1, a first mounting sliding groove 21 is formed in the first supporting arm 2, a battery supporting plate 3 is movably mounted in the first mounting sliding groove 21, a first sliding boss 23 is arranged on the first supporting arm 2, a movable cross beam 4 is movably mounted on the first sliding boss 23, a cleaning roller mounting groove 49 is formed below the movable cross beam 4, and a cleaning roller 5 is movably mounted in the cleaning roller mounting groove 49; through such design, drive the slip of battery backup pad 3 in first installation spout 21 through cylinder or lead screw, treat the lithium cell of dismantlement installation and support fixedly through battery backup pad 3, the position of first support arm 2 up-and-down motion adjustment lithium cell, the reciprocating motion of movable cross beam 4 washs battery backup pad 3 through wasing gyro wheel 5 simultaneously, avoided the lithium cell to fall when battery backup pad 3 by impurity puncture lead to the battery to become invalid, and further, washs gyro wheel 5 and adopts the washing brush.

In some disclosures, the battery support plate 3 is provided with a first mounting groove 31, a lithium battery placing plate 35 is movably mounted in the first mounting groove 31, a gas connecting through hole 34 is arranged below the first mounting groove 31, a high-pressure air cavity 36 is arranged below the lithium battery placing plate 35, the high-pressure air cavity 36 is communicated with the gas connecting through hole 34, and first purging through holes 38 which are uniformly distributed are formed in the high-pressure air cavity 36; through such design, blow out high-speed gas to first purge through hole 38 through gas connection through hole 34 and blow out the lithium cell surface that will put into battery backup pad 3 clean and avoid the attached hard thing puncture the battery on the lithium cell to lead to the battery to lose efficacy, can wash the surface of battery backup pad 3 simultaneously.

In some disclosures, the cleaning roller 5 is movably mounted in the cleaning roller mounting groove 49 through a roller mounting shaft 52, the cleaning roller 5 adopts a hollow structure, a second dust collection through hole 56 is formed in the outer wall of the cleaning roller 5, a dust collection inner pipe 53 is arranged in the cleaning roller 5, a first dust collection through hole 54 is formed in the dust collection inner pipe 53, and one end of the first dust collection through hole 54 is connected with a negative pressure dust collection pipeline; through so design, can inhale through the negative pressure dust absorption pipeline and get into first dust absorption through-hole 54 from the negative pressure dust absorption pipeline after inhaling the cavity with the impurity on the battery support plate 3 from second dust absorption through-hole 56, can guarantee the cleaning performance, the impurity word in the cavity of suction cleaning gyro wheel 5 can be avoided flowing out when cleaning gyro wheel 5 is rotatory to dust absorption inner tube 53 simultaneously.

In some disclosures, the outer wall of the cleaning roller 5 is provided with a plurality of dust collection electromagnetic valves 57, the first support arm 2 is provided with a second installation chute 22, the second installation chute 22 is positioned below the first installation chute 21, and a receiving box is movably installed in the second installation chute 22; through such design, can adsorb the big metal block of battery backup pad 3 on dust absorption solenoid valve 57 through dust absorption solenoid valve 57, close the dust absorption solenoid valve 57 and fall the metal impurity that adsorbs in receiving the magazine afterwards.

The movable cross beam 4 is provided with a first rotating shaft 41, one end of the first rotating shaft 41 is provided with a first gear 42, the other end of the first rotating shaft is provided with a second gear 43, the cleaning roller 5 is provided with a third gear 51, the third gear 51 is meshed with the first gear 42, the side surface of the movable cross beam 4 is provided with a second rack 45, a first abdication groove 46 is formed in the second rack 45, the side surface of the first supporting arm 2 is provided with a first rack 44, the first rack 44 is meshed with the second gear 43, and the second rack 45 is meshed with the first driving gear 47; through such design, can make the rotation of washing gyro wheel 5 guarantee the cleaning performance with the motion synchronization of movable cross beam 4.

In some disclosures, the four sides of the first mounting groove 31 are provided with second mounting grooves 32, the second mounting grooves 32 are internally and movably provided with first sliding blocks 7, the first sliding blocks 7 are provided with abutting block mounting grooves 71, the abutting block mounting grooves 71 are internally and movably provided with side abutting blocks 8, and the abutting block mounting grooves 71 are internally provided with guide posts 72; through such design, when the lithium cell falls on battery backup pad 3, with the side conflict piece 8 lift back first slider 7 be close to the lithium cell and accomplish the fixed to the lithium cell through the conflict of side conflict piece 8 to the conflict of lithium cell, avoid the lithium cell to take place the displacement when battery backup pad 3 moves and drop scheduling problem, the lithium cell displacement can lead to dismantling the degree of difficulty increase simultaneously and dismantle the process and lead to the battery damage.

In some disclosures, a fourth sliding groove 39 is arranged below the first installation groove 31, the fourth sliding groove 39 is communicated with the second installation groove 32, a gear installation groove 6 is arranged on the side surface of the fourth sliding groove 39, a gas connection through hole 34 is positioned in the gear installation groove 6, a fourth gear 61 is movably installed in the gear installation groove 6, a connection through hole 62 is arranged on the fourth gear 61, a third rack 77 is arranged on the side surface of the first sliding block 7, the third rack 77 is movably installed in the fourth sliding groove 39, and the third rack 77 is meshed with the fourth gear 61; when the first sliding block 7 moves in place, the fixing of the lithium battery is completed, and the third rack 77 and the fourth gear 61 are meshed with each other to drive the fourth gear 61 to rotate, so that the connecting through hole 62 and the first mounting groove 31 are staggered to close the gas connecting through hole 34, and the waste of gas can be reduced.

In some disclosures, the four sides of the high-pressure air chamber 36 are provided with third sliding grooves 37, the side surface of the first sliding block 7 is provided with a gas connecting column 73, both sides of the gas connecting column 73 are provided with a first through hole 74 and a second through hole 75, the gas connecting column 73 is movably arranged in the third sliding groove 37, the first through hole 74 and the second through hole 75 are communicated with the abutting block mounting groove 71, the side surface abutting block 8 is internally provided with a first air exhausting groove 81, and the side surface of the first air exhausting groove 81 is provided with a second blowing opening 82; through such design, can be when first slider 7 moves gas connection post 73 at the third spout 37 slip, first through-hole 74 advance in the high-pressure air chamber 36, and the high-pressure air in the high-pressure air chamber 36 is followed second through-hole 75 blowout and is swept the impurity in the third spout 37, avoids first slider 7 motion jam, and impurity follow second mounting groove 32 below has seted up first junk slot 33 and has flowed out, and when first through-hole 74 and second through-hole 75 all get into high-pressure air chamber 36 after the high-pressure air chamber 36 get into from second through-hole 75 and first through-hole 74 get into and blow the mouth 82 blowout and sweep impurity all around the lithium cell, so can avoid leading to the lithium cell surface damage to lead to the inefficacy when the side conflict piece 8 is fixed to the lithium cell side.

In some disclosures, a third purge port 76 is provided on the gas connection column 73, and the axis of the third purge port 76 is inclined towards the direction of the side collision block 8; through such design, can be when the third sweeps the mouth 76 and get into high-pressure air cavity 36, the third sweeps the mouth 76 and still is outside high-pressure air cavity 36, and high-pressure gas sweeps the side of side conflict piece 8 from the blowout of third sweeps the mouth 76, avoids side conflict piece 8 to contradict with the lithium cell side and leads to the lithium cell because of impurity particle's oppression damage.

In some disclosures, the gas connecting column 73 is provided with a slider mounting groove, a spring slider 9 and a spring mounting plate 92 are movably mounted in the slider mounting groove, a third through hole 94 is formed in the spring mounting plate 92, a first spring 93 is arranged between the spring mounting plate 92 and the spring slider 9, a gas communicating groove 91 is formed in the spring slider 9, a fifth through hole 96 is formed in the side surface of the gas communicating groove 91, a fourth through hole 95 is formed above the gas communicating groove 91, and a collision block is arranged in the high-pressure gas cavity 36 and is mutually collided with the end surface of the spring slider 9; through such design, when first slider 7 moves, the conflict piece is contradicted spring slider 9, makes spring slider 9 overcome first spring 93 motion, makes second through-hole 75 by spring slider 9 side jam when first through-hole 74 gets into high-pressure air cavity 36 through spring slider 9 and gas connection post 73 different positions, and the gas has discharged from third purge port 76 through fourth through-hole 95 and has guaranteed the stability of third purge port 76 purge gas.

Working principle:

through the slip of battery backup pad 3 in first installation spout 21, battery backup pad 3 supports fixedly treating the lithium cell of dismantlement installation, and the position of first support arm 2 up-and-down motion adjustment lithium cell, the reciprocating motion of movable cross beam 4 washs battery backup pad 3 through wasing gyro wheel 5 simultaneously, avoids the lithium cell to drop on battery backup pad 3 when being pricked by the impurity and leads to the battery to become invalid.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims.

Claims (8)

1. The lithium battery safe dismounting device for the new energy equipment comprises a mounting seat (1) and is characterized in that a first supporting arm (2) is movably mounted on the mounting seat (1), a first mounting sliding groove (21) is formed in the first supporting arm (2), a battery supporting plate (3) is movably mounted in the first mounting sliding groove (21), a first sliding boss (23) is arranged on the first supporting arm (2), a movable cross beam (4) is movably mounted on the first sliding boss (23), a cleaning roller mounting groove (49) is formed below the movable cross beam (4), and a cleaning roller (5) is movably arranged in the cleaning roller mounting groove (49);

a first mounting groove (31) is formed in the battery support plate (3), a lithium battery placing plate (35) is movably mounted in the first mounting groove (31), a gas connecting through hole (34) is formed below the first mounting groove (31), a high-pressure air cavity (36) is formed below the lithium battery placing plate (35), the high-pressure air cavity (36) is communicated with the gas connecting through hole (34), and first purging through holes (38) which are uniformly distributed are formed in the high-pressure air cavity (36);

the four sides of the first mounting groove (31) are provided with second mounting grooves (32), the second mounting grooves (32) are internally and movably provided with first sliding blocks (7), the first sliding blocks (7) are provided with abutting block mounting grooves (71), the abutting block mounting grooves (71) are internally and movably provided with side abutting blocks (8), and the abutting block mounting grooves (71) are internally provided with guide posts (72);

the battery support plate (3) is driven to slide in the first installation chute (21) through the air cylinder or the screw rod, the lithium battery to be detached and installed is supported and fixed through the battery support plate (3), and the first support arm (2) moves up and down to adjust the position of the lithium battery; when the lithium battery falls on the battery supporting plate (3), the side abutting block (8) is lifted, the first sliding block (7) approaches the lithium battery, and the lithium battery is fixed through abutting of the side abutting block (8) on the lithium battery.

2. The lithium battery safe dismounting device for new energy equipment according to claim 1, wherein the cleaning roller (5) is movably mounted in the cleaning roller mounting groove (49) through a roller mounting shaft (52), the cleaning roller (5) adopts a hollow structure, a second dust collection through hole (56) is formed in the outer wall of the cleaning roller (5), a dust collection inner tube (53) is arranged in the cleaning roller (5), a first dust collection through hole (54) is formed in the dust collection inner tube (53), and one end of the first dust collection through hole (54) is connected with a negative pressure dust collection pipeline.

3. The lithium battery safe dismounting device for the new energy equipment according to claim 1 is characterized in that a plurality of dust collection electromagnetic valves (57) are arranged on the outer wall of the cleaning roller (5), a second installation chute (22) is formed in the first supporting arm (2), the second installation chute (22) is positioned below the first installation chute (21), and a receiving box is movably installed in the second installation chute (22);

the movable cross beam (4) is provided with a first rotating shaft (41), one end of the first rotating shaft (41) is provided with a first gear (42), the other end of the first rotating shaft is provided with a second gear (43), the cleaning roller (5) is provided with a third gear (51), the third gear (51) is meshed with the first gear (42), the side face of the movable cross beam (4) is provided with a second rack (45), a first abdicating groove (46) is formed in the second rack (45), the side face of the first supporting arm (2) is provided with a first rack (44), the first rack (44) is meshed with the second gear (43), and the second rack (45) is meshed with the first driving gear (47).

4. The lithium battery safety dismounting device for new energy equipment according to claim 1, characterized in that a fourth chute (39) is arranged below the first mounting groove (31), the fourth chute (39) is mutually communicated with the second mounting groove (32), a gear mounting groove (6) is formed in the side face of the fourth chute (39), a gas connection through hole (34) is formed in the gear mounting groove (6), a fourth gear (61) is movably mounted in the gear mounting groove (6), a connection through hole (62) is formed in the fourth gear (61), a third rack (77) is arranged on the side face of the first sliding block (7), the third rack (77) is movably mounted in the fourth chute (39), and the third rack (77) is mutually meshed with the fourth gear (61).

5. The lithium battery safety dismounting device for new energy equipment according to claim 1, characterized in that the third sliding grooves (37) are formed in four sides of the high-pressure air cavity (36), the side face of the first sliding block (7) is provided with the gas connecting column (73), the gas connecting column (73) is movably mounted in the third sliding grooves (37), two sides of the gas connecting column (73) are provided with the first through holes (74) and the second through holes (75), the first through holes (74) and the second through holes (75) are communicated with the abutting block mounting grooves (71), the side face abutting block (8) is internally provided with the first exhaust grooves (81), and the side face of the first exhaust grooves (81) is provided with the second purging port (82).

6. The lithium battery safety dismounting device for new energy equipment according to claim 1, wherein a first chip removal groove (33) is formed below the second mounting groove (32).

7. The lithium battery safety dismounting device for new energy equipment according to claim 5, wherein a third purging port (76) is arranged on the gas connecting column (73), and the axis of the third purging port (76) is inclined towards the direction of the side abutting block (8).

8. The lithium battery safety dismounting device for new energy equipment according to claim 7, wherein the gas connection column (73) is provided with a slider mounting groove, a spring slider (9) and a spring mounting plate (92) are movably mounted in the slider mounting groove, a third through hole (94) is formed in the spring mounting plate (92), a first spring (93) is arranged between the spring mounting plate (92) and the spring slider (9), a gas communication groove (91) is formed in the spring slider (9), a fifth through hole (96) is formed in the side face of the gas communication groove (91), a fourth through hole (95) is formed above the gas communication groove (91), and a collision block is arranged in the high-pressure air cavity (36) and is mutually collided with the end face of the spring slider (9).