CN112849824A - Lithium battery recycling cabinet - Google Patents

Abstract

The invention discloses a lithium battery recovery cabinet, which comprises a cabinet, an opening part arranged on the cabinet, a channel arranged on the cabinet, a driving part arranged on the channel, a transportation part used for limiting a lithium battery, and a collection part used for fixing the lithium battery, wherein the opening part is arranged on the cabinet; the driving part comprises a first empty groove arranged on the cabinet, a first driving rod arranged on the empty groove, a cavity arranged on the cabinet, driving plates distributed along the circumferential direction of the first driving rod, induction blocks respectively arranged on the driving plates, and an electric power storage assembly for storing electric power; one end of the driving plate can enter the channel; the lithium battery can contact the induction block; according to the invention, some residual electricity is discharged for storage through the electricity storage component, so that current recovery is realized, and when the electricity storage component is scrapped later, the step of discharging is not required again, so that the working efficiency is improved, and each lithium battery can be clamped by the groove, and is placed neatly and easily taken.

Description

Lithium battery recycling cabinet

Technical Field

The invention belongs to the technical field of lithium battery recovery, and particularly relates to a lithium battery recovery cabinet.

Background

Some factories use a lot of tools requiring lithium batteries, and when the service life is inevitably exhausted after the tools are used, the tools are collected together and collected together for recycling because the tools are not frequently recycled, but the tools have residual current even if the service life is exhausted, the problems of electric leakage easily occur when the tools are stacked together, and the tools are stacked together and are inconvenient to take.

Disclosure of Invention

The invention provides a lithium battery recovery cabinet which can recover current and is convenient to take in order to overcome the defects of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme: a lithium battery recovery cabinet comprises a lithium battery recovery cabinet body, and the lithium battery recovery cabinet body comprises a cabinet body, an opening component arranged on the cabinet body, a channel arranged on the cabinet body, a driving component arranged on the channel, a transportation component used for limiting a lithium battery and a collection component used for fixing the lithium battery.

The starting component is used for starting one end of the channel, the lithium battery to be recovered is placed in the channel after the starting component is started, and the driving component is used for exhausting the residual electric quantity, storing and using the residual electric quantity and realizing current recovery when the lithium battery is transported, so that the step of discharging again is not needed when the lithium battery is scrapped later, and the working efficiency is improved; the collecting component can collect the lithium battery which has been discharged, so that the battery is placed neatly and is convenient to take.

The driving part comprises a first empty groove arranged on the cabinet, a first driving rod arranged on the empty groove, a cavity arranged on the cabinet, a second driving rod rotatably arranged on the cavity, a driving belt used for connecting the first driving rod and the second driving rod, driving plates distributed along the circumferential direction of the first driving rod, induction blocks respectively arranged on the driving plates, and an electricity storage assembly used for storing electricity; one end of the driving plate can enter the channel; the lithium battery may contact the sensing block.

The lithium battery is contacted with the induction block on the driving plate when sliding in from the channel, on one hand, the battery can be identified to enter the channel, on the other hand, the battery presses the driving plate through gravity, and can also drive the first driving to have a pushing function, so that the first driving rod can rotate only by small power when rotating, thereby saving electric quantity, utilizing the power in storage, providing no extra energy, and keeping the working state all the time by utilizing the residual power of the battery, the first driving rod rotates, the second driving rod can rotate through the driving belt, thereby leading the transportation part to enter the working state, wherein the part of the first driving rod sleeved by the driving belt has a diameter larger than that of the second driving rod, and thus, the first driving rod only needs to rotate by a small half turn, the second actuating lever just can rotate several rings to but make the transportation of transportation part the actuating lever keep synchronous, thereby make the lithium cell can prepare by spacingly when getting into the transportation part, improve stability, finally can with let the storage battery subassembly can be stable discharge the storage to the lithium cell.

The conveying part comprises conveying rods symmetrically arranged on the cavity, a conveying belt with two ends respectively wound on the driving rod, a plurality of positive limiting assemblies arranged on the conveying belt, and a plurality of negative limiting assemblies arranged on the conveying belt; the second driving rod can drive the conveying belt to move; the positive limiting assemblies and the negative limiting assemblies are staggered with each other; the positive limiting assembly comprises a first limiting groove arranged on the conveying belt and a first conical electrified spring arranged on the first limiting groove; the negative limiting assembly comprises a second limiting groove arranged on the conveyor belt, a negative limiting spring arranged on the second limiting groove, a negative limiting plate arranged on the negative limiting spring in a vertically movable manner, an opening arranged on the negative limiting plate, and a first electrifying lug arranged on the second limiting groove; the first energizing block can pass through the opening; the electric power storage assembly comprises an electric power storage rod rotatably arranged on the cabinet, a plurality of second conical energizing springs distributed along the circumferential direction of the electric power storage rod, a plurality of second energizing bumps distributed along the circumferential direction of the electric power storage rod, a plurality of buffer plates distributed along the circumferential direction of the electric power storage rod, a guide block arranged at one end of the electric power storage rod, and a guide groove arranged on the drive plate; the buffer plate can be contacted with the second conical electrifying spring when rotating, and the buffer plate can be contacted with the second electrifying bump when rotating; the guide groove can push the guide block.

The positive limiting assemblies and the negative limiting assemblies are arranged at intervals, so that when a worker puts the lithium battery into the channel, the worker does not need to deliberately judge the positive level and the negative level, the operation is very convenient, and the battery can be directly put into the channel without taking energy; when the batteries are arranged on the limiting groove and conveyed by the conveying belt, one end of each battery is propped against the buffer plate to enable the buffer plate to rotate and to be contacted with the second electrifying lug or the second conical electrifying spring; when one end of the lithium battery is contacted with the second electrifying lug and the other end of the lithium battery is contacted with the first conical electrifying spring, the lithium battery enters a discharging state, and residual current is collected by the electric storage rod; when the battery moves on the conveyer belt, perhaps can not be direct with second toper circular telegram spring or the butt joint of second circular telegram lug, so pass through the buffer board, make the one end of battery can pass through the buffer board butt joint all the time successfully, thereby be in the on-state, finally reach the effect of discharging, and it is rotatable to hold the pole, let first actuating lever rotate, promote the guide block through the guide way and rotate, thereby let the electric power storage pole rotate, like this can not let every second toper circular telegram spring or the second circular telegram lug all be in the work always, and the service life is prolonged, it can release more thoroughly to let remaining electric power on the lithium cell, when making afterwards scrapping it, need not carry out the step of discharging once more, and the work efficiency is improved.

The collecting component comprises a first fixed rod arranged on the cabinet, a rotating plate rotatably arranged on the first fixed rod, a supporting plate slidably arranged on the rotating plate, a first limiting block used for limiting the supporting plate, a second limiting block used for limiting the supporting plate, a power-on plate detachably arranged on the supporting plate, a track arranged on the power-on plate, a collecting groove arranged on the track, a second fixed rod arranged on the cabinet and a limiting rod rotatably arranged on the second fixed rod; the lithium battery can enter the collecting tank; the collecting groove can slide on the track, the display screen is arranged on the rotating plate, and the locking assembly is arranged on the rotating plate. The locking assembly comprises a first locking rod rotatably arranged on the supporting plate, an upper locking groove arranged on the cabinet, a lower locking groove arranged on the rotating plate, a handle arranged on the first locking rod and a second locking rod arranged on the first locking rod; the second locking rod can enter the upper locking groove and the lower locking groove when rotating.

The first fixed rod is arranged below the rotating plate, so that when the rotating plate is rotated, too much force is not needed, only the locking part needs to be opened, then the rotating plate can be conveniently driven to rotate through the dead weight of the rotating plate, when the rotating plate needs to be unlocked, the first locking rod is rotated, the rotating handle at the end part of the locking rod can be changed into a horizontal state from a vertical state, meanwhile, the second locking rod on the first locking rod can be changed into a horizontal state from a vertical state, in other words, the second locking rod can come out from the lower locking groove of the upper locking groove box, so that the rotating plate can be changed into an openable state, when the rotating plate rotates about ninety degrees, the horizontal end of the first locking rod can also be simultaneously rotated with the rotating plate, then the grasping form of the first locking rod can be changed into a pulling form, the supporting plate is pulled, the supporting plate is further slid out from the rotating plate, under the action of the first limiting block and the second limiting block, the supporting plate can not be completely separated from the rotating plate, but the electrifying plate is arranged on the supporting plate, so that when the supporting plate is pulled, the electrifying plate can be pulled out, the batteries in the collecting tank can be pulled out on the electrifying plate, the batteries are convenient to take, and the electrifying plate can be detached, so that the batteries in the collecting tank can be orderly, conveniently and quickly recovered, and the efficiency is improved; when the locking component is closed, the electrifying plate is electrified, so that the track can drive the collecting groove to enable the empty collecting groove to be aligned with the battery in the limiting groove; when the conveying belt rotates, the limiting rod can have prepressing force on batteries which are exhausted, when the conveying belt rotates, the batteries leave the limiting rod, the batteries can pop out of the limiting groove under the action of the prepressing force and slide into the collecting groove, then the next empty collecting groove can be aligned to the next battery in the limiting groove, the next battery is collected, each battery is collected, effective statistics can be carried out, final counting is not needed, the time for recycling is shortened, the efficiency is improved, the power-on plate is self-sufficient due to the fact that a power supply on the power storage rod is utilized, the duration time of work is prolonged, when the second locking rod comes out of the upper locking groove and the lower locking groove, the power supply is saved, meanwhile, the power-on plate can be detached, and the recycling efficiency is improved; the display screen also utilizes remaining electric power, can show the number of battery in the collecting vat to can know the battery quantity in retrieving the cabinet, thereby can effectually judge, thereby confirm the approximate time of retrieving, avoid retrieving in the cabinet one or two low efficiency work just retrieved, thereby raise the efficiency.

The opening component comprises an opening groove arranged on the cabinet, an opening block arranged on the opening groove in a vertically movable manner, and an opening spring used for resetting the opening block; the opening block may block one end of the passage.

The opening block is blocked up the channel in the initial state, and the opening block is pressed only when a lithium battery to be recovered is placed into the channel, so that the channel is opened, dust or fine particles in a factory are prevented from entering the channel, the battery is corroded, the inside of the cavity is kept dry, the battery is prevented from being wet, and the recovery value of the battery is finally increased.

In summary, the invention has the following advantages: all put some remaining electricity through the electric power storage component and be used for storing, realize the electric current recovery for later when scrapping it, need not carry out the step of discharging once more, improve work efficiency, every lithium cell all can be blocked by the groove, puts neatly and takes easily.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a cross-sectional perspective view of fig. 2 taken along a-a.

Fig. 4 is a cross-sectional perspective view of fig. 2 taken along B-B.

Fig. 5 is a partial structural view of the internal structure of the present invention.

Fig. 6 is an exploded view of a part of the structure of the collecting member of the present invention.

Fig. 7 is an enlarged view of a portion a in fig. 3.

Fig. 8 is an enlarged view at B in fig. 3.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

As shown in fig. 1 to 8, a lithium battery recycling cabinet comprises a cabinet 1, an opening part 9, a channel 11, a driving part 2, a transporting part 3 and a collecting part 7; the opening component 9 is arranged on the cabinet 1, the channel 11 is arranged on the cabinet 1, the driving component 2 is arranged on the channel 11, the transporting component 3 is used for limiting the lithium battery, and the collecting component 7 is used for fixing the lithium battery.

As shown in fig. 3-5 and 7, the driving member 2 includes a first empty slot 21, a first driving rod 22, a cavity 23, a second driving rod 24, a driving belt 25, a driving plate 26, an induction block 27, and an electricity storage assembly 6; the first empty slot 21 is arranged on the cabinet 1, the first driving rod 22 is arranged on the empty slot, the cavity 23 is arranged on the cabinet 1, the second driving rod 24 is rotatably arranged on the cavity 23, the driving belt 25 is used for connecting the first driving rod 22 and the second driving rod 24, the driving plates 26 are circumferentially distributed along the first driving rod 22, the induction blocks 27 are respectively arranged on the driving plates 26, and the electric power storage assembly 6 is used for storing electric power; one end of the driving plate 26 can enter the channel 11; the lithium battery may contact the sensing block 27.

As shown in fig. 5 and 7, the transportation component 3 comprises a transportation rod 31, a transportation belt 32, a plurality of positive limiting assemblies 4 and a plurality of negative limiting assemblies 5; the conveying rods 31 are symmetrically arranged on the cavity 23, two ends of a conveying belt 32 are respectively wound on the driving rods, the positive limiting assemblies 4 are arranged on the conveying belt 32, and the negative limiting assemblies 5 are arranged on the conveying belt 32; the second driving rod 24 can drive the conveyer belt 32 to move; the positive limiting components 4 and the negative limiting components 5 are arranged in a staggered mode.

As shown in fig. 7, the positive limiting assembly 4 comprises a first limiting groove 41, a first conical energizing spring 42; the first limiting groove 41 is arranged on the conveyer belt 32, and the first conical energizing spring 42 is arranged on the first limiting groove 41.

As shown in fig. 7, the negative limit component 5 includes a second limit groove 51, a negative limit spring 52, a negative limit plate 53, an opening 54, and a first energizing protrusion 55; a second limit groove 51 is arranged on the conveyor belt 32, a negative limit spring 52 is arranged on the second limit groove 51, a negative limit plate 53 is arranged on the negative limit spring 52 in a vertically movable manner, an opening 54 is arranged on the negative limit plate 53, and a first electrifying lug 55 is arranged on the second limit groove 51; the first energizing block can pass through the opening 54.

As shown in fig. 5 and 7, the electricity storage module 6 includes an electricity storage rod 61, a plurality of second taper-shaped current passing springs 62, a plurality of second current passing projections 63, a plurality of buffer plates 64, a guide block 65, and a guide groove 66; the power storage rod 61 is rotatably arranged on the cabinet 1, a plurality of second conical energizing springs 62 and a plurality of second energizing protrusions 63 are circumferentially distributed along the power storage rod 61 along the circumferential direction of the power storage rod 61, a plurality of buffer plates 64 are circumferentially distributed along the power storage rod 61, a guide block 65 is arranged at one end of the power storage rod 61, and a guide groove 66 is arranged on the drive plate 26; the buffer plate 64 may contact the second taper energizing spring 62 when rotating, and the buffer plate 64 may contact the second energizing protrusion 63 when rotating; the guide groove 66 may push the guide block 65.

As shown in fig. 1, 5, 6, and 8, the collecting unit 7 includes a first fixing rod 71, a rotating plate 711, a supporting plate 72, a first limiting block 73, a second limiting block 74, an energizing plate 75, a rail 76, a collecting groove 77, a second fixing rod 78, a limiting rod 781, a display 79, and a locking assembly 8; the first fixing rod 71 is arranged on the cabinet 1, the rotating plate 711 is rotatably arranged on the first fixing rod 71, the supporting plate 72 is slidably arranged on the rotating plate 711, the first limiting block 73 is used for limiting the supporting plate 72, the second limiting block 74 is used for limiting the supporting plate 72, the electrifying plate 75 is detachably arranged on the supporting plate 72, the track 76 is arranged on the electrifying plate 75, the collecting groove 77 is arranged on the track 76, the second fixing rod 78 is arranged on the cabinet 1, the limiting rod 781 is rotatably arranged on the second fixing rod 78, the display screen 79 is arranged on the rotating plate 711, and the locking assembly 8 is arranged on the rotating plate 711; the lithium battery can enter the collecting tank 77; the collection trough 77 can slide on the rail 76.

As shown in fig. 6 and 8, the locking assembly 8 includes a first locking bar 81, an upper locking groove 82, a lower locking groove 83, and a second locking bar 84; a first locking lever 81 rotatably provided on the support plate 72, an upper locking groove 82 provided on the cabinet 1, a lower locking groove 83 provided on the rotating plate 711, and a second locking lever 84 provided on the first locking lever 81 and a handle provided on the first locking lever 81; the second locking lever 84 is rotated to enter the upper locking groove 82 and the lower locking groove 83.

As shown in fig. 1, the opening member 9 includes an opening groove 91, an opening block 92, an opening spring 93; the opening groove 91 is arranged on the cabinet 1, the opening block 92 is arranged on the opening groove 91 in a manner of moving up and down, and the opening spring 93 is used for resetting the opening block 92; the opening block 92 may block one end of the passage 11.

The specific working process is as follows:

the opening block 92 is pressed down, lithium batteries to be recycled are placed in the channel 11 and slide on the channel 11, the lithium batteries meet the driving plate 26 and contact the sensing block 27, then the first driving rod 22 rotates, so that the lithium batteries come out of the channel 11 and enter the limiting groove, the first driving rod 22 rotates to drive the second driving rod 24 to rotate, and the second driving rod 24 rotates to drive the conveying belt 32 to move the limiting groove; if the lithium battery enters the first limiting groove 41, one end of the lithium battery can be in contact with the first conical energizing spring 42, and if the lithium battery enters the second limiting groove 51, one end of the lithium battery is firstly pressed on the negative limiting plate 53 and then can be in contact with the first energizing bump 55; when the conveyer belt 32 moves, the upper end of the lithium battery pushes the buffer plate 64, so that the buffer plate 64 is pressed against the second electrifying bump 63 or the second conical electrifying spring 62; when one end of the lithium battery is in contact with the first energizing projection 55 and the other end is in contact with the second tapered energizing spring 62, or when one end of the lithium battery is in contact with the second energizing projection 63 and the other end is in contact with the first tapered energizing spring 42, the lithium battery enters a discharge state, and the remaining current is collected by the electric storage rod 61; in the moving process of the limiting groove, one end of the lithium battery is pressed by the limiting rod 781, the conveying belt 32 moves, the lithium battery suddenly does not have the limiting of the limiting rod 781 and is ejected to the collecting groove 77, and then the rail 76 enables the next collection to be aligned to the next lithium battery; when needing to retrieve, rotate first locking lever 81, pull first locking lever 81 after changeing the rotation of board 711, can let the backup pad 72 come out, dismantle the circular telegram board 75 on backup pad 72, only need empty just can let all lithium cells come out from collecting vat 77 to retrieve.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. A lithium battery recovery cabinet comprises a cabinet (1), an opening component (9) arranged on the cabinet (1), a channel (11) arranged on the cabinet (1), a driving component (2) arranged on the channel (11), a transportation component (3) used for limiting a lithium battery, and a collection component (7) used for fixing the lithium battery; the method is characterized in that: the driving part (2) comprises a first empty groove (21) arranged on the cabinet (1), a first driving rod (22) arranged on the empty groove, a cavity (23) arranged on the cabinet (1), a second driving rod (24) rotatably arranged on the cavity (23), a transmission belt (25) used for connecting the first driving rod (22) and the second driving rod (24), driving plates (26) distributed along the circumferential direction of the first driving rod (22), induction blocks (27) respectively arranged on the driving plates (26), and an electric power storage assembly (6) used for storing electric power; one end of the driving plate (26) can enter the channel (11); the lithium battery may contact the sensing block (27).

2. The lithium battery recovery cabinet of claim 1, wherein: the conveying part (3) comprises conveying rods (31) symmetrically arranged on the cavity (23), a conveying belt (32) with two ends respectively wound on the driving rod, a plurality of positive limiting assemblies (4) arranged on the conveying belt (32), and a plurality of negative limiting assemblies (5) arranged on the conveying belt (32); the second driving rod (24) can drive the conveying belt (32) to move; the positive limiting assemblies (4) and the negative limiting assemblies (5) are arranged in a staggered mode.

3. The lithium battery recovery cabinet of claim 2, characterized in that: the positive limiting assembly (4) comprises a first limiting groove (41) arranged on the conveying belt (32) and a first conical electrified spring (42) arranged on the first limiting groove (41).

4. The lithium battery recovery cabinet of claim 3, wherein: the negative limiting assembly (5) comprises a second limiting groove (51) arranged on the conveying belt (32), a negative limiting spring (52) arranged on the second limiting groove (51), a negative limiting plate (53) arranged on the negative limiting spring (52) in a vertically movable manner, an opening (54) arranged on the negative limiting plate (53), and a first electrifying lug (55) arranged on the second limiting groove (51); the first energizing block can pass through the opening (54).

5. The lithium battery recovery cabinet of claim 4, wherein: the electric power storage assembly (6) comprises an electric power storage rod (61) rotatably arranged on the cabinet (1), a plurality of second conical energizing springs (62) circumferentially distributed along the electric power storage rod (61), a plurality of second energizing bumps (63) circumferentially distributed along the electric power storage rod (61), a plurality of buffer plates (64) circumferentially distributed along the electric power storage rod (61), a guide block (65) arranged at one end of the electric power storage rod (61), and a guide groove (66) arranged on the drive plate (26); the buffer plate (64) can be contacted with the second conical electrifying spring (62) when rotating, and the buffer plate (64) can be contacted with the second electrifying lug (63) when rotating; the guide groove (66) can push the guide block (65).

6. The lithium battery recovery cabinet of claim 5, wherein: the collecting component (7) comprises a first fixing rod (71) arranged on the cabinet (1), a rotating plate (711) rotatably arranged on the first fixing rod (71), a supporting plate (72) slidably arranged on the rotating plate (711), a first limiting block (73) used for limiting the supporting plate (72), a second limiting block (74) used for limiting the supporting plate (72), a power-on plate (75) detachably arranged on the supporting plate (72), a track (76) arranged on the power-on plate (75), a collecting groove (77) arranged on the track (76), a second fixing rod (78) arranged on the cabinet (1), and a limiting rod (781) rotatably arranged on the second fixing rod (78); the lithium battery can enter the collecting tank (77); the collecting groove (77) can slide on the track (76), the display screen (79) is arranged on the rotating plate (711), and the locking assembly (8) is arranged on the rotating plate (711).

7. The lithium battery recovery cabinet of claim 6, wherein: the locking assembly (8) comprises a first locking rod (81) rotatably arranged on the supporting plate (72), an upper locking groove (82) arranged on the cabinet (1), a lower locking groove (83) arranged on the rotating plate (711), a handle arranged on the first locking rod (81), and a second locking rod (84) arranged on the first locking rod (81); the second locking lever (84) can enter the upper locking groove (82) and the lower locking groove (83) when rotating.

8. The lithium battery recovery cabinet of claim 1, wherein: the opening component (9) comprises an opening groove (91) arranged on the cabinet (1), an opening block (92) which can be arranged on the opening groove (91) in a vertically moving mode, and an opening spring (93) used for resetting the opening block (92); the opening block (92) may block one end of the passage (11).

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