阅读说明：本技术 一种锂电池回收装置 (Lithium battery recovery device ) 是由 冯云 于 2019-09-17 设计创作，主要内容包括：本发明涉及锂电池回收技术领域,具体是涉及一种锂电池回收装置,包括回收承载部件、回收破碎部件和破碎驱动部件,所述破碎驱动部件安装在回收承载部件内,所述回收破碎部件设置在回收承载部件的下方,所述破碎驱动部件包括定位驱动组件、驱动安装组件和驱动联动组件,所述驱动安装组件安装在回收承载部件内底壁上,所述定位驱动组件和驱动联动组件均安装在驱动安装组件,所述定位驱动组件与驱动联动组件传动连接,所述回收破碎部件安装在驱动联动组件的输出端处,所述回收破碎部件在驱动联动组件的驱动下能够沿着竖直方向移动。本发明的回收破碎部件的破碎强度大,且破碎驱动部件的竖向驱动力大,能够有效的实现对锂电池进行全面破碎作业。(The invention relates to the technical field of lithium battery recovery, in particular to a lithium battery recovery device which comprises a recovery bearing part, a recovery crushing part and a crushing driving part, wherein the crushing driving part is arranged in the recovery bearing part, the recovery crushing part is arranged below the recovery bearing part, the crushing driving part comprises a positioning driving assembly, a driving installation assembly and a driving linkage assembly, the driving installation assembly is installed on the inner bottom wall of the recovery bearing part, the positioning driving assembly and the driving linkage assembly are both installed on the driving installation assembly, the positioning driving assembly is in transmission connection with the driving linkage assembly, the recovery crushing part is installed at the output end of the driving linkage assembly, and the recovery crushing part can move along the vertical direction under the driving of the driving linkage assembly. The recycling crushing component is high in crushing strength, the vertical driving force of the crushing driving component is high, and the lithium battery can be effectively crushed comprehensively.)

1. The utility model provides a lithium cell recovery unit which characterized in that: comprises a recovery bearing part (1), a recovery crushing part (2) and a crushing driving part (3), the crushing driving part (3) is arranged in the recovery bearing part (1), the recovery crushing part (2) is arranged below the recovery bearing part (1), the crushing driving part (3) comprises a positioning driving component (301), a driving installation component (302) and a driving linkage component (303), the drive mounting assembly (302) is mounted on the inner bottom wall of the recovery bearing part (1), the positioning driving component (301) and the driving linkage component (303) are both arranged on the driving installation component (302), the positioning driving component (301) is in transmission connection with the driving linkage component (303), the recovery crushing component (2) is arranged at the output end of the driving linkage assembly (303), the recovery crushing component (2) can move along the vertical direction under the driving of the driving linkage assembly (303).

2. The lithium battery recycling device of claim 1, wherein: retrieve load-bearing part (1) including rectangle bearing box (101), wall roof (102), time shape slide (103) and two vertical sliding guide (104), wall roof (102) set up the top of rectangle bearing box (101), time shape slidable mounting is at the back of rectangle bearing box (101), two vertical sliding guide (104) symmetry sets up on returning shape slide (103), every vertical sliding guide (104) homoenergetic moves along the length direction of rectangle bearing box (101), the front portion of rectangle bearing box (101) is equipped with the side door that can open.

3. A lithium battery recovery device as claimed in claim 2, characterized in that: drive installation component (302) are including linkage installation department (3021), first vertical board (3022) and two vertical boards of second (3023), linkage installation department (3021), first vertical board (3022) and two vertical boards of second (3023) all bear the weight of the interior roof fixed connection of case (101) with the rectangle, drive linkage component (303) set up on linkage installation department (3021) and first vertical board (3022), location drive component (301) are installed on two vertical boards of second (3023).

4. A lithium battery recovery device as claimed in claim 3, characterized in that: the positioning driving assembly (301) comprises a driving motor (304), a motor mounting plate (305), a first positioning block (306), a special-shaped rotating disc (307), a transmission main shaft (308), a second positioning block (309) and a rotation transmission part (310), wherein the first positioning block (306) and the second positioning block (309) are respectively arranged at the bottoms of two second vertical plates (3023), the special-shaped rotating disc (307) is arranged between the first positioning block (306) and the second positioning block (309), the motor mounting plate (305) is arranged on the side wall of the first positioning block (306), the driving motor (304) is arranged on the side wall of the motor mounting plate (305), the rotation transmission part (310) is arranged on the outer side wall of the second positioning block (309), the transmission main shaft (308) sequentially penetrates through the special-shaped first positioning block (306), the special-shaped rotating disc (307) and the second positioning block (309) along the horizontal direction, the transmission mechanism is finally in transmission connection with a rotation transmission part (310), a main shaft of a driving motor (304) is fixedly connected with the end part of a transmission main shaft (308), the rotation transmission part (310) comprises a sleeving ring (3101), a locking nut (3102), two vertical sliding guide columns (3103) and two arc sliding guide plates (3104) which are integrally formed, the two vertical sliding guide columns (3103) and the two arc sliding guide plates (3104) are sequentially and symmetrically arranged on the outer circumferential wall of the sleeving ring (3101), the included angle between the adjacent vertical sliding guide columns (3103) and the arc sliding guide plates (3104) is ninety degrees, the sleeving ring (3101) is sleeved on the transmission main shaft (308), and the locking nut (3102) locks the sleeving ring (3101) on the transmission main shaft (308).

5. The lithium battery recycling device according to claim 4, wherein: linkage installation department (3021) sets up the locating plate on the vertical board of linkage (3024) lateral wall, every including the vertical board of linkage (3024) and three interval the locating plate all is the horizontality setting, is located the vertical board of linkage (3024) top the locating plate with the interior roof fixed connection of rectangle bearing box (101), drive linkage subassembly (303) include power transmission portion (311) and vertical linkage portion (312), power transmission portion (311) are connected with vertical linkage portion (312) transmission, the bottom at first vertical board (3022) is installed in power transmission portion (311), vertical linkage portion (312) and three locating plate fixed connection.

6. The lithium battery recycling device according to claim 5, wherein: the vertical linkage part (312) comprises a vertical driving shaft (3121), a vertical rotating cylinder (3122), two linkage shaft sleeve plates (3123) and two circular positioning plates (3124), the two linkage shaft sleeve plates (3123) are respectively installed on the side walls of the two positioning plates positioned at the lower half part of the linkage vertical plate (3024), the two circular positioning plates (3124) are respectively installed between the two linkage shaft sleeve plates (3123) and are respectively fixedly connected with the bottom and the top of the two linkage shaft sleeve plates (3123), the vertical rotating cylinder (3122) is arranged between the two linkage shaft sleeve plates (3123), the vertical driving shaft (3121) sequentially penetrates through the vertical rotating cylinder (3122), the two linkage shaft sleeve plates (3123) and the two circular positioning plates (3124) along the vertical direction, and finally penetrates through a rectangular bearing box (101) to be arranged in a downward extending manner, each circular positioning plate (3124) is respectively provided with two symmetrical grooves (3125), the circular locating plate (3124) is run through along vertical direction in rectangular groove (3125), be equipped with two symmetry setting's slide groove (3126) on the outer circumferential wall of vertical rotation cylinder (3122), two slide groove (3126) are the cross type setting, every the both ends of slide groove (3126) distribute with two relative rectangular channel (3125) butt joints of two circular locating plate (3124).

7. The lithium battery recycling device of claim 6, wherein: power transmission portion (311) is including location connecting block (3111), circular sliding sleeve (3112), first gangbar (3113), second gangbar (3114) and linkage main shaft (3115), location connecting block (3111) sets up the bottom at first vertical board (3022), the top at vertical drive shaft (3121) is established to circular sliding sleeve (3112) cover, first gangbar (3113) and second gangbar (3114) set up the both sides at location connecting block (3111) respectively, linkage main shaft (3115) run through first gangbar (3113), location connecting block (3111) and second gangbar (3114) along the horizontal direction in proper order, the other end and circular sliding sleeve (3112) swing joint of first gangbar (3113), the other end and the spout sliding fit on rolling disc (307) lateral wall of second gangbar (3114).

8. The lithium battery recycling device according to claim 7, wherein: the recycling crushing component (2) comprises a frame-shaped positioning frame (201), a locking positioning nut (202), a positioning circular disc (203), a vertical positioning shaft (204), a vertical positioning nut (205) and a plurality of crushing blade plates (206), wherein the frame-shaped positioning frame (201) is sleeved on the lower half section of a vertical driving shaft (3121) and locks and forms the frame-shaped positioning frame (201) and the vertical driving shaft (3121) through the locking positioning nut (202), the positioning circular disc (203) is arranged on the lower half section of the frame-shaped positioning frame (201), the vertical positioning shaft (204) penetrates through the positioning circular disc (203) along the vertical direction and extends downwards along the vertical direction, the vertical positioning nut (205) is arranged at the top of the positioning circular disc (203) and is locked at the positions of the vertical positioning shaft (204) and the positioning circular disc (203), the crushing blade plates (206) are arranged on the vertical positioning shaft (204) at equal intervals along the vertical direction, two adjacent crushing blades (206) are arranged at intervals in opposite directions.

Technical Field

the invention relates to the technical field of lithium battery recovery, in particular to a lithium battery recovery device.

Background

A "lithium battery" is a type of battery using a nonaqueous electrolyte solution with lithium metal or a lithium alloy as a negative electrode material. Lithium metal batteries were first proposed and studied by Gilbert n. Lewis in 1912. In the 70 s of the 20 th century, m.s.whittingham proposed and began to study lithium ion batteries. Because the chemical characteristics of lithium metal are very active, the requirements on the environment for processing, storing and using the lithium metal are very high. With the development of science and technology, lithium batteries have become the mainstream nowadays.

Lithium batteries can be broadly classified into two types: lithium metal batteries and lithium ion batteries. Lithium ion batteries do not contain lithium in the metallic state and are rechargeable. The fifth generation of rechargeable batteries, lithium metal batteries, was born in 1996, and the safety, specific capacity, self-discharge rate and cost performance of rechargeable batteries were all superior to those of lithium ion batteries. Due to its own high technical requirement limits, only a few national companies are producing such lithium metal batteries today.

No. CN108654342A discloses a lithium cell recovery unit, including the work box, the top fixed mounting of work box has first air exhaust fan, first through-hole has been seted up on the work box, the welding has first trachea on the inner wall of first through-hole, first tracheal one end and first air exhaust fan's air inlet threaded connection. The invention has simple structure, the first air exhaust fan can exhaust harmful gas into the liquid storage cylinder, the magnetic pump can extract the harmful gas treatment liquid and eject the harmful gas treatment liquid through the spray head, the second air exhaust fan can exhaust the treated gas, so that the harmful gas is firstly exhausted into the harmful gas treatment liquid from the seventh through hole and reacts with the harmful gas treatment liquid ejected by the spray head, and the gas treated twice can be directly exhausted into the air, thereby avoiding the harm of the harmful gas to operators, preventing the harmful gas from polluting the environment, and having convenient operation. The invention has the following advantages: the invention has simple structure, the first air extractor can discharge harmful gas into the liquid storage cylinder, the magnetic pump can extract the harmful gas treatment liquid and eject the harmful gas treatment liquid through the nozzle, the second air extractor can discharge the treated gas, so that the harmful gas is firstly discharged into the harmful gas treatment liquid from the seventh through hole and reacts with the harmful gas treatment liquid ejected by the nozzle, and then the gas treated twice can be directly discharged into the air, thereby avoiding the harm of the harmful gas to operators and preventing the harmful gas from polluting the environment, the operation is convenient, although the problem that the battery generates pollutants in a container in the lithium battery recycling process can be solved, the crushing degree of the lithium battery in the reaction process is not uniform, the recycling process can lead to insufficient recycling of materials in the lithium battery, and the occurrence of pollution sources is caused, the recovery efficiency is not high.

Disclosure of Invention

The invention aims to provide a lithium battery recovery device to solve the problems in the prior art.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a lithium battery recovery unit, is including retrieving the carrier, retrieving broken part and broken driver part, broken driver part installs in retrieving the carrier, retrieve the below that broken part set up at retrieving the carrier, broken driver part is including location drive assembly, drive installation component and drive linkage subassembly, drive installation component installs on retrieving the interior diapire of carrier, location drive assembly and drive linkage subassembly are all installed at drive installation component, location drive assembly is connected with drive linkage subassembly transmission, retrieve broken part and install the output end department at drive linkage subassembly, retrieve broken part and can remove along vertical direction under the drive of drive linkage subassembly.

Further, retrieve bearing part and include rectangle bearing box, cut off the roof, return shape slide and two vertical sliding guide, it sets up the top of rectangle bearing box to cut off the roof, return shape slidable mounting at the back of rectangle bearing box, two vertical sliding guide symmetry sets up on returning the shape slide, every vertical sliding guide homoenergetic moves along the length direction of rectangle bearing box, the front portion of rectangle bearing box is equipped with the side door that can open.

Further, drive installation component includes linkage installation department, first vertical board and two vertical boards of second, linkage installation department, first vertical board and two vertical boards of second all bear the weight of the interior roof fixed connection of case with the rectangle, drive linkage component sets up on linkage installation department and first vertical board, location drive component installs on two vertical boards of second.

Further, the positioning driving assembly comprises a driving motor, a motor mounting plate, a first positioning block, a special-shaped rotating disc, a transmission main shaft, a second positioning block and a rotating transmission part, the first positioning block and the second positioning block are respectively arranged at the bottoms of the two vertical second plates, the special-shaped rotating disc is arranged between the first positioning block and the second positioning block, the motor mounting plate is arranged on the side wall of the first positioning block, the driving motor is arranged on the side wall of the motor mounting plate, the rotating transmission part is arranged on the outer side wall of the second positioning block, the transmission main shaft sequentially penetrates through the first positioning block, the special-shaped rotating disc and the second positioning block along the horizontal direction and is finally in transmission connection with the rotating transmission part, the main shaft of the driving motor is fixedly connected with the end part of the transmission main shaft, and the rotating transmission part comprises an integrally formed sleeving ring, a locking nut, a transmission shaft and a transmission shaft, Two vertical travelers and two arcs of leading are led the slide, two vertical travelers and two arcs are led the slide and are installed on the outer periphery wall of cup jointing the ring symmetrically in proper order, and adjacent vertical travelers and the arc of leading are led the contained angle between the slide and be ninety degrees, cup joint the ring cover and establish on the transmission main shaft, lock nut will cup joint the ring lock solid on the transmission main shaft.

Further, the linkage installation department includes that the vertical board of linkage and three interval set up the locating plate on the vertical board lateral wall of linkage, every the locating plate all is the horizontality setting, is located the vertical board top of linkage the locating plate with the interior roof fixed connection of rectangle bearing box, the drive linkage subassembly includes power transmission portion and vertical linkage portion, power transmission portion is connected with the transmission of vertical linkage portion, the bottom at first vertical board is installed to power transmission portion, vertical linkage portion and three locating plate fixed connection.

Further, the vertical linkage part comprises a vertical driving shaft, a vertical rotating cylinder, two linkage shaft sleeve plates and two circular positioning plates, the two linkage shaft sleeve plates are respectively arranged on the side walls of the two positioning plates at the lower half part of the linkage vertical plate, the two circular positioning plates are respectively arranged between the two linkage shaft sleeve plates and are respectively fixedly connected with the bottom and the top of the two linkage shaft sleeve plates, the vertical rotating cylinder is arranged between the two linkage shaft sleeve plates, the vertical driving shaft sequentially penetrates through the vertical rotating cylinder, the two linkage shaft sleeve plates and the two circular positioning plates along the vertical direction and finally penetrates through the rectangular bearing box to extend downwards, two symmetrical rectangular grooves are respectively arranged on each circular positioning plate, the rectangular grooves penetrate through the circular positioning plates along the vertical direction, two symmetrically arranged slide way grooves are arranged on the outer circumferential wall of the vertical rotating cylinder, the two slide way grooves are arranged in a cross mode, and two ends of each slide way groove are in butt joint with two opposite rectangular grooves of the two circular positioning plates.

Further, power transmission portion includes location connecting block, circular sliding sleeve, first gangbar, second gangbar and linkage main shaft, the location connecting block sets up the bottom at first vertical board, circular sliding sleeve cover is established at the top of vertical drive shaft, first gangbar and second gangbar set up the both sides at the location connecting block respectively, the linkage main shaft runs through first gangbar, location connecting block and second gangbar along the horizontal direction in proper order, the other end and the circular sliding sleeve swing joint of first gangbar, the spout sliding fit on the other end of second gangbar and the dysmorphism rolling disc lateral wall.

Further, retrieve broken part and include frame type locating rack, locking set nut, location circular dish, vertical positioning shaft, vertical set nut and a plurality of broken acanthus leaf, the frame type locating rack cover is established at the lower half section of vertical drive shaft and is locked the shaping with frame type locating rack and vertical drive shaft through locking set nut, the circular dish of location sets up the latter half at the frame type locating rack, vertical positioning shaft runs through location circular dish and sets up along vertical direction downwardly extending along vertical direction, vertical set nut sets up at the top of location circular dish and locks in the linking department of vertical positioning shaft and location circular dish, and is a plurality of broken acanthus leaf sets up on vertical positioning shaft along vertical direction equidistant, adjacent two broken acanthus leaf reverse separation sets up.

Compared with the prior art, the invention has the beneficial effects that:

One of them, at first this application needs the work of collocation power drive system, the suitability of this application has just so been improved, can satisfy the use of many environment and many position states, install mutually through power drive system and the collocation portion at recovery carrier part back, realize the drive operation to this application, because retrieve broken part and broken driver part transmission and connect, when needs treat broken lithium cell and carry out broken operation, place into the broken end of retrieving broken part and bear and hold the incasement, drive the operation of retrieving broken part through the broken driver part of installing in retrieving carrier part, then can realize the broken operation of retrieving the lithium cell, because the crushing strength of the recovery broken part of this application is big, and broken driver part's vertical drive power is big, can effectually realize carrying out comprehensive broken operation to the lithium cell.

Secondly, because the driving motor transmits the driving force to the transmission main shaft which is connected with the rotation transmission part in a transmission way, the power can be continuously transmitted to the driving linkage assembly, because the recovery crushing component is arranged at the output end of the driving linkage assembly, the recovery crushing component can be driven to operate, because the rotation transmission part comprises two vertical sliding guide columns and two arc sliding guide plates which are symmetrically arranged, when the transmission main shaft transmits the power to the sleeving ring, the two vertical sliding guide columns and the two arc sliding guide plates, all the vertical sliding guide columns and the arc sliding guide plates can be driven to rotate and are in transmission fit with the vertical linkage part, the power source can be transmitted to the vertical direction, the power transmission operation is realized, because the power transmission part is arranged between the vertical linkage part and the special-shaped transmission disc, the power transmission operation can be realized, and the driving operation of the recovery crushing component along the vertical direction is finished, the crushing operation of the lithium battery to be recovered is realized.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a side view of the present invention;

3 FIG. 3 3 3 is 3 a 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 line 3 A 3- 3 A 3 of 3 FIG. 3 2 3; 3

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 3;

FIG. 5 is a partial perspective view of the first embodiment of the present invention;

FIG. 6 is a partial perspective view of the second embodiment of the present invention;

FIG. 7 is a schematic perspective view of the recovery crushing member and the crushing drive member of the present invention;

Fig. 8 is a partial perspective view of the crushing driving part according to the first embodiment of the invention;

Fig. 9 is a partial perspective view of the crushing driving part of the present invention;

Fig. 10 is a schematic view of a third partial perspective structure of the crushing driving part of the present invention.

the reference numbers in the figures are: a recovery bearing part 1, a rectangular bearing box 101, a partition top plate 102, a square slide way 103, a vertical sliding guide rail 104, a recovery crushing part 2, a frame-shaped positioning frame 201, a locking positioning nut 202, a positioning circular disc 203, a vertical positioning shaft 204, a vertical positioning nut 205, a crushing blade plate 206, a crushing driving part 3, a positioning driving assembly 301, a driving mounting assembly 302, a linkage mounting part 3021, a first vertical plate 3022, a second vertical plate 3023, a linkage vertical plate 3024, a positioning plate, a driving linkage assembly 303, a driving motor 304, a motor mounting plate 305, a first positioning block 306, a special-shaped rotating disc 307, a transmission main shaft 308, a second positioning block 309, a rotation transmission part 310, a sleeving circular ring 3101, a locking nut 3102, a vertical guide sliding column 3103, an arc-shaped guide sliding plate 3104, a power transmission part 311, a positioning connection block 3111, a circular sliding sleeve 3112, a first linkage 3113, a second linkage 3114, the linkage main shaft 3115, the vertical linkage part 312, the vertical driving shaft 3121, the vertical rotating cylinder 3122, the linkage shaft sleeve plate 3123, the circular positioning plate 3124, the rectangular groove 3125, and the chute 3126.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

in the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, are merely for convenience of description of the present invention, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Referring to fig. 1 to 10, a lithium battery recycling device includes a recycling bearing part 1, a recycling crushing part 2 and a crushing driving part 3, the crushing driving part 3 is installed in the recycling bearing part 1, the recycling crushing part 2 is disposed below the recycling bearing part 1, the crushing driving part 3 includes a positioning driving component 301, a driving installation component 302 and a driving linkage component 303, the driving installation component 302 is installed on the inner bottom wall of the recycling bearing part 1, the positioning driving component 301 and the driving linkage component 303 are both installed on the driving installation component 302, the positioning driving component 301 is in transmission connection with the driving linkage component 303, the recycling crushing part 2 is installed at the output end of the driving linkage component 303, the recycling crushing part 2 can move along the vertical direction under the driving of the driving linkage component 303, firstly, the application needs to be matched with a power driving system to work, thus improving the applicability of the application, meeting the use in multiple environments and multiple positions, the driving operation of the application is realized by mutually mounting the power driving system and the matching part at the back of the recovery bearing part 1, because the recovery crushing component 2 is in transmission connection with the crushing driving component 3, when the lithium battery to be crushed needs to be crushed, the crushing end of the recovery crushing component 2 is placed into the bearing and containing box, the crushing operation of the lithium battery to be recovered can be realized by driving the recovery crushing component 2 to operate through the crushing driving component 3 arranged in the recovery bearing component 1, because the crushing strength of the recovery crushing component 2 of this application is big, and the vertical drive power of broken drive component 3 is big, can effectually realize carrying out comprehensive broken operation to the lithium cell.

Retrieve load-bearing part 1 and include rectangle bearing box 101, cut off roof 102, return shape slide 103 and two vertical sliding guide 104, cut off roof 102 and set up the top of rectangle bearing box 101, return shape slidable mounting at the back of rectangle bearing box 101, two vertical sliding guide 104 symmetry sets up on returning shape slide 103, every vertical sliding guide 104 all can remove along the length direction of rectangle bearing box 101, the front portion of rectangle bearing box 101 is equipped with the side door that can open.

drive installation component 302 includes linkage installation portion 3021, first vertical board 3022 and two vertical boards 3023 of second, linkage installation portion 3021, first vertical board 3022 and two vertical boards 3023 of second all bear case 101's interior roof fixed connection with the rectangle, drive linkage component 303 sets up on linkage installation portion 3021 and first vertical board 3022, location drive component 301 installs on two vertical boards 3023 of second.

the positioning driving assembly 301 comprises a driving motor 304, a motor mounting plate 305, a first positioning block 306, a special-shaped rotating disc 307, a transmission main shaft 308, a second positioning block 309 and a rotation transmission part 310, wherein the first positioning block 306 and the second positioning block 309 are respectively arranged at the bottom of two second vertical plates 3023, the special-shaped rotating disc 307 is arranged between the first positioning block 306 and the second positioning block 309, the motor mounting plate 305 is arranged on the side wall of the first positioning block 306, the driving motor 304 is arranged on the side wall of the motor mounting plate 305, the rotation transmission part 310 is arranged on the outer side wall of the second positioning block 309, the transmission main shaft 308 sequentially penetrates through the first positioning block 306, the special-shaped rotating disc 307 and the second positioning block 309 along the horizontal direction and is finally in transmission connection with the rotation transmission part 310, the main shaft of the driving motor 304 is fixedly connected with the end part of the transmission main shaft 308, the rotation transmission portion 310 includes a sleeved ring 3101, a locking nut 3102, two vertical sliding guide posts 3103 and two arc-shaped sliding guide plates 3104 which are integrally formed, the two vertical sliding guide posts 3103 and the two arc-shaped sliding guide plates 3104 are sequentially and symmetrically installed on the outer circumferential wall of the sleeved ring 3101, the included angle between the adjacent vertical sliding guide posts 3103 and the arc-shaped sliding guide plates 3104 is ninety degrees, the sleeved ring 3101 is sleeved on the transmission main shaft 308, and the locking nut 3102 locks the sleeved ring 3101 on the transmission main shaft 308.

linkage installation department 3021 includes that the vertical board 3024 of linkage and three interval set up the locating plate on the vertical board 3024 lateral wall of linkage, every the locating plate all is the horizontality setting, is located the vertical board 3024 top of linkage the locating plate with the interior roof fixed connection of rectangle bearing box 101, drive linkage subassembly 303 includes power transmission portion 311 and vertical linkage portion 312, power transmission portion 311 is connected with the transmission of vertical linkage portion 312, the bottom at first vertical board 3022 is installed to power transmission portion 311, vertical linkage portion 312 and three locating plate fixed connection.

The vertical linkage portion 312 comprises a vertical driving shaft 3121, a vertical rotating cylinder 3122, two linkage shaft sleeve plates 3123 and two circular positioning plates 3124, the two linkage shaft sleeve plates 3123 are respectively installed on the side walls of the two positioning plates located at the lower half portion of the linkage vertical plate 3024, the two circular positioning plates 3124 are respectively installed between the two linkage shaft sleeve plates 3123 and are respectively fixedly connected with the bottom and the top of the two linkage shaft sleeve plates 3123, the vertical rotating cylinder 3122 is disposed between the two linkage shaft sleeve plates 3123, the vertical driving shaft 3121 sequentially penetrates through the vertical rotating cylinder 3122, the two linkage shaft sleeve plates 3123 and the two circular positioning plates 3124 along the vertical direction and finally penetrates through the rectangular carrying box 101 to extend downwards, two symmetrical rectangular grooves 3125 are respectively disposed on each circular positioning plate 3124, the rectangular grooves 3125 penetrate through the circular positioning plates 3124 along the vertical direction, the outer circumferential wall of the vertical rotating cylinder 3122 is provided with two symmetrically arranged chute 3126, the two chute 3126 are arranged in a cross shape, two ends of each chute 3126 are distributed and butted with two opposite rectangular grooves 3125 of the two circular positioning plates 3124, because the special-shaped rotating disc 307, the sleeved circular ring 3101, the two vertical sliding guide columns 3103 and the two arc sliding guide plates 3104 are coaxially arranged, the rotating power is the same, when the two circular positioning plates 3124 and the vertical rotating cylinder 3122 rotate, the two vertical sliding guide columns 3103 and the arc sliding guide plates 3104 are respectively in sliding fit with the rectangular grooves 3125 on the circular positioning plates 3124 and the chute 3126 on the outer circumferential wall of the vertical rotating cylinder 3122, and the sequential transmission operation of the power is realized.

the power transmission part 311 includes a positioning connection block 3111, a circular sliding sleeve 3112, a first linkage bar 3113, a second linkage bar 3114 and a linkage spindle 3115, the positioning connection block 3111 is disposed at the bottom of the first vertical plate 3022, the circular sliding sleeve 3112 is sleeved on the top of the vertical driving shaft 3121, the first linkage bar 3113 and the second linkage bar 3114 are disposed at two sides of the positioning connection block 3111 respectively, the linkage spindle 3115 sequentially penetrates through the first linkage bar 3113, the positioning connection block 3111 and the second linkage bar 3114 along the horizontal direction, the other end of the first linkage bar 3113 is movably connected with the circular sliding sleeve 3112, the other end of the second linkage bar 3114 is in sliding fit with a sliding groove on the side wall of the special-shaped rotating disc 307, when the driving spindle 308 rotates, the two vertical sliding columns 3103 and the two arc-shaped sliding guide plates 3104 rotate, and because the rotating disc 307 is disposed between the first positioning block 306 and the second positioning block 309, the first linkage bar 3113 and the second linkage bar 3114 installed at two sides of the positioning connection block 3111 are respectively connected with the special-shaped rotating disc 307 and the vertical positioning shaft 204, so that the end of the first linkage bar 3113 is in sliding fit with the special-shaped rotating disc 307, and power can be continuously transmitted to the second linkage bar 3114, because the second linkage bar 3114 is connected with the top end of the vertical positioning shaft 204.

The recycling crushing component 2 comprises a frame-shaped positioning frame 201, a locking positioning nut 202, a positioning circular disc 203, a vertical positioning shaft 204, a vertical positioning nut 205 and a plurality of crushing blades 206, wherein the frame-shaped positioning frame 201 is sleeved on the lower half section of the vertical driving shaft 3121, the frame-shaped positioning frame 201 and the vertical driving shaft 3121 are locked and formed by the locking positioning nut 202, the positioning circular disc 203 is arranged on the lower half section of the frame-shaped positioning frame 201, the vertical positioning shaft 204 penetrates through the positioning circular disc 203 along the vertical direction and extends downwards along the vertical direction, the vertical positioning nut 205 is arranged on the top of the positioning circular disc 203 and is locked at the joint of the vertical positioning shaft 204 and the positioning circular disc 203, the crushing blades 206 are arranged on the vertical positioning shaft 204 at equal intervals along the vertical direction, two adjacent crushing blades 206 are arranged at opposite intervals, and sequential transmission operation of power is realized, the power can be finally transmitted to all the crushing blades 206, and the crushing operation of the lithium battery to be crushed is realized through all the crushing blades 206.

The working principle of the invention is as follows: firstly, the application needs to be matched with a power driving system to work, so that the applicability of the application is improved, the application in a multi-environment and multi-position state can be met, the power driving system and a matching part at the back of a recycling bearing part 1 are mutually installed to realize the driving operation of the application, when the lithium battery to be recycled needs to be recycled and crushed, the vertical positioning shaft 204 and all the crushing blades 206 are placed in a containing box for bearing the lithium battery, when the vertical positioning shaft 204 and all the crushing blades 206 need to be driven to rotate, the driving main shaft 308 is driven to rotate by the driving motor 304, as the sleeving ring 3101 is sleeved on the driving main shaft 308, the two vertical sliding guide columns 3103 and the two arc-shaped sliding guide plates 3104 are symmetrically installed on the sleeving ring 3101, when the driving main shaft 308 rotates, the two vertical sliding guide columns 3103 and the two arc-shaped sliding guide plates 3104 rotate, since the special-shaped rotating disc 307 is arranged between the first positioning block 306 and the second positioning block 309, the first linkage rod 3113 and the second linkage rod 3114 installed at two sides of the positioning connection block 3111 are respectively connected with the special-shaped rotating disc 307 and the vertical positioning shaft 204, the end of the first linkage rod 3113 is in sliding fit with the special-shaped rotating disc 307, so that power can be continuously transmitted to the second linkage rod 3114, since the second linkage rod 3114 is connected with the top end of the vertical positioning shaft 204, the vertical positioning shaft 204 can be driven to move in the vertical direction, so that the vertical rotating cylinder 3122 and the two circular positioning plates 3124 can rotate, since the special-shaped rotating disc 307 and the sleeve ring 3101, the two vertical sliding guide columns 3103 and the two arc sliding guide plates 3104 are coaxially arranged, the rotating power is the same, and when the two circular positioning plates 3124 and the vertical rotating cylinder 3122 rotate, the two vertical sliding guide columns 3103 and the arc sliding guide plates 3104 are respectively connected with the rectangular groove 3125 on the circular positioning plate 3124 and the sliding cylinder 3122 on the vertical rotating cylinder 3122 on The passage groove 3126 is in sliding fit, sequential transmission operation of power is realized, the power can be finally transmitted to all the crushing blade plates 206, and the crushing operation of the lithium battery to be crushed is realized through all the crushing blade plates 206.