CN115621520A - Modular energy storage power station assembly processing system and method - Google Patents

Abstract

The invention relates to the technical field of battery processing, in particular to a system and a method for processing a modular energy storage power station assembly; comprises a supporting frame; the support frame is of a structure like a letter 21274, a support plate is arranged between two horizontal sections of the support frame, the left side of the support plate is an inclined plane, a feeding mechanism is arranged between the support plate and the upper horizontal section of the support frame, and a polishing mechanism is arranged on the left side of the feeding mechanism.

Description

Modular energy storage power station assembly processing system and method

Technical Field

The invention relates to the technical field of battery processing, in particular to a system and a method for processing a modular energy storage power station assembly.

Background

The energy storage power station is a device system which can store, convert and release circulated electric energy through an electrochemical cell or an electromagnetic energy storage medium; the energy storage device is a main storage means for adjusting the peak-valley power utilization problem and mainly comprises an energy storage battery and a power conversion system.

The energy storage batteries mainly applied to the energy storage power station comprise lead-acid batteries, lithium ion batteries, flow batteries and the like, and the lithium iron phosphate batteries in the lithium ion batteries are widely applied to the energy storage power station due to the advantages of good safety, high specific energy and specific power and long cycle life.

However, the energy storage battery has the following problems in the processing process, 1, in order to improve the resource utilization rate and reduce the construction cost of an energy storage power station, the columnar battery eliminated by an electric car is often secondarily utilized, even if the battery capacity is reduced to 80% of the original capacity, the industrial-scale energy storage can be effectively carried out, but the end face of the post of the secondarily utilized battery can have a nickel sheet remained, the polishing processing is needed, the two ends of the battery need to be manually turned over for processing in the existing polishing mode, and the method has the disadvantages of high processing labor cost and low processing efficiency.

2. The existing columnar battery is easy to scatter and increase the post-processing workload in the polishing process, the blocking of the protective cover is increased, the fragments are accumulated in the protective cover, and the battery is easily scratched when the battery is moved and processed, so that the use is influenced.

Therefore, the cleaning treatment for reducing the labor cost, improving the efficiency and facilitating the processing is realized; the invention provides a modular energy storage power station component processing system and method.

Disclosure of Invention

In order to achieve the purpose, the invention adopts the following technical scheme: a modular energy storage power station component processing system comprises a support frame; the support frame is of a v-21274h-shaped structure, a support plate is fixedly connected to the vertical section of the support frame, the left side of the support plate is an inclined plane, a feeding mechanism is arranged on the upper end face of the support plate, and a polishing mechanism is arranged on the left side of the feeding mechanism.

Grinding machanism include fixed block, through-hole and transition hole, the fixed block is installed to the terminal surface under the upper portion horizontal segment of support frame, and a through-hole has respectively been seted up to the inside bilateral symmetry of fixed block, and communicates each other through the transition hole between two through-holes, the through-hole lateral wall that is located the right side is provided with the upset unit, the lower terminal surface of backup pad is provided with the propelling movement unit, the upper portion inner chamber of two through-holes is provided with the piece of polishing, the inner wall of two through-holes and the position that is located the piece of polishing respectively are provided with a cleaning member.

The upset unit include fixed slot, push rod, reset spring, connecting rod, drive plate and pin, the fixed slot has been seted up to the through-hole lateral wall that is located the right side, the upper portion of fixed slot articulates there is the push rod, install reset spring between the right side terminal surface of push rod and the lateral wall of fixed slot, the other end of push rod articulates there is the connecting rod, the other end of connecting rod articulates there is the drive plate, and connecting rod and drive sliding fit, the drive plate is V type structure, the department of buckling of drive plate articulates in the fixed slot, a side end face that reset spring was kept away from to the push rod is provided with the pin, one side that the push rod was kept away from to the pin is provided with the piece that resets.

Preferably, the cleaning part include square hole, picture peg, annular, hourglass net and ring magnet, the front side end face and the through-hole one-to-one of fixed block are provided with the square hole, and two square holes are linked together with the through-hole that corresponds the position, sliding fit installs the picture peg in the square hole, the through hole coaxial with the through-hole is seted up at the middle part of picture peg, the circumference inner wall of through hole is provided with the annular, the opening part of annular is provided with the hourglass net, be provided with one end open-ended ring magnet between annular inner wall and the hourglass net, the picture peg front side is provided with the suction opening, be provided with the locating part between picture peg and the fixed block.

Preferably, feeding mechanism include axostylus axostyle, stock guide, arc groove and arc limiting plate, the backup pad up end rotates and is connected with the axostylus axostyle, supreme two stock guides of installing are evenly provided with the arc groove along its circumference direction from the lower down on the axostylus axostyle, the circumference outer wall of two stock guides, the front side of stock guide is provided with the arc limiting plate, and the arc limiting plate is coaxial with the stock guide.

Preferably, the piece that resets include kidney slot, slider, gag lever post, connecting rod and hexagonal post, a kidney slot has respectively been seted up to the relative inner wall of spout, and two equal sliding connection in the kidney slot have the slider, are provided with the pressure spring between slider and the kidney slot, are provided with the gag lever post between two sliders, and the gag lever post is contradicted with the pin, installs the stand on the slider, and one side that the slider was kept away from to the stand articulates there is the connecting rod, and connecting rod and stand sliding fit, in the other end of connecting rod extends to the through-hole, and sliding connection has hexagonal post on the connecting rod, and hexagonal post and the inside sliding fit of fixed slot.

Preferably, the propelling movement unit include telescopic cylinder, ejector pad and inlet port, telescopic cylinder is installed with two through-hole one-to-one in the backup pad, telescopic cylinder's flexible end extends to the up end of backup pad, telescopic cylinder's flexible end installation installs the ejector pad, the ejector pad is the structure of shape of a letter ' 21274, and the ejector pad is inside to be hollow structure, one side that the ejector pad is close to telescopic cylinder is provided with the inlet port.

Preferably, the polishing part comprises an axle column, the horizontal section on the upper portion of the support frame is connected with the axle column in a rotating mode in a one-to-one correspondence mode with the through holes, one end of the axle column extends to the inside of the cleaning part, the polishing head is installed at the axle column end inside the cleaning part, the other end of the axle column extends to the upper end of the horizontal section on the upper portion of the support frame, and the two axle columns on the upper end of the horizontal section on the upper portion of the support frame are synchronously rotated through the belt pulley mechanism.

Preferably, the locating part including leading to groove, stopper, compression spring, stay cord, pull rod and elastic band, one side that magnet was kept away from to the picture peg is provided with leads to the groove, lead to the groove each sliding connection in both ends about, the square hole inner wall be provided with stopper complex spacing groove, the compression spring is installed through the fixed plate between stopper and the logical groove inner wall, be provided with the stay cord between two limiting plates, the spout that is linked together with leading to the groove is seted up to the front side of picture peg, sliding connection has the pull rod in the spout, pull rod one end and stay cord mid-connection, the elastic band is installed to the front side end face of picture peg, the pull rod other end is connected with the elastic band.

Preferably, the opening of the ring magnet is communicated with the inner side ring groove, and the air suction hole is communicated with the inner side ring groove of the ring magnet.

In addition, the invention also provides a modular energy storage power station component processing method which is completed by adopting the modular energy storage station to component processing system in a matching way and comprises the following steps: s1, moving a columnar battery to a feeding mechanism by using an existing conveying mechanism;

s2, the feeding mechanism sequentially feeds the columnar batteries to a polishing mechanism;

s3, polishing the nickel sheet residues at two ends of the columnar battery by a polishing mechanism;

and S4, after polishing, the pushing unit is retracted and reset, and the columnar batteries fall down to be collected and processed in a centralized manner.

The invention has the beneficial effects that:

1. according to the polishing mechanism provided by the invention, the columnar battery is contacted with the polishing piece through the pushing unit for polishing, and after one end of the columnar battery is polished, the columnar battery is pushed by the overturning unit in the downward moving process, and the upper end of the columnar battery is overturned leftwards and falls off, so that the double-sided overturning polishing of the columnar battery is realized, the manual operation for rotating the battery is reduced, the processing efficiency is improved, and the labor cost is reduced.

2. The cleaning piece provided by the invention can clean nickel sheet scraps in the polishing process of the polishing piece, so that the nickel sheet scraps are sucked into the annular groove and adsorbed and gathered with the magnet, and are taken out through the limiting piece to be cleaned, so that the accumulated scraps can be conveniently and periodically treated, and meanwhile, the cleanness in the processing process is ensured, and the battery is prevented from being scratched by scraps.

3. The feeding mechanism provided by the invention conveys the columnar electricity to the polishing mechanism one by one for processing through the rotation of the material guide plate, so that the continuous processing of the columnar batteries is realized, and the processing efficiency of the columnar batteries is improved.

Drawings

The invention is further illustrated by the following examples in conjunction with the drawings.

FIG. 1 is a schematic view of the main structure of the present invention.

Figure 2 is a schematic diagram of the sanding mechanism of the present invention.

Fig. 3 is an enlarged view of the structure of fig. 2 according to the present invention.

Fig. 4 is an enlarged view of the structure of fig. 2 according to the present invention at B.

Fig. 5 is a schematic view of the structure of the cleaning member of the present invention.

In the figure: 10. a support frame; 11. a support plate; 2. a feeding mechanism; 3. a polishing mechanism; 30. a fixed block; 31. a through hole; 32. a transition hole; 4. a turning unit; 5. a pushing unit; 6. polishing the workpiece; 7. a cleaning member; 40. fixing grooves; 41. a push rod; 42. a return spring; 43. a connecting rod; 44. a drive plate; 45. a stop lever; 8. a reset member; 70. a square hole; 71. inserting plates; 72. a ring groove; 73. a leakage net; 74. a ring magnet; 9. a limiting member; 20. a shaft lever; 21. a material guide plate; 22. an arc groove; 23. an arc limiting plate; 80. a kidney-shaped groove; 81. a slider; 82. a limiting rod; 83. a connecting rod; 84. a hexagonal pillar; 50. a telescopic cylinder; 51. a push block; 52. an air inlet; 60. a jack post; 61. polishing head; 62. a belt pulley mechanism; 90. a through groove; 91. a limiting block; 92. a compression spring; 93. pulling a rope; 94. a pull rod; 95. an elastic band; 96. a tension spring.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the width of the lines or the size of the components in the drawings may be exaggerated for clarity and convenience of description.

In addition, the following terms are defined based on the functions of the present invention, and may be different depending on the intention of a user or an operator or a common practice. Therefore, these terms are defined based on the entire contents of the present specification.

Referring to fig. 1, a modular energy storage power station component processing system includes a support frame 10; the support frame 10 is of a v-21274h-shaped structure, a support plate 11 is fixedly connected to a vertical section of the support frame 10, the left side of the support plate 11 is an inclined plane, a feeding mechanism 2 is arranged on the upper end face of the support plate 11, and a polishing mechanism 3 is arranged on the left side of the feeding mechanism 2.

Referring to fig. 1, the feeding mechanism 2 include axostylus axostyle 20, stock guide 21, arc chute 22 and arc limiting plate 23, 11 up end of backup pad rotates and is connected with axostylus axostyle 20, supreme two stock guides 21 of installing are followed to the lower on the axostylus axostyle 20, the circumference outer wall of two stock guides 21 evenly is provided with arc chute 22 along its circumference direction, the front side of stock guide 21 is provided with arc limiting plate 23, and arc limiting plate 23 is coaxial with stock guide 21.

During specific work, current conveying mechanism carries the cylindrical battery to guide plate 21, later current motor drive axostylus axostyle 20 is rotatory, and axostylus axostyle 20 drives two guide plate 21 and rotates, and arc groove 22 on the guide plate 21 can take the cylindrical battery on the conveying mechanism out in proper order and remove to the through-hole 31 that is located the right side, later axostylus axostyle 20 stall, and grinding mechanism 3 is with cylindrical battery propelling movement to the end of polishing and is polished to and the upset trade a processing.

Referring to fig. 1 and 2, the polishing mechanism 3 includes a fixing block 30, a through hole 31 and a transition hole 32, the fixing block 30 is installed on the lower end face of the upper horizontal section of the support frame 10, the fixing block 30 is provided with a through hole 31 in the left-right symmetry, the two through holes 31 are communicated with each other through the transition hole 32, the side wall of the through hole 31 on the right side is provided with an overturning unit 4, the lower end face of the support plate 11 is provided with a pushing unit 5, the upper inner cavity of the two through holes 31 is provided with a polishing part 6, and the inner walls of the two through holes 31 and the positions of the polishing part 6 are respectively provided with a cleaning part 7.

Referring to fig. 1 and 2, the polishing member 6 includes an axle column 60, the axle column 60 is rotatably connected to the horizontal section of the upper portion of the support frame 10 in a one-to-one correspondence with the through hole 31, one end of the axle column 60 extends into the cleaning member 7, a polishing head 61 is installed at the end of the axle column 60 inside the cleaning member 7, the other end of the axle column 60 extends to the upper end of the horizontal section of the upper portion of the support frame 10, and the two axle columns 60 at the upper end of the horizontal section of the upper portion of the support frame 10 synchronously rotate through a belt pulley mechanism 62.

During specific work, the feeding mechanism 2 stops running after moving the columnar battery to the position of the through hole 31, then the columnar battery is moved to the polishing head 61 through the pushing unit 5, one shaft 60 is driven by a motor in the prior art, the two shaft 60 synchronously rotate under the action of the belt pulley mechanism 62, so that the polishing head 61 polishes nickel sheet residues of the columnar battery, the fallen waste materials in the machining process can be adsorbed by the cleaning piece 7, clean machining environment and collection and arrangement of later-stage residual materials are guaranteed, the pushing unit 5 resets after machining is completed, the upper portion of the columnar battery moves to the position of the transition hole 32, the columnar battery is overturned and falls into another through hole 31 by the overturning unit 4, then the pushing unit 5 pushes the overturned columnar battery to move upwards to enable the columnar battery to be polished, the pushing mechanism moves out of the through hole 31 to be far away from the fixing block 30 after polishing is completed, the columnar battery falls onto the supporting plate 11 under the action of gravity at the moment, and rolls along the inclined plane of the supporting plate 11 to be intensively collected and processed.

Referring to fig. 1, 2 and 3, the pushing unit 5 includes a telescopic cylinder 50, a push block 51 and an air inlet 52, the telescopic cylinder 50 is mounted on the support plate 11 in one-to-one correspondence with the two through holes 31, a telescopic end of the telescopic cylinder 50 extends to an upper end surface of the support plate 11, the push block 51 is mounted at a telescopic end of the telescopic cylinder 50, the push block 51 is of a v-21274h structure, the push block 51 is hollow inside, and the air inlet 52 is disposed on one side of the push block 51 close to the telescopic cylinder 50.

During specific work, the flexible end of telescopic cylinder 50 stretches out and makes ejector pad 51 and the laminating of column battery, later under the effect of current solenoid valve and air pump, make ejector pad 51 breathe in to inside through inlet port 52, it is fixed with the column battery absorption to guarantee that the column battery removes and the stability of the in-process of polishing, the column battery upper end removes transition hole 32 department after polishing the completion, ejector pad 51 is outwards blown, with ejector pad 51 and the separation of column battery, the tilting mechanism of being convenient for promotes the upset of column battery.

Referring to fig. 2 and 4, the turning unit 4 include a fixing groove 40, a push rod 41, a return spring 42, a connecting rod 43, a driving plate 44 and a stop lever 45, the fixing groove 40 has been seted up to the through-hole 31 lateral wall that is located the right side, the upper portion of fixing groove 40 articulates there is a push rod 41, install a return spring 42 between the right side terminal surface of push rod 41 and the lateral wall of fixing groove 40, the other end of push rod 41 articulates there is a connecting rod 43, the other end of connecting rod 43 articulates there is a driving plate 44, and connecting rod 43 and drive sliding fit, driving plate 44 is the V type structure, the department of buckling of driving plate 44 articulates in fixing groove 40, a side terminal surface that return spring 42 was kept away from to push rod 41 is provided with stop lever 45, one side that push rod 41 was kept away from to stop lever 45 is provided with reset piece 8.

When the cylindrical battery is in work, the pushing unit 5 pushes the cylindrical battery upwards, the cylindrical battery is abutted to one end of the drive plate 44, the cylindrical battery is enabled to rotate towards the fixed groove 40, the other end of the drive plate 44 is pulled to rotate towards the fixed groove 40 through the connecting rod 43, the reset spring 42 is compressed, the stop lever 45 is abutted to the reset piece 8 in the rotating process of the push rod 41, the push rod 41 is fixed, the cylindrical battery is prevented from moving upwards to the position of the transition hole 32 and is pushed to turn over towards the transition hole 32 by the push rod 41, polishing processing is influenced, the cylindrical battery moves upwards to the position of the transition hole 32 and is abutted to the reset piece 8, the reset piece 8 is prevented from abutting against the stop lever 45 and is limited, the push rod 41 has a tendency of rotating towards the direction of the through hole 31 under the action of the reset spring 42, after the cylindrical battery is polished, the upper end of the upper portion of the cylindrical battery moves to the position of the transition hole 32, at the moment, the cylindrical battery is not blocked, the rotating of the push rod 41 can push the upper portion of the cylindrical battery, and can push the upper portion of the cylindrical battery can push rod 41 can push the cylindrical battery downwards to turn over and fall into the inside of the left through hole 31 under the self gravity of the left side through hole 31.

Referring to fig. 2 and 4, piece 8 that resets include kidney slot 80, slider 81, gag lever post 82, connecting rod 83 and hexagonal post 84, a kidney slot 80 has respectively been seted up to the relative inner wall of spout, two equal sliding connection in the kidney slot have slider 81, be provided with the pressure spring between slider 81 and the kidney slot, be provided with gag lever post 82 between two sliders 81, and gag lever post 82 contradicts with pin 45, install the stand on the slider 81, one side that slider 81 was kept away from to the stand articulates there is connecting rod 83, and connecting rod 83 and stand sliding fit, the other end of connecting rod 83 extends to in the through-hole 31, and sliding connection has hexagonal post 84 on the connecting rod 83, and hexagonal post 84 and the inside sliding fit of fixed slot 40.

During the concrete work, the propelling movement unit 5 upwards promotes the column battery, the column battery is contradicted with drive plate 44 earlier, make its rotatory drive push pedal rotate, the push pedal rotates and makes pin 45 and spacing post conflict, make it promoted upwards, pin 45 rotates the opposite side to gag lever post 82, gag lever post 82 resets under the effect of pressure spring, thereby with the spacing its rotation that prevents of pin 45, later the column battery moves up and can contradict with connecting rod 83, because hexagonal post 84 and fixed slot 40, connecting rod 83 sliding connection, the event can not take place to rotate, the column battery contradicts with connecting rod 83, connecting rod 83 upwards slides and the in-process that the fixed slot 40 removed can drive slider 81 rebound, make pin 82 keep away from pin 45, push rod 41 can take place to deflect under reset spring 42's effect, and then move transition hole 32 department can be promoted and overturn in the column battery upper end.

Referring to fig. 2 and 5, the cleaning part 7 includes square holes 70, an insert plate 71, a ring groove 72, a leakage net 73 and a ring magnet 74, the square holes 70 are provided on the front side end surface of the fixing block 30 in one-to-one correspondence with the through holes 31, the two square holes 70 are communicated with the through holes 31 corresponding to the positions, the insert plate 71 is installed in the square holes 70 in a sliding fit manner, a through hole coaxial with the through holes 31 is provided in the middle of the insert plate 71, the ring groove 72 is provided on the circumferential inner wall of the through hole, the leakage net 73 is provided at the opening of the ring groove 72, the ring magnet 74 with one end open is provided between the inner wall of the ring groove 72 and the leakage net 73, an air suction hole is provided at the front side of the insert plate 71, and a limiting member 9 is provided between the insert plate 71 and the fixing block 30.

During specific work, the columnar battery polishes, and the air current flows in the annular groove 72 through the suction hole drive through current fan this moment, adsorbs the piece to the inside ring magnet 74 of annular groove 72, avoids the piece dispersion to aggravate later stage cleaning, and work a period will be after through locating part 9 with picture peg 71 and square hole 70 separation, take out it and wash the processing.

Referring to fig. 5, the opening of the ring magnet 74 is communicated with the inner side ring groove 72, and the air suction holes are communicated with the inner side ring groove 72 of the ring magnet 74, and in operation, the distance that the debris moves to the air suction holes is lengthened due to the fact that the air suction holes are communicated with the inner side ring groove 72 of the ring magnet 74, and the debris is prevented from being sucked into the existing equipment through the air suction holes and damaging the existing equipment.

Referring to fig. 5, the limiting member 9 includes a through groove 90, a limiting block 91, a compression spring 92, a pull rope 93, a pull rod 94 and an elastic band 95, one side of the inserting plate 71 away from the magnet is provided with the through groove 90, each sliding connection at the left end and the right end of the through groove 90 is provided with the limiting block 91, the inner wall of the square hole 70 is provided with a limiting groove matched with the limiting block 91, the compression spring 92 is installed between the inner wall of the limiting block 91 and the through groove 90 through a fixing plate, the pull rope 93 is arranged between the two limiting plates, a sliding groove communicated with the through groove 90 is formed in the front side of the inserting plate 71, the pull rod 94 is connected in the sliding groove, one end of the pull rod 94 is connected with the middle of the pull rope 93, the elastic band 95 is installed on the end face of the front side of the inserting plate 71, and the other end of the pull rod 94 is connected with the elastic band 95.

When the multifunctional plug board cleaning machine works specifically, the elastic band 95 is pulled manually, the pull rod 94 moves outwards, the pull rod 93 is pulled through the pull rod 94, the pull rod 93 pulls the limiting block 91 inwards, the compression spring 92 is compressed, the limiting block 91 is separated from the limiting groove of the square hole 70 under the pulling of the pull rod 93, the plug board 71 can be taken out for cleaning, after the cleaning is completed, the plug board 71 is inserted into the square hole 70, the elastic band 95 is pulled until the plug board 71 is completely inserted into the square hole 70, then the elastic band 95 is released, and under the action of the compression spring 92 and the elastic band 95, the limiting block 91 resets and moves towards the limiting groove of the square hole 70, so that the plug board 71 is fixed, and the stability of the plug board in the using process is guaranteed.

In addition, the invention also provides a modular energy storage power station component processing method which is completed by adopting the modular energy storage station-to-component processing system in a matching way and comprises the following steps: s1, the existing conveying mechanism moves the columnar battery to a feeding mechanism 2;

s2, a shaft rod 20 of the feeding mechanism 2 is driven by an existing motor to drive a material guide plate 21 to rotate so as to sequentially send the columnar batteries to the polishing mechanism 3;

s3, pushing the columnar battery to a polishing piece 6 by a pushing unit 5 of the polishing mechanism 3, and polishing nickel sheet residues at two ends of the columnar battery under the pushing of a turning unit 4;

s4, after polishing, the pushing unit 5 is retracted and reset, the columnar batteries fall off the supporting plate 11 from the through hole 31, and roll down along the inclined plane of the supporting plate 11 to be collected and processed in a centralized mode.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. A modular energy storage power station component processing system comprising a support frame (10); the method is characterized in that: the supporting frame (10) is of a '21274', the vertical section of the supporting frame (10) is fixedly connected with a supporting plate (11), the left side of the supporting plate (11) is an inclined plane, the upper end surface of the supporting plate (11) is provided with a feeding mechanism (2), and the left side of the feeding mechanism (2) is provided with a polishing mechanism (3); wherein:

the polishing mechanism (3) comprises fixing blocks (30), through holes (31) and transition holes (32), the fixing blocks (30) are installed on the lower end face of the upper horizontal section of the support frame (10), the fixing blocks (30) are symmetrically and bilaterally provided with one through hole (31) respectively, the two through holes (31) are communicated with each other through the transition holes (32), the side wall of the through hole (31) on the right side is provided with a turning unit (4), the lower end face of the support plate (11) is provided with a pushing unit (5), the upper inner cavities of the two through holes (31) are provided with polishing parts (6), and the inner walls of the two through holes (31) and the positions of the polishing parts (6) are provided with a cleaning part (7) respectively;

upset unit (4) including fixed slot (40), push rod (41), reset spring (42), connecting rod (43), drive plate (44) and pin (45), fixed slot (40) have been seted up to through-hole (31) lateral wall that is located the right side, the upper portion of fixed slot (40) articulates there is push rod (41), install reset spring (42) between the right-hand member face of push rod (41) and the lateral wall of fixed slot (40), the other end of push rod (41) articulates there is connecting rod (43), the other end of connecting rod (43) articulates there is drive plate (44), and connecting rod (43) and drive sliding fit, drive plate (44) are V type structure, the department of buckling of drive plate (44) articulates in fixed slot (40), the one side terminal surface that reset spring (42) were kept away from in push rod (41) is provided with pin (45), one side that push rod (41) were kept away from in pin (45) is provided with reset piece (8).

2. The modular energy storage power station component processing system of claim 1, wherein: cleaning member (7) include square hole (70), picture peg (71), annular (72), leak net (73) and annular magnet (74), the preceding side end face and through-hole (31) one-to-one of fixed block (30) are provided with square hole (70), and two square holes (70) are linked together with through-hole (31) of corresponding position, picture peg (71) are installed to sliding fit in square hole (70), the through hole coaxial with through-hole (31) is seted up at the middle part of picture peg (71), the circumference inner wall of through hole is provided with annular (72), the opening part of annular (72) is provided with leak net (73), be provided with one end open-ended annular magnet (74) between annular (72) inner wall and leak net (73), picture peg (71) front side is provided with the suction hole, be provided with between picture peg (71) and fixed block (30) locating part (9).

3. The modular energy storage power station component processing system of claim 1, wherein: feeding mechanism (2) include axostylus axostyle (20), baffle (21), arc groove (22) and arc limiting plate (23), backup pad (11) up end rotates and is connected with axostylus axostyle (20), supreme two baffles (21) of installing are followed down on axostylus axostyle (20), the circumference outer wall of two baffles (21) evenly is provided with arc groove (22) along its circumference direction, the front side of baffle (21) is provided with arc limiting plate (23), and arc limiting plate (23) are coaxial with baffle (21).

4. The modular energy storage power station component processing system of claim 1, wherein: reset piece (8) including kidney-shaped groove (80), slider (81), gag lever post (82), connecting rod (83) and hexagonal post (84), one kidney-shaped groove (80) has respectively been seted up to the relative inner wall of spout, equal sliding connection has slider (81) in two waist-shaped inslots, be provided with the pressure spring between slider (81) and the kidney-shaped groove, be provided with gag lever post (82) between two slider (81), and gag lever post (82) contradicts with pin (45), install the stand on slider (81), one side that slider (81) were kept away from to the stand articulates has connecting rod (83), and connecting rod (83) and stand sliding fit, the other end of connecting rod (83) extends to in through-hole (31), and sliding connection has hexagonal post (84) on connecting rod (83), and hexagonal post (84) and fixed slot (40) inside sliding fit.

5. The modular energy storage power station component processing system of claim 1, wherein: propelling movement unit (5) including telescopic cylinder (50), ejector pad (51) and inlet port (52), telescopic cylinder (50) are installed with two through-hole (31) one-to-one on backup pad (11), telescopic cylinder (50) the flexible end extend to the up end of backup pad (11), ejector pad (51) are installed to telescopic cylinder's (50) flexible end installation, ejector pad (51) are the shape structure of declining 21274, and ejector pad (51) inside is hollow structure, one side that ejector pad (51) are close to telescopic cylinder (50) is provided with inlet port (52).

6. The modular energy storage power station component processing system of claim 1, wherein: polishing piece (6) including jack-post (60), the horizontal segment on support frame (10) upper portion rotates with through-hole (31) one-to-one and is connected with jack-post (60), the one end of jack-post (60) extends to inside cleaning member (7), the head (61) of polishing is installed to inside jack-post (60) end of cleaning member (7), the other end of jack-post (60) extends to the upper end of support frame (10) upper portion horizontal segment, two jack-posts (60) of the upper end of support frame (10) upper portion horizontal segment carry out synchronous rotation through belt pulley mechanism (62).

7. The modular energy storage power station component processing system of claim 2, wherein: locating part (9) including leading to groove (90), stopper (91), compression spring (92), stay cord (93), pull rod (94) and elastic band (95), one side that magnet was kept away from in picture peg (71) is provided with logical groove (90), it has stopper (91) to lead to each sliding connection in both ends about groove (90), square hole (70) inner wall is provided with the spacing groove with stopper (91) complex, compression spring (92) are installed through the fixed plate between stopper (91) and logical groove (90) inner wall, be provided with stay cord (93) between two limiting plates, the spout that is linked together with logical groove (90) is seted up to the front side of picture peg (71), sliding connection has pull rod (94) in the spout, pull rod (94) one end and stay cord (93) mid-portion are connected, elastic band (95) are installed to the front side terminal surface of picture peg (71), the pull rod (94) other end is connected with elastic band (95).

8. The modular energy storage power station component processing system of claim 2, wherein: the opening of the annular magnet (74) is communicated with the inner side ring groove (72), and the air suction hole is communicated with the inner side ring groove (72) of the annular magnet (74).

9. A modular energy storage power station component processing method is characterized by comprising the following steps: the modular energy storage station-to-component processing system is adopted to complete the process, and comprises the following steps:

s1, the existing conveying mechanism moves the columnar battery to a feeding mechanism (2);

s2, the feeding mechanism (2) sequentially sends the columnar batteries to the polishing mechanism (3);

s3, polishing the nickel sheet residues at two ends of the columnar battery by a polishing mechanism (3);

and S4, after polishing, the pushing unit (5) is retracted and reset, and the columnar batteries fall down to be collected and processed in a centralized manner.

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