KR101974858B1 - Cylinderical type battery washing machine of distribution method - Google Patents

Abstract

The present invention relates to a logistics method of a circular battery cleaner. The objective of the present invention is to significantly improve a reuse ratio of a cleaning liquid, a rinsing liquid and a rustproofing liquid by implementing a structure in which transfer chains are separately provided in each of a cleaning unit, a rinse unit, a rustproof unit and a drying unit, and a moving gripper part is provided between the transfer chains to catch and jump a battery so as to move the battery to the next transfer chain such that the sprayed cleaning liquid, the rinsing liquid and the rustproofing liquid can be recovered without being transferred to other tanks and mixed. To this end, a cylindrical battery cleaning method according to the present invention comprises: a cleaning step of spraying a cleaning liquid to a battery (2)so as to clean the same; a rinsing step, after the cleaning step, of spraying a rinsing liquid to the battery (2) moving along a transfer chain (14) so as to rinse the battery (2); a rustproof step, after the rinsing step, of spraying a rustproof liquid to the battery (2) moving along the transfer chain (14) so as to perform rustproofing of the battery (2); and a drying step, after the rustproofing step, of spraying hot air to the battery (2) moving along the transfer chain (14) so as to dry the battery (2). A step of enabling a moving gripper part (16) to catch the battery (2) moving along the transfer chain (14) and jump the battery (2) to other transfer chain (14) to be moved is respectively included among the cleaning step, the rinsing step, the rustproof step, and the drying step.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of logistics for a circular battery cleaner,

[0001] The present invention relates to a method of logistics for a circular battery scrubber, and more particularly, to a method and apparatus for separating and installing a transfer chain from each of a cleaning section, a rinse section, a rust prevention section and a drying section, The rinse liquid and the rust preventive liquid are returned to the other tank without being mixed with each other. Thus, the cleaning liquid, the rinse liquid and the rust preventive liquid can be reused And to improve the rate dramatically.

The gripper block of the moving gripper portion and the center of the battery held in the transport chain are adjusted by the lift control portion and the x and y axis adjustment portion The present invention relates to a method of logistics of a circular battery cleaner that dramatically reduces the battery catch error of the moving gripper unit.

Generally, a cylindrical battery is contaminated with a large amount of contaminants on its surface during the manufacturing process. In order to remove such contaminants, a cylindrical cleaner is usually used to remove the contaminants.

In order to clean the battery while continuously moving a large amount of battery by the above-described cleaner, there is a tendency to improve the structure while simplifying it.

On the other hand, the conventional technology KR 10-2018-0012511 A 2018.02.06. The cleaning and drying apparatus of the Eve cylindrical battery will be described with reference to FIGS. 1A and 1B.

A sprocket is coupled to both sides of the rotating shaft 20 rotated by the power of the driving motor 23 and a chain is connected to the rotating shaft 20, And a plurality of rotation bars 30 are arranged in the longitudinal direction of the chain and are connected to ends of the rotation bars 30 in a transverse direction. A plurality of partition walls 31 are formed at intervals in the rotation bar 30.

A cylindrical battery (B) is seated between the partition walls (31).

A pinion 32 is coupled to both ends of the rotation bar 30 and the pinion 32 is engaged with a rack gear 24 provided below the rotation bar 30.

When the drive motor 23 is operated to rotate the rotary shaft 20, the rotary bar 30 is moved forward by the chain. At the same time, the pinion 32, which is coupled to both sides of the rotary bar 30, So that the rotation bar 30 rotates and moves together with the pinion 32.

When the rotation bar 30 rotates as described above, the battery B positioned between the partitions 31 rotates forward.

In this state, the battery B sequentially passes through the first and second cleaning means 200 and 300 and the first and second drying means 400 and 500, and the battery B is cleaned and dried at this time.

The conventional technique as described above has a problem that the cleaning liquid used in the first cleaning means 200 is transferred to the second cleaning means 300 during the cleaning process and is contaminated. Therefore, since the cleaning liquid must be frequently exchanged and used, the reuse rate is significantly lowered.

Korean Patent Laid-Open No. 10-2018-0012511 (published Feb. 20, 2018)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and its object is as follows.

First, a transfer chain is separately installed in each of the washing section, the rinse section, the rust prevention section and the drying section, and a moving gripper section is provided between the transfer chains to catch and jump the battery, And rinsing liquids, rust inhibitor liquids, and the like, which have been sprayed, rinsed, and rust-inhibited, are returned to other tanks without being mixed with each other.

Second, the position of the gripper block of the moving gripper portion and the center of the battery held in the transfer chain can be adjusted by connecting the lift control portion and the x and y axis control portions to the moving gripper portion. So that the battery catch error of the moving gripper unit can be drastically reduced.

The present invention firstly provides a cleaning method comprising: a cleaning step of spraying and cleaning a cleaning liquid on a battery (2) moving along a transfer chain (14);

A rinsing step of spraying rinsing liquid on the battery 2 moving along the transfer chain 14 and rinsing after the washing step;

A rust preventing step of spraying a rust preventive liquid against the battery (2) moving along the transfer chain (14) after the rinsing step;

And a drying step of spraying hot air on the battery (2) moving along the transfer chain (14) after the rust prevention step to dry the cylindrical battery,

Between the washing step, the rinsing step, the rust-preventing step and the drying step, the moving gripper section 16 catches the battery 2 moving along the transport chain 14 and jumps to the other transport chain 14 The method comprising the steps of:

Secondly, the operation of the moving gripper portion 16

A process of moving the gripper chain 46 in the rotating direction while the original sprocket 40 and the driven sprocket 42 are rotated by the power of the motor 45,

Moving the gripper block (52) coupled to the gripper chain (46) together after moving the gripper chain (46)

A process of magnetically catching the battery 2 moved along the transfer chain 14 and the magnet 54 coupled to the gripper block 52 after the movement of the gripper block 52,

A process in which the battery 2 moving along the moving direction of the gripper chain 46 is dropped by the finger 62 of the separating member 58 after the catching of the battery 2,

And the battery (2) falls down to another transport chain (14) and moves continuously after the dropout process.

The effects of the present invention are as follows.

First, a transfer chain 14 is separately installed in each of the cleaning part 6, the rinsing part 8, the anticorrosive part 10 and the drying part 12, and a moving gripper part The rinsing liquid, the rinsing liquid, and the rust preventing liquid are jetted to the next conveying chain 14 so that the rinsing liquid, the rinsing liquid, and the rustproofing liquid can be recovered without being mixed with other tanks, Therefore, the reuse ratio of the cleaning liquid, the rinse liquid and the rust preventive liquid is remarkably improved.

Secondly, the moving gripper portion 16 is structured such that the elevation control portion 72 and the x and y shading portions 74 and 76 are connected to each other so that the gripper portion 16 can be adjusted in position. Accordingly, The center of the battery 2 placed on the transfer gripper 52 and the transfer chain 14 can be made to coincide with the lift controller 72 and the x and y shafts 74 and 76, Battery (2) catch error is greatly reduced.

Figs. 1A and 1B are state diagrams showing a conventional art. Fig.
2 is a front view of a scrubber equipped with an embodiment of the present invention;
3 is a perspective view of a moving gripper portion showing an embodiment of the present invention.
4 is a side view of a moving gripper portion showing an embodiment of the present invention.
5 is a front view of a moving gripper portion showing an embodiment of the present invention.
6 is a partially exploded perspective view of a gripper block according to an embodiment of the present invention.
7A and 7B are partial perspective views of the " A "
8A and 8B are state diagrams of a y-axis adjusting unit which is an embodiment of the present invention.
FIGS. 9A, 9B and 9C are operational states of the moving gripper portion, which is an embodiment of the present invention. FIG.

The present invention relates to a scrubber (4) used for removing contaminants adhering to a surface of a cylindrical battery (2), and its structure will be described with reference to FIGS. 2 to 9 as follows.

2) is provided with a washing section 6 for washing the cylindrical battery 2 by spraying a washing liquid and a cylindrical battery 2 which is disposed at the outlet side of the washing section 6 and is washed A rust prevention unit 10 for rinsing with a rinsing liquid and a cylindrical battery 2 rinsed while being disposed at an outlet side of the rinsing unit 8; And a drying unit 12 for drying the cylindrical battery 2 with hot air is installed in sequence.

A transferring chain 14 for moving the battery is separately installed in the lower part of each of the cleaning part 6, the rinsing part 8, the anticorrosive part 10 and the drying part 12, A gripper portion 16 for catching and jumping the battery 2 is provided at an upper portion of the washing tank 6 and a washing liquid tank 18 A rinsing liquid tank 20 disposed in the rinsing unit 8 and a rustproofing liquid tank 22 disposed in the rustproofing unit 10 are separately installed.

9A), a plurality of support rods 26 are horizontally coupled to each other with equal spacing between the chains 24 arranged in parallel. The support rods 26 are provided with a ring type And a collar (28) of the battery (2) is spaced apart by a width of the battery (2). Thus, the battery 2 is positioned between the collar 28 and the battery 2 is seated between the support rods 26.

2, the rinsing unit 8 and the rustproofing unit 10 are provided with a housing 30 with a bottom opened, and the spraying nozzles 32 are installed in the rinsing unit 8 and the rusting unit 10, respectively, A pump 34 provided in the rinse liquid tank 18 is connected to the spray nozzle 32 provided in the washing section 6 and the rinse liquid tank 20 is connected to the spray nozzle 32 provided in the rinse section 8. [ And a pump 34 installed in the rustproofing liquid tank 22 is connected to the injection nozzle 32 provided in the rustproofing part 10. The pump 34 installed in the drying part 12 is connected to the pump 34, And a hot air blower 36 is connected to the heat exchanger 32.

5) are provided on the line and the rear end of the support plate 38. The movable sprocket portion 16 is provided on the movable gripper portion 16 (see Fig. 3) And a gripper chain 46 is wound around the driven sprocket 40 and the driven sprocket 42 in an endless track manner.

At this time, the gripper chain (46) wound on the driven sprocket (40) and the driven sprocket (42) are arranged in parallel in the longitudinal direction of the rotating shaft (44) 44, but it is not limited to be able to be installed differently depending on the size of the washer 4. [

A rib 50 bent at one side is formed in a link 48 (see FIG. 6) constituting the gripper chain 46. A bottom surface of a rectangular gripper block 52 is screwed into the rib 50, And a magnet 54 for attaching the battery 2 with a magnetic force is embedded in the upper surface of the gripper block 52.

A wing blade 56 fixed to both sides of the magnet 54 protrudes from both sides of the upper part of the gripper block 52. The battery 2 attached to the magnet 54 is connected to the wing blade 56 are prevented from shaking.

As described above, the gripper blocks 52 are arranged in the lateral direction between the two gripper chains 46 constituting one set, and the both sides are coupled to the ribs 50 at the same time, while the longitudinal direction of the gripper chain 46 A plurality of gripper blocks 52 are installed at equal intervals.

A separating member 58 is provided at the rear of the gripper chain 46 to detach the battery 2 from the gripper block 52. The separating member 58 is provided with a fixing plate 60, And a plurality of fingers 62 are installed in parallel to the inside of the fixing plate 60 while being arranged in the lateral direction.

The two fingers 62 are arranged on both sides of the gripper block 52 so that the front side of the finger 62 can be positioned on both sides of the battery 2, The finger 62 is mounted on the fixing plate by the number of the gripper chains 46 arranged in the transverse direction.

A fall preventing member 64 for receiving the battery 2 falling from the gripper block 52 can be provided below the gripper chain 46 (see FIG. 5) Is not limited to being able to be installed as required.

The drop prevention member 64 is formed with a pedestal 66 to which both ends are fixedly coupled to the support plate 38. The pedestal 66 is provided with a collection box 68 capable of accommodating the falling battery 2, As shown in FIG.

A motor 45 for providing a rotational power is connected to the rotary shaft 44 of the prime sprocket 40.

Subsequently, a block 70 is fixedly attached to the line and the rear end of the supporting plate 38 located on both sides of the moving gripper portion 16 (see Fig. 7A), and the block 70 is provided with a moving gripper portion 16 An elevation adjusting portion 72 for adjusting the position of the main frame 78, a y-axis adjusting portion 74 and an x-axis adjusting portion 76 are sequentially connected to the main frame 78.

The elevating and lowering adjusting screws 72 are vertically threadedly coupled to the respective blocks 70 so that the left and right screws are formed on the upper and lower portions of the block 70. The elevating and lowering adjusting screws 80 The support block 82 constituting the y-shading portion 74 is screwed to the upper portion of the support block 82. [

Therefore, when the elevation adjustment screw 80 is rotated left and right, the support block 82 is in a fixed position and the moving gripper portion 16 is moved up and down.

A plurality of long holes 86 are formed on the receiving plate 88 while the L-shaped bracket 84 is separated and positioned on the receiving block 82 in the y-shaped connecting portion 74, And the y-axis adjusting screw 92 horizontally passes through the fixing block 90 while being fixed to one side of the fixing block 90 by screws.

A plurality of fixing screws 96 penetrate vertically through the movable block 94 while being passed through the elongated holes 86 of the supporting plate 88 to be supported by the support block 88. [ And a y-axis adjusting screw 92 is fastened to the side surface of the moving block 94. The y-

Accordingly, when the y-axis adjusting screw 92 is rotated, the moving block 94, the supporting block 82, and the moving gripper portion 16 are moved forward and backward together in the y-axis direction.

A plurality of long holes 104 are formed in the rear of the elongated frame 98 while a throttle plate 102 is installed at the rear of the elongated frame 98. In addition, And an x-axis adjusting screw 106 is coupled to the elongated hole 104 and is coupled to the main frame 78.

Accordingly, when the x-axis adjusting screw 106 is loosened and the elongated frame 98 is moved leftward and rightward in the x-axis direction, the y-axis shading portion 74, the lift control portion 72 and the moving gripper portion 16 Left and right together.

Hereinafter, the operation of the present invention will be described.

First, when the cleaner 4 (see FIG. 2) is operated, the washing step, the rinsing step, the rust prevention step, the drying step, and the like are sequentially performed on the battery 2 by an instruction of a control unit not shown.

At this time, between the washing step, the rinsing step, the rust-preventing step and the drying step, the moving gripper part 16 catches the battery 2 moving along the transport chain 14 and then moves to the other transport chain 14 Jumping and moving it.

Each step of the washing machine 4 proceeding as described above will be described. When the pump 34 is operated by a command of a control unit (not shown) and the washing liquid stored in the washing liquid tank 18 is supplied, The washing liquid is sprayed onto the conveying chain 14 through the injection nozzle 32 located in the washing tank 6 and the washing liquid falls into the washing liquid tank 18 while removing contaminants on the surface of the battery 2, The circulation process is repeated.

The rinsing liquid supplied by the pump 34 is sprayed onto the transfer chain 14 through the injection nozzle 32 and then the rinsing liquid is supplied to the rinsing unit 8 The rinsing liquid drops into the rinsing liquid tank 20 while rinsing the battery 2, and then the circulation process of supplying the rinsing liquid again by the pump 34 is repeated.

The anticorrosive solution supplied by the pump 34 is sprayed onto the transfer chain 14 through the injection nozzle 32 and then the anticorrosive solution is applied to the battery 2 Falls into the liquid tank 22, and then is repeatedly circulated by the pump 34 again.

When the hot air blower 36 is operated and hot air is supplied to the drying unit 12, the hot air is sprayed onto the conveying chain 14 through the spray nozzle 32 located in the drying unit 12, The hot air causes the surface of the battery 2 to dry.

 It is necessary to prevent the rinsing liquid, the rinsing liquid, and the rustproofing liquid injected through the injection nozzle 32 from being mixed with each other in the process of washing, rinsing, rusting and drying the battery 2, Accordingly, a process of jumping the battery 2 by installing the moving gripper portion 16 between the transfer chains 14 will be described.

9A, when the operator inserts the battery 2 onto the transfer chain 14 located at the entrance of the washer 4, the battery 2 is moved between the collars 28 and the support rod 26, And at the same time the battery 2 enters the inside of the scrubber 4 along the transfer chain 14. [

When the battery 2 (see FIG. 2) enters the washing unit 6 along the transfer chain 14, the washing liquid sprayed through the spray nozzle 32 flows into the washing unit 6, And the battery 2 is moved to the outlet of the washing section 6 along the transfer chain 14. The washing tank 14 is connected to the cleaning tank 14 via the washing tank 14,

Since the cleaning unit 6 and the rinsing unit 8 are separately installed and the transfer chain 14 is separately installed at the lower portion of the washing unit 6, the moving gripper unit 16 catches the battery 2 So that the battery 2 can be continuously moved along the transfer chain 14. [0031] As shown in FIG.

Therefore, the cleaning liquid injected from the cleaning unit 6 through the injection nozzle 32 is dropped only into the cleaning liquid tank 18, and the cleaning liquid does not flow to the rinse liquid tank 20, so that the cleaning liquid and the rinse liquid Are not mixed with each other.

Subsequently, when the battery 2 reaches the outlet side of the transfer chain 14 installed in the washing section 6, the moving gripper section 16 is driven by the power of the motor 45 and the driven sprocket 40, A process of moving the gripper chain 46 in the rotating direction while the sprocket 42 is rotated and a process of moving the gripper block 52 coupled to the gripper chain 46 together; A process of magnetically holding the battery 2 moved by the magnet 54 coupled to the gripper block 52 and a process of allowing the battery 2 to move along the moving direction of the gripper chain 46, 58 and the battery 2 is dropped by the other transfer chain 14 and is continuously moved.

Hereinafter, the operation of the moving gripper unit 16 will be described in detail.

First, when the battery 2 is positioned along the transfer chain 14 below the gripper block 52 of the moving gripper portion 16 as shown in FIG. 9B, the magnet 54 The battery 2 is lifted from the support rod 26 of the transfer chain 14 and attached to the magnet 54 of the gripper block 52. As a result,

The side portions of the battery 2 attached to the magnets 54 are brought into close contact with the wing blades 56 of the gripper block 52,

5) is rotated by the power of the motor 45, the gripper chain 46 moves and the driven sprocket 42 is interlocked with the movement of the gripper chain 46. At the same time, The combined gripper block 52 catches the battery 2 and moves while attached to the magnet 54 and the battery 2 is also jumped in the transfer chain 14 of the cleaning part 6, (8).

When one battery 2 is caught by the gripper block 52 as described above, the other battery 2 continuously moving along the transfer chain 14 is moved to another gripper block 52 And is continuously moved.

In this case, the gripper chain 46 is provided in three sets, but it can be installed in several tanks, so that a plurality of batteries 2 placed on the support rods 26 of the transfer chain 14 are supported by a plurality of gripper blocks 52 And are moved simultaneously.

After that, when the battery 2 moving along the gripper chain 46 arrives at the exit side and reaches the fingers 62 as shown in Fig. 9C, the fingers 62 are pulled out of the gripper block 52 When the gripper chain 46 moves upward along with the gripper block 52 along the periphery of the driven sprocket 42 while the gripper chain 46 continues to move, 2 are detached from the magnet 54 of the gripper block 52 while being caught by the fingers 62 and at the same time the battery 2 is dropped onto the transfer chain 14 located in the rinse portion 8 .

The gripper block 52 with the battery 2 disengaged moves along the gripper chain 46 and goes down the periphery of the original sprocket 40 so that the gripper block 52 can then move along the transport chain 14 And then moves again after catching the new battery 2.

The battery 2 dropped onto the transfer chain 14 of the rinse portion 8 is then aligned while being seated between the collar 28 of the support rod 26 and then the battery 2 is placed in the above- The rinsing unit 10 and the drying unit 12 are rinsed in the rinsing unit 8 as shown in FIG.

Meanwhile, in order to allow the gripper block 52 to accurately catch the battery 2, the position of the moving gripper portion 16 is adjusted. The adjusting operation will be described with reference to FIGS. 7A and 7B.

When the elevation adjusting screw 80 is rotated left and right to adjust the height of the moving gripper portion 16, the supporting block 82 is positioned at a fixed position, The support plate 38 including the combined block 70 is raised or lowered so that the movement gripper portion 16 connected to the support plate 38 is moved up or down.

At this time, the close distance between the lower portion of the gripper block 52 of the moving gripper portion 16 and the upper end portion of the battery 2 that is seated on the support rod 26 of the transfer chain 14 is adjusted.

When the y-axis adjusting screw 92 is rotated left and right, the moving block 94 slides on the support plate 88 of the bracket 84 and moves forward or backward. At the same time, The combined fastening screws 96 move along the elongated holes 86 of the foot plate 88 to move the support block 82 coupled to the lower portion forward or backward together.

The gripper block 52 of the moving gripper portion 16 is moved forward or backward by the movement of the transport chain 14 Axis direction with respect to the battery 2 that is seated on the base rod 26 of the battery.

When the x-axis adjusting screw 106 is unlocked and the elongated frame 98 is moved to the left and the right, the y-axis adjusting portion 74 connected to the elongating frame 98 and the elevation adjusting portion 72 are moved The gripper portion 16 moves left and right together.

At this time, the gripper block 52 of the moving gripper portion 16 is on a line coinciding with the battery 2 placed on the support rod 26 of the transfer chain 14 in the x-axis direction.

The gripper block 52 of the moving gripper portion 16 is moved in the direction of the axis of the battery 2 by the x and y shafts 74 and 76 and the elevation control portion 72, And the center of gravity is located on the line which coincides with the center.

Although the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, it is to be understood that the present invention is not limited to the disclosed embodiments. Those skilled in the art will appreciate that various modifications, And various modifications and changes may be made without departing from the scope of the present invention.

2: Battery 4: Cleaner
6: Cleaning part 8: Rinse part
10: rustproofing part 12: drying part
14: feed chain 16: moving gripper part
18: Cleaning liquid tank 20: Rinse liquid tank
22: rustproof tank 24: chain
26: support rod 28: collar
30: housing 32: injection nozzle
34: Pump 36: Hot air blower
38: Support plate 40: Sprocket sprocket
42: driven sprocket 44: rotating shaft
45: motor 46: gripper chain
48: Link 50: rib
52: gripper block 54: magnet
56: Wing blade 58: separating member
60: fixing plate 62: finger
64: fall preventing member 66: pedestal
68: Collection Box 70: Block
72: lift control portion 74: y-
76: x-folding section 78: main frame
80: Lift / lower adjustment screw 82: Support block
84: Brackets 86, 104: Slots
88: Support plate 90: Fixing block
92: y-axis adjusting screw 94: moving block
96: Fixing screw 98: Extension frame
102: throttle 106: x-axis adjusting screw

Claims (7)

A rinsing process of spraying a rinsing liquid, a rusting process of spraying a rust preventive liquid, a drying process of spraying hot air, and a method of logistics of the sequential battery cleaner,
A transfer chain (14) separately installed in the cleaning process to move the battery (2)
A transfer chain (14) individually installed in the rinsing process to move the battery (2)
A transfer chain (14) separately installed in the rust prevention process to move the battery (2)
A transfer chain (14) separately installed in the drying process to move the battery (2)
By separately providing the moving gripper portion 16 for jumping and moving the battery 2 between each of the separated transfer chains 14,
The motive power of the motor 45 constituting the moving gripper portion 16 moves the original sprocket 40 and the driven sprocket 42 to move the gripper block 52 to the gripper chain 46,
The gripper block 52 catches the battery 2 on the transfer chain 14 by the magnetic force of the magnet 54 and then moves toward the finger 62 by the gripper chain 46,
The battery 2 is separated from the magnet 54 of the gripper block 52 by being jumped by the jumping middle finger 62 and then moved to another separate transfer chain 14 and moved The rinsing liquid, the rust preventing liquid and the like are not mixed with each other so that they are not transferred to other working processes. The method according to claim 1,
The gripper block 52 of the moving gripper portion 16 is moved upward and downward by rotating the lift adjusting screw 80 in the lift adjusting portion 72 connected to the moving gripper portion 16, The battery 2 positioned in the transfer chain 14 is moved close to or away from the battery 2 in the height direction,
The y-axis adjusting screw 92 is rotated in the y-axis adjusting portion 74 connected to the lift controller 72 to move the moving block 94, the supporting block 82 and the moving gripper portion 16 in the y-axis direction The gripper block 52 of the moving gripper portion 16 is brought close to or spaced apart from the battery 2 located in the transport chain 14 in the y axis direction,
When the x-axis adjusting screw 106 is loosened by the x-axis adjusting portion 76 provided on the main frame 78 and the elongating frame 98 is moved to the left and right in the x-axis direction while being connected to the y-axis adjusting portion 74, the gripper block 52 of the moving gripper portion 16 moves along the y-axis forming portion 74, the elevation control portion 72 and the moving gripper portion 16 in the x-axis direction, Wherein the gripper block (52) is movable in the x-axis direction or spaced apart from the gripper block (2) so that the gripper block (52) can move three-dimensionally.


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