KR101954020B1 - Cylinderical type battery of washing device and washing method - Google Patents

Abstract

The present invention relates to a washing apparatus of a cylindrical battery and a washing method thereof. The objective of the present invention is to implement a structure in which a pair of rotating shafts arranged in the longitudinal direction rotates by power of a motor while forming a screw blade around an outer periphery such that a battery moves forward by the screw blade while rotating in a reverse direction when the battery enters above the rotating shaft that rotates in a forward direction, thereby continuously moving a large amount of batteries while realizing simplification of the structure. To this end, the washing apparatus comprises: a washing unit (6) washing a cylindrical battery (2) by spraying a washing liquid; a rinsing unit (8) disposed on an outlet side of the washing unit (6) to rinse the battery (2) with a rinsing liquid; an anticorrosive unit (10) disposed on an outlet side of the rinsing unit (8) to prevent corrosion of the battery (2) by means of an anticorrosive liquid; and a drying unit (12) disposed on an outlet side of the anticorrosive unit (10) to dry the battery (2) by means of hot wind. The washing unit (6), the rinsing unit (8), the anticorrosive unit (10) and the drying unit (12) are sequentially provided. A conveying means (14) for moving the battery (2) in the longitudinal direction while rotating the same is provided below the washing unit (6), the rinsing unit (8), the anticorrosive unit (10) and the drying unit (12).

Description

Technical Field [0001] The present invention relates to a cleaning device for cleaning a cylindrical battery,

The present invention relates to a cleaning device and a cleaning method for a cylindrical battery, and more particularly, to a cleaning device and a cleaning method for a cylindrical battery. More particularly, the present invention relates to a cleaning device and a cleaning method for a cylindrical battery, When the battery enters the rotating rotary shaft, the battery is rotated in the reverse direction and advanced forward by the screw blade, so that a large amount of battery can be continuously moved while simplifying the structure.

The dehydrating chamber is provided at the outlet of the rinsing unit and the rinsing unit and the rinsing unit and the rinsing liquid or rustproofing liquid remaining on the surface of the battery are discharged from the dehydrating chamber by high pressure air, The rinse liquid and the rust preventive liquid remaining on the surface of the cylindrical battery are recovered without being mixed with each other in the course of desorption, thereby greatly improving the reusability of the cylindrical battery.

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, the battery is usually removed using a washing machine.

In recent years, there has been a tendency to simplify and improve the structure in order to clean the battery while continuously moving a large amount of battery by the washing machine.

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.

The washing machine is provided with a conveying means 100 for conveying the battery B. The sprocket is coupled to both sides of the rotating shaft 20 rotated by the power of the driving motor 23 to the conveying means 100, 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) passes through the washing means and the drying means of the washer, and the battery (B) is then washed and dried.

Since the transfer means 100 moves the battery B in a small amount in a discontinuous manner because the transfer means 100 is structured such that the battery B rotates in the transverse rotating bar 30, And at the same time, the structure is complicated.

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 pair of rotating shafts arranged in the longitudinal direction forms a screw blade around the outer periphery and rotates by the power of the motor, so that when the battery enters the rotating shaft rotating in the forward direction, it rotates in the reverse direction and advances forward by the screw blade So as to simplify the structure while allowing a large amount of batteries to be continuously moved.

Second, by realizing a structure in which a detoxifying chamber is provided at the outlet of the washing section, the rinsing section and the anticorrosive section, and the cleaning liquid or the rinsing liquid or rust preventive liquid remaining on the surface of the battery in the liquid separation chamber is injected and removed with high- The rinse liquid and the rust preventive liquid remaining on the surface of the separator are recovered without being mixed with each other in the process of desorbing, thereby remarkably improving the reuse ratio.

The present invention firstly provides: a washing part (6) for washing a cylindrical battery (2) by spraying a washing liquid;

A rinsing unit 8 disposed at the outlet side of the washing unit 6 for rinsing the washed cylindrical battery 2 with a rinsing liquid;

A rust preventive part (10) arranged on the outlet side of the rinse part (8) and for rinsing the rinsed cylindrical battery (2) with a rust preventive solution;

And a drying unit (12) disposed at the outlet side of the anticorrosive unit (10) for drying the rusted cylindrical battery (2) by hot air,

A transfer means 14 for moving the battery 2 in the longitudinal direction while rotating the battery 2 is installed in the lower portion of the washing unit 6, the rinsing unit 8, the anticorrosive unit 10 and the drying unit 12 do.

Secondly, a de-iced chamber 32 is provided at each of the outlet sides of the washing unit 6, the rinsing unit 8 and the rustproofing unit 10, The rinse solution or the rust preventive solution is desorbed and removed to prevent the rinse solution and the rust preventive solution from being mixed with each other during the recovery process.

Third, the cylindrical battery 2 is disposed at an upper portion between the parallel rotation shafts 58. When the rotation shaft 58 is rotated forward by the power of the motor 68, the cylindrical battery 2 rotates in the reverse direction And the cylindrical battery 2 is rotated while advancing in the longitudinal direction of the rotary shaft 58 by the screw blade 60.

The effects of the present invention are as follows.

First, a pair of rotary shafts 58 arranged in the longitudinal direction are configured to rotate by the power of the motor 68 while forming the screw blades 60 around the outer periphery. Therefore, the rotary shaft 58, which rotates in the forward direction, The battery 2 advances by the screw blades 60 while rotating in the opposite direction, so that a large amount of the batteries 2 can be continuously moved, thereby simplifying the structure.

Second, a decolorizing chamber 32 is provided on the outlet side of the washing unit 6, the rinsing unit 8 and the anticorrosive unit 10, and the washing liquid or the washing liquid remaining on the surface of the battery 2 in the de- The rinse liquid or the rust preventive liquid is sprayed with high pressure air to remove the cleaning liquid, the rinse liquid and the rust preventive liquid remaining on the surface of the battery 2 are recovered without being mixed with each other, There is an effect of dramatically improving the performance.

Figs. 1A and 1B are state diagrams showing a conventional art. Fig.
2 is a front view of a washer provided with an embodiment of the present invention;
3 is a plan view of a washer provided with an embodiment of the present invention.
Figure 4 is a partial top view of a washer provided with an embodiment of the present invention;
5 is a state view seen from "A" in Fig.
FIG. 6 is a detailed view of a portion "B" in FIG. 2;
7 is a state diagram of a washing unit provided with an embodiment of the present invention.
8 and 9 are state diagrams of a rotating shaft showing another embodiment of the present invention.

The present invention relates to a washing machine (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 7 as follows.

2) is provided with a washing unit 6 for washing the cylindrical battery 2 by injecting a washing liquid and a cylindrical battery 2 which is disposed at the outlet side of the washing unit 6 and is cleaned 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 conveying means 14 for moving the battery 2 in the longitudinal direction is provided below the washing unit 6, the rinsing unit 8, the anticorrosive unit 10 and the drying unit 12, A rinse liquid tank 18 disposed in the rinse portion 8 and a rust preventive liquid tank 20 disposed in the rustproof portion 10 are disposed under the rinse portion 6 Wall 22, respectively.

The inside of the housing 24 is partitioned into a washing chamber 30 by a partition wall 28. The washing chamber 30 is connected to the washing chamber 30 through the exhaust duct 26, And a detoxifying chamber 32. The washing liquid 30 and the liquid removing chamber 32 are provided with a washing liquid nozzle 34 and an air nozzle 36, respectively.

A pump 38 and a filter 40 are sequentially connected to the washing liquid nozzle 34 and connected to the washing liquid tank 16 and an air blower 42 is connected to the air nozzle 36.

The rinsing unit 8 is formed with a housing 24 having an opened bottom and an exhaust duct 26 formed at an upper end of the rinsing unit 8. The inside of the housing 24 is partitioned by a partition 28 into a rinsing chamber 44, And a rinsing nozzle 46 and an air nozzle 36 are provided in the rinsing chamber 44 and the liquid separation chamber 32, respectively.

A pump 38 and a filter 40 are sequentially connected to the rinse nozzle 46 and connected to the rinse liquid tank 18 and an air blower 42 is connected to the air nozzle 36.

The interior of the housing 24 is partitioned into a rust prevention chamber 48 and a decolorizing chamber 26 by partition walls 28. The rust prevention chamber 10 is provided with an exhaust duct 26 at an upper end thereof, And a rust prevention nozzle 50 and an air nozzle 36 are provided in the rust prevention chamber 48 and the liquid separation chamber 32, respectively.

The rust preventive nozzle 50 is connected to the rust preventive liquid tank 20 while the pump 38 and the filter 40 are sequentially connected to each other and an air blower 42 is connected to the air nozzle 36.

The housing 24 includes a drying chamber 52 having an exhaust duct 26 at an upper end thereof and a hot air nozzle 54 is installed inside the housing 24 And is connected to the hot air blower 56.

A pair of rotary shafts 58 constituting the conveying means 14 (see Fig. 6) are arranged in the longitudinal direction while being arranged parallel to each other with an interval therebetween. A screw blade 60 The support shaft 62 is fixed to the upper end of the separation wall 22 with a bearing coupled to the line and the rear end of the rotation shaft 58 along the longitudinal direction.

A driven gear 64 is coupled to the rear side of the rotary shaft 58 and a driven gear 66 is positioned below the parallel rotary shafts 58 to be engaged with the driven gear 64 And the motor 68 is connected to the driving gear 66 by a belt 70 so as to transmit rotational power.

2) are arranged along the longitudinal direction and are separated from the washing unit 6, the rinsing unit 8, the rustproofing unit 10, and the drying unit 12 And a rinsing liquid tank 18 and a rustproofing liquid tank 20 are disposed under the rinsing unit 8 and the rustproofing unit 10, respectively.

At this time, the conveying means 14 is installed in the washing machine 4 in a separated form from the washing unit 6 to the drying unit 12, but the drying unit 14 12 may be provided as a single piece of the conveying means 14 up to a distance of not more than one.

4) are arranged in the lateral direction in addition to the longitudinal direction, so that a large amount of the battery 2 is conveyed through the conveying means 14 .

A pad 72 is attached around the outer circumferential surface of the rotary shaft 58 (see FIG. 6) of the conveying means 14 to improve the rotational force of the battery 2 by providing frictional force. However, the cleaning liquid, the rinse liquid, the rust preventive liquid, and the like are sold in the market and generally used, but not limited thereto.

8, a concave guide groove 74 for guiding the movement of the cylindrical battery 2 is formed on the outer circumferential surface of the rotary shaft 58. The rotary shaft 58 is rotatably supported on the rotary shaft 58, 9, protruding guide projections 76 for guiding the movement of the cylindrical battery 2 to the outer circumferential surface of the rotary shaft 58 are formed in a thread-like shape along the longitudinal direction, .

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

First, when the washing machine 4 (see Fig. 2) is operated, the pump 38 is operated by the control unit 78 to supply the washing liquid stored in the washing liquid tank 16, The cleaning liquid is sprayed onto the rotary shaft 58 through the cleaning liquid nozzle 34 and then the cleaning liquid is returned to the cleaning liquid tank 16 through the rotary shaft 58 and then supplied again by the pump 38 .

At the same time, when the air blower 42 operates and supplies high-pressure air, the high-pressure air is injected onto the rotary shaft 58 through the air nozzle 36 located in the de-icing chamber 32.

The rinsing liquid supplied by the pump 38 is sprayed onto the rotary shaft 58 through the rinsing nozzle 46 and then the rinsing liquid supplied to the rinsing unit 6 The liquid drops to the rinsing liquid tank 18 and is re-circulated by the pump 38. At the same time, the high-pressure air supplied by the air blower 42 is injected onto the rotary shaft 58 through the air nozzle 36 .

In the rust prevention unit 10, the rust preventive liquid supplied by the pump 38 is sprayed onto the rotary shaft 58 through the rust preventive nozzle 50, and then the rust preventive liquid is dropped to the rust preventive liquid tank 20 The high pressure air supplied by the air blower 42 is injected onto the rotary shaft 58 through the air nozzle 36. [

When the hot air blower 56 operates to supply hot air to the drying unit 12, the hot air is sprayed onto the rotary shaft 58 through the hot air nozzle 54 located in the drying chamber 52.

At the same time, when the motor 68 constituting the conveying means 14 (see Fig. 6) is operated to transmit the rotational power to the driving gear 66, the driving gear 66 rotates in the reverse direction, The driven gear 64 engaged with the gear is simultaneously rotated in the forward direction. At this time, the rotary shaft 58 rotates together with the driven gear 64 in the forward direction.

When the cylindrical battery 2 is supplied to the inlet of the cleaner 4 (see FIG. 2) through the supply means not shown in the above-described state, the cylindrical battery 2 enters the rotating pair of rotating shafts 58 At this time, both sides of the lower part of the cylindrical battery 2 are seated in the upper part of the rotation shaft 58, and at the same time, the cylindrical battery 2 is rotated in the reverse direction on the rotation shaft 58 rotating in the forward direction. Exercise.

The cylindrical battery 2 (see FIG. 6), which performs the rolling motion as described above, advances while the tail is pushed forward by the screw blade 60 rotating together with the rotating shaft 58. At this time, the cylindrical battery 2 And rotates in a reverse direction on the rotary shaft 58 rotating in the forward direction.

Since the pads 72 are attached to the outer circumferential surface of the rotating shaft 58, the pads 72 provide frictional force to prevent the cylindrical batteries 2 from slipping on the rotating shaft 58. Therefore, the rotational force of the battery 2 is improved by the pad 72.

Subsequently, when the cylindrical battery 2 is advanced to the washing chamber 30 of the washing unit 6 while advancing along the rotary shaft 58, the washing liquid injected from the washing liquid nozzle 34 is injected into the battery 2 The contaminated material on the outer circumferential surface is dropped to the washing liquid tank 16 while being eliminated.

At this time, the cylindrical battery 2 continuously rotates in a reverse direction on the rotation shaft 58 rotating in the forward direction, so that the cleaned part of the cylindrical battery 2 moves in the rotation direction and goes to the other side, The contaminated new portion of the battery 2 is brought up to the top.

Accordingly, the contaminated portion on the upper side of the cylindrical battery 2 is desorbed by the cleaning liquid to be sprayed, and then the cylindrical battery 2 is continuously moved reversely while moving, In the process of passing through the seal 30, all the contaminants on the outer circumferential surface are removed and cleaned.

At the same time, the front and rear surfaces are cleaned by the cleaning liquid injected in the process of advancing the cylindrical battery 2 forward.

The washing liquid injected from the washing liquid nozzle 34 falls into the washing liquid tank 16 while the contaminants on the surface of the battery 2 are removed and the washing liquid then passes through the filter 40 38 to the cleaning liquid nozzle 34 again.

When the cylindrical battery 2 having been cleaned has entered the decollecting chamber 32 from the cleaning chamber 30, the high-pressure air injected from the air nozzle 36 is supplied to the surface of the battery 2 The washing liquid is desorbed and removed. At this time, the cylindrical battery 2 moves while rotating as described above, so that the washing liquid is separated over the entire surface.

Accordingly, the surface of the battery 2 is in a state in which the cleaning liquid is not removed and remains, and all of the cleaning liquid desorbed from the surface of the battery 2 is dropped and recovered in the cleaning liquid tank 16, The completed battery 2 is moved to the rinsing unit 8 from the cleaning unit 6 by moving forward while rotating.

The cylindrical battery 2 which has entered the rinse chamber 44 of the rinsing unit 8 is rotated in the reverse direction on the rotary shaft 58 as described above and advanced forward by the screw blade 60. At this time, The rinse liquid is sprayed from the rinse nozzle 46 to rinse the outer peripheral surface and the front and rear surfaces of the battery 2. The rinse liquid that has passed through the battery 2 is discharged into the rinse liquid tank 18, And then is circulated again while being supplied to the pump 38 again.

When the rinsing liquid is sprayed as described above, since the cleaning liquid is removed from the surface of the battery 2, only the pure rinsing liquid is recovered.

When the cylindrical battery 2 having been subjected to the rinsing process passes through the rinsing chamber 44 and enters the decollecting chamber 32, the high-pressure air injected from the air nozzle 36 is supplied to the surface of the battery 2 At this time, the cylindrical battery 2 is moved while rotating as described above, so that the rinsing liquid is removed over the entire surface of the cylindrical battery 2. [0050]

Therefore, the surface of the battery 2 is in a state in which the rinse liquid is removed and remains, and the rinse liquid which has been removed from the surface of the battery 2 is dropped and collected in the rinse liquid tank 18, The battery 2 having been subjected to the desalination process is moved forward from the rinsing unit 8 to the rust preventive unit 10 by advancing forward while rotating.

The cylindrical battery 2 that has entered the anticorrosive room 48 of the anticorrosive unit 10 is forwardly wound by the screw blade 60 while rotating in the reverse direction on the rotary shaft 58 as described above. The rust preventive liquid is sprayed from the rust preventive nozzle 50 and rusts against the outer circumference and the front and rear surfaces of the battery 2. The rust preventive liquid that has passed through the battery 2 passes through the rust preventive tank 20, And then is circulated again while being supplied to the pump 38 again.

Since the rinsing liquid is removed from the surface of the battery 2 when the rust preventive liquid is sprayed as described above, only the pure rust preventive liquid is recovered.

When the cylindrical battery 2 after the rustproofing process is completed passes through the anticorrosive chamber 48 and enters the decolorizing chamber 32, the high-pressure air injected from the air nozzle 36 is supplied to the surface of the battery 2 The rust-inhibitive liquid is removed by being dried. At this time, the cylindrical battery 2 moves while rotating as described above, so that the rust-inhibitive liquid is removed over the entire surface of the cylindrical battery 2.

Therefore, the surface of the battery 2 is in a state in which the rust-preventive liquid is removed and remains, and the rust-preventive liquid detached from the surface of the battery 2 falls into the rust-preventive liquid tank 20 and is recovered. The battery 2 having been subjected to the desalination process is moved forward to rotate from the rustproofing unit 10 to the drying unit 12.

The cylindrical battery 2 that has entered the drying chamber 52 of the drying unit 12 is advanced forward by the screw blade 60 while rotating in a reverse direction on the rotary shaft 58 as described above. Hot wind is sprayed from the hot air nozzle 54, so that the outer circumference, front and rear surfaces of the battery 2 are dried.

After that, the cylindrical battery 2 passes through the drying chamber 52 and moves to an unillustrated carry-out portion.

8, guide grooves 74 are formed in a threaded shape around the outer circumferential surface of the rotary shaft 58 constituting another embodiment of the present invention. The guide grooves 74 are formed in the cylindrical battery 2 Is on the rotary shaft 58, it is guided to advance forward.

9, a guide protrusion 76 is formed in a threaded shape around the outer circumferential surface of the rotating shaft 58 constituting another embodiment of the present invention. The guide protrusion 76 is formed in the cylindrical battery 2, Is guided to be able to advance forward when it is placed on the rotary shaft (58).

Therefore, the cylindrical battery 2 is rotated by the guide groove 74 and the guide protrusion 76 so that the cylindrical battery 2 rotates on the rotary shaft 58 and moves forward.

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: Washer
6: Cleaning part 8: Rinse part
10: rustproofing part 12: drying part
14: conveying means 16: washing liquid tank
18: Rinse liquid tank 20: Rustproof liquid tank
22: separating wall 24: housing
26: exhaust duct 28: partition wall
30: Cleaning chamber 32: Desalination chamber
34: cleaning liquid nozzle 36: air nozzle
38: Pump 40: Filter
42: Air blower 44: Rinse room
46: Rinse nozzle 48:
50: rust prevention nozzle 52: drying chamber
54: hot air nozzle 56: hot air blower
58: rotating shaft 60: screw blade
62: support 64: driven gear
66: driving gear 68: motor
70: belt 72: pad
74: guide groove 76: guide projection
78:

Claims (10)

The washing liquid tank 16, the rinse liquid tank 18 and the rust preventive liquid tank 20 are provided in the lower portion of the washing chamber 30, the rinse chamber 44, the anti-rust chamber 48 and the drying chamber 52, Install,
Wherein a conveying means (14) for moving the battery (2) in the longitudinal direction while rotating the battery (2) is provided below the distance from the washing chamber (30) to the drying chamber (52)
A decolorizing chamber 32 is separately provided outside the outlets of the washing chamber 30, the rinsing chamber 44 and the anti-rust chamber 48,
An air nozzle (36) connected to the air blower (42) is installed in each of the liquid removing chambers (32)
High-pressure air is jetted toward the battery 2 through the air nozzle 36 in the detachment chamber 32 to remove the cleaning liquid, the rinse liquid and the rust preventive liquid from the battery 2, Wherein the cylindrical battery is cleaned. The washing chamber 30, the rinsing chamber 44, the anticorrosive chamber 48 and the drying chamber 52 are sequentially installed,
Wherein a conveying means (14) for moving the battery (2) in the longitudinal direction while rotating the battery (2) is provided below the distance from the washing chamber (30) to the drying chamber (52)
A decalcification chamber 32 is provided separately from the outlet of each of the cleaning chamber 30, the rinse chamber 44 and the anti-rust chamber 48, and each of the decalcification chambers 32 is connected to an air blower 42 An air nozzle 36 is provided,
The conveying means 14 is provided in a longitudinal direction with a pair of rotating shafts 58 disposed in parallel with a gap therebetween,
A screw blade 60 is installed along the longitudinal direction around the outer circumferential surface of each of the rotation shafts 58,
A driven gear 64 is coupled to a distal end of each of the rotary shafts 58 and is engaged with a driven gear 66 connected to a rotary shaft of the motor 68,
Both lower sides of the battery 2 are seated on the upper inner peripheral surface of the rotary shaft 58,
When the driving gear 66 is rotated to the left, the two rotating shafts 58 arranged in parallel rotate right together to turn the battery 2 seated on the upper left, while the screw blade 60 pushes the rear end of the battery 2 Wherein the cleaning device is configured to advance the cleaning device. The method of claim 2,
Wherein a slip phenomenon of the battery (2) is prevented by attaching a pad (72) made of a rubber or rubber around the outer circumferential surface of the rotating shaft (58). The battery 2 is conveyed by the conveying means 14 to the cleaning chamber 30, the liquid separation chamber 32, the rinsing chamber 44, the liquid separation chamber 32, the anti-rust chamber 48, the liquid separation chamber 32, 52,
A washing process of spraying the washing liquid from the washing chamber 30 through the washing liquid nozzle 34 toward the cylindrical battery 2 to thereby desorb the contaminants on the surface of the battery 2;
After the cleaning process, a desorption process is performed to remove the cleaning solution remaining on the surface by spraying the high-pressure air toward the cylindrical battery 2 through the air nozzle 36 in the desorption chamber 32 to make it dry.
A rinsing process for spraying the rinse liquid toward the cylindrical battery 2 through the rinse nozzle 46 in the rinse chamber 44 after the desalination process;
After the rinsing process, high-pressure air is injected into the dehydration chamber 32 through the air nozzle 36 toward the cylindrical battery 2, thereby removing the rinsing liquid remaining on the surface of the dehydration chamber 32 to make it dry.
A rust preventing process in which the rust preventive liquid is sprayed toward the cylindrical battery 2 through the rust preventive nozzle 50 in the rust prevention chamber 48 after the desalination process;
After the rust prevention process, the high-pressure air is sprayed toward the cylindrical battery (2) through the air nozzle (36) in the decolatilization chamber (32) to remove the rust-inhibitive liquid remaining on the surface,
Wherein the drying process for spraying the hot air to the cylindrical battery (2) through the hot air nozzle (54) in the drying chamber (52) and drying the hot air is performed after the desalinating process.








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