CN115672881B - Aluminum foil cleaning device - Google Patents

Abstract

The invention relates to the technical field of aluminum foil surface treatment, in particular to an aluminum foil cleaning device, which comprises a rack, and an unwinding roller, a cleaning assembly and a winding roller which are sequentially arranged on the rack; the cleaning assembly comprises two cleaning rollers which are arranged up and down; the cleaning roller comprises a cleaning motor, a rotating shaft, a sleeve, magnetorheological fluid, a controller and more than five electromagnets, the cleaning motor drives the rotating shaft to rotate, and the rotating shaft, the electromagnets and the sleeve are sequentially sleeved from inside to outside; when the controller controls the cleaning motor to rotate, the electromagnet closest to the gap and the distance between the electromagnet and the vertical direction of the gap are larger than the radius of the sleeve, the controller controls the electromagnet to be in a power-off state, and the electromagnet is in a power-on state at other time; the magnetorheological fluid is powered off when being closest to the gap, the impurities on the surface of the aluminum foil are adhered to the inside of the aluminum foil through the viscous base fluid, and the magnetorheological fluid is controlled by the magnet to be adsorbed and hardened through the electrification state at other time, so that the magnetorheological fluid is ensured not to be taken away by the aluminum foil.

Description

Aluminum foil cleaning device

Technical Field

The invention relates to the technical field of aluminum foil surface treatment, in particular to an aluminum foil cleaning device.

Background

The aluminum foil is an important component of the lithium battery, stains are easily adhered to the surface of the aluminum foil in the processing process of the aluminum foil, and the surface of the battery is required to be cleaned before processing due to high quality control of the battery. At present, the cleaning device adopts the cleaning roller to clean the surface of the aluminum foil, and the cleaning roller is easily polluted and cannot be replaced in time after being used for a long time, so that the cleaning roller can pollute the aluminum foil instead to cause secondary pollution.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: provided is an aluminum foil cleaning device capable of preventing a cleaning roller from contaminating an aluminum foil.

In order to solve the technical problems, the invention adopts the technical scheme that: an aluminum foil cleaning device comprises a rack, an unwinding roller, a winding roller and a cleaning assembly, wherein the unwinding roller and the winding roller are respectively arranged on the rack, and the cleaning assembly is arranged between the unwinding roller and the winding roller;

the cleaning assembly comprises two cleaning rollers which are arranged up and down, and a gap for passing an aluminum foil is reserved between the upper cleaning roller and the lower cleaning roller;

the cleaning roller comprises a cleaning motor, a rotating shaft, a sleeve, magnetorheological fluid, a controller and more than five electromagnets, the cleaning motor drives the rotating shaft to rotate, the sleeve is sleeved on the periphery of the rotating shaft, and the electromagnets are uniformly distributed in a gap between the sleeve and the rotating shaft; the magnetorheological fluid is arranged on the periphery of the sleeve; the controller controls the cleaning motor and the electromagnet to work, when the cleaning motor rotates, the electromagnet is in a power-off state when the electromagnet is closest to the gap and/or the distance between the electromagnet and the gap in the vertical direction is larger than the radius of the sleeve, and the electromagnet is in a power-on state at other time.

The invention has the beneficial effects that: by adopting the magnetorheological fluid, the magnetorheological fluid can be controlled by the magnet to not react with the aluminum foil, and the aluminum foil is not influenced by the magnet and cannot deform; the power is cut off when the magnet is closest to the gap, impurities on the surface of the aluminum foil are adhered to the inside of the aluminum foil through viscous base liquid of the magnetorheological fluid, and the magnetorheological fluid is controlled by the magnet to be adsorbed and hardened (the fluidity is greatly reduced) through the fluidity of the magnetorheological fluid and the electrified state at other time, so that the magnetorheological fluid is ensured not to be taken away by the aluminum foil; when the distance between the electromagnet and the gap in the vertical direction is larger than the radius of the sleeve, the controller controls the electromagnet to be in a power-off state, so that the flowability can be recovered, the adhered impurities can be further fused into the magnetorheological fluid, and the magnetorheological fluid with a flexible and clean surface can be used for adsorbing the impurities again when the magnetorheological fluid is cleaned next time; when the cleaning device is used for cleaning, only the whole sleeve needs to be taken down and directly replaced, and the maintenance complexity is reduced.

Drawings

Fig. 1 is a schematic structural diagram of an aluminum foil cleaning apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a cleaning assembly of an aluminum foil cleaning apparatus according to an embodiment of the present invention;

FIG. 3 is a partial exploded view of a cleaning assembly of an aluminum foil cleaning apparatus according to an embodiment of the present invention;

fig. 4 is a partial sectional view of a cleaning roller of an aluminum foil cleaning apparatus according to an embodiment of the present invention;

FIG. 5 is an enlarged view of portion A of FIG. 1;

FIG. 6 is an enlarged view of detail B of FIG. 1;

description of the reference symbols: 1. a rack; 2. unwinding rollers; 3. a wind-up roll; 4. a cleaning assembly; 41. a cleaning roller; 42. cleaning the motor; 43. a rotating shaft; 44. a sleeve; 45. an electromagnet; 46. magnetorheological fluid; 5. aluminum foil; 6. an adjusting arm; 61. a connecting seat; 62. a cylinder; 63. a first yoke; 64. a second prong; 65. a first extension bar; 66. a second extension bar; 67. a rotating part; 7. a winding component; 71. a winding motor; 72. winding a clamp; 73. lifting the base; 8. a sampling assembly; 81. a sampling stage; 82. a blade; 83. a first reciprocating member; 84. a notch; 9. an analysis component; 91. a second reciprocating member; 92. a rotating member; 93. an upper clamping block; 94. a lower clamping block; 95. a measuring block; 96. collecting tank; 10. pulling the assembly; 101. a third reciprocating member; 102. a track; 103. an upper splint; 104. and (5) a lower splint.

Detailed Description

In order to explain technical contents, achieved objects, and effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 6, an aluminum foil cleaning device includes a rack 1, an unwinding roller 2, a winding roller 3 and a cleaning assembly 4, wherein the unwinding roller 2 and the winding roller 3 are respectively disposed on the rack 1, and the cleaning assembly 4 is disposed between the unwinding roller 2 and the winding roller 3;

the cleaning assembly 4 comprises two cleaning rollers 41 which are arranged up and down, and a gap for passing the aluminum foil 5 is reserved between the upper cleaning roller 41 and the lower cleaning roller 41;

the cleaning roller 41 comprises a cleaning motor 42, a rotating shaft 43, a sleeve 44, magnetorheological fluid 46, a controller and more than five electromagnets 45, wherein the cleaning motor 42 drives the rotating shaft 43 to rotate, the sleeve 44 is sleeved on the periphery of the rotating shaft 43, and the electromagnets 45 are uniformly distributed in a gap between the sleeve and the rotating shaft 43; the magnetorheological fluid is arranged on the periphery of the sleeve; the controller controls the cleaning motor 42 and the electromagnet 45 to work, and when the cleaning motor 42 rotates, the electromagnet 45 is in a power-off state when the electromagnet 45 is closest to the gap and/or the distance between the electromagnet 45 and the vertical direction of the gap is larger than the radius of the sleeve 44, and the electromagnet is in a power-on state at other times.

As is apparent from the above description, by using the magnetorheological fluid 46, since it is controlled by the magnet itself not to react with the aluminum foil 5, the aluminum foil 5 is not affected by the magnet and thus is not deformed; the electromagnet 45 is powered off when being closest to the gap, and the viscous base liquid of the magnetorheological fluid 46 is used for adhering impurities on the surface of the aluminum foil 5 to the inside, so that the magnetorheological fluid 46 is controlled by the magnet to be adsorbed and hardened (the flowability is greatly reduced) through the electrification state at other time due to the flowability of the magnetorheological fluid 46, and the magnetorheological fluid 46 is ensured not to be taken away by the aluminum foil 5; when the distance between the electromagnet 45 and the vertical direction of the gap is larger than the radius of the sleeve 44, the controller controls the electromagnet to be in a power-off state, so that the flowability can be recovered, the adhered impurities can be fused into the magnetorheological fluid 46, and the magnetorheological fluid 46 with the surface still flexible can be used for adsorbing the impurities again when cleaning next time; when cleaning, only the whole sleeve 44 needs to be taken down for direct replacement, and the maintenance complexity is reduced.

Further, the cleaning assembly 4 further comprises an adjusting arm 6, and the adjusting arm 6 is arranged on the rack 1;

adjusting arm 6 includes connecting seat 61, cylinder 62, first yoke 63, second yoke 64, first extension rod 65 and second extension rod 66, first yoke 63, second yoke 64 are the L type, the middle part of first yoke 63, second yoke 64 is provided with rotation portion 67 respectively, rotation portion 67 rotates and connects on connecting seat 61, the front end of first yoke 63, second yoke 64 is connected on cylinder 62, the end of first yoke 63 is connected with first extension rod 65, the end and the second extension rod 66 of second yoke 64 are connected, first extension rod 65, second extension rod 66 rotate with cleaning roller 41 respectively and are connected.

As can be seen from the above description, by adjusting the arrangement of the arm 6, the interval between the two can be adjusted, and the opening is facilitated, so that the aluminum foil 5 passes through the middle.

Further, the aluminum foil cleaning device also comprises a platform and a winding component 7, wherein the winding component 7 is positioned on the side edge of the winding roller 3;

the unwinding roller 2 is positioned at the head end of the platform, and the winding roller 3 is positioned below the tail end of the platform; a fracture area for cleaning the cleaning roller 41 is arranged in the middle of the platform;

the winding assembly 7 comprises a lifting base 73, a winding motor 71 and a winding clamp 72, the winding clamp 72 is positioned at the tail end of the platform, and the winding motor 71 drives the winding clamp 72 to rotate; a notch for the aluminum foil 5 to pass through is formed in the winding clamp 72, and when the winding assembly 7 does not work, the notch is parallel to the plane of the platform; the lifting base 73 is arranged on the rack 1 below the winding roller 3 and is rotationally connected with the winding roller 3, and drives the winding roller 3 to vertically move towards the winding clamp 72.

As can be seen from the above description, through the winding clamp 72, the winding clamp 72 is provided with a slot for the aluminum foil 5 to traverse, when the winding assembly 7 is not in operation, the slot is parallel to the plane of the platform, so that the aluminum foil 5 can conveniently enter the slot, once the length of the aluminum foil 5 is enough, the winding motor 71 drives the aluminum foil to rotate, so that the aluminum foil 5 traversing the slot is inclined downwards, and the winding roller 3 is lifted, so that the aluminum foil 5 can be wound into the winding roller 3, and winding is realized; meanwhile, the angle of the groove can be adjusted in the continuous winding process, the tension is uniform when the winding is facilitated, the guiding effect is achieved, and the snapping is avoided.

Further, the aluminum foil cleaning device further comprises a sampling assembly 8, wherein the sampling assembly 8 comprises a sampling table 81, a blade 82 and a first reciprocating member 83, the sampling table 81 is parallel to the platform and is arranged behind the tail end of the platform, a gap is formed between the sampling table 81 and the platform, and the winding roller 3 is positioned below the gap; the first reciprocating member 83 is located above the sampling platform 81 and drives the blade 82 to cut the aluminum foil 5 toward the sampling platform 81 near the spaced edges.

As can be seen from the above description, the cutting sampling analysis of the aluminum foil 5 can be realized by the sampling assembly 8.

Further, the aluminum foil cleaning device further comprises an analysis assembly 9, the analysis assembly 9 is located on the side edge of the sampling assembly 8, a notch 84 is formed in the sampling platform 81, and when the aluminum foil 5 extends into the sampling platform 81, the position, corresponding to the notch 84, of the aluminum foil 5 is in a suspended state;

the analysis component 9 comprises a grabbing part and an analysis part, the grabbing part comprises a second reciprocating part 91, a rotating part 92, an upper clamping block 93, a lower clamping block 94 and an adjusting arm 6 which is the same as the cleaning component 4, and the upper clamping block 93 and the lower clamping block 94 are respectively connected to the first extending rod 65 and the second extending rod 66 to enable the adjusting arm 6 to drive the upper clamping block 94 and the lower clamping block 94 to clamp or loosen;

the rotating part 92 is arranged on the rack 1, the second reciprocating part 91 is arranged on the rotating part 92, and the second reciprocating part 91 drives the adjusting arm 6 to reciprocate towards the notch 84 and the analysis part; the rotating member 92 drives the second reciprocating member 91 to move toward the notch 84 and the analysis portion.

From the above description, through the setting of the portion of snatching, can cooperate sampling component 8 to realize automatic sampling test, realize the automation, promote work efficiency.

Further, the analysis portion is located on a side of the grasping portion, and the analysis portion includes measurement blocks 95 arranged up and down.

As can be seen from the above description, the measurement block 95 disposed above and below can perform measurement while being pressed up and down, thereby increasing the measurement speed.

Furthermore, a collecting groove 96 is arranged between the sampling assembly 8 and the analysis assembly 9, and the collecting groove 96 is obliquely arranged on the rack 1.

As can be seen from the above description, through the setting of collecting vat 96, can be after the analysis of analysis portion, pick again through the portion of snatching and put into collecting vat 96 and collect, also the collection of sample, the slope is collected, can make things convenient for aluminium foil 5 to collect the bottom, makes things convenient for follow-up manual processing.

Further, the aluminum foil cleaning device further comprises a pulling assembly 10, the pulling assembly 10 is located on the side of the platform, the pulling assembly 10 comprises a third reciprocating member 101, a rail 102, an upper clamping plate 103, a lower clamping plate 104 and an adjusting arm 6 which is the same as the cleaning assembly 4, and the upper clamping plate 103 and the lower clamping plate 104 are respectively connected to the first extending rod 65 and the second extending rod 66 to enable the adjusting arm 6 to drive the upper clamping plate 104 and the lower clamping plate 104 to be clamped or loosened;

the third reciprocating member 101 drives the adjusting arm 6 to run on the track 102.

As can be seen from the above description, the upper clamping plate 103, the lower clamping plate 104 and the adjusting arm 6 can drive the aluminum foil 5 to extend through the upper clamping plate 104 and the lower clamping plate 104, so as to reduce the manual intervention time of workers.

Example one

An aluminum foil cleaning device comprises a rack 1, an unwinding roller 2, a winding roller 3 and a cleaning assembly 4, wherein the unwinding roller 2 and the winding roller 3 are respectively arranged on the rack 1, and the cleaning assembly 4 is arranged between the unwinding roller 2 and the winding roller 3;

the cleaning assembly 4 comprises two cleaning rollers 41 which are arranged up and down, and a gap for passing the aluminum foil 5 is reserved between the upper cleaning roller 41 and the lower cleaning roller 41;

the cleaning roller 41 comprises a cleaning motor 42, a rotating shaft 43, a sleeve 44, magnetorheological fluid 46, a controller and 10 electromagnets 45, wherein the cleaning motor 42 drives the rotating shaft 43 to rotate, the sleeve 44 is sleeved on the periphery of the rotating shaft 43, and the electromagnets 45 are uniformly distributed in a gap between the sleeve and the rotating shaft 43; the magnetorheological fluid is arranged on the periphery of the sleeve; the controller controls the cleaning motor 42 and the electromagnet 45 to work, and when the cleaning motor 42 rotates, the electromagnet 45 is in a power-off state when the electromagnet 45 is closest to the gap and/or the distance between the electromagnet 45 and the vertical direction of the gap is larger than the radius of the sleeve 44, and the electromagnet 45 is in a power-on state at other times.

The cleaning assembly 4 further comprises an adjusting arm 6, and the adjusting arm 6 is arranged on the rack 1;

adjusting arm 6 includes connecting seat 61, cylinder 62, first yoke 63, second yoke 64, first extension rod 65 and second extension rod 66, first yoke 63, second yoke 64 are the L type, the middle part of first yoke 63, second yoke 64 is provided with rotation portion 67 respectively, rotation portion 67 rotates to be connected on connecting seat 61, the front end of first yoke 63, second yoke 64 is connected on cylinder 62, the end and the first extension rod 65 of first yoke 63 are connected, the end and the second extension rod 66 of second yoke 64 are connected, first extension rod 65, second extension rod 66 rotate with cleaning roller 41 respectively and are connected.

The aluminum foil cleaning device also comprises a platform and a winding component 7, wherein the winding component 7 is positioned on the side edge of the winding roller 3;

the unwinding roller 2 is positioned at the head end of the platform, and the winding roller 3 is positioned below the tail end of the platform; a fracture area for cleaning the cleaning roller 41 is arranged in the middle of the platform;

the winding assembly 7 comprises a lifting base 73, a winding motor 71 and a winding clamp 72, the winding clamp 72 is positioned at the tail end of the platform, and the winding motor 71 drives the winding clamp 72 to rotate; a slot for the aluminum foil 5 to pass through is formed in the winding clamp 72, and when the winding assembly 7 does not work, the slot is parallel to the plane of the platform; the lifting base 73 is arranged on the rack 1 below the winding roller 3 and is rotationally connected with the winding roller 3, and drives the winding roller 3 to vertically move towards the winding clamp 72.

The aluminum foil cleaning device further comprises a sampling assembly 8, wherein the sampling assembly 8 comprises a sampling table 81, a blade 82 and a first reciprocating piece 83, the sampling table 81 is parallel to the platform and is arranged behind the tail end of the platform, a gap is formed between the sampling table 81 and the platform, and the winding roller 3 is positioned below the gap; the first reciprocating member 83 is located above the sampling platform 81 and drives the blade 82 to cut the aluminum foil 5 toward the sampling platform 81 near the spaced edges.

The aluminum foil cleaning device further comprises an analysis assembly 9, the analysis assembly 9 is located on the side edge of the sampling assembly 8, a notch 84 is formed in the sampling platform 81, and when the aluminum foil 5 extends into the sampling platform 81, the position, corresponding to the notch 84, of the aluminum foil 5 is in a suspended state;

the analysis component 9 comprises a grabbing part and an analysis part, the grabbing part comprises a second reciprocating part 91, a rotating part 92, an upper clamping block 93, a lower clamping block 94 and an adjusting arm 6 which is the same as the cleaning component 4, and the upper clamping block 93 and the lower clamping block 94 are respectively connected to the first extending rod 65 and the second extending rod 66 to enable the adjusting arm 6 to drive the upper clamping block 94 and the lower clamping block 94 to clamp or loosen;

the rotating member 92 is arranged on the rack 1, the second reciprocating member 91 is arranged on the rotating member 92, and the second reciprocating member 91 drives the adjusting arm 6 to reciprocate towards the notch 84 and the analysis part; the rotating member 92 drives the second reciprocating member 91 to move toward the notch 84 and the analysis portion.

The analysis portion is located on the side of the grasping portion, and the analysis portion includes measurement blocks 95 arranged up and down.

A collecting groove 96 is also arranged between the sampling assembly 8 and the analysis assembly 9, and the collecting groove 96 is obliquely arranged on the rack 1.

The first reciprocating member 83, the second reciprocating member 91 and the third reciprocating member 101 are air cylinders 62; the rotary member 92 is a rotary motor.

Example two

An aluminum foil cleaning device similar to the first embodiment will not be described in detail, wherein

12 of the electromagnets 45;

the aluminum foil cleaning device further comprises a pulling assembly 10, the pulling assembly 10 is located on the side edge of the platform, the pulling assembly 10 comprises a third reciprocating member 101, a track 102, an upper clamping plate 103, a lower clamping plate 104 and an adjusting arm 6 which is the same as the cleaning assembly 4, and the upper clamping plate 103 and the lower clamping plate 104 are respectively connected to the first extending rod 65 and the second extending rod 66 to enable the adjusting arm 6 to drive the upper clamping plate 104 and the lower clamping plate 104 to be clamped or loosened;

the third reciprocating member 101 drives the adjusting arm 6 to run on the track 102.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes made by using the contents of the present specification and the drawings, or applied directly or indirectly to the related technical fields, are included in the scope of the present invention.

Claims (7)

1. The aluminum foil cleaning device is characterized by comprising a rack, an unwinding roller, a winding roller and a cleaning assembly, wherein the unwinding roller and the winding roller are respectively arranged on the rack, and the cleaning assembly is arranged between the unwinding roller and the winding roller;

the cleaning assembly comprises two cleaning rollers which are arranged up and down, and a gap for passing an aluminum foil is reserved between the upper cleaning roller and the lower cleaning roller;

the cleaning roller comprises a cleaning motor, a rotating shaft, a sleeve, magnetorheological fluid, a controller and more than five electromagnets, the cleaning motor drives the rotating shaft to rotate, the sleeve is sleeved on the periphery of the rotating shaft, and the electromagnets are uniformly distributed in a gap between the sleeve and the rotating shaft; the magnetorheological fluid is arranged on the periphery of the sleeve; the controller controls the cleaning motor and the electromagnet to work, when the cleaning motor rotates, the electromagnet is controlled to be in a power-off state when the electromagnet is closest to the gap and/or the distance between the electromagnet and the gap in the vertical direction is larger than the radius of the sleeve, and the electromagnet is controlled to be in a power-on state at other time;

the cleaning assembly further comprises an adjusting arm, and the adjusting arm is arranged on the rack;

the regulating arm includes connecting seat, cylinder, first yoke, second yoke, first extension rod and second extension rod, first yoke, second yoke are the L type, the middle part of first yoke, second yoke is provided with rotation portion respectively, rotation portion rotates and connects on the connecting seat, the front end of first yoke, second yoke is connected on the cylinder, the end and the first extension rod of first yoke are connected, the end and the second extension rod of second yoke are connected, first extension rod, second extension rod rotate with the cleaning roller respectively and are connected.

2. The aluminum foil cleaning device as claimed in claim 1, further comprising a platform and a take-up assembly, wherein the take-up assembly is located at a side edge of the take-up roller;

the unwinding roller is positioned at the head end of the platform, and the winding roller is positioned below the tail end of the platform; a fracture area for cleaning the cleaning roller is arranged in the middle of the platform;

the winding assembly comprises a lifting base, a winding motor and a winding clamp, the winding clamp is positioned at the tail end of the platform, and the winding motor drives the winding clamp to rotate; the winding clamp is provided with a slot for the transverse movement of the aluminum foil, and when the winding component does not work, the slot is parallel to the plane of the platform; the lifting base is arranged on the rack below the winding roller and is rotationally connected with the winding roller, and the winding roller is driven to vertically move towards the winding clamp.

3. The aluminum foil cleaning device as claimed in claim 2, further comprising a sampling assembly including a sampling stage, a blade and a first shuttle, the sampling stage being parallel to the platform and disposed behind a distal end of the platform with a space therebetween, the take-up roll being located below the space; the first reciprocating piece is located the sampling platform top and drives the blade and is close to spaced border cooperation and cut the aluminium foil towards the sampling platform.

4. The aluminum foil cleaning device as claimed in claim 3, further comprising an analysis component, wherein the analysis component is located at a side edge of the sampling component, a gap is formed in the sampling platform, and when the aluminum foil extends into the sampling platform, a corresponding position of the aluminum foil and the gap is in a suspended state;

the analysis component comprises a grabbing part and an analysis part, the grabbing part comprises a second reciprocating piece, a rotating piece, an upper clamping block, a lower clamping block and an adjusting arm which is the same as the cleaning component, and the upper clamping block and the lower clamping block are respectively connected to a first extending rod and a second extending rod to enable the adjusting arm to drive the upper clamping block and the lower clamping block to clamp or loosen;

the rotating piece is arranged on the rack, the second reciprocating piece is arranged on the rotating piece, and the second reciprocating piece drives the adjusting arm to move towards the notch and the analysis part to reciprocate; the rotating piece drives the second reciprocating piece to move towards the notch and the analysis part.

5. The aluminum foil cleaning apparatus as claimed in claim 4, wherein the analysis section is located at a side of the grasping section, and the analysis section includes measurement blocks arranged up and down.

6. The aluminum foil cleaning device as claimed in claim 4, wherein a collecting groove is further provided between the sampling assembly and the analysis assembly, and the collecting groove is obliquely provided on the rack.

7. The aluminum foil cleaning device as claimed in claim 2, further comprising a pulling assembly, wherein the pulling assembly is located at a side of the platform, the pulling assembly comprises a third reciprocating member, a rail, an upper clamping plate, a lower clamping plate and an adjusting arm which is the same as the cleaning assembly, and the upper clamping plate and the lower clamping plate are respectively connected to the first extending rod and the second extending rod to enable the adjusting arm to drive the upper clamping plate and the lower clamping plate to clamp or loosen;

the third reciprocating member drives the adjusting arm to move on the track.

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