CN210854699U - Full-automatic looping and film-enveloping all-in-one machine - Google Patents

Abstract

The utility model relates to the technical field of cable looping and packaging, and discloses a full-automatic looping and film-enveloping all-in-one machine, which comprises a frame, wherein a meter counting device for metering the meter of a cable, a wire feeding device for pushing the cable forwards, a wire arranging device, a looping device for winding the cable into a loop, a wire holding moving device for transferring the coil formed by the cable into a loop from the looping device to the film-enveloping device, a labeling device for attaching a label to one side of the coil, a film enveloping device for enveloping the coil, a wire shifting device for pushing out the enveloped coil, and a slope hopper device for temporarily storing and collecting the enveloped coil are sequentially arranged on the frame; the coiling device for coiling the cable and the film coating device for coating the cable are designed on one device, and each device of the whole device is controlled by a PLC (programmable logic controller), so that the whole-process automatic operation reduces the labor intensity of operators, greatly improves the production efficiency and saves the cost.

Description

Full-automatic looping and film-enveloping all-in-one machine

Technical Field

The utility model relates to a cable lopping packing technical field specifically discloses full-automatic lopping diolame all-in-one.

Background

The cable looping and packaging process includes the steps that cables are wound and then wrapped and packaged by plastic film wrapping, most enterprises operate through two machines, namely a looping machine and a film wrapping machine, the looping machine completes looping parts, and operators transfer coils to the film wrapping machine for film wrapping operation after looping; the two procedures of looping and enveloping are mutually independent, and when one procedure fails, coordination cannot be realized. The cable is transferred from the coiling machine to the film coating machine after being coiled, the operation is carried out by manpower, the coil is easy to loosen, the time and the labor are wasted, and the labor intensity of operators is high.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a full-automatic lopping diolame all-in-one that looping and diolame packing can be accomplished to a machine.

The utility model provides a technical scheme that its technical problem adopted is: the full-automatic looping and film-enveloping all-in-one machine comprises a rack, wherein a metering device, a wire feeding device, a wire arranging device, a looping device for winding a cable into a loop, a wire holding moving device, a film enveloping device for enveloping a coil and a wire shifting device for pushing out the enveloped coil are sequentially arranged on the rack; after the cable passes through the metering device, the cable is conveyed to the looping device by the cable feeding device and the cable arranging device, the looping device winds the cable into a loop, the looped cable is moved to the film coating device from the looping device by the cable holding moving device to carry out film coating, and the coil after film coating is pushed out by the cable pulling device.

Further, the method comprises the following steps: the meter counting device comprises a meter counting ceramic spraying wheel and a meter counting rubber coating guide wheel, a gap for a cable to pass through is formed between the meter counting ceramic spraying wheel and the meter counting rubber coating guide wheel, and the meter counting device also comprises a wire passing guide wheel group which is arranged on two sides and used for preventing the cable from swinging up and down, left and right; the meter-counting ceramic spraying wheel is also provided with a cable pressing device for pressing the meter-counting ceramic spraying wheel to the meter-counting rubber coating guide wheel; and the back of the meter-counting ceramic spraying wheel is connected with a rotary encoder.

Further, the method comprises the following steps: the wire feeding device comprises a wire feeding guide pipe for a wire to pass through, and a wire clamping plate is arranged at the tail end of the wire feeding guide pipe; the wire feeding device also comprises a wire clamping cylinder for driving the wire clamping plate to clamp the wire, a guide cylinder for guiding the wire feeding guide pipe, and a wire feeding guide pipe which is driven to do linear motion and send the wire to the lower part of the looping machine.

Further, the method comprises the following steps: the wire arranging device comprises a wire arranging roller device for a wire to pass through, a wire arranging lead screw module for driving the wire arranging roller device to do vertical reciprocating motion, and a wire arranging linkage polish rod for driving the wire feeding guide pipe to synchronously link with the wire arranging roller device.

Further, the method comprises the following steps: the looping device comprises a looping head turntable and a looping driving motor for driving the looping head turntable to rotate, and the looping head turntable drives the looping head mechanism to rotate through a coupler; the coiling device is also provided with a coiling head lifting cylinder for driving the coiling head to do vertical motion, a cable cutting device for cutting off the cable after the cable is coiled, and a rotating speed encoder for monitoring the rotating speed of the coiling head turntable in real time.

Further, the method comprises the following steps: the wire holding moving device comprises a wire holding device and a servo motor, wherein the wire holding device and the servo motor are arranged oppositely and drive the wire holding device to do linear motion; the synchronous belt synchronous rotation of the clamping arm-embracing mechanism is driven by the speed reducing motor through the transmission shaft and a bevel gear group in the thread-embracing device to clamp the synchronous belt of the arm-embracing mechanism.

Further, the method comprises the following steps: the film coating device comprises a fixed bottom plate arranged on the rack and a C-shaped belt wheel ring arranged on the fixed bottom plate; the film cutting machine further comprises a belt and a C-shaped ring driving motor which drive the C-shaped belt wheel ring to rotate circularly, a rotating wheel set which provides a circular rotating track for the C-shaped belt wheel ring, a storage mechanism which is arranged above the C-shaped belt wheel ring and used for storing a wound film, and a film cutting mechanism which is used for cutting the wound film.

Further, the method comprises the following steps: the wire shifting device comprises a wire pressing roller group, a shifting rod, an upper cylinder and a lower cylinder, wherein the wire pressing roller group is connected to the shifting rod, the upper cylinder and the lower cylinder drive the shifting rod to move up and down, and the rodless cylinder drives the shifting rod to move back and forth.

Further, the method comprises the following steps: the labeling device is arranged on the rack through a mounting plate; labeling device is including the vacuum of absorbing the label head of inhaling, inhales the rotatory cylinder of mark head rotation 90 degrees with the vacuum, inhales the lift cylinder that the mark head goes up and down together with the vacuum with the platform, and the mark cylinder of sending to the coil outside is inhaled to the vacuum.

Further, the method comprises the following steps: the slope hopper device is used for temporarily storing and collecting the coated coils and comprises a frame, a slope roller group and a storage bin, wherein the slope roller group is arranged on the frame; the coil falls into the bin along the slope roller group.

The utility model has the advantages that: the utility model integrates the coiling process and the film coating process on the same machine, transfers the coiled coil from the coiling process to the film coating process by adopting the wire holding moving device, and automatically dials out the coated coil to a slope hopper by the wire shifting device after the film coating operation, thereby completing the automatic collection operation; this practical all-in-one by PLC control automation mechanized operation, has reduced operating personnel's intensity of labour, and the lopping, paste mark and the equal completion of diolame, improved production efficiency greatly, reduced manufacturing cost.

Drawings

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

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic view of the structure of the meter counting device of the present invention;

FIG. 4 is a schematic top view of the meter counting device of the present invention;

FIG. 5 is a schematic view of the wire feeding device of the present invention;

FIG. 6 is a schematic view of the wire feeding device of the present invention;

FIG. 7 is a schematic view of the structure of the wire arranging device of the present invention;

FIG. 8 is a schematic structural view of the looping device of the present invention;

fig. 9 is a schematic structural view of the wire holding moving device of the present invention;

FIG. 10 is a schematic view of the labeling device of the present invention;

fig. 11 is a schematic structural view of the film coating device of the present invention;

FIG. 12 is a schematic structural view of the wire-pulling device of the present invention;

fig. 13 is a schematic structural view of the slope hopper device of the present invention;

labeled as: 1. a meter counting device; 11. metering and spraying a ceramic wheel; 12. metering and rubber coating guide wheels; 13. a wire passing guide wheel set; 14. a cable hold-down device; 15. a rotary encoder; 2. a wire feeding device; 21. a wire clamping plate; 22. a wire clamping cylinder; 23. a pilot cylinder; 24. a wire feeding guide pipe; 25. a wire feeding cylinder; 3. a wire arranging device; 31. a wire arranging roller device; 32. a wire arranging screw rod module; 33. the flat cable links the polished rod; 4. a looping device; 41. a looping head turntable; 42. a looping drive motor; 43. a looping head mechanism; 44. a looping head lifting cylinder; 45. a cable cutting device; 46. a rotating speed encoder; 5. a wire holding moving device; 51. a servo motor; 52. an intermediate transmission shaft; 53. a chain; 54. a wire holding cylinder; 55. a wire holding device; 56. clamping the arm-holding mechanism; 57. a drive shaft; 58. a reduction motor; 6. a labeling device; 61. vacuum sucking head; 62. a rotating cylinder; 63. a label feeding cylinder; 64. a platform; 65. mounting a plate; 66. a lifting cylinder; 7. a film wrapping device; 71. fixing the bottom plate; 72. a C-shaped ring drive motor; 73. a belt; 74. a C-shaped pulley ring; 75. a film cutting mechanism; 76. a storage mechanism; 8. a wire-pulling device; 81. a line pressing roller group; 82. a deflector rod; 83. an upper cylinder and a lower cylinder; 84. a rodless cylinder; 9. a ramp hopper device; 91. a frame; 92. a ramp roller set; 93. a storage bin.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and the following detailed description.

As shown in fig. 1 and 2, the full-automatic looping and enveloping all-in-one machine of the embodiment includes a frame, and a meter counting device 1, a wire feeding device 2, a wire arranging device 3, a looping device 4 for winding a cable into a loop, a wire holding moving device 5, a labeling device 6 for adhering a label to one side of a coil, a enveloping device 7 for enveloping the coil, a wire pulling device 8 for pushing out the enveloped coil, and a slope hopper device 9 for temporarily storing and collecting wires pulled out by the wire pulling device 8 are sequentially arranged on the frame; after the cable passes through the metering device 1, the cable is conveyed to the looping device 4 by the cable feeding device 2 and the cable arranging device 3, the looped cable is wound into a loop by the looping device 4, the looped cable is moved to the film coating device 7 from the looping device 4 by the cable holding moving device 5 for film coating, and the coil subjected to film coating packaging is pushed out by the wire shifting device 8. During specific work, the cable firstly passes through the metering device 1, then the wire feeding device 2 carries out wire feeding operation on the cable, the cable reaches the looping device 4 after passing through the wire arranging device 3 to carry out cable looping operation, after the cable looping is completed, the wire holding moving device 5 transfers the coil to the coating device 7, a product label is firstly conveyed to one side of the coil by the labeling device 6, then the coating device 7 carries out film coating operation on the coil, and a finished product after the coating is completed is transferred to the slope hopper device 9 by the wire shifting device 8 to be temporarily stored and collected. The utility model discloses be equipped with PLC controlling means, control the operation of each partial device through PLC controlling means, whole process is full automatic control, has reduced personnel and operating personnel's intensity of labour, designs into the all-in-one with lopping device 4 and diolame device 7, has saved the cost and has improved production efficiency simultaneously.

On the basis, as shown in fig. 3 and 4, the meter counting device 1 comprises a meter counting ceramic spraying wheel 11 and a meter counting rubber coating guide wheel 12, wherein a gap for a cable to pass through is arranged between the meter counting ceramic spraying wheel 11 and the meter counting rubber coating guide wheel 12, and the meter counting device further comprises a wire passing guide wheel group 13 which is arranged on two sides and prevents the cable from swinging up and down, left and right; the meter-counting ceramic spraying wheel 11 is also provided with a cable pressing device 14 for pressing the meter-counting ceramic spraying wheel 11 to the meter-counting rubber coating guide wheel 12; and a rotary encoder 15 is connected behind the metering ceramic spraying wheel 11. When the metering and rubber-coating device works, a cable penetrates through the metering and ceramic spraying wheel 11 and the metering and rubber-coating guide wheel 12, so that the metering and ceramic spraying wheel 11 and the rotary encoder 15 are driven to synchronously rotate by the cable in the movement process, the metering operation is realized, each looped cable has the same number of meters, and the accuracy of the length of the looped cable is ensured; meanwhile, the cable pressing device 14 is arranged, so that a certain pressing force is guaranteed, the cable is prevented from slipping in the close contact of the metering ceramic spraying wheel 11 and the metering rubber coating guide wheel 12, and the metering accuracy is guaranteed.

On the basis, as shown in fig. 5 and 6, the wire feeding device 2 comprises a wire feeding guide pipe 24 for a wire to pass through, and a wire clamping plate 21 is arranged at the tail end of the wire feeding guide pipe 24; the wire feeding mechanism further comprises a wire clamping cylinder 22 for driving the wire clamping plate 21 to clamp the wire, a guide cylinder 23 for guiding the wire feeding guide pipe 24, and a wire feeding guide pipe 24 which is driven to do linear motion and send the wire to the lower part of the looping machine. When the wire feeding operation, the cable passes through the wire feeding guide pipe 24, and the clamp plate 21 clamps the head of the cable tightly, leads the wire feeding guide pipe 24 to just leading the cylinder 23, and the wire feeding cylinder 25 drives the wire feeding guide pipe 24 to move forward until the head of the cable is sent to the lower part of the looping head of the looping device 4, so that the cable can be looped after the looping head is pressed down.

On the basis, as shown in fig. 7, the wire arranging device 3 includes a wire arranging roller device 31 for the cable to pass through, a wire arranging screw module 32 for driving the wire arranging roller device 31 to make vertical reciprocating motion, and a wire arranging linkage polish rod 33 for driving the wire feeding guide tube 24 to synchronously link with the wire arranging roller device 31. When the wire arranging device works, the servo motor 51 of the wire arranging screw rod module 32 drives the wire arranging roller device 31 to move up and down in a reciprocating mode, so that wire arrangement is more regular and accurate, and reversing is correspondingly timely.

On the basis, as shown in fig. 8, the looping device 4 includes a looping head turntable 41 and a looping driving motor 42 for driving the looping head turntable 41 to rotate, and the looping head turntable 41 drives a looping head mechanism 43 to rotate through a coupling; the looping device 4 is further provided with a looping head lifting cylinder 44 for driving the looping head to vertically move, a cable cutting device 45 for cutting off the cable after the looping of the cable is completed, and a rotating speed encoder 46 for monitoring the rotating speed of the looping head turntable 41 in real time. During operation, the looping head mechanism 43 moves downwards to the looping head turntable 41, the looping head turntable 41 rotates synchronously with the looping head mechanism 43 through the coupler, so that the cable is wound on the looping head, after the looping of the cable is completed, the looping head mechanism 43 moves upwards and folds automatically, and the looped cable is withdrawn from the looping head.

On the basis, as shown in fig. 9, the wire holding moving device 5 includes a wire holding device 55 and a servo motor 51 for driving the wire holding device 55 to make linear motion, the servo motor 51 drives the wire holding devices 55 on two sides to make synchronous motion through a middle transmission shaft 52 and a chain 53, the wire holding device 55 includes two clamping arm holding mechanisms 56 and a wire holding cylinder 54 for driving the clamping arm holding mechanisms 56 through gear transmission, and an outer ring of the clamping arm holding mechanism 56 is provided with a synchronous belt; the wire holding device further comprises a speed reducing motor 58, wherein the speed reducing motor 58 drives a synchronous belt of the clamping arm holding mechanism 56 to synchronously rotate through a transmission shaft 57 and a bevel gear set in the wire holding device 55. When the winding machine works, the wire holding cylinders 54 on the two sides enable the left clamping arm holding mechanism 56 and the right clamping arm holding mechanism 56 to work synchronously by driving gear transmission in the wire holding device 55 to clamp a wire coil, then the servo motor 51 with a speed reducer drives the middle transmission shaft 52, two ends of the middle transmission shaft 52 are respectively connected with the chains 53 to drive the wire holding device 55 to do linear motion, so that the moving operation of a coil is realized, when the coil moves to the position of the film wrapping device 7, the speed reducer motor 58 is connected with the transmission shaft 57 through the belt 73, the transmission shaft 57 is connected with the bevel gear group in the wire holding device 55, so that the synchronous belt on the clamping arm holding mechanisms 56 is driven to rotate, and the coil rotates to facilitate the film to be wrapped and wrapped along.

On the basis, as shown in fig. 10, the labeling device 6 is mounted on the frame through a mounting plate 65; the labeling device 6 includes a vacuum label suction head 61 for sucking the label, a rotary cylinder 62 for rotating the vacuum label suction head 61 by 90 degrees, a lifting cylinder 66 for lifting the platform 64 and the vacuum label suction head 61 together, and a label conveying cylinder 63 for conveying the vacuum label suction head 61 to the outside of the coil. During operation, vacuum suction mark head 61 sucks out the label from the label box, lift cylinder 66 rises and will install the label feeding cylinder 63 on platform 64, install the rotary cylinder 62 on the mark feeding cylinder 63 drive end, install vacuum suction mark head 61 on the rotary cylinder 62 drive end and rise together, then rotary cylinder 62 rotates 90 degrees the label again after, send mark cylinder 63 to one side of coil with the label.

On the basis of the above, as shown in fig. 11, the film wrapping device 7 includes a fixed base plate 71 mounted on the frame and a C-shaped pulley ring 74 mounted on the fixed base plate 71; the device also comprises a belt 73 and a C-shaped ring driving motor 72 which drive the C-shaped belt wheel ring 74 to rotate circularly, a rotating wheel set which provides a circular rotating track for the C-shaped belt wheel ring 74, a storage mechanism 76 which is arranged above the C-shaped belt wheel ring 74 and used for storing the wound film, and a film cutting mechanism 75 which is used for cutting the wound film. A wedge groove is arranged on the outer tangent edge of the C-shaped belt wheel ring 74, a guide groove is arranged on the inner tangent edge, the rotating wheel group is divided into an inner guide wheel group and an outer guide wheel group, the width of the inner guide wheel group is consistent with that of the guide groove, the outer guide wheel group is arranged on the outer side of the C-shaped belt wheel ring 74 in an arc shape, and the inner guide wheel group and the outer guide wheel group jointly form a rotating track of the C-shaped belt wheel ring 74; the belt 73 is a multi-wedge belt, the C-shaped ring driving motor 72 drives the multi-wedge belt to further drive the C-shaped belt pulley ring 74 to rotate, and a plurality of film rollers are uniformly arranged on the C-shaped belt pulley ring 74; the wound film is placed on the storage mechanism 76 in a whole roll, one end of the film is clamped to the height of the film roller on the C-shaped belt wheel ring 74 by the film clamping mechanism in the film cutting mechanism 75, the C-shaped belt wheel ring 74 rotates, the film is wound on the film holding roller, the C-shaped belt wheel ring 74 rotates to wind the film on the coil, and when the length of the wound film reaches the set length, the film is cut by the cutting mechanism in the film cutting mechanism 75

On the basis, as shown in fig. 12, the wire-pulling device 8 includes a wire-pressing roller set 81 and a pulling rod 82, wherein the wire-pressing roller set 81 is connected to the pulling rod 82, and further includes an up-down cylinder 83 for driving the pulling rod 82 to move up and down, and further includes a rodless cylinder 84 for driving the pulling rod 82 to move back and forth. During film coating, the wire pressing roller group 81 presses the coil to prevent the coil from being pulled up during film coating, after the film coating is finished, the deflector rod 82 extends into the inner ring of the coil under the action of the upper and lower air cylinders 83, and the rodless air cylinder 84 acts to make the coil be deflected to the slope hopper device 9.

On the basis, as shown in fig. 13, the device further comprises a slope hopper device 9 for temporarily storing and collecting the enveloped coils, wherein the slope hopper device 9 comprises a frame 91, a slope roller group 92 installed on the frame 91 and a bin 93; the coil drops down the ramp roller set 92 into a bin 93. The coils pulled out by the wire pulling device 8 are pulled to the slope roller group 92 of the slope hopper device 9, and the coils directly slide down along the slope roller group 92 into the feeding bin 93 for temporary storage.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. Full-automatic looping and film-enveloping all-in-one machine is characterized in that: the wire winding and looping device is characterized by comprising a rack, wherein a meter counting device, a wire feeding device, a wire arranging device, a looping device for winding a cable into a loop, a wire holding moving device, a film wrapping device for performing film wrapping operation on a coil and a wire pulling device for pushing out the coated coil are sequentially arranged on the rack; after the cable passes through the metering device, the cable is conveyed to the looping device by the cable feeding device and the cable arranging device, the looping device winds the cable into a loop, the looped cable is moved to the film coating device from the looping device by the cable holding moving device to carry out film coating, and the coil after film coating is pushed out by the cable pulling device.

2. The full-automatic looping and enveloping all-in-one machine as claimed in claim 1, wherein: the meter counting device comprises a meter counting ceramic spraying wheel and a meter counting rubber coating guide wheel, a gap for a cable to pass through is formed between the meter counting ceramic spraying wheel and the meter counting rubber coating guide wheel, and the meter counting device also comprises a wire passing guide wheel group which is arranged on two sides and used for preventing the cable from swinging up and down, left and right; the meter-counting ceramic spraying wheel is also provided with a cable pressing device for pressing the meter-counting ceramic spraying wheel to the meter-counting rubber coating guide wheel; and the back of the meter-counting ceramic spraying wheel is connected with a rotary encoder.

3. The full-automatic looping and enveloping all-in-one machine as claimed in claim 1, wherein: the wire feeding device comprises a wire feeding guide pipe for a wire to pass through, and a wire clamping plate is arranged at the tail end of the wire feeding guide pipe; the wire feeding device also comprises a wire clamping cylinder for driving the wire clamping plate to clamp the wire, a guide cylinder for guiding the wire feeding guide pipe, and a wire feeding guide pipe which is driven to do linear motion and send the wire to the lower part of the looping machine.

4. The full-automatic looping and enveloping all-in-one machine as claimed in claim 3, wherein: the wire arranging device comprises a wire arranging roller device for a wire to pass through, a wire arranging lead screw module for driving the wire arranging roller device to do vertical reciprocating motion, and a wire arranging linkage polish rod for driving the wire feeding guide pipe to synchronously link with the wire arranging roller device.

5. The full-automatic looping and enveloping all-in-one machine as claimed in claim 1, wherein: the looping device comprises a looping head turntable and a looping driving motor for driving the looping head turntable to rotate, and the looping head turntable drives the looping head mechanism to rotate through a coupler; the coiling device is also provided with a coiling head lifting cylinder for driving the coiling head to do vertical motion, a cable cutting device for cutting off the cable after the cable is coiled, and a rotating speed encoder for monitoring the rotating speed of the coiling head turntable in real time.

6. The full-automatic looping and enveloping all-in-one machine as claimed in claim 1, wherein: the wire holding moving device comprises a wire holding device and a servo motor, wherein the wire holding device and the servo motor are arranged oppositely and drive the wire holding device to do linear motion; the synchronous belt synchronous rotation of the clamping arm-embracing mechanism is driven by the speed reducing motor through the transmission shaft and a bevel gear group in the thread-embracing device to clamp the synchronous belt of the arm-embracing mechanism.

7. The full-automatic looping and enveloping all-in-one machine as claimed in claim 1, wherein: the film coating device comprises a fixed bottom plate arranged on the rack and a C-shaped belt wheel ring arranged on the fixed bottom plate; the film cutting machine further comprises a belt and a C-shaped ring driving motor which drive the C-shaped belt wheel ring to rotate circularly, a rotating wheel set which provides a circular rotating track for the C-shaped belt wheel ring, a storage mechanism which is arranged above the C-shaped belt wheel ring and used for storing a wound film, and a film cutting mechanism which is used for cutting the wound film.

8. The full-automatic looping and enveloping all-in-one machine as claimed in claim 1, wherein: the wire shifting device comprises a wire pressing roller group, a shifting rod, an upper cylinder and a lower cylinder, wherein the wire pressing roller group is connected to the shifting rod, the upper cylinder and the lower cylinder drive the shifting rod to move up and down, and the rodless cylinder drives the shifting rod to move back and forth.

9. The full-automatic looping and enveloping all-in-one machine as claimed in claim 1, wherein: the labeling device is arranged on the rack through a mounting plate; labeling device is including the vacuum of absorbing the label head of inhaling, inhales the rotatory cylinder of mark head rotation 90 degrees with the vacuum, inhales the lift cylinder that the mark head goes up and down together with the vacuum with the platform, and the mark cylinder of sending to the coil outside is inhaled to the vacuum.

10. The full-automatic looping and enveloping all-in-one machine as claimed in claim 1, wherein: the slope hopper device is used for temporarily storing and collecting the coated coils and comprises a frame, a slope roller group and a storage bin, wherein the slope roller group is arranged on the frame; the coil falls into the bin along the slope roller group.

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