CN218633107U - A high-efficient dust collecting system for skinning - Google Patents

Abstract

The utility model provides a high-efficient dust pelletizing system for skinning, its includes a casing, one set up in the pivot of casing one side, one set up in the cutter unit of the one end of pivot, one set up in the first foam-rubber cushion of the other end of pivot, and one set up in the second foam-rubber cushion of the one end of cutter unit. A round hole is formed in one end of the rotating shaft, and the first sponge cushion is placed in the round hole. A first gap is formed in the first sponge pad, a second gap is formed in the second sponge pad, and the width of the first gap and the width of the second gap are both smaller than the circumferential diameter of the wire. The efficient dust collection system for peeling ensures the neatness in the peeling process by wiping off dust outside the wire through the first sponge mat. The second foam-rubber cushion can get rid of remaining piece dust on the wire after skinning, guarantees the clean and tidy of operational environment, has also avoided piece dust to cause the injury to the staff.

Description

A high-efficient dust collecting system for skinning

Technical Field

The utility model relates to a wire production and processing field especially relates to a high-efficient dust collecting system for skin.

Background

The lead is widely applied to the connection of electronic devices and is generally made of copper or aluminum and the like which are wrapped by an insulating wrapper. In order to achieve the connection, the insulating coating needs to be partially stripped at the end of the wire. And to the remaining piece dust after the wire is peeled off, current wire peeler can't directly clear away, needs later stage manual work to get rid of the arrangement. For example, chinese patent CN201420022146.1 discloses a peeling machine for insulating layers of hard metal wires, which comprises a base, wherein a guide holder is arranged on the base, a guide sleeve for accommodating hard metal wires is arranged in the guide holder, and a push rod capable of moving along the guide sleeve is arranged in the guide sleeve; the front end of the guide seat is hinged with a peeling mechanism, and a pair of blades of the peeling mechanism form a peeling jaw at an outlet of the guide sleeve; the push rod pushes the hard metal wire in the guide sleeve to pass through the peeling jaw, and the peeling jaw strips the insulating layer of the hard metal wire. This peeler can't directly clear away the wire and peel off the remaining piece dust in back, needs the manual work to get rid of the arrangement, wastes time and energy, and the tiny injury that causes the staff easily of piece dust.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a high-efficient dust pelletizing system for skinning to solve above-mentioned problem.

The utility model provides a high-efficient dust pelletizing system for skinning, its includes a casing, one set up in the pivot of casing one side, one set up in the cutter unit of the one end of pivot, one set up in the first foam-rubber cushion of the other end of pivot, and one set up in the second foam-rubber cushion of the one end of cutter unit. A round hole is formed in one end of the rotating shaft, and the first sponge cushion is placed in the round hole. A square hole is formed in the position, corresponding to the second spongy cushion, in the shell, and the second spongy cushion is placed in the square hole. A first gap is formed in the first sponge pad, a second gap is formed in the second sponge pad, and the width of the first gap and the width of the second gap are both smaller than the circumferential diameter of the wire.

Furthermore, the whole body of the shell is a cuboid, and two ends of the shell are respectively provided with a through hole.

Further, the pivot still includes a shaft body, one set up in the belt pulley of the one end of shaft body, and one set up in the connector of the other end of shaft body.

Furthermore, one end of the connector, which faces the cutter group, is provided with a connecting hole, and the side wall of the connector is provided with a plurality of screw holes at intervals.

Further, the rotating shaft and the cutter set are provided with a channel capable of enabling a lead to pass through along the central axial direction.

Further, the first gap corresponds to a channel inside the rotating shaft.

Further, the second void corresponds to a channel inside the cutter set.

Furthermore, one end of the cutter group, facing the second spongy cushion, is provided with three cutters, and the cutter heads of the three cutters face the axis of the cutter group.

Furthermore, the efficient dust collection system for peeling also comprises a blocking block arranged between the second sponge cushion and the cutter set, and an air pipe is connected to the outside of the blocking block.

Compared with the prior art, the utility model provides a high-efficient dust collecting system for skinning passes through the outside dust of wire is cleaned off to first foam-rubber cushion, guarantees the clean and tidy degree of the in-process of skinning, ensures the operation precision. The second foam-rubber cushion can get rid of remaining piece dust on the wire after skinning, guarantees the clean and tidy of operational environment, has also avoided piece dust to cause the injury to the staff.

Drawings

Fig. 1 is a schematic structural view of the high-efficiency dust collection system for peeling provided by the present invention.

Fig. 2 is a schematic view illustrating an internal structure of the high efficiency dust suction system for peeling of fig. 1.

FIG. 3 is a schematic view of a first sponge pad provided in the high efficiency suction system for peeling of FIG. 1.

FIG. 4 is a schematic view of a second sponge pad provided in the high efficiency suction system for peeling of FIG. 1.

Detailed Description

Specific examples of the present invention will be described in further detail below. It should be understood that the description herein of embodiments of the invention is not intended to limit the scope of the invention.

As shown in fig. 1, it is a schematic structural diagram of the high-efficiency dust suction system for peeling provided by the present invention. The efficient dust collection system for peeling comprises a shell 10, a rotating shaft 20 arranged on one side of the shell 10, a cutter group 30 arranged at one end of the rotating shaft 20, a first spongy cushion 40 arranged at the other end of the rotating shaft 20, a second spongy cushion 50 arranged at one end of the cutter group 30, and a blocking block 60 arranged between the second spongy cushion 50 and the cutter group 30. It is conceivable that the efficient dust suction system for peeling also comprises some other functional modules, such as a driving motor module, a screw module, etc., which are well known to those skilled in the art and will not be described in detail herein.

The casing 10 is a cuboid, two through holes are formed at two ends of the casing 10, and the two through holes are used for penetrating the rotating shaft 20 and the conducting wire.

Please refer to fig. 2 to fig. 4. The rotating shaft 20 includes a shaft body 21, a belt pulley 22 disposed at one end of the shaft body 21, and a connector 23 disposed at the other end of the shaft body 21.

The belt pulley 22 is connected to the driving motor module through a belt, so that the rotating shaft 20 can be driven by the driving motor module to rotate.

One end of the connector 23 facing the cutter set 30 is provided with a connecting hole. The side wall of the connector 23 is provided with a plurality of screw holes 24 at intervals, and after some of the cutter groups 30 are inserted into the connecting holes, the screw modules are matched with the screw holes 24 to fix some of the cutter groups 30.

One end of the rotating shaft 20, which is far away from the cutter set 30, is provided with a round hole 25, and the round hole 25 is used for placing a first spongy cushion 40, so that a lead can pass through the first spongy cushion 40. It is contemplated that the shaft 20 and the cutter set 30 have a central axial passage through which a wire can pass. The first foam-rubber cushion 40 is positioned at the inlet end of the passage.

The end, facing the second spongy cushion 50, of the cutter group 30 is provided with three cutters 31, and the cutter heads of the three cutters 31 all face the axis of the cutter group 30, so that the wire penetrates through a channel in the cutter group 30 and passes through the centers of the three cutters 31, and the rotating shaft 20 drives the cutter group 30 to rotate, so that the three cutters 31 perform peeling operation on the wire. The cutter set 30 is prior art, and the specific operation principle thereof will not be described in detail here.

The first sponge cushion 40 is provided with a first gap 41, the first gap 41 corresponds to the passage inside the rotating shaft 20, and the first gap 41 is used for a lead to pass through. The width of the first gap 41 is smaller than the circumferential diameter of the wire, so that when the wire penetrates through the first gap 41, the wire is fully extruded with the inner side wall of the first gap 41, dust on the wire is wiped off, the neatness of the wire in the peeling process is ensured, and the operation precision is ensured.

The circumferential outer side wall of the first spongy cushion 40 is in clearance fit with the circumferential inner side wall of the round hole 25, so that the first spongy cushion 40 is fixed, and the first spongy cushion is prevented from being thrown out when the rotating shaft 20 rotates.

A square hole 11 is formed in the housing 10 at a position corresponding to the second foam pad 50, and the square hole 11 is used for placing the second foam pad 50, so as to fix the second foam pad 50.

The second sponge cushion 50 is provided with a second gap 51, the second gap 51 corresponds to the passage inside the cutter group 30, and the second gap 51 is used for passing through a wire. The width of the second gap 51 is smaller than the circumferential diameter of the wire. The wire passes through the cutter set 30 and is stripped by three cutters 31, so that some chips may remain on the wire to affect the subsequent operation. And wear to establish when the wire during second space 51, the wire with the inside wall in second space 51 fully extrudees to drop the piece dust on the wire, guarantee the clean and tidy of operation environment, also avoided the piece dust to cause the injury to the staff.

The external connection of sprue 60 has trachea 61, and the piece dust of getting rid of on the wire like this can blow off from the downthehole of sprue 60 one side to carry out centralized processing.

Compared with the prior art, the utility model provides a high-efficient dust collecting system for skinning passes through first foam-rubber cushion 40 cleans away the outside dust of wire, guarantees the clean and tidy degree of the in-process of skinning, ensures the operation precision. The second foam-rubber cushion 50 can remove residual scrap dust on the peeled wire, so that the clean and tidy operation environment is ensured, and the injury of the scrap dust to workers is also avoided.

The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.

Claims (9)

1. The utility model provides a high-efficient dust pelletizing system for skinning which characterized in that: the efficient dust collection system for peeling comprises a shell, a rotating shaft arranged on one side of the shell, a cutter group arranged at one end of the rotating shaft, a first sponge cushion arranged at the other end of the rotating shaft, and a second sponge cushion arranged at one end of the cutter group, wherein a round hole is formed in one end of the rotating shaft, the first sponge cushion is arranged in the round hole, the inside of the shell corresponds to the position of the second sponge cushion, a square hole is formed in the position of the second sponge cushion, the second sponge cushion is arranged in the square hole, a first gap is formed in the first sponge cushion, a second gap is formed in the second sponge cushion, and the width of the first gap and the width of the second gap are smaller than the circumferential diameter of a wire.

2. The high efficiency dust extraction system for peeling as set forth in claim 1, wherein: the whole casing is the cuboid, and the both ends of this casing have a through-hole respectively.

3. The high efficiency dust extraction system for peeling as set forth in claim 1, wherein: the pivot still includes a shaft body, one set up in the belt pulley of the one end of shaft body, and one set up in the connector of the other end of shaft body.

4. The efficient dust suction system for peeling as set forth in claim 3, wherein: the connector is towards the one end of cutter unit has seted up a connecting hole, and the interval is equipped with a plurality of screw on the lateral wall of this connector.

5. The high efficiency dust extraction system for peeling as set forth in claim 1, wherein: the rotating shaft and the cutter group are provided with a channel capable of enabling a lead to pass through along the central axial direction.

6. The efficient dust suction system for peeling as set forth in claim 5, wherein: the first gap corresponds to a channel inside the rotating shaft.

7. The efficient dust suction system for peeling as set forth in claim 5, wherein: the second void corresponds to a channel within the cutter set.

8. The high efficiency dust extraction system for peeling as set forth in claim 1, wherein: and one end of the cutter group, which faces the second spongy cushion, is provided with three cutters, and the cutter heads of the three cutters face the axis of the cutter group.

9. The high efficiency dust extraction system for peeling as set forth in claim 1, wherein: the efficient dust collection system for peeling also comprises a blocking block arranged between the second sponge cushion and the cutter set, and an air pipe is connected to the outside of the blocking block.

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