CN210504997U - Wire cutting and winding structure and wire cutting and winding device - Google Patents

Abstract

The utility model provides a wire cutting wire winding structure, including the mechanism of going to the production line that is used for going to the production line, be used for carrying out the winding mechanism of winding with the line and be used for carrying out tangent line mechanism of tangent line after the winding is accomplished, a serial communication port, the mechanism of going to the production line is including being used for supplying the inner skleeve that the line penetrated, the mechanism of going to the production line including setting up at the last cutter of inner skleeve opposite side, be connected with last cutter and be used for the flexible last cutter driver of cutter, be in the cutter below and with last cutter complex cutter base and be used for driving the cutter base driver that the cutter base removed. Compared with the prior art, according to the structure, when the thread is fed, the outer sleeve is translated and sleeved on the inner sleeve, so that the thread can conveniently pass through the inner sleeve, the thread is led into the winding mechanism to be wound, when the thread is cut, the outer sleeve is separated from the inner sleeve, the cutter is inserted into the cutter base and cut off along the tail end of the outer sleeve, and the thread is prevented from deforming; and in the winding process, the wire feeding mechanism moves back and forth, so that the winding is smooth, and the integral structure is simple and convenient.

Description

Wire cutting and winding structure and wire cutting and winding device

Technical Field

The utility model relates to a coil winding field, especially a wire cutting wire winding structure and wire cutting wire winding device.

Background

The existing winding device adopts the cutter to cut off, but in the cutting process, the cutter pushes the wire down to make the tension of the wire become large, the wire can deform, and after the wire is cut off, the cutting part of the wire needs to be found again with great effort, so that the wire is pulled out again for winding next time. In addition, in the existing winding device, the winding position is not changed in the winding process, so that the phenomenon of uneven winding is easy to occur in the winding process, and a coil is not easy to take down after the winding is finished.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a wire cutting wire winding structure, the line of going up is acted as go-between conveniently, and simultaneously when the tangent line, can not make the line produce and warp, overall structure is simple.

The utility model adopts the technical proposal that:

the utility model provides a wire cutting wire winding structure, includes the mechanism of going to the throne that is used for going to the standard grade, is used for carrying out the winding mechanism of winding with the line and is used for carrying out tangent line mechanism after the winding is accomplished, go to the throne mechanism including being used for supplying the inner skleeve that the line penetrated, the line cutting mechanism including set up including the last cutter of sleeve opposite side, be connected with last cutter driver that the cutter is flexible on the drive, be in the cutter below and with last cutter complex cutter base and be used for driving the cutter base driver that the cutter base removed, be equipped with the through-hole that supplies the line to pass in the cutter base, the one end fixed mounting of through-hole has the outer sleeve that corresponds to be used for the cover on the inner skleeve when the threading process with the inner skleeve, the.

Preferably, the cutter base driver is connected with the cutter base and the upper cutter driver at the same time through the connecting plate, and the upper cutter driver is positioned above the cutter base.

Preferably, a lower cutter matched with the upper cutter when the upper cutter extends into the opening is arranged in the cutter base, and the lower cutter is positioned below the tail end of the outer sleeve.

Preferably, the line feeding mechanism further comprises a line pressing roller group which is arranged on one side of the inner sleeve and used for preventing the line from retracting after cutting the line, a line feeding sleeve is arranged on one side of the line pressing roller group, and a pair of guide rollers is further arranged at the front end of the line feeding sleeve.

Preferably, the line feeding mechanism and the line cutting mechanism are installed on the same vertical frame, a vertical frame driving mechanism used for pushing the vertical frame to move back and forth to enable the line wound on the winding mechanism to be wound smoothly is further arranged below the vertical frame, and the vertical frame driving mechanism comprises a sliding block arranged at the bottom of the vertical frame, a sliding rail matched with the sliding block and a sliding block driver used for driving the sliding block at the bottom of the vertical frame to move back and forth along the sliding rail.

More preferably, the stand is further provided with at least one wire guide roller at the other side of the upper cutter for guiding the wire into the wire winding mechanism.

Preferably, the mechanism of winding includes the initiative carousel, is used for driving initiative carousel pivoted rotation driver, driven turntable and is used for driving driven turntable translation to the translation driver that is close to the initiative carousel, still be equipped with on the initiative carousel and be used for supplying the winding wire sleeve of line, be equipped with on the driven turntable and be used for inserting the center pin in the winding wire sleeve when driven turntable is close to the initiative carousel.

More preferably, the winding sleeve is mounted on the driving turntable through a hinge group, the winding sleeve includes a fixed arc-shaped cylinder and a movable arc-shaped cylinder, the hinge group includes a fixed hinge and a movable hinge hinged with the fixed hinge, the fixed arc-shaped cylinder is fixedly mounted on the driving turntable through the fixed hinge, and the movable arc-shaped cylinder is mounted on the movable hinge.

The utility model also provides a wire cutting winding device, including casing and wire cutting winding structure, outside mechanism, winding mechanism and tangent mechanism all were in the casing, on mechanism and tangent mechanism installation grudging post, grudging post actuating mechanism installed in the casing, still was equipped with the master controller that is used for controlling mechanism, winding mechanism and tangent mechanism on the casing.

Preferably, a control display screen connected with the master controller is further arranged on the shell.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model provides a wire cutting and winding structure, when the wire is on line, the translational outer sleeve is sleeved on the inner sleeve, so that the wire can pass through the translational outer sleeve and is led into the winding mechanism for winding, when the wire is cut, the outer sleeve is separated from the inner sleeve, and the cutter is inserted into the cutter base and is cut off along the tail end of the outer sleeve, thereby avoiding the wire from deforming; when winding, the driving turntable is matched with the driven turntable, and the wire feeding mechanism moves back and forth, so that the winding is smooth; when the winding is finished, the winding sleeve can be loosened to take out the wound coil, and the whole structure is simple and convenient.

Drawings

Fig. 1 is a first schematic view of a wire cutting and winding structure provided by the present invention;

fig. 2 is a second schematic view of a wire cutting and winding structure provided by the present invention;

fig. 3 is a third schematic view of a wire cutting and winding structure provided by the present invention;

fig. 4 is an exploded view of the thread winding mechanism and the thread cutting mechanism in the thread cutting and winding structure according to the present invention;

fig. 5 is a cross-sectional view of a cutter base in the wire cutting and winding structure provided by the present invention;

fig. 6 is a schematic view of a winding mechanism in a wire cutting and winding structure according to the present invention;

fig. 7 is an exploded view of a winding mechanism in a wire cutting and winding structure provided by the present invention;

fig. 8 is a schematic view of a wire cutting and winding device provided by the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Fig. 1 to 7 illustrate a preferred embodiment of a wire cutting and winding structure according to the present invention. As shown in fig. 1 to 7, the wire cutting and winding structure 100 includes a wire feeding mechanism 10 for feeding a wire, a wire winding mechanism 20 for winding the wire, and a wire cutting mechanism 30 for cutting the wire after the wire is wound, the wire feeding mechanism 10 includes an inner sleeve 11 for threading the wire, the wire cutting mechanism 30 includes an upper cutter 31 disposed at the other side of the inner sleeve 11, an upper cutter driver 32 for driving the upper cutter to extend and retract, a cutter base 33 disposed below the upper cutter 31 and engaged with the upper cutter, and a cutter base driver 34 for driving the cutter base to move, a through hole 331 for passing the wire is disposed in the cutter base 33, an outer sleeve 35 corresponding to the inner sleeve 11 and disposed on the inner sleeve 11 during the threading process is fixedly mounted at one end of the through hole 331, an opening 332 for the upper cutter to extend into the outer sleeve to cut the wire along the end of the outer sleeve is further disposed above the cutter base 33, in the process of threading, when threading the thread into the inner sleeve 11, the cutter base driver 34 drives the cutter base 33 to move towards the direction close to the inner sleeve 11, the outer sleeve 35 is sleeved on the inner sleeve 11 until the outlet end of the inner sleeve 11 is level with the outlet end of the through hole of the cutter base 33, when the thread is pulled out from the inner sleeve 11, namely the thread passes through the through holes 331 of the outer sleeve 35 and the cutter base 33, the thread is pulled into the winding mechanism 20 for winding, the cutter base driver 34 drives the cutter base 33 to move towards the direction far away from the inner sleeve 11 until the outer sleeve 35 is separated from the inner sleeve 11, after the winding is finished, the upper cutter driver 32 drives the upper cutter 31 to extend into the opening 332 for cutting, and after the cutting is finished, the cutter base 33 can be driven to move towards the direction close to the inner sleeve 11, the outer sleeve 35 is sleeved on the inner sleeve 11 until the outlet end, the wire originally in the cutter base 33 is exposed after cutting, and the wire is conveniently pulled out again for winding. It is noted that the upper cutter 31 may cut along the outlet end of the outer sleeve 35 when cutting a line.

The cutter base driver 34 is connected with the cutter base 33 and the upper cutter driver 32 through the connecting plate 3401, the cutter base driver 34 drives the connecting plate 3401 to move, the connecting plate 3401 simultaneously drives the cutter base 33 and the upper cutter driver 32 to move, when the thread is fed, the cutter base driver 34 drives the connecting plate 3401 to move, the connecting plate 3401 drives the cutter base 33 and the upper cutter driver 32 to move towards the direction close to the inner sleeve 11, the outer sleeve 35 is sleeved on the inner sleeve 11 until the outlet end of the inner sleeve 11 is flush with the outlet end of the through hole of the cutter base 33, the thread is pulled out of the inner sleeve 11 until the thread is pulled into the winding mechanism 20 for winding, the cutter base driver 34 and the connecting plate 3401 move, the connecting plate 3401 drives the cutter base 33 and the upper cutter driver 32 to move towards the direction far away from the inner sleeve 11, and the outer sleeve 35 is gradually separated from the inner sleeve 11 until the outer sleeve 35 is completely separated from the inner; after the winding is finished, the upper cutter driver 32 drives the upper cutter 31 to extend into the opening 332 for cutting, after the cutting is finished, the cutter base driver 34 drives the connecting plate 3401, the connecting plate 3401 drives the cutter base 33 and the upper cutter driver 32 to move towards the direction close to the inner sleeve 11, the outer sleeve 35 is sleeved on the inner sleeve 11, and the wire originally in the cutter base 33 is exposed after being cut off, so that the wire is conveniently pulled out again for winding. The cutter base drive 34 and the upper cutter drive 32 are both preferably pneumatic cylinders.

In order to facilitate cutting, a lower cutter 36 is arranged in the cutter base 33 and is used for being matched with the upper cutter when the upper cutter extends into the opening, the lower cutter 36 is arranged below the tail end of the outer sleeve 35, when cutting is carried out, the upper cutter 31 extends into the opening 332, and the upper cutter 31 is matched with the lower cutter 36 to cut off the line in the through hole 331.

The wire feeding mechanism 10 further comprises a wire pressing roller group 12 which is arranged on one side of the inner sleeve 11 and used for preventing the wire from retracting after the wire is cut, and the wire is pressed tightly after the wire is cut so as to prevent the wire from retracting; the line feeding assembly 10 further comprises a line feeding sleeve 13 located on one side of the line pressing roller set, a pair of guide rollers 14 is further arranged at the front end of the line feeding sleeve 13, a line enters the line feeding sleeve 13 through the guide rollers 14, then enters the line pressing roller set 12 from the line feeding sleeve 13, passes through the line pressing roller set 12, then enters the inner sleeve 11 until being pulled out from the outlet end of the inner sleeve 11, and is led into the line winding mechanism 20 for winding.

The line feeding mechanism 10 and the line cutting mechanism 30 are installed on the same vertical frame 40, the vertical frame 40 below is further provided with a vertical frame driving mechanism 50 used for pushing the vertical frame 40 to move back and forth to enable the line wound on the winding mechanism 20 to be wound smoothly, the vertical frame driving mechanism 50 comprises a sliding block 51 arranged at the bottom of the vertical frame, a sliding rail 52 matched with the sliding block and a sliding block driver 53 used for driving the sliding block at the bottom of the vertical frame to move back and forth along the sliding rail, when the winding mechanism 20 starts winding, the sliding block driver 53 drives the sliding block 51 to move back and forth along the sliding rail 52 to drive the vertical frame 40 to move back and forth along the sliding rail 52, so when the line feeding mechanism 10 feeds the line to the winding mechanism 20, the line moves left and right relative to the winding mechanism, and the line on the winding mechanism. When the device is installed, the guide roller 14, the inner sleeve 11 and the wire inlet sleeve 13 are all installed on the outer side surface of the stand 40 through the fixed seat, and the cutter base driver 34 and the upper cutter driver 32 are also all located on the outer side surface of the stand 40.

The vertical frame 40 is also provided with at least one wire guide roller 41 which is arranged at the other side of the cutter and used for guiding the wire into the winding mechanism, when the wire is pulled out from the inner sleeve 11, the wire passes through the wire guide roller 41 on the vertical frame 40 and then enters the winding mechanism 20, and the wire passes through the wire guide roller 41 to keep the wire in a tight state, so that the wire can be continuously transmitted, the winding is also convenient to be continuous, and a knotting state can not occur. In a preferred embodiment, the stand 40 is provided with 2 wire rollers 41.

The winding mechanism 20 comprises a driving turntable 21, a rotating driver 22 for driving the driving turntable to rotate, a driven turntable 23 and a translation driver 24 for driving the driven turntable to translate to be close to the driving turntable, the driving turntable 21 is further provided with a winding sleeve 25 for winding the wire, the driven turntable 23 is provided with a central shaft 26 for inserting into the winding sleeve when the driven turntable is close to the driving turntable, when the wire is to be wound, the translation driver 24 drives the driven turntable 23 to be close to the driving turntable 21, the central shaft 26 on the driven turntable 23 is inserted into the winding sleeve 25, the wire is manually wound on the winding sleeve 25 through the wire on the wire feeding mechanism 10, the rotating driver 22 drives the driving turntable 21 to rotate, the winding sleeve 25 rotates to pull the wire out of the inner sleeve 11, the wire is wound on the winding sleeve 25, and when the stand driving mechanism 50 drives the stand 40 to reciprocate back and forth, the wire is wound flat on the winding sleeve 25.

The winding sleeve 25 is mounted on the driving turntable 21 through a hinge group 27, the winding sleeve 25 comprises a fixed arc-shaped cylinder 251 and a movable arc-shaped cylinder 252, the hinge group 27 comprises a fixed hinge 271 and a movable hinge 272 hinged with the fixed hinge 271, the fixed arc-shaped cylinder 251 is fixedly mounted on the driving turntable 21 through the fixed hinge 271, and the movable arc-shaped cylinder 252 is mounted on the movable hinge 272, so that after a wire is wound on the winding sleeve 25, the translational driver 24 drives the driven turntable 23 to move in a direction away from the driving turntable 21 until the central shaft 26 on the driven turntable 23 is separated from the winding sleeve 25, the movable arc-shaped cylinder 252 is pulled off, the movable hinge 272 rotates in the direction of the fixed hinge 271, the movable arc-shaped cylinder 252 is close to the fixed sleeve 251, the diameter of the whole winding sleeve 25 is reduced, and the wound coil is conveniently taken off from the winding sleeve 25. The translation driver 24 is mounted on the outside of the driven turntable 23 by a bracket 60.

The specific working process of the wire cutting and winding structure is as follows: 1) the thread sequentially passes through a guide roller 14, a thread inlet sleeve 13 and a thread pressing roller group 12 and enters an inner sleeve 11; 2) the cutter base driver 34 drives the connecting plate 3401, the connecting plate 3401 drives the cutter base 33 and the upper cutter driver 32 to move towards the direction close to the inner sleeve 11, and the outer sleeve 35 is sleeved on the inner sleeve 11 until the outlet end of the inner sleeve 11 is flush with the outlet end of the through hole of the cutter base 33; 3) pulling the wire out of the inner sleeve 11, through the two wire rollers 41, and into the wire winding mechanism 20; 4) when preparing to wind, the translation driver 24 drives the driven turntable 23 to approach the driving turntable 21, and the central shaft 26 on the driven turntable 23 is inserted into the winding sleeve 25; 5) Firstly winding the end part of the drawn wire on the winding sleeve 25, driving the driving turntable 21 to rotate by the rotation driver 22, rotating the winding sleeve 25, drawing the wire out of the inner sleeve 11, winding the wire on the winding sleeve 25, and winding the wire on the winding sleeve 25 flatly when the stand driving mechanism 50 drives the stand 40 to reciprocate back and forth; 6) after the wire is wound on the winding sleeve 25, the upper cutter driver 32 drives the upper cutter 31 to extend into the opening 332 for cutting, after the wire is cut, the cutter base driver 34 drives the connecting plate 3401, the connecting plate 3401 drives the cutter base 33 and the upper cutter driver 32 to move towards the direction close to the inner sleeve 11, the outer sleeve 35 is sleeved on the inner sleeve 11, and the wire which is originally positioned in the cutter base 33 after being cut off is exposed, so that the wire is conveniently pulled out again for winding; 7) after the wire is cut off, the translation driver 24 drives the driven turntable 23 to move towards the direction away from the driving turntable 21 until the central shaft 26 on the driven turntable 23 is separated from the winding sleeve 25, the movable arc-shaped cylinder 252 is pulled off, so that the movable hinge 272 rotates towards the fixed hinge 271, the movable arc-shaped cylinder 252 is close to the fixed sleeve 251, the diameter of the whole winding sleeve 25 is reduced, and the coil which is wound is conveniently taken down from the winding sleeve 25.

As shown in fig. 8, the utility model provides a cut-off line winding device, including casing 200 and cut-off line winding structure 100, outside mechanism 10, winding mechanism 20 and the tangent mechanism 30 of going up the line were all in casing 200, on mechanism and the tangent mechanism installation grudging post 40 of going up the line, grudging post actuating mechanism 50 was installed in casing 200, still was equipped with the master controller that is used for controlling mechanism, winding mechanism and tangent mechanism of going up the line in casing 200, still be equipped with the control display screen 201 of being connected with the master controller on casing 200, when using, accessible control display screen 201 control mechanism 10, winding mechanism 20, tangent mechanism 30 and grudging post actuating mechanism 50's start-up, simple and convenient.

To sum up, the technical scheme of the utility model can be fully effectual the above-mentioned utility model purpose of realization, just the utility model discloses a structure and functional principle all obtain abundant verification in the embodiment, can reach anticipated efficiency and purpose, do not deviating from the utility model discloses a under the prerequisite of principle and essence, can make multiple change or modification to the embodiment of utility model. Therefore, the present invention includes all the alternative contents within the scope mentioned in the claims, and all the equivalent changes made within the claims of the present invention are included in the claims of the present application.

Claims (10)

1. The utility model provides a wire cutting wire winding structure, is used for carrying out the winding mechanism that twines with the line and is used for carrying out tangent line mechanism after the winding is accomplished including the mechanism of going to the standard grade that is used for going to the standard grade, its characterized in that, it includes the inner skleeve that is used for supplying the line to penetrate to go up the mechanism of going to the standard grade, tangent line mechanism is connected including the last cutter that sets up at the inner skleeve opposite side, with last cutter and is used for driving the flexible last cutter driver of cutter, be in last cutter below and with last cutter complex cutter base and be used for driving the cutter base driver that the cutter base removed, be equipped with in the cutter base and correspond the tangent line that is used for the cover on the inner skleeve when threading process with the inner sklee.

2. The wire cutting and winding structure according to claim 1, wherein: the cutter base driver is connected with the cutter base and the upper cutter driver through the connecting plate, and the upper cutter driver is positioned above the cutter base.

3. The wire cutting and winding structure according to claim 1, wherein: and a lower cutter which is matched with the upper cutter when the upper cutter extends into the opening is arranged in the cutter base, and the lower cutter is positioned below the tail end of the outer sleeve.

4. The wire cutting and winding structure according to claim 1, wherein: the line feeding mechanism further comprises a line pressing roller group which is arranged on one side of the inner sleeve and used for preventing the line from retracting after cutting, a line feeding sleeve is arranged on one side of the line pressing roller group, and a pair of guide rollers is further arranged at the front end of the line feeding sleeve.

5. The wire cutting and winding structure according to claim 1, wherein: the wire feeding mechanism and the wire cutting mechanism are installed on the same vertical frame, a vertical frame driving mechanism used for pushing the vertical frame to move back and forth to enable a wire wound on the winding mechanism to be wound smoothly is further arranged below the vertical frame, and the vertical frame driving mechanism comprises a sliding block arranged at the bottom of the vertical frame, a sliding rail matched with the sliding block and a sliding block driver used for driving the sliding block at the bottom of the vertical frame to move back and forth along the sliding rail.

6. The wire cutting and winding structure according to claim 5, wherein: the stand is also provided with at least one wire guide roller which is arranged at the other side of the upper cutter and used for guiding the wire into the winding mechanism.

7. The wire cutting and winding structure according to claim 1, wherein: wire winding mechanism includes the initiative carousel, is used for driving initiative carousel pivoted rotation driver, driven turntable and is used for driving driven turntable translation to the translation driver that is close to the initiative carousel, still be equipped with on the initiative carousel and be used for supplying the winding wire sleeve of line, be equipped with on the driven turntable and be used for inserting the center pin in the wire sleeve when driven turntable is close to the initiative carousel.

8. The wire cutting and winding structure according to claim 7, wherein: the winding sleeve is installed on the driving turntable through a hinge group, the winding sleeve comprises a fixed arc-shaped cylinder and a movable arc-shaped cylinder, the hinge group comprises a fixed hinge and a movable hinge hinged with the fixed hinge, the fixed arc-shaped cylinder is fixedly installed on the driving turntable through the fixed hinge, and the movable arc-shaped cylinder is installed on the movable hinge.

9. A wire cutting and winding device is characterized by comprising a shell and the wire cutting and winding structure according to any one of claims 1 to 8, wherein the wire feeding mechanism, the wire winding mechanism and the wire cutting mechanism are all arranged outside the shell, the wire feeding mechanism and the wire cutting mechanism are arranged on a stand, a stand driving mechanism is arranged in the shell, and a main controller for controlling the wire feeding mechanism, the wire winding mechanism and the wire cutting mechanism is further arranged in the shell.

10. The wire cutting and winding device according to claim 9, wherein: and the shell is also provided with a control display screen connected with the master controller.

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