CN220950549U - Rectangular shape work piece wire winding subassembly - Google Patents

Abstract

The utility model discloses a strip-shaped workpiece winding assembly. The long-strip-shaped workpiece winding assembly comprises a runway-shaped objective table, a runway-shaped guide ring, a rotary driving device, a synchronous rolling device and a wire hooking plate; when the runway-shaped object stage and the runway-shaped guide ring rotate along the vertical symmetry axis of the runway-shaped object stage and the runway-shaped guide ring, the synchronous rolling device rolls along the runway-shaped guide ring to move around the edge of the runway-shaped object stage, and the wire clamping hooks are kept at equidistant arrangement with the edge of the runway-shaped object stage. The utility model can realize automatic winding on the curved surface edge of the strip-shaped workpiece such as a runway or an ellipse, improves the winding operation efficiency and can avoid errors caused by manual operation.

Description

Rectangular shape work piece wire winding subassembly

Technical Field

The utility model relates to the technical field of winding devices, in particular to a strip-shaped workpiece winding assembly.

Background

The statements in this section merely provide background information related to the present disclosure and may not constitute prior art.

The existing winding device is generally only suitable for winding the edges of round workpieces, and is difficult to realize automatic winding of the curved surface edges of strip-shaped workpieces such as raceways or ellipses, and the difficulty is that the existing winding device cannot adapt to the curved surface to perform periodic movement, so that the winding operation is performed manually at present, and the winding operation efficiency cannot be improved. Therefore, how to realize automatic winding on the curved surface edge of the strip-shaped workpiece becomes a technical problem to be solved.

It should be noted that the foregoing description of the background art is only for the purpose of providing a clear and complete description of the technical solution of the present utility model and is presented for the convenience of understanding by those skilled in the art. The above-described solutions are not considered to be known to the person skilled in the art simply because they are set forth in the background of the utility model section.

Disclosure of Invention

The utility model aims to provide a strip-shaped workpiece winding assembly for realizing automatic winding on the curved surface edge of a strip-shaped workpiece.

In order to solve the above technical problems, the present utility model provides a winding assembly for an elongated workpiece, comprising:

the upper surface of the runway-shaped objective table is provided with a fixing structure for clamping a strip-shaped workpiece, and the edge of the runway-shaped objective table is in a runway-shaped curve;

The runway-shaped guide ring is arranged around the runway-shaped objective table and is arranged at equal intervals with the edge of the runway-shaped objective table;

The rotating driving device is connected to the bottoms of the runway-shaped objective table and the runway-shaped guide ring and can drive the runway-shaped objective table and the runway-shaped guide ring to rotate along the vertical symmetry axis of the runway-shaped objective table and the runway-shaped guide ring;

The synchronous rolling device is in rolling clamping connection with the runway-shaped guide ring;

The thread hooking plate is arranged on the synchronous rolling device; the wire hooking plate is provided with a wire clamping hook, and the wire clamping hook is correspondingly arranged with the edge of the runway-shaped objective table;

When the runway-shaped object stage and the runway-shaped guide ring rotate along the vertical symmetry axis of the runway-shaped object stage and the runway-shaped guide ring, the synchronous rolling device rolls along the runway-shaped guide ring to move around the edge of the runway-shaped object stage, and the wire clamping hooks are kept at equidistant arrangement with the edge of the runway-shaped object stage.

Further, the elongated workpiece winding assembly further comprises:

The wire passing device is arranged on the synchronous rolling device and is positioned at one side of the wire hooking plate away from the runway-shaped objective table; the wire passing device is higher than the plane where the wire hooking plate is located.

Further, the synchronous scrolling device includes:

The inner side roller is arranged between the runway-shaped guide ring and the runway-shaped objective table and is in rolling contact with the inner surface of the runway-shaped guide ring;

The outer side roller is arranged on one side of the runway-shaped guide ring, which is away from the runway-shaped objective table, and is in rolling abutting connection with the outer surface of the runway-shaped guide ring.

Further, the synchronous rolling device further comprises an inner rolling shaft and an outer rolling shaft; the inner roller is rotatably arranged on the inner roller, the outer roller is rotatably arranged on the outer roller, and the distance between the inner roller and the outer roller is kept unchanged.

Further, the wire passing device is located above the outer roller, and the outer roller is provided with a wire passing hole.

Further, the elongated workpiece winding assembly further comprises:

a position holder hinged to the outer roller;

The sliding seat is connected with the rotary driving device; the extending direction of the sliding seat and the vertical symmetry axis of the runway-shaped object stage are positioned on the same straight line, and the position retainer is arranged on the sliding seat in a sliding manner;

And the elastic piece is arranged on one side of the position maintaining piece, which is away from the outer roller.

Further, the outer diameter of the inner roller is smaller than the minimum distance between the runway-shaped guide ring and the runway-shaped objective table; the distance between the outer surface of the inner roller and the outer surface of the outer roller is equal to the wall thickness of the runway-shaped guide ring.

Further, the bottom of the runway-shaped object stage is connected with the bottom of the runway-shaped guide ring through a runway-shaped bottom plate.

Further, the rotation driving device comprises a motor; the rotating shaft of the motor is arranged along the vertical symmetry axis of the runway-shaped objective table, and the top end of the rotating shaft of the motor is connected to the lower part of the runway-shaped bottom plate.

Further, the elongated workpiece winding assembly further comprises:

The protection ring is arranged around the runway-shaped objective table; the inner diameter of the protection ring is larger than the length of the runway-shaped object stage, and the circle center of the protection ring is positioned on the vertical symmetry axis of the runway-shaped object stage.

By the technical scheme, the utility model has the following beneficial effects:

The strip-shaped workpiece winding assembly can automatically wind the curved surface edge of a strip-shaped workpiece such as a runway or an ellipse, improves the winding operation efficiency, and can avoid errors caused by manual operation.

Drawings

FIG. 1 is a schematic view of a structure of an elongated workpiece winding assembly according to the present utility model in use;

FIG. 2 is a schematic view of the structure of an elongated workpiece of the present utility model;

FIG. 3 is a schematic view of a first view of the coil assembly of the elongated workpiece according to the present utility model;

FIG. 4 is a schematic view of a second view of the coil assembly of the elongated workpiece according to the present utility model;

FIG. 5 is a schematic view of a third view of the coil assembly of the elongated workpiece according to the present utility model;

FIG. 6 is a schematic view of a fourth view portion of the elongated workpiece winding assembly of the present utility model;

FIG. 7 is a schematic diagram of a synchronous winding servo device according to the present utility model.

Wherein:

The protective ring 1, the long-strip-shaped workpiece winding assembly 2, the long-strip-shaped workpiece 20, the runway-shaped object stage 21, the runway-shaped bottom plate 211, the runway-shaped guide ring 22, the rotary driving device 23, the motor 231, the synchronous rolling device 24, the inner roller 241, the outer roller 242, the inner roller 243, the outer roller 244, the wire passing hole 245, the wire hooking plate 25, the wire passing device 26, the position retaining member 27, the sliding seat 28, the elastic member 29, the synchronous winding servo device 8, the pressing module 81, the synchronous winding motor 82, the axis pressing block 83 and the winding shield 84.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, in the description of the present utility model, the terms "first," "second," and the like are used for descriptive purposes only and to distinguish between similar objects, and there is no order of preference between them, nor should they be construed as indicating or implying relative importance. Furthermore, in the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

Referring to fig. 1, 3-6, a preferred embodiment of the present invention provides an elongated workpiece winding assembly 2, comprising:

The runway-shaped object stage 21, the upper surface of which is provided with a fixing structure for clamping the strip-shaped workpiece 20, and the edge of which is in a runway-shaped curve;

A race track shaped guide ring 22 disposed around the race track shaped stage 21 and disposed at equal intervals from the edge of the race track shaped stage 21;

The rotation driving device 23 is connected to the bottoms of the runway-shaped object stage 21 and the runway-shaped guide ring 22 and can drive the runway-shaped object stage 21 and the runway-shaped guide ring 22 to rotate along the vertical symmetry axis thereof;

The synchronous rolling device 24 is in rolling clamping connection with the runway-shaped guide ring 22;

The thread hooking plate 25 is arranged on the synchronous rolling device 24; the thread hooking plate 25 is provided with a thread hooking hook, and the thread hooking hook is arranged corresponding to the edge of the runway-shaped objective table 21;

When the runway-shaped object stage 21 and the runway-shaped guide ring 22 rotate along the vertical symmetry axis, the synchronous rolling device 24 rolls along the runway-shaped guide ring 22 to move around the edge of the runway-shaped object stage 21, and the wire clamping hooks are kept at equal intervals with the edge of the runway-shaped object stage 21.

As shown in fig. 1, 3, 4 and 5, the elongated workpiece winding assembly 2 further includes:

The thread passing device 26 is arranged on the synchronous rolling device 24 and is positioned at one side of the thread hooking plate 25 away from the runway-shaped object stage 21; the thread guide 26 is higher than the plane of the thread hooking plate 25.

As shown in fig. 6, the synchronous scrolling device 24 includes:

An inner roller 241 provided between the race track guide ring 22 and the race track stage 21 and rolling against an inner surface of the race track guide ring 22;

and an outer roller 242 which is arranged on one side of the runway-shaped guide ring 22 away from the runway-shaped object stage 21 and is in rolling contact with the outer surface of the runway-shaped guide ring 22.

As shown in fig. 6, the synchronous rolling device 24 further includes an inner roller 243 and an outer roller 244; the inner roller 241 is rotatably disposed on an inner roller 243, the outer roller 242 is rotatably disposed on an outer roller 244, and the distance between the inner roller 243 and the outer roller 244 is kept constant.

As shown in fig. 5 and 6, the wire guide 26 is located above the outer roller 242, and the outer roller 244 is provided with a wire guide hole 245.

As shown in fig. 3-6, the elongated workpiece winding assembly 2 further includes:

A position maintaining member 27 hinged to the outer roller 244;

A slide 28 connected to the rotation driving device 23; the extending direction of the sliding seat 28 and the vertical symmetry axis of the runway-shaped object stage 21 are positioned on the same straight line, and the position maintaining piece 27 is arranged on the sliding seat 28 in a sliding manner;

And an elastic member 29 provided on a side of the position maintaining member 27 facing away from the outer roller 244.

Further, the outer diameter of the inner roller 241 is smaller than the minimum distance between the runway-shaped guide ring 22 and the runway-shaped stage 21; the outer surface of the inner roller 241 is spaced from the outer surface of the outer roller 242 by a distance equal to the wall thickness of the racetrack guide ring 22.

As shown in fig. 5 and 6, the bottom of the race track stage 21 is connected to the bottom of the race track guide ring 22 by a race track base 211.

Referring to fig. 5 and 6, as shown in fig. 4, the rotation driving device 23 includes a motor 231; the rotation shaft of the motor 231 is disposed along the vertical symmetry axis of the race track stage 21, and the top end of the rotation shaft of the motor 231 is connected to the lower portion of the race track base 211.

As shown in fig. 1, the elongated workpiece winding assembly 2 further includes:

A protective ring 1 disposed around the race track stage 21; the inner diameter of the protection ring 1 is larger than the length of the runway-shaped object stage 21, and the circle center of the protection ring 1 is positioned on the vertical symmetry axis of the runway-shaped object stage 21.

As shown in fig. 7, a synchronous winding servo device 8 is further disposed above the racetrack stage 21, that is, the synchronous winding servo device 8 is disposed above the elongated workpiece winding assembly 2, and the synchronous winding servo device 8 can press the elongated workpiece 20 to be wound down on the racetrack stage 21.

As shown in fig. 7, the synchronous winding servo device 8 includes a pressing module 81, a synchronous winding motor 82, an axis pressing block 83 and a winding shield 84, the pressing module 81 is vertically disposed, the synchronous winding motor 82 and the winding shield 84 are slidably disposed on the pressing module 81, and the axis pressing block 83 is connected to the lower portion of the synchronous winding motor 82 and is located in the winding shield 84.

It will be appreciated that the synchronous winding motor 82 rotates synchronously with the rotary drive 23, ensuring that the axial press block 83 is able to press the elongated workpiece 20 to be wound down on the racetrack stage 21.

Working principle:

The strip-shaped workpiece winding assembly 2 is provided with a runway-shaped objective table 21 for fixing and winding the strip-shaped workpiece 20, one strip-shaped workpiece 20 is placed on the runway-shaped objective table 21, the strip-shaped workpiece 20 is wound through the strip-shaped workpiece winding assembly 2, the runway-shaped objective table 21 and the runway-shaped guide ring 22 are driven to synchronously rotate by adopting a rotary driving device 23 during winding, the strip-shaped workpiece 20 positioned on the runway-shaped objective table 21 is driven to rotate, a synchronous rolling device 24 rolls along the runway-shaped guide ring 22, and a wire hooking plate 25 on the synchronous rolling device 24 is always arranged at equal intervals with the edge of the strip-shaped workpiece 20, so that wires are wound on the edge of the strip-shaped workpiece 20.

By the technical scheme, the utility model has the following beneficial effects:

The strip-shaped workpiece winding assembly can automatically wind the curved surface edge of a strip-shaped workpiece such as a runway or an ellipse, improves the winding operation efficiency, and can avoid errors caused by manual operation.

The above-described embodiments are merely preferred embodiments for fully explaining the present utility model, and the scope of the present utility model is not limited thereto. Equivalent substitutions and modifications will occur to those skilled in the art based on the present utility model, and are intended to be within the scope of the present utility model. The protection scope of the utility model is subject to the claims.

Claims (10)

1. An elongated workpiece winding assembly, comprising:

the upper surface of the runway-shaped objective table is provided with a fixing structure for clamping a strip-shaped workpiece, and the edge of the runway-shaped objective table is in a runway-shaped curve;

The runway-shaped guide ring is arranged around the runway-shaped objective table and is arranged at equal intervals with the edge of the runway-shaped objective table;

The rotating driving device is connected to the bottoms of the runway-shaped objective table and the runway-shaped guide ring and can drive the runway-shaped objective table and the runway-shaped guide ring to rotate along the vertical symmetry axis of the runway-shaped objective table and the runway-shaped guide ring;

The synchronous rolling device is in rolling clamping connection with the runway-shaped guide ring;

The thread hooking plate is arranged on the synchronous rolling device; the wire hooking plate is provided with a wire clamping hook, and the wire clamping hook is correspondingly arranged with the edge of the runway-shaped objective table;

When the runway-shaped object stage and the runway-shaped guide ring rotate along the vertical symmetry axis of the runway-shaped object stage and the runway-shaped guide ring, the synchronous rolling device rolls along the runway-shaped guide ring to move around the edge of the runway-shaped object stage, and the wire clamping hooks are kept at equidistant arrangement with the edge of the runway-shaped object stage.

2. The elongated workpiece winding assembly of claim 1, further comprising:

The wire passing device is arranged on the synchronous rolling device and is positioned at one side of the wire hooking plate away from the runway-shaped objective table; the wire passing device is higher than the plane where the wire hooking plate is located.

3. The elongated workpiece winding assembly of claim 2, wherein said synchronous rolling means comprises:

The inner side roller is arranged between the runway-shaped guide ring and the runway-shaped objective table and is in rolling contact with the inner surface of the runway-shaped guide ring;

The outer side roller is arranged on one side of the runway-shaped guide ring, which is away from the runway-shaped objective table, and is in rolling abutting connection with the outer surface of the runway-shaped guide ring.

4. The elongated workpiece winding assembly of claim 3, wherein said synchronous rolling means further comprises an inner roller and an outer roller; the inner roller is rotatably arranged on the inner roller, the outer roller is rotatably arranged on the outer roller, and the distance between the inner roller and the outer roller is kept unchanged.

5. The elongated workpiece winding assembly of claim 4, wherein said wire guide is positioned above said outer roller, said outer roller being provided with a wire guide hole.

6. The elongated workpiece winding assembly of claim 4, further comprising:

a position holder hinged to the outer roller;

The sliding seat is connected with the rotary driving device; the extending direction of the sliding seat and the vertical symmetry axis of the runway-shaped object stage are positioned on the same straight line, and the position retainer is arranged on the sliding seat in a sliding manner;

And the elastic piece is arranged on one side of the position maintaining piece, which is away from the outer roller.

7. The elongated workpiece winding assembly of claim 3, wherein an outer diameter of said inner roller is less than a minimum spacing of said racetrack guide ring from said racetrack stage; the distance between the outer surface of the inner roller and the outer surface of the outer roller is equal to the wall thickness of the runway-shaped guide ring.

8. The assembly of claim 1, wherein the bottom of the race-track stage is connected to the bottom of the race-track guide ring by a race-track floor.

9. The elongated workpiece winding assembly of claim 8, wherein said rotary drive means comprises a motor; the rotating shaft of the motor is arranged along the vertical symmetry axis of the runway-shaped objective table, and the top end of the rotating shaft of the motor is connected to the lower part of the runway-shaped bottom plate.

10. The elongated workpiece winding assembly of claim 1, further comprising:

The protection ring is arranged around the runway-shaped objective table; the inner diameter of the protection ring is larger than the length of the runway-shaped object stage, and the circle center of the protection ring is positioned on the vertical symmetry axis of the runway-shaped object stage.