CN219058115U - Winding mechanism of full-automatic winding displacement machine - Google Patents

Abstract

The utility model discloses a winding mechanism of a full-automatic winding displacement machine, which comprises a frame, a net wire winding unit and a net wire lifting unit, wherein the net wire winding unit and the net wire lifting unit are connected to the frame; the net wire winding unit is used for winding the net wire, and when the net wire winding unit winds the net wire, the net wire lifting unit is used for gradually lifting the net wire to be wound so that the net wire winding unit winds the net wire into a spiral shape; the automatic winding device can realize automatic winding of the net wires, so that the labor intensity of workers can be reduced, and the winding efficiency of the net wires can be improved.

Description

Winding mechanism of full-automatic winding displacement machine

Technical Field

The utility model relates to the technical field of net twine winding displacement machines, in particular to a winding mechanism of a full-automatic winding displacement machine.

Background

At present, in the production process of finished network wires, firstly, the network wires from the network wire coil are required to be cut into equal length, then, the wire skins at two ends of each cut network wire are required to be peeled, and then, the network wires are required to be coiled and the binding tape is required to be bound, however, the coiling of the network wires is finished manually at present, so that the defects of high labor intensity of workers and low coiling efficiency of the network wires exist.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a winding mechanism of a full-automatic winding displacement machine, which can realize automatic winding of a net wire, thereby reducing the labor intensity of workers and improving the winding efficiency of the net wire.

The winding mechanism of the full-automatic winding displacement machine comprises a frame, a net wire winding unit and a net wire lifting unit, wherein the net wire winding unit and the net wire lifting unit are connected to the frame; the net wire winding unit is used for winding the net wire, and when the net wire winding unit winds the net wire, the net wire lifting unit is used for gradually lifting the net wire to be wound so that the net wire winding unit winds the net wire into a spiral shape.

By adopting the structure, the automatic winding device can realize automatic winding of the net wires, thereby reducing the labor intensity of workers and improving the winding efficiency of the net wires.

The utility model relates to a winding mechanism of a full-automatic winding displacement machine, wherein a net wire winding unit comprises a servo motor, a turntable, two clamping blocks and four supporting blocks, wherein the servo motor is fixed on a rack and used for driving the turntable to rotate; the two clamping blocks are respectively fixed on a first cylinder and a connecting plate which are positioned at one side of the turntable, and the upper end of each supporting block is vertically fixed with a winding plate; when the two first cylinders drive the two supporting blocks which are in sliding connection with the turntable to slide outwards, the two clamping blocks are used for clamping the end parts of the net wires; when the servo motor drives the turntable to rotate, the four winding plates are used for winding the net wires; after the net wire winding unit is adopted, when the net wire winding unit works, the two first air cylinders can drive the two supporting blocks at corresponding positions to slide outwards, at the moment, the two winding plates corresponding to the two supporting blocks can move outwards, meanwhile, the two clamping blocks can clamp the front end of the net wire to be wound, then the servo motor can drive the turntable to rotate, at the moment, the four winding plates can realize winding of the net wire, after the servo motor drives the turntable to rotate for a preset number of turns to realize winding of the net wire, the servo motor stops driving the turntable to rotate, and the two first air cylinders can drive the two supporting blocks at corresponding positions to slide inwards, at the moment, the two clamping blocks can release the front end of the net wire, and as the two winding plates at corresponding positions can drive the two winding plates to move inwards (after the winding plates move inwards, the tensioning of the net wire after winding is completed), the net wire after winding is conveniently pulled away from the four winding plates; the supporting blocks which are in sliding connection with the turntable can be in sliding connection with the turntable through the sliding rail component.

The utility model relates to a winding mechanism of a full-automatic winding displacement machine, wherein a net wire lifting unit comprises a servo electric cylinder, a supporting seat, a sliding seat and a second cylinder; the support seat is vertically and slidably connected to the frame, the servo electric cylinder is fixed on the frame and used for driving the support seat to vertically slide relative to the frame, and the support seat is fixed with the driving end of the servo electric cylinder; the sliding seat can be connected to the supporting seat in a front-back sliding way, the second air cylinder is fixed at the front end of the supporting seat and used for driving the sliding seat to slide back and forth relative to the supporting seat, and the sliding seat is fixed with the driving end of the second air cylinder; the top of the supporting seat is rotationally connected with a plurality of first rollers, the rear end of the sliding seat is rotationally connected with a plurality of first rollers, the plurality of first rollers and the plurality of first rollers are distributed at equal intervals from left to right, and when the second cylinder drives the sliding seat to slide backwards, the plurality of first rollers and the plurality of first rollers are used for clamping a net wire to be wound; the two ends of the supporting seat are rotatably connected with supporting wheels for supporting the net wire to be wound, and when the supporting seat is driven by the servo electric cylinder to slide upwards, the supporting wheels are used for lifting the net wire to be wound; after the net wire lifting unit is adopted, before the net wire winding unit winds the net wire, the second cylinder can drive the sliding seat to slide backwards so that the first rollers and the first rollers clamp the net wire to be wound between the first rollers, when the net wire winding unit winds the net wire, the servo cylinder can gradually push the supporting seat upwards, at the moment, the supporting wheels at two ends of the supporting seat and the first rollers can gradually lift the net wire to be wound so that the net wire winding unit winds the net wire into a spiral shape, in the process of winding the net wire by the net wire winding unit, the first rollers and the first rollers can realize tensioning and straightening of the net wire to be wound so that the net wire winding unit winds the net wire, after the net wire winding unit winds the net wire, the second cylinder can drive the sliding seat to slide forwards and reset, namely the first rollers can move forwards and reset, and the servo cylinder can slide downwards and drive the sliding seat to slide upwards and reset through the sliding seat.

The utility model relates to a winding mechanism of a full-automatic winding displacement machine, wherein four guide posts which are circumferentially distributed are fixed on the lower end surface of a supporting seat, guide sleeves which are vertically corresponding to each guide post one by one are fixed on a frame, and each guide post vertically and movably passes through the guide sleeve at the corresponding position; by adopting the structure, the supporting seat can be reliably vertically and slidably connected to the frame.

The utility model relates to a winding mechanism of a full-automatic winding machine, wherein a wire lifting unit further comprises an extension plate, a second roller and a limiting plate, wherein the left end of the extension plate is fixed with a supporting seat, the right end of the extension plate extends to the position where a wire winding unit is located, the second roller and the second roller are distributed in the front-back direction and are both rotationally connected with the top of the right end of the extension plate, a gap for a wire to be wound to pass through is formed between the second roller and the second roller, the limiting plate is fixed at the top of the extension plate positioned at the left side of the second roller and the second roller, and an opening groove for the wire to be wound to pass through is formed at the upper end of the limiting plate; through adopting this kind of structure, when the net twine is coiled to net twine unit, the net twine that waits to coil can be in the open slot and lie in the clearance between second gyro wheel and the second cylinder, open slot and second gyro wheel and second cylinder can play the spacing and the guide effect of net twine that wait to coil, so that net twine unit coils the net twine, in addition, when the tail end of net twine moves to the position department of open slot and second gyro wheel and second cylinder, open slot and second gyro wheel and second cylinder can keep the spacing and the guide effect to the net twine constantly in order to avoid the net twine to appear loosening and getting rid of the tail condition, thereby can ensure that net twine unit is coiled reliably to the net twine.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiments of the application and together with the description serve to explain the application and do not constitute an undue limitation to the application. In the drawings:

FIG. 1 is a schematic perspective view of a first embodiment of the present utility model;

FIG. 2 is an enlarged schematic view of the structure of FIG. 1A;

FIG. 3 is a schematic view of a second perspective structure of the present utility model;

FIG. 4 is a schematic view of a third perspective structure of the present utility model;

FIG. 5 is an enlarged schematic view of the structure of FIG. 4B;

fig. 6 is an enlarged schematic view of the structure at C in fig. 4.

Detailed Description

Various embodiments of the utility model are disclosed in the following drawings, in which details of the practice are set forth in the following description for the purpose of clarity. However, it should be understood that these practical details are not to be taken as limiting the utility model. That is, in some embodiments of the utility model, these practical details are unnecessary. Moreover, for the purpose of simplifying the drawings, some conventional structures and components are shown in the drawings in a simplified schematic manner.

In addition, the descriptions of the "first," "second," and the like, herein are for descriptive purposes only and are not intended to be specifically construed as order or sequence, nor are they intended to limit the utility model solely for distinguishing between components or operations described in the same technical term, but are not to be construed as indicating or implying any relative importance or order of such features. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

As shown in fig. 1 to 6, a winding mechanism of the full-automatic winding displacement machine comprises a frame 1, a wire winding unit 2 and a wire lifting unit 3, wherein the wire winding unit 2 and the wire lifting unit 3 are connected to the frame 1; the wire winding unit 2 is used for winding the wire, and the wire lifting unit 3 is used for gradually lifting the wire to be wound when the wire winding unit 2 winds the wire so that the wire winding unit 2 winds the wire into a spiral shape.

The wire winding unit 2 comprises a servo motor 21, a turntable 22, two clamping blocks 23 and four supporting blocks 24, wherein the servo motor 21 is fixed on the frame 1 and is used for driving the turntable 22 to rotate, the turntable 22 is fixed with a driving shaft of the servo motor 21, the four supporting blocks 24 are arranged above the turntable 22 and are uniformly distributed along the circumferential direction of the turntable 22, two supporting blocks 24 which are oppositely arranged are fixed at the upper end of the turntable 22, the other two supporting blocks 24 which are oppositely arranged are connected with the upper end of the turntable 22 in a sliding manner, two first air cylinders 25 are also fixed at the upper end of the turntable 22, and the two first air cylinders 25 are respectively used for driving one supporting block 24 which is in sliding connection with the turntable 22 to slide along the radial direction of the turntable 22, and the two supporting blocks 24 which are in sliding connection with the turntable 22 are respectively fixed with the driving end of the first air cylinder 25 at the side through a connecting plate 26; the two clamping blocks 23 are respectively fixed on a first cylinder 25 and a connecting plate 26 which are positioned on one side of the turntable 22, and a winding plate 27 is vertically fixed at the upper end of each supporting block 24; when the two first cylinders 25 drive the two supporting blocks 24 which are in sliding connection with the turntable 22 to slide outwards, the two clamping blocks 23 are used for clamping the end parts of the net wires; when the servo motor 21 drives the turntable 22 to rotate, the four winding plates 27 are used for winding the net wires; after the net wire winding unit is adopted, when the net wire winding unit works, the two first air cylinders can drive the two supporting blocks at corresponding positions to slide outwards, at the moment, the two winding plates corresponding to the two supporting blocks can move outwards, meanwhile, the two clamping blocks can clamp the front end of the net wire to be wound, then the servo motor can drive the turntable to rotate, at the moment, the four winding plates can realize winding of the net wire, after the servo motor drives the turntable to rotate for a preset number of turns to realize winding of the net wire, the servo motor stops driving the turntable to rotate, and the two first air cylinders can drive the two supporting blocks at corresponding positions to slide inwards, at the moment, the two clamping blocks can release the front end of the net wire, and as the two winding plates at corresponding positions can drive the two winding plates to move inwards (after the winding plates move inwards, the tensioning of the net wire after winding is completed), the net wire after winding is conveniently pulled away from the four winding plates; the supporting blocks which are in sliding connection with the turntable can be in sliding connection with the turntable through the sliding rail component.

The net twine lifting unit 3 comprises a servo electric cylinder 31, a supporting seat 32, a sliding seat 33 and a second air cylinder 34; the support seat 32 is vertically and slidably connected to the frame 1, the servo electric cylinder 31 is fixed on the frame 1 and used for driving the support seat 32 to vertically slide relative to the frame 1, and the support seat 32 is fixed with the driving end of the servo electric cylinder 31; the sliding seat 33 is connected to the supporting seat 32 in a back-and-forth sliding manner, the second air cylinder 34 is fixed at the front end of the supporting seat 32 and used for driving the sliding seat 33 to slide back and forth relative to the supporting seat 32, and the sliding seat 33 is fixed with the driving end of the second air cylinder 34; the top of the supporting seat 32 is rotationally connected with a plurality of first rollers 35, the rear end of the sliding seat 33 is rotationally connected with a plurality of first rollers 36, the plurality of first rollers 35 and the plurality of first rollers 36 are distributed at equal intervals from left to right, and when the second cylinder 34 drives the sliding seat 33 to slide backwards, the plurality of first rollers 35 and the plurality of first rollers 36 are used for clamping a net wire to be wound; the two ends of the supporting seat 32 are rotatably connected with supporting wheels 37 for supporting the net wire to be wound, and when the supporting seat 32 is driven by the servo electric cylinder 31 to slide upwards, the supporting wheels 37 are used for lifting the net wire to be wound; after the net wire lifting unit is adopted, before the net wire winding unit winds the net wire, the second cylinder can drive the sliding seat to slide backwards so that the first rollers and the first rollers clamp the net wire to be wound between the first rollers, when the net wire winding unit winds the net wire, the servo cylinder can gradually push the supporting seat upwards, at the moment, the supporting wheels at two ends of the supporting seat and the first rollers can gradually lift the net wire to be wound so that the net wire winding unit winds the net wire into a spiral shape, in the process of winding the net wire by the net wire winding unit, the first rollers and the first rollers can realize tensioning and straightening of the net wire to be wound so that the net wire winding unit winds the net wire, after the net wire winding unit winds the net wire, the second cylinder can drive the sliding seat to slide forwards and reset, namely the first rollers can move forwards and reset, and the servo cylinder can slide downwards and drive the sliding seat to slide upwards and reset through the sliding seat.

Four guide posts 381 which are circumferentially distributed are fixed on the lower end surface of the supporting seat 32, guide sleeves 382 which are vertically corresponding to each guide post 381 one by one are fixed on the frame 1, and each guide post 381 vertically and movably penetrates through the guide sleeve 382 at the corresponding position; by adopting the structure, the supporting seat can be reliably vertically and slidably connected to the frame.

The wire lifting unit 3 further comprises an extension plate 391, a second roller 392, a second roller 393 and a limiting plate 394, wherein the left end of the extension plate 391 is fixed with the supporting seat 32, the right end of the extension plate 391 extends to the position of the wire winding unit 2, the second roller 392 and the second roller 393 are distributed in the front-back direction and are both rotationally connected with the top of the right end of the extension plate 391, a gap for passing a wire to be wound is formed between the second roller 392 and the second roller 393, the limiting plate 394 is fixed on the top of the extension plate 391 positioned on the left sides of the second roller 392 and the second roller 393, and an opening groove 395 for passing the wire to be wound is formed in the upper end of the limiting plate 394; through adopting this kind of structure, when the net twine is coiled to net twine unit, the net twine that waits to coil can be in the open slot and lie in the clearance between second gyro wheel and the second cylinder, open slot and second gyro wheel and second cylinder can play the spacing and the guide effect of net twine that wait to coil, so that net twine unit coils the net twine, in addition, when the tail end of net twine moves to the position department of open slot and second gyro wheel and second cylinder, open slot and second gyro wheel and second cylinder can keep the spacing and the guide effect to the net twine constantly in order to avoid the net twine to appear loosening and getting rid of the tail condition, thereby can ensure that net twine unit is coiled reliably to the net twine.

When the automatic winding device disclosed by the utility model works, the net wire winding unit can wind the net wire, and when the net wire winding unit winds the net wire, the net wire lifting unit can gradually lift the net wire to be wound so that the net wire winding unit winds the net wire into a spiral shape, namely the automatic winding device can realize automatic winding of the net wire.

The foregoing description is only illustrative of the utility model and is not to be construed as limiting the utility model. Various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, or the like, which is within the spirit and principles of the present utility model, should be included in the scope of the claims of the present utility model.

Claims (5)

1. A winding mechanism of a full-automatic winding displacement machine is characterized in that: the device comprises a frame (1), a net wire winding unit (2) and a net wire lifting unit (3), wherein the net wire winding unit (2) and the net wire lifting unit (3) are connected to the frame (1); the net wire winding unit (2) is used for winding net wires, and the net wire lifting unit (3) is used for gradually lifting the net wires to be wound when the net wires are wound by the net wire winding unit (2) so that the net wires are wound into a spiral shape by the net wire winding unit (2).

2. The winding mechanism of the full-automatic wire arranging machine according to claim 1, wherein the wire winding unit (2) comprises a servo motor (21), a turntable (22), two clamping blocks (23) and four supporting blocks (24), the servo motor (21) is fixed on a frame (1) and is used for driving the turntable (22) to rotate, the turntable (22) is fixed with a driving shaft of the servo motor (21), the four supporting blocks (24) are all arranged above the turntable (22) and uniformly distributed along the circumferential direction of the turntable (22), two supporting blocks (24) which are oppositely arranged are fixed at the upper end of the turntable (22), the other two supporting blocks (24) which are oppositely arranged are slidably connected at the upper end of the turntable (22), two first air cylinders (25) are also fixed at the upper end of the turntable (22), one supporting block (24) which is slidably connected with the turntable (22) is respectively used for driving one supporting block (24) which is slidably connected with the turntable (22) along the radial direction of the turntable (22), and the driving end (26) is respectively fixedly connected with the driving end (25) of the turntable (26) by virtue of the first air cylinders; the two clamping blocks (23) are respectively fixed on a first air cylinder (25) and a connecting plate (26) which are positioned at one side of the turntable (22), and a winding plate (27) is vertically fixed at the upper end of each supporting block (24); when the two first cylinders (25) drive the two supporting blocks (24) which are in sliding connection with the turntable (22) to slide outwards, the two clamping blocks (23) are used for clamping the end parts of the net wires; when the servo motor (21) drives the turntable (22) to rotate, the four winding plates (27) are used for winding the net wires.

3. The winding mechanism of the full-automatic wire arranging machine according to claim 1, wherein the wire lifting unit (3) comprises a servo electric cylinder (31), a supporting seat (32), a sliding seat (33) and a second air cylinder (34); the support seat (32) is vertically and slidably connected to the frame (1), the servo electric cylinder (31) is fixed on the frame (1) and used for driving the support seat (32) to vertically slide relative to the frame (1), and the support seat (32) is fixed with the driving end of the servo electric cylinder (31); the sliding seat (33) is connected to the supporting seat (32) in a front-back sliding way, the second air cylinder (34) is fixed at the front end of the supporting seat (32) and used for driving the sliding seat (33) to slide back and forth relative to the supporting seat (32), and the sliding seat (33) is fixed with the driving end of the second air cylinder (34); the top of the supporting seat (32) is rotationally connected with a plurality of first rollers (35), the rear end of the sliding seat (33) is rotationally connected with a plurality of first rollers (36), the plurality of first rollers (35) and the plurality of first rollers (36) are distributed at equal intervals from left to right, and when the second air cylinder (34) drives the sliding seat (33) to slide backwards, the plurality of first rollers (35) and the plurality of first rollers (36) are used for clamping a net wire to be wound; both ends of the supporting seat (32) are rotatably connected with supporting wheels (37) for supporting the net wires to be wound, and when the supporting seat (32) is driven by the servo electric cylinder (31) to slide upwards, the supporting wheels (37) are used for lifting the net wires to be wound.

4. A winding mechanism of a full-automatic wire arranging machine according to claim 3, wherein four guide posts (381) distributed circumferentially are fixed on the lower end face of the supporting seat (32), guide sleeves (382) corresponding to each guide post (381) vertically are fixed on the frame (1), and each guide post (381) vertically and movably penetrates through the guide sleeve (382) at the corresponding position.

5. The winding mechanism of a fully automatic wire arranging machine according to claim 3, wherein the wire lifting unit (3) further comprises an extension plate (391), a second roller (392), a second roller (393) and a limiting plate (394), the left end of the extension plate (391) is fixed with the supporting seat (32), the right end of the extension plate (391) extends to the position where the wire winding unit (2) is located, the second roller (392) and the second roller (393) are distributed in the front-back direction and are both rotationally connected with the top of the right end of the extension plate (391), a gap for allowing a wire to be wound to pass is formed between the second roller (392) and the second roller (393), the limiting plate (394) is fixed on the top of the extension plate (391) located on the left side of the second roller (392) and the second roller (393), and an opening groove (395) for allowing the wire to pass is formed in the upper end of the limiting plate (394).

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