CN219677053U - Flat-pulling rubber coating device of transformer - Google Patents

Abstract

The utility model provides a flat drawing rubber coating device of transformer, includes a support body, sets up on this support body and along the sticky tape unwinding mechanism, sticky tape automatic tensioning mechanism, sticky tape location wheelset, rubber coating mechanism, sticky tape traction mechanism that sticky tape transportation direction set gradually to and drive this support body elevating system that reciprocates; the rubber coating mechanism comprises a rubber pressing assembly, a rubber belt cutting assembly, a winding main shaft and a rubber rubbing assembly which are sequentially arranged along the rubber belt conveying direction, wherein the rubber pressing assembly, the rubber belt cutting assembly and the rubber rubbing assembly are vertically distributed below the rubber belt, and the winding main shaft is arranged above the rubber belt. The whole rubber coating mechanism can be driven by the lifting mechanism to move up and down, the winding main shaft can directly convey the framework to the rubber coating position, the position is not required to be moved before rubber coating is completed, a plurality of actions are reduced, the waiting time of other corresponding supporting mechanisms is also reduced, and the rubber coating efficiency is improved.

Description

Flat-pulling rubber coating device of transformer

Technical Field

The utility model relates to the field of transformer processing, in particular to a horizontal pulling encapsulation device of a transformer.

Background

The transformer, especially the small-sized transformer, needs to carry out winding encapsulation work on the framework during production. Traditional wire winding rubber coating is through manual operation to the skeleton, and the mode of staff operation not only has work efficiency low and wire winding rubber coating effect poor not enough, still has the problem such as intensity of labour is big and the labor cost of enterprise is high.

In view of this, an automatic encapsulation mechanism is presented in the market at present, for example, the applicant has proposed a chinese utility model patent of a sleeve retaining wall encapsulation and winding integrated machine and a winding process thereof with a patent number of "202010648266.2", which can realize automatic encapsulation and winding, but has the following disadvantages:

the whole retaining wall rubber coating integrated mechanism is in a fixed state, when in rubber coating, a winding main shaft is required to transfer a framework to a rubber coating area for rubber coating under the common driving of an X-axis module, a Y-axis module and a Z-axis module, then the rubber coating area is required to be removed for rubber coating (the main shaft rotates to wind the rubber belt on the rubber coating), and after the rubber coating is completed, the rubber is returned to the rubber coating area for rubber cutting and rubber supporting (the tail end of the rubber belt is pressed by a rubber coating block). The operation mode causes the problems of bulky volume, unreasonable layout and the like of the whole equipment, so that the automatic encapsulation efficiency is required to be further improved.

Disclosure of Invention

The utility model aims to provide a horizontal pulling encapsulation device for a transformer.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a flat drawing rubber coating device of transformer, includes a support body, sets up on this support body and along sticky tape transport direction setting gradually sticky tape unreel mechanism, sticky tape automatic tensioning mechanism, sticky tape location wheelset, rubber coating mechanism, sticky tape traction mechanism, drive this support body elevating system who reciprocates and a wire winding main shaft that is used for locating the transformer skeleton, this wire winding main shaft is driven by an XYZ three-coordinate drive platform;

the rubber coating mechanism comprises a rubber pressing assembly, a rubber belt cutting assembly and a rubber rubbing assembly which are sequentially arranged along the rubber belt conveying direction, wherein the rubber pressing assembly, the rubber belt cutting assembly and the rubber rubbing assembly are vertically distributed below the rubber belt, and the winding main shaft is arranged above the rubber belt.

In a further scheme, the automatic adhesive tape tensioning mechanism comprises a mounting bracket and a weight wheel sliding in the mounting bracket, and the adhesive tape bypasses the weight wheel and keeps tensioned under the action of the weight wheel gravity;

the automatic adhesive tape tensioning mechanism further comprises two positioning rods which are arranged in the frame body of the mounting bracket side by side, a sliding connecting piece is arranged between the two positioning rods in a sliding mode, and the counterweight wheel is in sliding fit with the positioning rods through the sliding connecting piece.

In a further scheme, one end of the counterweight wheel is rotatably connected to the sliding connecting piece through a bearing.

In a further scheme, the adhesive tape unreeling mechanism comprises an adhesive tape reel seat and a rotating mechanism for driving the adhesive tape reel seat to rotate, wherein a plurality of supporting blocks are distributed on the adhesive tape reel seat around the central annular array of the adhesive tape reel seat, and the outer end faces of the supporting blocks are attached to the inner ring of the adhesive tape.

In a further scheme, at least one supporting block comprises an inner fixed block and an outer jacking block, wherein the outer jacking block radially slides in a sliding groove on the end face of the inner fixed block, and the inner fixed block and the outer jacking block are connected through a telescopic adjusting component; the other end face of the outer jacking block, which is far away from the inner fixing block, is provided with a bayonet for clamping the adhesive tape, and the bayonet is arranged to be open at the side of the adhesive tape disc seat.

In a further scheme, the telescopic adjusting assembly comprises a pressure spring arranged in the sliding groove and connected between the inner fixed block and the outer jacking block, and further comprises a shoulder screw which is in threaded connection with the inner fixed block, and the shoulder screw penetrates through the pressure spring and abuts against one end face of the outer jacking block.

In a further scheme, the adhesive pressing assembly comprises an adhesive pressing belt top plate and an adhesive pressing belt block which are distributed up and down, and an adhesive pressing belt pushing cylinder for driving the adhesive pressing belt block to move up and down.

In a further aspect, the tape cutting assembly includes a cutting blade and a cutter pushing cylinder driving the cutting blade to move up and down.

In a further scheme, the glue rubbing assembly comprises a glue rubbing belt wheel and a glue rubbing belt wheel pushing cylinder for driving the glue rubbing belt wheel to move up and down.

In a further scheme, the adhesive tape traction mechanism comprises an adhesive tape clamping cylinder and an adhesive tape pulling cylinder for driving the adhesive tape clamping cylinder to horizontally move.

The working principle and the advantages of the utility model are as follows:

the whole device arranges adhesive tape unreeling mechanism, adhesive tape automatic tensioning mechanism, adhesive tape positioning wheel group, rubber coating mechanism and adhesive tape traction mechanism on a liftable support body, after the adhesive tape unreels, the adhesive tape is tensioned and positioned through the adhesive tape automatic tensioning mechanism and the adhesive tape positioning wheel group respectively, and finally the whole rubber coating mechanism is horizontally pulled through the adhesive tape traction mechanism, when the rubber coating is carried out, the whole rubber coating mechanism can be driven by a lifting mechanism to move up and down, a winding main shaft can directly send a framework to a rubber coating position (slightly higher than the upper part of the adhesive tape after the flat pulling), and then the position does not need to be moved before the rubber coating is completed. Compared with the prior art, the winding spindle reduces a plurality of actions and reduces the waiting time of other corresponding supporting mechanisms. The time of the whole processing period is shortened by about 1/10, the encapsulation efficiency is improved, and the whole encapsulation device is reasonable in layout.

For the continuous wrapping (multilayer continuous wrapping) process, the winding main shaft can directly convey the framework to a position slightly above the wrapping position, the lifting mechanism lifts the wrapping mechanism to a position matched with the winding main shaft for wrapping, after the first layer of wrapping is finished, the lifting mechanism drives the wrapping mechanism to descend and simultaneously drives redundant adhesive tapes to separate from the framework wire package, and the automatic adhesive tape tensioning mechanism automatically and synchronously tensions the adhesive tapes to prevent the adhesive tapes from loosening and adhering and affecting continuous wrapping.

The automatic tensioning mechanism of the adhesive tape comprises a mounting bracket and a counterweight wheel sliding in the mounting bracket, when the adhesive tape is pulled, the adhesive tape can drive the counterweight wheel to move upwards under the influence of upward traction force, after the traction is completed, the traction force disappears, the counterweight wheel drives the sliding block to move vertically downwards under the action of self gravity, and the adhesive tape is pulled downwards by the counterweight wheel to be recovered, so that the automatic tensioning of the adhesive tape can be completed, the adhesive tape is prevented from being loosely and adhered, continuous encapsulation is completed, the encapsulation quality is ensured, the encapsulation efficiency is improved, the tensioning structure is simple, and the maintenance and the debugging are convenient.

The adhesive tape unreeling mechanism comprises an adhesive tape disc seat, a plurality of supporting blocks are distributed on the adhesive tape disc seat around the central annular array, the outer end faces of the supporting blocks are attached to the inner ring of the adhesive tape, one supporting block comprises an inner fixing block and an outer jacking block, the outer jacking block is telescopically adjusted through a pressure spring and a shoulder screw, a bayonet is formed in the outer end face, when the adhesive tape is installed, the adhesive tape can be clamped in the bayonet in a whole circle, and the shoulder screw is screwed down again, so that the adhesive tape can drive the outer jacking block to move outwards until the bottom face of the bayonet is pressed against the inner ring of the adhesive tape, the adhesive tape can be fixed, the stability of the adhesive tape is guaranteed, and meanwhile the portability of adhesive tape replacement is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present utility model;

FIG. 2 is an enlarged view of the automatic adhesive tape tensioning mechanism of FIG. 1 in accordance with an embodiment of the present utility model;

FIG. 3 is a schematic view of a partial structure of an embodiment of the present utility model;

FIG. 4 is a schematic structural view of an adhesive tape unreeling mechanism with an adhesive tape according to an embodiment of the present utility model;

fig. 5 is a schematic structural diagram of an adhesive tape unreeling mechanism without adhesive tape according to an embodiment of the present utility model.

In the above figures: 1. a frame body; 2. an adhesive tape unreeling mechanism; 21. a tape reel seat; 22. a support block; 221. an inner fixing block; 222. an outer top block; 223. a pressure spring; 224. shoulder screws; 225. a bayonet; 3. an automatic adhesive tape tensioning mechanism; 31. a mounting bracket; 32. a counterweight wheel; 33. a positioning rod; 34. a sliding connection; 4. a tape positioning wheel set; 5. a rubber coating mechanism; 51. a glue pressing assembly; 511. a top plate of the adhesive tape; 512. pressing an adhesive tape block; 513. the adhesive tape is pressed to push the air cylinder; 52. an adhesive tape cutting assembly; 521. a cutting blade; 522. the cutter pushes the air cylinder; 53. the winding spindle and the glue rubbing assembly; 531. a rubber belt wheel is rubbed; 532. the rubber belt wheel is rubbed to push the cylinder; 6. an adhesive tape traction mechanism; 61. a tape clamping cylinder; 62. a glue pulling cylinder; 7. and a lifting mechanism.

Description of the embodiments

The utility model is further described below with reference to the accompanying drawings and examples:

examples: the present utility model will be described in detail with reference to the drawings, wherein modifications and variations are possible in light of the teachings of the present utility model, without departing from the spirit and scope of the present utility model, as will be apparent to those of skill in the art upon understanding the embodiments of the present utility model.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the present disclosure. Singular forms such as "a," "an," "the," and "the" are intended to include the plural forms as well, as used herein.

As used herein, "connected" or "positioned" may refer to two or more components or devices in physical contact with each other, or indirectly, or in operation or action with each other.

As used herein, the terms "comprising," "including," "having," and the like are intended to be open-ended terms, meaning including, but not limited to.

The term (terms) as used herein generally has the ordinary meaning of each term as used in this field, in this disclosure, and in the special context, unless otherwise noted. Certain terms used to describe the present disclosure are discussed below, or elsewhere in this specification, to provide additional guidance to those skilled in the art in connection with the description herein.

The terms "front", "rear", "upper", "lower", "left", "right" and the like used herein are directional terms, and are merely used to describe positional relationships among the structures in the present application, and are not intended to limit the present protection scheme and the specific direction in actual implementation.

Referring to fig. 1-3, a flat pulling encapsulation device for a transformer comprises a frame body 1, an adhesive tape unreeling mechanism 2, an adhesive tape automatic tensioning mechanism 3, an adhesive tape positioning wheel set 4, an encapsulation mechanism 5 and an adhesive tape traction mechanism 6 which are arranged on the frame body 1 and are sequentially arranged along the adhesive tape conveying direction, a lifting mechanism 7 for driving the frame body 1 to move up and down, and a winding main shaft for positioning a transformer framework, wherein the lifting mechanism 7 is of a cylinder structure, and the winding main shaft is driven by an XYZ three-coordinate driving platform.

The strokes of the adhesive tape unreeling mechanism 2, the adhesive tape automatic tensioning mechanism 3 and the adhesive tape positioning wheel set 4 are distributed in a triangle, and the adhesive tape automatic tensioning mechanism 3 is positioned at the lowest point of the triangle; the adhesive tape traction mechanism 6 and the top end of the adhesive tape positioning wheel set 4 are horizontally distributed, and the rubber coating mechanism 5 is vertically distributed below the adhesive tape traction mechanism 6 and the adhesive tape positioning wheel set 4.

Referring to fig. 4-5, the tape unreeling mechanism 2 includes a tape reel seat 21 and a rotating mechanism for driving the tape reel seat 21 to rotate, the rotating mechanism may be a motor, a plurality of supporting blocks 22 are distributed on the tape reel seat 21 around its central annular array, and the outer end surfaces of the supporting blocks 22 are attached to the inner ring of the tape; at least one supporting block 22 comprises an inner fixing block 221 and an outer jacking block 222, wherein the outer jacking block 222 radially slides in a chute on the end surface of the inner fixing block 221 and is connected with the inner fixing block by a telescopic adjusting component; the other end surface of the outer top block 222, which is far away from the inner fixing block 221, is provided with a bayonet 225 for clamping the adhesive tape, and the bayonet 225 is arranged to be open at the side of the adhesive tape tray seat 21; the telescopic adjusting assembly comprises a pressure spring 223 which is arranged in the sliding groove and is connected between the inner fixing block 221 and the outer jacking block 222, and further comprises a shoulder screw 224 which is connected to the inner fixing block 221 in a threaded manner, wherein the shoulder screw 224 penetrates through the pressure spring 223 and abuts against one end face of the outer jacking block 222. The figure shows a tape reel holder 21 comprising three support blocks 22 and only one support block 22 comprising two parts, an inner fixing block 221 and an outer top block 222.

When the adhesive tape is installed, the whole circle of the adhesive tape is clamped in the bayonet 225 and is supported by the outer walls of the other two supporting blocks 22, and at the moment, the front and rear surfaces of the adhesive tape are attached to the outer jacking block 222 and the adhesive tape disc seat 21; then the shoulder screw 224 is screwed down to drive the outer jacking block 222 to move outwards until the bottom surface of the bayonet 225 is pressed against the inner ring of the adhesive tape, so that the adhesive tape can be fixed, the stability of the adhesive tape is ensured, and meanwhile, the portability of adhesive tape replacement is improved.

Referring to fig. 3, the encapsulation mechanism 5 includes a glue pressing assembly 51, a glue cutting assembly 52 and a glue rubbing assembly 53 which are sequentially arranged along the transportation direction of the glue, the glue pressing assembly 51, the glue cutting assembly 52 and the glue rubbing assembly 53 are vertically distributed below the glue, and the winding spindle is arranged above the glue.

The adhesive pressing assembly 51 includes an adhesive tape pressing top plate 511 and an adhesive tape pressing block 512 which are vertically distributed, and an adhesive tape pressing pushing cylinder 513 which drives the adhesive tape pressing block 512 to move up and down.

The tape cutting assembly 52 includes a cutting blade 521 and a cutter pushing cylinder 522 driving the cutting blade 521 to move up and down.

The glue rubbing assembly 53 includes a glue rubbing belt wheel 531 and a glue rubbing belt wheel pushing cylinder 532 for driving the glue rubbing belt wheel 531 to move up and down.

The adhesive tape traction mechanism 6 comprises an adhesive tape clamping cylinder 61 and an adhesive tape pulling cylinder 62 for driving the adhesive tape clamping cylinder 61 to horizontally move.

The encapsulation process comprises the following steps:

step one, positioning an adhesive tape; the adhesive tape is unreeled by the adhesive tape unreeling mechanism 2, and bypasses the adhesive tape automatic tensioning mechanism 3 and the adhesive tape positioning wheel set 4, spans the encapsulation mechanism 5, and is finally clamped and pulled by the adhesive tape traction mechanism 6;

step two, the lifting mechanism 7 drives the adhesive tape unreeling mechanism 2, the adhesive tape automatic tensioning mechanism 3, the adhesive tape positioning wheel set 4, the rubber coating mechanism 5 and the adhesive tape traction mechanism 6 to move upwards to a winding area above through the frame body 1, and a winding main shaft positioned in the winding area moves to the position above the rubber rubbing component 53 under the action of the three-coordinate driving platform;

step three, the rubber belt rubbing wheel pushing cylinder 532 drives the rubber belt rubbing wheel 531 to move upwards, so that the rubber belt is attached to the framework, the rubber belt clamping cylinder 61 loosens the rubber belt, the winding main shaft drives the framework and the rubber belt on the framework to be attached to the rubber belt rubbing wheel 531, and one end of the rubber belt is completely rubbed and attached to the framework by the rubber belt rubbing wheel 531;

step four: the winding spindle drives the framework to rotate, the adhesive tape is wound, one end of the adhesive tape is wound on the framework, and the other end of the adhesive tape is still connected to the adhesive tape disc seat 21;

step five: the tape pressing cylinder 513 drives the tape pressing block 512 to move upwards and contact with the tape pressing top plate 511, at this time, the other end of the tape is pressed and fixed, and the cutter pushing cylinder 522 drives the cutter blade 521 to move upwards to cut off the tape at the end, at this time, the framework completes one-time encapsulation.

Step six: after the encapsulation is finished, the winding main shaft drives the framework to move up to the winding station to continue winding, the lifting mechanism 7 drives the encapsulation mechanism 5 to descend and simultaneously drives the redundant adhesive tape to separate from the framework wire package, and space is reserved for the winding structure of the winding station, so that mutual interference is avoided.

The whole device has reasonable structural layout, avoids the bulkiness and improves the working efficiency.

Referring to fig. 1-2, the automatic adhesive tape tensioning mechanism 3 comprises a mounting bracket 31 and a weight wheel 32 sliding in the mounting bracket 31, wherein the adhesive tape passes around the weight wheel 32 and is tensioned under the action of the weight wheel 32; the balance weight wheel 32 is in sliding fit with the positioning rods 33 through the sliding connecting piece 34, one end of the balance weight wheel 32 is rotatably connected to the sliding connecting piece 34 through a bearing, the sliding connecting piece 34 is a sliding block with two through holes formed in the surface, and the two positioning rods 33 are correspondingly sleeved in the two through holes.

In the encapsulation process, when the rubber pulling cylinder 62 drives the rubber clamping cylinder 61 to move, the flat pulling traction of the rubber belt can be realized, in the traction process, the rubber belt can drive the counterweight wheel 32 to move upwards under the influence of upward traction, after the traction is finished, the traction disappears, the counterweight wheel 32 drives the sliding block to move vertically downwards under the action of self gravity, and the rubber belt is pulled downwards by the counterweight wheel 32 to be recovered, so that the tensioning of the rubber belt is automatically finished, and the encapsulation quality is ensured. After the encapsulation is finished, the automatic adhesive tape tensioning mechanism 3 automatically and synchronously tensions the adhesive tape, so that the adhesive tape is prevented from loosening and adhering to influence continuous packaging.

The above embodiments are provided to illustrate the technical concept and features of the present utility model and are intended to enable those skilled in the art to understand the content of the present utility model and implement the same, and are not intended to limit the scope of the present utility model. All equivalent changes or modifications made in accordance with the spirit of the present utility model should be construed to be included in the scope of the present utility model.

Claims (10)

1. The utility model provides a flat encapsulation device that draws of transformer which characterized in that: the automatic adhesive tape winding machine comprises a frame body (1), an adhesive tape unreeling mechanism (2), an automatic adhesive tape tensioning mechanism (3), an adhesive tape positioning wheel set (4), an adhesive tape coating mechanism (5) and an adhesive tape traction mechanism (6) which are arranged on the frame body (1) and are sequentially arranged along the adhesive tape conveying direction, a lifting mechanism (7) for driving the frame body (1) to move up and down, and a winding main shaft;

the rubber coating mechanism (5) comprises a rubber pressing assembly (51), a rubber belt cutting assembly (52) and a rubber rubbing assembly (53) which are sequentially arranged along the conveying direction of the rubber belt, wherein the rubber pressing assembly (51), the rubber belt cutting assembly (52) and the rubber rubbing assembly (53) are vertically distributed below the rubber belt, and the winding main shaft is arranged above the rubber belt.

2. The flat pull encapsulation device of a transformer of claim 1, wherein: the automatic adhesive tape tensioning mechanism (3) comprises a mounting bracket (31) and a weight wheel (32) sliding in the mounting bracket (31), wherein the adhesive tape bypasses the weight wheel (32) and is kept tensioned under the action of the gravity of the weight wheel (32).

3. The flat pull encapsulation device of a transformer of claim 2, wherein: the automatic adhesive tape tensioning mechanism (3) further comprises two positioning rods (33) which are arranged in the frame body of the mounting bracket (31) side by side, a sliding connecting piece (34) is arranged between the two positioning rods (33) in a sliding mode, the counterweight wheel (32) is in sliding fit with the positioning rods (33) through the sliding connecting piece (34), and one end of the counterweight wheel (32) is rotatably connected to the sliding connecting piece (34) through a bearing.

4. The flat pull encapsulation device of a transformer of claim 1, wherein: the adhesive tape unreeling mechanism (2) comprises an adhesive tape reel seat (21) and a rotating mechanism for driving the adhesive tape reel seat (21) to rotate, a plurality of supporting blocks (22) are distributed on the adhesive tape reel seat (21) around the central annular array of the adhesive tape reel seat, and the outer end faces of the supporting blocks (22) are attached to the inner ring of the adhesive tape.

5. The flat pull encapsulation device of a transformer of claim 4, wherein: at least one supporting block (22) comprises an inner fixed block (221) and an outer jacking block (222), wherein the outer jacking block (222) radially slides in a sliding groove on the end surface of the inner fixed block (221) and is connected with the inner fixed block through a telescopic adjusting component; the other end face of the outer jacking block (222) far away from the inner fixing block (221) is provided with a bayonet (225) for clamping the adhesive tape, and the bayonet (225) is arranged to be open at the side of the adhesive tape disc seat (21).

6. The flat pull encapsulation device of a transformer of claim 5, wherein: the telescopic adjusting assembly comprises a pressure spring (223) which is arranged in the sliding groove and connected between the inner fixing block (221) and the outer jacking block (222), and further comprises a shoulder screw (224) which is connected to the inner fixing block (221) in a threaded mode, and the shoulder screw (224) penetrates through the pressure spring (223) and abuts against one end face of the outer jacking block (222).

7. The flat pull encapsulation device of a transformer of claim 1, wherein: the adhesive pressing assembly (51) comprises an adhesive pressing belt top plate (511) and an adhesive pressing belt block (512) which are distributed up and down, and an adhesive pressing belt pushing cylinder (513) for driving the adhesive pressing belt block (512) to move up and down.

8. The flat pull encapsulation device of a transformer of claim 1, wherein: the tape cutting assembly (52) includes a cutting blade (521) and a cutter pushing cylinder (522) driving the cutting blade (521) to move up and down.

9. The flat pull encapsulation device of a transformer of claim 1, wherein: the glue rubbing assembly (53) comprises a glue rubbing belt wheel (531) and a glue rubbing belt wheel pushing cylinder (532) for driving the glue rubbing belt wheel (531) to move up and down.

10. The flat pull encapsulation device of a transformer of claim 1, wherein: the adhesive tape traction mechanism (6) comprises an adhesive tape clamping cylinder (61) and an adhesive tape pulling cylinder (62) for driving the adhesive tape clamping cylinder (61) to horizontally move.