CN214031299U - Jacketing machine rubber coating mechanism and jacketing machine using same - Google Patents

Abstract

The utility model provides a jacketing machine rubber coating mechanism and use jacketing machine of this mechanism, jacketing machine rubber coating mechanism include supporting component, rubberizing subassembly, shearing subassembly, tensioning subassembly, barricade subassembly and sticky tape detection device. The support assembly is used for supporting the component; the gluing component is used for conveying the rubber belt to carry out rubber coating operation; the shearing assembly is used for shearing the rubber-coated adhesive tape. The tensioning assembly is arranged between the gluing assembly and the shearing assembly, the tensioning assembly is connected with the supporting plate component, and the shearing assembly is used for tensioning the adhesive tape. The retaining wall assembly is arranged on the supporting plate component and used for protecting the rubber coating mechanism of the jacketing machine. The utility model discloses a film is deposited through the rubberizing subassembly to jacketing machine rubber coating mechanism, and tensioning assembly carries out the tensioning operation to the sticky tape, cuts the operation of cuting the film of subassembly after to the material loading, and the barricade subassembly protects the subassembly to make devices such as the manipulator of whole mechanism's cooperation rubber coating can accomplish the process of product rubber coating fast, greatly promote production efficiency.

Description

Jacketing machine rubber coating mechanism and jacketing machine using same

Technical Field

The utility model relates to an electronic component production facility field, in particular to jacketing machine rubber coating mechanism and use jacketing machine of this mechanism.

Background

With the rapid development of electronic technology, various household appliances and electronic devices are developed, and their performances are continuously improved, so that the requirements for electronic inductors and inductors of various specifications are continuously increased, for example, the design requirements of products with different performances on the number of turns, the number of layers, the wire outlet position, the number of layers of encapsulation, the method and the like of the coil of the electronic inductor are different.

In the existing processing and production process of electronic devices, an inductance coil is mainly produced by a worker through manual operation in the encapsulation process, and the processing accuracy cannot be guaranteed by manually tearing and pulling an adhesive tape and shearing the adhesive tape in the encapsulation process, so that the problems of inconsistent product specifications and even poor quality are easily caused.

Therefore, it is necessary to provide a jacketing machine encapsulation mechanism and a jacketing machine using the mechanism to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a jacketing machine rubber coating mechanism, it deposits the film through the rubberizing subassembly, and the tensioning subassembly carries out tensioning operation to the sticky tape, cuts the operation of cutting the film of subassembly after to the material loading, and the barricade subassembly protects the subassembly to solve the jacketing machine rubber coating mechanism among the prior art, can't guarantee the degree of accuracy of processing, lead to the product specification to differ easily, appear the problem that the quality is poor even.

In order to solve the technical problem, the utility model adopts the technical scheme that: a rubber coating mechanism of a jacketing machine; it includes:

the supporting assembly is used for supporting the components and comprises a fixing plate which is horizontally arranged and a supporting plate component which is vertically arranged on the fixing plate;

the gluing component is connected with the supporting plate component and is used for conveying a rubber belt to perform rubber coating operation;

the cutting assembly is arranged on one side of the gluing assembly, is connected with the supporting plate component and is used for cutting the rubber-coated adhesive tape; and

the tensioning assembly is arranged between the gluing assembly and the shearing assembly and used for tensioning the adhesive tape.

In the utility model, the fixed plate is provided with a first slide rail along the conveying direction of the rubber belt, and one side of the bottom end of the support plate component is provided with a first moving cylinder;

the supporting plate component is connected with the first sliding rail in a sliding mode, and the first moving cylinder drives the supporting plate component to horizontally slide along the first sliding rail.

The utility model discloses in, the rubberizing subassembly includes:

the adhesive tape fixing seat is connected with the supporting plate component;

the adhesive tape axis is arranged on the adhesive tape fixing seat and used for placing an adhesive tape; and

the adhesive tape guide blocks are arranged in two groups, the two groups of adhesive tape guide blocks are connected with the supporting plate component through adhesive tape guide supports, and the two groups of adhesive tape guide blocks are respectively and oppositely arranged on two sides of the adhesive tape and used for guiding the output of the adhesive tape.

The utility model discloses in, the tensioning assembly includes:

the fixed vertical plate is vertically arranged above the fixed plate and is connected with the supporting plate component;

the fixed transverse plate is horizontally arranged on one side of the fixed vertical plate, which is close to the adhesive tape, and is used for supporting the component;

the tension pressing cylinder is connected with the fixed transverse plate; and

the tension pressing roller is arranged above the adhesive tape and is connected with the output end of the tension pressing cylinder;

the tension pressing cylinder drives the tension pressing roller to move up and down, so that the adhesive tape is tensioned.

The utility model discloses in, the vertical second slide rail that is provided with in backup pad part one side, the shearing component includes:

the cutter is arranged on one side of the supporting plate component and is used for cutting the adhesive tape;

the adhesive tape pressing component is arranged on one side, close to the tensioning component, of the cutter and is used for pressing the front end of the adhesive tape;

the adhesive tape cutter fixing seat is arranged on one side of the adhesive tape pressing part and used for fixing the cutter, and the adhesive tape cutter fixing seat is connected with the second sliding rail in a sliding manner; and the number of the first and second groups,

and the second cylinder is connected with the supporting plate component and drives the adhesive tape cutter fixing seat to slide up and down along the second sliding rail.

The utility model discloses in, the moulding tape part includes:

the adhesive tape head-lifting pressing block is arranged between the cutter and the tensioning assembly and is used for pressing the front end of the non-encapsulated adhesive tape;

the adhesive tape anti-jumping press block is arranged above the adhesive tape starting-up press block and used for preventing the adhesive tape from jumping out;

the compression block after rubber cutting is arranged on one side, away from the tensioning assembly, of the cutter and used for compressing the tail end of the rubber belt after rubber coating; and

and the third cylinder is positioned at the bottom end of the adhesive tape head jacking block and is connected with one side of the supporting plate component, and the third cylinder drives the adhesive tape head jacking block to move up and down so as to control the opening and closing between the adhesive tape head jacking block and the adhesive tape anti-jumping block.

The utility model discloses in, still be provided with sticky tape detection device between tensioning assembly and the shearing module, sticky tape detection device is used for responding to the starved adhesive.

The utility model discloses in, the backup pad part includes:

the first adhesive tape vertical plate is vertically arranged on the first slide rail, and the projection of the first adhesive tape vertical plate on the fixing plate is parallel to the extending direction of the first slide rail; and

the second adhesive tape vertical plate is vertically arranged at one end of the long edge of the first slide rail, is connected with one end of the first adhesive tape vertical plate, which is far away from the gluing component, and is used for protecting a component;

jacketing machine rubber coating mechanism still includes the barricade subassembly, the barricade subassembly sets up on the backup pad part for protection jacketing machine rubber coating mechanism.

The utility model discloses in, first slide rail tip is provided with spacing fixed block, spacing fixed block is located the second sticky tape riser is kept away from rubberizing subassembly one side, spacing fixed block is used for injecing the backup pad eye the sliding position of first slide rail.

The utility model also provides a jacketing machine, it includes as above jacketing machine rubber coating mechanism.

The utility model discloses compare in prior art, its beneficial effect is: the utility model discloses a film is deposited through the rubberizing subassembly to jacketing machine rubber coating mechanism, and tensioning assembly carries out the tensioning operation to the sticky tape, cuts the operation of cuting the film of subassembly after to the material loading, and the barricade subassembly protects the subassembly to make devices such as the manipulator of whole mechanism's cooperation rubber coating can accomplish the process of product rubber coating fast, greatly promote production efficiency.

The utility model not only ensures the accuracy of the product encapsulation processing, but also unifies the product specification in the mechanized production; and the assembly is protected by the retaining wall assembly, so that the pollution of dust in a workshop to rubber coating mechanism parts and rubber belts is reduced, the working environment of the rubber coating mechanism is improved, and the problem of poor quality of rubber coating products is avoided.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments are briefly introduced below, and the drawings in the following description are only corresponding drawings of some embodiments of the present invention.

Fig. 1 is a schematic overall structure diagram of a preferred embodiment of the jacketing machine encapsulation mechanism of the present invention.

Fig. 2 is a schematic structural diagram of a rubber belt pressing component of a preferred embodiment of the rubber coating mechanism of the jacketing machine of the present invention.

Fig. 3 is a schematic overall structure diagram of the preferred embodiment of the jacketing machine of the present invention.

The rubber coating mechanism has the reference numbers: the device comprises a supporting component 31, a fixing plate 311, a first sliding rail 311a, a supporting plate component 312, a first adhesive tape vertical plate 3121, a second adhesive tape vertical plate 3122, a limit fixing block 3123, a first moving cylinder 313, a gluing component 32, an adhesive tape fixing seat 321, an adhesive tape axle center 322, an adhesive tape guide block 323, an adhesive tape 324, a shearing component 33, a cutter 331, an adhesive tape pressing component 332, an adhesive tape starting head jacking block 3321, an adhesive tape anti-jumping press block 3322, a pressing block 3323 after cutting adhesive, a third cylinder 3324, an adhesive tape cutter fixing seat 333, a second cylinder 334, a tensioning component 34, a fixing vertical plate 341, a fixing transverse plate 342, a tension pressing cylinder 343, a tension pressing roller 344, a retaining wall component 35 and an adhesive tape detecting device 36; jacketing machine reference number: the automatic pipe penetrating mechanism 1, the main shaft mechanism 2, the quick rubber coating mechanism 3, the blanking mechanism 4, the double guide needle hitching leg mechanism 5, the automatic feeding mechanism 6 and the main panel 7.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by the skilled in the art without creative work belong to the protection scope of the present invention.

In the drawings, elements having similar structures are denoted by the same reference numerals.

The terms "first," "second," and the like in the terms of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, nor should they be construed as limiting in any way. The X-axis direction indicated in fig. 1 is the upward direction.

The present invention provides a preferable embodiment of the jacketing machine encapsulation mechanism capable of solving the above technical problems.

Referring to fig. 1, fig. 1 is a schematic view of an overall structure of a preferred embodiment of a jacketing machine encapsulation mechanism of the present invention. The utility model provides a jacketing machine rubber coating mechanism's preferred embodiment does: a rubber coating mechanism of a jacketing machine comprises a supporting component 13, a sizing component 32, a shearing component 33, a tensioning component 34, a retaining wall component 35 and a rubber belt detection device 36.

Wherein the supporting component 13 is used for supporting components, the supporting component 13 comprises a fixing plate 311 arranged horizontally, and a supporting plate component 312 arranged vertically on the fixing plate 311; the gluing component 32 is connected with the supporting plate component 312 and is used for conveying the adhesive tape to carry out the rubber coating operation; the cutting assembly 33 is arranged on one side of the gluing assembly 32, the cutting assembly 33 is connected with the supporting plate component 312, and the cutting assembly 33 is used for cutting the encapsulated adhesive tape.

The tensioning assembly 34 is arranged between the gluing assembly 32 and the cutting assembly 33, and the tensioning assembly 34 is connected with the supporting plate component 312, and the tensioning assembly 34 is used for tensioning the adhesive tape. Retaining wall assemblies 35 are provided on the support plate member 312 for shielding the jacketing machine encapsulation mechanism.

A tape detection device 36 is further arranged between the tensioning assembly 34 and the cutting assembly 33, and the tape detection device 36 is used for sensing the glue shortage. The adhesive tape detection device 36 can automatically detect the conditions of adhesive shortage and adhesive falling, and can alarm and stop when the product is not coated with adhesive, and the design of the adhesive tape is convenient to replace.

The utility model discloses a film is deposited through the rubberizing subassembly to jacketing machine rubber coating mechanism, and tensioning assembly carries out the tensioning operation to the sticky tape, cuts the operation of cuting the film of subassembly after to the material loading, and the barricade subassembly protects the subassembly to make devices such as the manipulator of whole mechanism's cooperation rubber coating can accomplish the process of product rubber coating fast, greatly promote production efficiency. The utility model not only ensures the accuracy of the product encapsulation processing, but also agrees with the product specification in the mechanized production; and the assembly is protected by the retaining wall assembly, so that the pollution of dust in a workshop to rubber coating mechanism parts and rubber belts is reduced, the working environment of the rubber coating mechanism is improved, and the problem of poor quality of rubber coating products is avoided.

The structure of the support assembly 13 in this embodiment will be described in detail with reference to fig. 1:

the fixing plate 311 in this embodiment is provided with a first slide rail 311a along the conveying direction of the adhesive tape, and one side of the bottom end of the supporting plate component 312 is provided with a first moving cylinder 313; the supporting plate member 312 is slidably connected to the first slide rail 311a, and the first moving cylinder 313 drives the supporting plate member 312 to horizontally slide along the first slide rail 311 a.

Further, referring to fig. 2, the supporting plate member 312 in this embodiment includes a first adhesive tape standing plate 3121 and a second adhesive tape standing plate 3122; the first adhesive tape vertical plate 3121 is vertically disposed on the first sliding rail 311a, and a projection of the first adhesive tape vertical plate 3121 on the fixing plate 311 is parallel to the extending direction of the first adhesive tape vertical plate 3121 and the first sliding rail 311 a. The second adhesive tape vertical plate 3122 is vertically disposed at one end of the long side of the first sliding rail 311a, and the second adhesive tape vertical plate 3122 is connected to one end of the first adhesive tape vertical plate 3121 away from the gluing assembly 32. The first adhesive tape vertical plate 3121 and the second adhesive tape vertical plate 3122 in this embodiment are matched to protect parts of the jacketing machine encapsulation mechanism, so that the safety of the mechanism in use is improved.

In this embodiment, the end of the first slide rail 311a is provided with a limiting fixing block 3123, the limiting fixing block 3123 is located on the side of the second adhesive tape vertical plate 3122 away from the gluing assembly, and the limiting fixing block 3123 is configured to limit the sliding position of the support plate component 312 along the first slide rail 311 a.

The supporting assembly 13 has the advantages that the first sliding rail 311a is arranged on the fixed plate 311, the first moving cylinder 313 drives the supporting plate part 312 to horizontally slide along the first sliding rail 311a, so that the position of the part of the rubber coating mechanism connected with the supporting plate part 312 on the fixed plate 311 can be adjusted, and the practicability of the mechanism is improved.

The structure of the glue applying assembly 32 in the present embodiment will be described in detail with reference to fig. 1:

the gluing component 32 comprises a tape fixing seat 321, a tape axis 322 and a tape guide block 323; wherein the tape holder 321 is connected to the supporting plate member 312; the tape axle 322 is arranged on the tape fixing seat 321, and the tape axle 322 is used for placing a film 324; the adhesive tape guide blocks 323 are provided in two groups, the two groups of adhesive tape guide blocks 323 are connected with the supporting plate component 312 through adhesive tape guide brackets, and the two groups of adhesive tape guide blocks 323 are respectively arranged on two sides of the adhesive tape 324 oppositely and used for guiding the output of the adhesive tape and improving the stability of the adhesive tape conveyed by the adhesive tape 324.

The structure of the tension assembly 34 in this embodiment is explained in detail with reference to fig. 1:

the tensioning assembly 34 comprises a fixed vertical plate 341, a fixed transverse plate 342, a tension pressing cylinder 343 and a tension pressing roller 344; wherein the fixed vertical plate 341 is vertically disposed above the fixed plate 311, and the fixed vertical plate 341 is connected with the supporting plate part 312; the fixed transverse plate 342 is horizontally arranged on one side of the fixed vertical plate 341 close to the adhesive tape, and the fixed transverse plate 342 is used for supporting the component; the tension pressing cylinder 343 is connected with the fixed transverse plate 342; the tension pressing roller 344 is disposed above the adhesive tape, and the tension pressing roller 344 is connected to an output end of the tension pressing cylinder 343.

The tension pressing cylinder 343 drives the tension pressing roller 344 to move up and down, thereby performing a tape tensioning operation. The tension pressing roller 344 includes a first initial position and a first tension position for tensioning the adhesive tape on the movement locus; wherein the first tensioning position is below the first initial position. The tensioning assembly 34 drives the tension pressing roller 344 to move up and down through the tension pressing cylinder 343, so that the rubber belt is tensioned, the tension of the rubber coating rubber belt is increased, and the quality of the rubber coating mechanism for coating the product is improved.

The structure of the shear assembly 33 in this embodiment will be described in detail with reference to fig. 1:

in this embodiment, a second slide rail is vertically disposed on one side of the supporting plate 312. The cutting assembly 33 in this embodiment includes a cutter 331, a tape pressing member 332, a tape cutter holder 333, and a second cylinder 334; the cutter 331 is disposed at one side of the supporting plate member 312, and the cutter 331 is used to cut the adhesive tape; the adhesive tape pressing component 332 is arranged on one side of the cutting knife 331 close to the tensioning component 34, and the adhesive tape pressing component 332 is used for pressing the front end of the adhesive tape; the adhesive tape cutter fixing seat 333 is arranged on one side of the adhesive tape pressing component 332, the adhesive tape cutter fixing seat 333 is used for fixing the cutter 331, and the adhesive tape cutter fixing seat 333 is connected with the second sliding rail in a sliding manner; the second cylinder 334 is connected to the supporting plate 312, and the second cylinder 334 drives the tape cutter fixing seat 333 to slide up and down along the second slide rail.

With reference to fig. 2, fig. 2 is a schematic structural diagram of a tape pressing component according to a preferred embodiment of the jacketing machine encapsulation mechanism of the present invention. The structure of the tape pressing member 332 in the present embodiment will be explained in detail:

the adhesive tape pressing component 332 comprises an adhesive tape head-up pressing block 3321, an adhesive tape anti-jumping pressing block 3322, a pressing block 3323 after adhesive cutting and a third air cylinder 3324; the adhesive tape head jacking block 3321 is arranged between the cutter 331 and the tensioning assembly 34, and the adhesive tape head jacking block 3321 is used for jacking the front end of the non-encapsulated adhesive tape; the adhesive tape anti-jumping press block 3322 is arranged above the adhesive tape head jacking press block 3321, and the adhesive tape anti-jumping press block 3322 is used for preventing the adhesive tape from jumping out; the post-rubber-cutting pressing block 3323 is arranged on one side of the cutter 331 away from the tensioning assembly 34, and the post-rubber-cutting pressing block 3323 is used for pressing the tail end of the rubber belt after rubber coating; the height of the top end of the pressing block 3323 after the rubber is cut is lower than that of the top end of the cutter 331. The third cylinder 3324 is located at the bottom end of the tape lift-up block 3321 and is connected to one side of the support plate member 312, and the third cylinder 3324 drives the tape lift-up block 3321 to move up and down, thereby controlling the opening and closing between the tape lift-up block 3321 and the tape anti-jumping block 3322.

The framework of the shearing assembly 33 is skillfully designed, and the front end of the adhesive tape is pressed through the opened and closed adhesive tape pressing component 332; the cutter 331 and the post-rubber-cutting pressing block 3323 move simultaneously under the driving of the third cylinder 3324, and when the cutter 331 cuts the adhesive tape, the post-rubber-cutting pressing block 3323 presses the tail end of the rubber coating of the product upwards, so that the practicability of the cutting assembly 33 and the quality of the product after rubber coating are improved.

The retaining wall assembly 35 of the present embodiment will be explained with reference to fig. 1 and 2:

the retaining wall assembly 35 in this embodiment includes a first baffle plate connected to the first adhesive tape standing plate 3121. Preferably, the jacketing machine encapsulation mechanism in this embodiment is provided with a plurality of groups, and a first baffle is fixed at the top end of the side wall of the first adhesive tape vertical plate 3121 of each group of jacketing machine encapsulation mechanism. The mechanism is provided with a bag retaining wall component 35, so that the safety of the mechanism component in the working process is improved.

As shown in fig. 3, fig. 3 is a schematic overall structure diagram of a preferred embodiment of the jacketing machine of the present invention.

The present invention provides a preferable embodiment of a jacketing machine capable of solving the above technical problems.

The utility model also provides a jacketing machine, it includes main panel 7, automatic poling mechanism 1, unloading mechanism 4, automatic feeding mechanism 6, two guide pin hitching leg mechanism 5, main shaft mechanism 2 and jacketing machine rubber coating mechanism 3 as explained above. Wherein the main panel 7 is used for fixing the components; the automatic pipe penetrating mechanism 1 is arranged on the main panel 7, and the automatic pipe penetrating mechanism 1 is used for performing pipe penetrating operation on winding; the automatic feeding mechanism 6 is arranged on the main panel 7, and the automatic feeding mechanism 6 is used for conveying winding materials; the double guide needle hitching leg mechanism 5 is arranged between the automatic pipe penetrating mechanism 1 and the automatic feeding mechanism 6, and the double guide needle hitching leg mechanism 5 is used for clamping a starting sleeve and a ending sleeve and hitching legs on a product; the jacketing machine encapsulation mechanism 3 is arranged on the main panel 7, the jacketing machine encapsulation mechanism 3 is located on one side of the automatic feeding mechanism 6, and the jacketing machine encapsulation mechanism 3 is used for encapsulating products; the main shaft mechanism 2 is arranged on the main panel 7, and the main shaft mechanism 2 is positioned among the mechanisms and is used for clamping the sleeve to move so as to be matched with the mechanisms to work; the blanking mechanism 4 is arranged on the main panel 7, and the blanking mechanism 4 is used for blanking finished products.

With reference to fig. 1 and 2, the working principle of the jacketing machine rubber coating mechanism of the present invention is explained:

firstly, before the rubber coating mechanism of the jacketing machine performs rubber coating, the rubber belt head jacking block 3321 is positioned at the upper position, and the cutter 331 is positioned at the lower position.

The adhesive tape passes through between the adhesive tape head-up pressing block 3321 and the adhesive tape anti-jumping pressing block 3322, and the second cylinder 334 drives the adhesive tape head-up pressing block 3321 to move upwards, so that the adhesive tape head-up pressing block 3321 and the adhesive tape anti-jumping pressing block 3322 are pressed against each other, and the adhesive tape head is clamped. The cutting knife 331 is in a pre-cutting state away from the tape.

And secondly, the manipulator picks the product to automatically encapsulate the rubber.

During encapsulation, the second cylinder 334 drives the tape lift pressing block 3321 to move downwards, so that the tape lift pressing block 3321 and the tape anti-jump pressing block 3322 are far away from each other, and the tape lift pressing block 3321 and the tape anti-jump pressing block 3322 loosen the tape.

And thirdly, finishing encapsulation.

Fourthly, the adhesive tape is cut by the cutter 331.

The height of the top end of the pressing block after gluing is lower than that of the top end of the cutter 331. When the adhesive tape is cut, the third cylinder 3324 drives the cut-adhesive-back pressing block 3323 to move upwards, and meanwhile, the adhesive tape cutter fixing seat 333 and the cutter 331 are pushed to move upwards to cut off the adhesive tape. The cutter 331 and the post-rubber-cutting pressing block 3323 move simultaneously under the driving of the third cylinder 3324, and when the cutter 331 cuts the adhesive tape, the post-rubber-cutting pressing block 3323 presses the tail end of the rubber coating of the product upwards, so that the practicability of the cutting assembly 33 and the quality of the product after rubber coating are improved.

And fifthly, completing a complete encapsulation process.

This completes the encapsulation operation of the jacketing machine encapsulation mechanism of the preferred embodiment.

In addition, the rubber coating mechanism of the jacketing machine in this embodiment is provided with a rubber belt detection device 36, and the rubber belt detection device 36 is used for sensing rubber shortage; in the working process, the adhesive tape is dragged to rotate, so that the machine is stopped when the adhesive tape is coated or used up.

In summary, although the present invention has been described with reference to the preferred embodiments, the above-described preferred embodiments are not intended to limit the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, so that the scope of the present invention shall be determined by the scope of the appended claims.

Claims (10)

1. A rubber coating mechanism of a jacketing machine; it is characterized by comprising:

the supporting assembly is used for supporting the components and comprises a fixing plate which is horizontally arranged and a supporting plate component which is vertically arranged on the fixing plate;

the gluing component is connected with the supporting plate component and is used for conveying a rubber belt to perform rubber coating operation;

the cutting assembly is arranged on one side of the gluing assembly, is connected with the supporting plate component and is used for cutting the rubber-coated adhesive tape; and

the tensioning assembly is arranged between the gluing assembly and the shearing assembly and used for tensioning the adhesive tape.

2. The jacketing machine encapsulation mechanism according to claim 1, wherein the fixed plate is provided with a first slide rail along the tape conveying direction, and one side of the bottom end of the support plate component is provided with a first moving cylinder;

the supporting plate component is connected with the first sliding rail in a sliding mode, and the first moving cylinder drives the supporting plate component to horizontally slide along the first sliding rail.

3. The jacketing machine encapsulation mechanism of claim 1, wherein the glue assembly comprises:

the adhesive tape fixing seat is connected with the supporting plate component;

the adhesive tape axis is arranged on the adhesive tape fixing seat and used for placing an adhesive tape; and

the adhesive tape guide blocks are arranged in two groups, the two groups of adhesive tape guide blocks are connected with the supporting plate component through adhesive tape guide supports, and the two groups of adhesive tape guide blocks are respectively and oppositely arranged on two sides of the adhesive tape and used for guiding the output of the adhesive tape.

4. The jacketing machine encapsulation mechanism of claim 1, wherein the tensioning assembly comprises:

the fixed vertical plate is vertically arranged above the fixed plate and is connected with the supporting plate component;

the fixed transverse plate is horizontally arranged on one side of the fixed vertical plate, which is close to the adhesive tape, and is used for supporting the component;

the tension pressing cylinder is connected with the fixed transverse plate; and

the tension pressing roller is arranged above the adhesive tape and is connected with the output end of the tension pressing cylinder;

the tension pressing cylinder drives the tension pressing roller to move up and down, so that the adhesive tape is tensioned.

5. The jacketing machine encapsulation mechanism of claim 1, wherein a second slide rail is vertically disposed on one side of the support plate member, and the shear assembly comprises:

the cutter is arranged on one side of the supporting plate component and is used for cutting the adhesive tape;

the adhesive tape pressing component is arranged on one side, close to the tensioning component, of the cutter and is used for pressing the front end of the adhesive tape;

the adhesive tape cutter fixing seat is arranged on one side of the adhesive tape pressing part and used for fixing the cutter, and the adhesive tape cutter fixing seat is connected with the second sliding rail in a sliding manner; and the number of the first and second groups,

and the second cylinder is connected with the supporting plate component and drives the adhesive tape cutter fixing seat to slide up and down along the second sliding rail.

6. The jacketing machine encapsulation mechanism of claim 5, wherein the adhesive tape pressing component comprises:

the adhesive tape head-lifting pressing block is arranged between the cutter and the tensioning assembly and is used for pressing the front end of the non-encapsulated adhesive tape;

the adhesive tape anti-jumping press block is arranged above the adhesive tape starting-up press block and used for preventing the adhesive tape from jumping out;

the compression block after rubber cutting is arranged on one side, away from the tensioning assembly, of the cutter and used for compressing the tail end of the rubber belt after rubber coating; and

and the third cylinder is positioned at the bottom end of the adhesive tape head jacking block and is connected with one side of the supporting plate component, and the third cylinder drives the adhesive tape head jacking block to move up and down so as to control the opening and closing between the adhesive tape head jacking block and the adhesive tape anti-jumping block.

7. The jacketing machine encapsulation mechanism according to claim 3, wherein a tape detection device is further arranged between the tensioning assembly and the shearing assembly, and the tape detection device is used for sensing the lack of glue.

8. The jacketing machine encapsulation mechanism of claim 2, wherein the support plate component comprises:

the first adhesive tape vertical plate is vertically arranged on the first slide rail, and the projection of the first adhesive tape vertical plate on the fixing plate is parallel to the extending direction of the first slide rail; and

the second adhesive tape vertical plate is vertically arranged at one end of the long edge of the first slide rail, is connected with one end of the first adhesive tape vertical plate, which is far away from the gluing component, and is used for protecting a component;

jacketing machine rubber coating mechanism still includes the barricade subassembly, the barricade subassembly sets up on the backup pad part for protection jacketing machine rubber coating mechanism.

9. The jacketing machine rubber coating mechanism of claim 8, wherein, the end of the first slide rail is provided with a limit fixing block, the limit fixing block is positioned on the side of the second adhesive tape vertical plate far away from the gluing component, and the limit fixing block is used for limiting the sliding position of the first slide rail of the support plate hole.

10. A jacketing machine comprising the jacketing machine encapsulation mechanism of any of claims 1-9.

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