CN220041582U - Multi-functional jacketing machine rubber coating device - Google Patents

Abstract

The utility model provides a multi-functional jacketing machine rubber coating device, this rubber coating device includes a mounting bracket and the rubber coating module of symmetrical distribution in the left and right sides of this mounting bracket; the rubber coating module comprises a rubber belt unreeling mechanism, a tensioning rubber belt collecting mechanism, a rubber belt positioning wheel set, a rubber coating mechanism and a rubber belt tearing mechanism which are sequentially arranged along the rubber belt conveying direction; the tape pulling mechanism comprises a tape pulling clamp, a pushing clamp cylinder for driving the tape pulling clamp to linearly move, and a limiting structure for limiting the linear movement distance of the tape pulling clamp; the limiting structure and the pushing clamp cylinder are respectively arranged at two sides of the glue pulling direction of the glue pulling belt clamp. According to the scheme, the rubber coating modules on two sides are symmetrically designed, the two rubber pulling belt clamps are respectively and independently controlled, the cooperation of the rubber pulling belt clamps can limit the limiting structure of the linear movement distance of the rubber pulling belt clamps, the rubber pulling belt clamps can be simultaneously suitable for various rubber coating processes, the use is more flexible, the mechanical cost is reduced, the winding main shaft can move on two sides of the rubber coating device, the route is extremely short, the production efficiency of the whole machine is effectively improved, and the stability of the whole machine is better.

Description

Multi-functional jacketing machine rubber coating device

Technical Field

The utility model relates to the field of transformer processing, in particular to a multifunctional jacketing machine rubber coating device.

Background

The jacketing machine encapsulation mechanism generally has three technological actions to be completed in the winding process of the transformer product: insulating tape (including continuous package), retaining wall tape and reverse folding tape. The three kinds of technological actions have different requirements, and the required adhesive tape has different lengths corresponding to the technological requirements of different products. In addition, the three processes described above may also require different lengths of tape for the extension applications, such as: when the retaining wall adhesive tape is used as the winding wire pressing adhesive tape (the winding wire pressing end is adhered to the transformer framework by the retaining wall adhesive tape), the length requirement of the retaining wall adhesive tape for pressing wires is short.

Therefore, the insulating tape pulling clamp and the retaining wall tape pulling clamp of the encapsulation mechanism in the market at present are of a structure capable of advancing and retreating simultaneously, and cannot simultaneously meet the process requirements of tapes with different lengths, for example, the continuous encapsulation mechanism of the transformer with the application number 202011105347.4 applied before the company. If the process requirements of the adhesive tapes with different lengths are required to be met, the adhesive tapes can be realized only by adding an air cylinder or an adding mechanism, so that the cost is increased, and the working efficiency of the whole machine is reduced.

The following describes the encapsulation of three processes of encapsulation, wrapping a wall tape and reverse folding the tape in the prior art in the market:

specifically, two schemes are provided:

scheme 1: a first-stage air cylinder is added before the pushing and clamping air cylinder to drive the rubber belt pulling clamp. One of the cylinders works during encapsulation; when the adhesive tape is reversely folded, the two air cylinders work simultaneously to obtain a shorter adhesive tape.

There are two problems with this approach: a. as the prior art in the market adopts a push-clamping cylinder, a first-stage cylinder is additionally arranged on the push-clamping cylinder, so that the complexity of the mechanism is increased, and the running stability is also influenced; b. when the short adhesive tape is needed, the limit design is complex, and the implementation difficulty is high.

Scheme 2: and a set of rubber coating mechanism which is specially used for obtaining a short rubber belt, performing a reverse folding rubber belt process or completing the process of using the retaining wall rubber belt as a lifting wire pressing rubber belt is added.

The proposal requires the main shaft to move back and forth between the two rubber coating mechanisms with the framework, and the operation efficiency of the whole machine is reduced.

Both of the above solutions greatly increase the cost of the encapsulation mechanism, and therefore how to solve the above-mentioned drawbacks of the prior art is the subject of the present utility model.

Disclosure of Invention

The utility model aims to provide a multifunctional jacketing machine encapsulation device.

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

the utility model provides a multi-functional jacketing machine rubber coating device, this rubber coating device includes a mounting bracket and the rubber coating module of symmetrical distribution in this mounting bracket left and right sides, two rubber coating modules are located the below of wire winding main shaft;

the rubber coating module comprises a rubber belt unreeling mechanism, a tensioning rubber belt collecting mechanism, a rubber belt positioning wheel set, a rubber coating mechanism and a rubber belt tearing mechanism which are sequentially arranged along the rubber belt conveying direction;

the adhesive tape pulling mechanism comprises an adhesive tape pulling clamp, a pushing clamp cylinder for driving the adhesive tape pulling clamp to linearly move, and a limiting structure for limiting the linear movement distance of the adhesive tape pulling clamp;

the limiting structure and the pushing and clamping air cylinder are respectively arranged at two sides of the glue pulling direction of the glue pulling belt clamp.

The most obvious difference between the scheme and the existing jacketing machine encapsulation mechanism in the current market is that: the insulation tape pulling clamp and the retaining wall tape pulling clamp are not clearly distinguished, and are unified into the tape pulling clamp. The structure of the insulating tape pulling clamp and the retaining wall pulling tape pulling clamp which need to advance and retreat simultaneously is improved into two separately controlled tape pulling clamps. The structure has the advantages of more flexible use and more adaptive process operation, for example, the structure can be simultaneously adaptive to an encapsulation process, a retaining wall wrapping process, a reverse folding process and the like, and simultaneously reduces the mechanical cost when being adaptive to a complex process.

The rubber coating modules on two sides are basically symmetrically designed, and the structure is simple and easy to assemble.

In a further scheme, the rubber tearing belt clamp is arranged on a sliding rail in a sliding manner through a sliding block, and the sliding rail is arranged on the mounting frame.

In a further scheme, the limit structure comprises a mounting block and limit air cylinders or limit screws arranged on two sides of the mounting block, and the limit air cylinders or the limit screws on two sides correspond to the sliding blocks connected with the two rubber belt clips respectively.

In a further scheme, the installation block is detachably connected to the sliding rail corresponding to the tail end of the rubber belt pulling clamp, and the pushing clamp cylinder is arranged on the installation frame corresponding to the head end of the rubber belt pulling clamp.

In a further scheme, the middle part embedding of installation piece sets up in the mounting bracket with in the notch that forms between the slide rail tail end, and through the screw with the notch can dismantle the connection.

In a further scheme, the tensioning and tape-collecting mechanism comprises a pull rod, the pull rod is arranged in parallel with the positioning wheel of the tape positioning wheel set, and the pull rod is used for tensioning and recovering the tape under the driving of a tape-collecting cylinder. The adhesive tape collecting cylinder realizes the adhesive tape collecting action of the continuous packaging process, and has the advantages of simple and stable structure, low cost and convenient expansion.

In a further scheme, one end of the pull rod is rotatably connected with a rotating roller, and the rotating roller is arranged in the linear rail groove of the mounting frame in a rolling mode.

In a further scheme, 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 a rubber belt pulled out by the rubber belt pulling mechanism, and a winding main shaft is arranged above the rubber belt.

In a further scheme, the glue pressing assembly comprises a glue pressing rod and a glue pressing block which are distributed up and down, and a glue pressing belt pushing cylinder for driving the glue pressing block to move up and down, wherein the glue pressing rod is rotationally connected to the mounting frame.

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

according to the scheme, the rubber coating modules at two sides are basically symmetrically designed, two rubber tearing belt clamps of the two rubber coating modules are respectively and independently controlled, and the rubber tearing belt clamps are matched with a limiting structure capable of limiting the linear movement distance of the rubber tearing belt clamps, so that the length of the rubber tearing belt can be flexibly controlled, and then the rubber coating process, the retaining wall wrapping process, the reverse folding process and the like can be simultaneously adapted; meanwhile, when the device is suitable for complex processes, the mechanical cost is reduced, the whole device is basically symmetrically designed, and the device is simple in structure and easy to assemble;

because the two rubber tearing belt clamps are symmetrically arranged and can be controlled independently, when one rubber coating device completes various processes, the winding main shaft can drive the framework to move at two sides of the rubber coating device, the route is extremely short, the production efficiency of the whole machine is effectively improved, and meanwhile, the stability of the whole machine is better;

the limiting structure and the pushing and clamping air cylinder are respectively arranged at two sides of the pulling direction of the pulling tape clamp, so that the problems of complex structure, unstable operation of the pulling tape clamp and the like caused by the arrangement of the limiting structure and the pushing and clamping air cylinder at the same side can be avoided; the pushing and clamping cylinders are arranged on two sides of the mounting frame, so that the mounting is convenient, the integration level of the device is high, and the volume is prevented from being bulked;

the tensioning tape collecting mechanism of the scheme only adopts the tape collecting cylinder and a few parts, when the tape collecting is not needed, the top rod of the tape collecting cylinder is retracted, when the tape collecting is needed, the top rod of the tape collecting cylinder is ejected, the tape collecting length is completely determined by the length of the matched tape collecting cylinder, and the tensioning tape collecting mechanism is simple and stable, low in cost and convenient to expand.

Drawings

FIG. 1 is a front right side isometric view of an embodiment of the present utility model;

FIG. 2 is a front left side isometric view of an embodiment of the present utility model;

FIG. 3 is a rear right side isometric view of an embodiment of the present utility model;

fig. 4 is a rear left side isometric view of an embodiment of the utility model.

In the above figures: 1. a mounting frame; 11. a linear rail groove; 2. a rubber coating module; 21. an adhesive tape unreeling mechanism; 22. tensioning and tape collecting mechanism; 221. a pull rod; 222. an adhesive tape collecting cylinder; 223. a rotating roller; 23. a tape positioning wheel set; 24. a rubber coating mechanism; 241. a glue pressing assembly; 2411. a glue pressing rod; 2412. pressing a glue block; 2413. the adhesive tape is pressed to push the air cylinder; 242. an adhesive tape cutting assembly; 2421. a cutting blade; 2422. the cutter pushes the air cylinder; 243. a glue rubbing assembly; 2431. a rubber belt wheel is rubbed; 2432. the rubber belt wheel is rubbed to push the cylinder; 25. a tape pulling mechanism; 251. pulling the adhesive tape clamp; 252. a pushing and clamping cylinder; 253. a limit structure; 2531. a mounting block; 2532. a limit cylinder; 2533. a limit screw; 3. a slide rail; 4. a sliding block.

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. 1-4, a multifunctional jacketing machine rubber coating device comprises a mounting frame 1 and rubber coating modules 2 symmetrically distributed on the left side and the right side of the mounting frame 1, wherein the two rubber coating modules 2 are positioned below a winding main shaft;

the rubber coating module 2 comprises a rubber belt unreeling mechanism 21, a tensioning and reeling mechanism 22, a rubber belt positioning wheel set 23, a rubber coating mechanism 24 and a rubber belt tearing mechanism 25 which are sequentially arranged along the rubber belt conveying direction;

the tape pulling mechanism 25 includes a tape pulling clip 251, a pushing clip cylinder 252 for driving the tape pulling clip 251 to move linearly, and a limiting structure 253 for limiting the linear movement distance of the tape pulling clip 251; the pulling belt clamp 251 is slidably arranged on the sliding rail 3 through a sliding block 4, the sliding rail 3 is arranged on the mounting frame 1, and the two sliding blocks 4 can share one sliding rail 3;

the limiting structure 253 and the pushing and clamping air cylinder 252 are respectively disposed at two sides of the pulling direction of the pulling belt clamp 251, as shown in fig. 1-4, the limiting structure 253 is disposed at the tail end of the pulling belt clamp 251 and is mounted on the sliding rail 3, and the pushing and clamping air cylinder 252 is disposed at two sides of the head end of the pulling belt clamp 251 and is mounted on the mounting frame 1.

Specifically, the limiting structure 253 includes a mounting block 2531 and limiting cylinders 2532 or limiting screws 2533 mounted on two sides of the mounting block 2531, and the limiting cylinders 2532 or the limiting screws 2533 on two sides respectively correspond to the sliding blocks 4 connected with the two tape clips 251; the mounting block 2531 is detachably connected to the sliding rail 3 corresponding to the tail end of the pulling belt clip 251, and the pushing and clamping cylinder 252 is disposed on the mounting frame 1 corresponding to the head end of the pulling belt clip 251. Specifically, the middle part of the mounting block 2531 is embedded and arranged in a notch formed between the mounting frame 1 and the tail end of the sliding rail 3, and is detachably connected with the notch through a screw.

By arranging the limiting structure 253 and the pushing and clamping air cylinder 252 on two sides of the pulling direction of the pulling tape clamp 251 respectively, the problems that the limiting structure 253 and the pushing and clamping air cylinder 252 are arranged on the same side to cause complex structure, the pulling tape clamp 251 is unstable in operation and the like can be avoided; and push away and press from both sides cylinder 252 setting in the both sides of mounting bracket 1, the installation of also being convenient for, and the device integrated level is high, avoids the volume to be bloated.

The limiting cylinder 2532 and the limiting screw 2533 can be selectively used according to the size of the transformer framework, for example, when the transformer framework is smaller, the limiting screw 2533 can be adopted, and otherwise, the limiting cylinder 2532 is adopted.

The adhesive tape positioning wheel set 23 comprises two positioning wheels which are sequentially arranged along the adhesive tape conveying direction.

Currently, there are basically two types of tape-receiving technologies for the existing encapsulation mechanism 24 in the market, namely: a. reversing the motor to collect the adhesive tape; b. and (5) adopting a counterweight or lever mechanism to collect the adhesive tape. However, these solutions have problems of high cost and complicated mechanism.

The tensioning and tape-collecting mechanism 22 comprises a pull rod 221, wherein the pull rod 221 is arranged in parallel with the positioning wheel of the tape positioning wheel group 23, and the pull rod 221 is driven by a tape-collecting cylinder 222 to tension and collect the tape; one end of the pull rod 221 is rotatably connected with a rotating roller 223, the rotating roller 223 is connected with the pull rod 221 through a bearing, and the rotating roller is arranged in the linear rail groove 11 of the mounting frame 1 in a rolling way, and the linear rail groove 11 is consistent with the glue pulling direction. In the encapsulation process, when the pushing and clamping cylinder 252 drives the tape pulling clamp 251 to move, the flat pulling traction of the adhesive tape can be realized, and the pull rod 221 is close to the adhesive pulling direction; after the traction is completed, the adhesive tape collecting cylinder 222 drives the pull rod 221 to horizontally and outwards move, namely, the pull rod 221 is far away from the adhesive tape pulling direction, the adhesive tape is pulled outwards, and the adhesive tape is tensioned, so that the encapsulation quality is ensured. After the encapsulation is finished, the tensioning and tape-collecting mechanism 22 automatically and synchronously tensions the adhesive tape to prevent the adhesive tape from loosening and adhering to influence the continuous package.

Therefore, the adhesive tape collecting technology of the technical scheme only adopts the adhesive tape collecting cylinder 222 and a few parts, when the adhesive tape is not needed to be collected, the top rod of the adhesive tape collecting cylinder 222 is retracted, when the adhesive tape is needed to be collected, the top rod of the adhesive tape collecting cylinder 222 is ejected, the adhesive tape collecting length is completely determined by the length of the adhesive tape collecting cylinder 222, the ejection force of the cylinder is controlled by controlling the airflow flow entering the adhesive tape collecting cylinder 222, and the mechanism is simple and stable.

The encapsulation mechanism 24 includes a glue pressing component 241, a glue cutting component 242 and a glue rubbing component 243 which are sequentially arranged along the transportation direction of the glue, the glue pressing component 241, the glue cutting component 242 and the glue rubbing component 243 are vertically distributed below the glue pulled out by the glue pulling mechanism 25, and the winding spindle is arranged above the glue. The glue pressing assembly 241 includes a glue pressing rod 2411 and a glue pressing block 2412 which are vertically distributed, and a glue pressing belt pushing cylinder 2413 for driving the glue pressing block 2412 to move vertically, wherein the glue pressing rod 2411 is rotatably connected to the mounting frame 1 through a bearing. The tape cutting assembly 242 includes a cutting blade 2421 and a cutter pushing cylinder 2422 for driving the cutting blade 2421 up and down. The glue rubbing assembly 243 comprises a glue rubbing belt wheel 2431 and a glue rubbing belt wheel pushing cylinder 2432 for driving the glue rubbing belt wheel 2431 to move up and down. Each pushing cylinder is arranged on the mounting frame 1.

When the adhesive tape is wrapped, the adhesive tape is unreeled through the adhesive tape unreeled mechanism 21, and wound around the tension and retraction adhesive tape mechanism 22 and the adhesive tape positioning wheel set 23, and spans the encapsulation mechanism 24, and finally is clamped and pulled through the adhesive tape pulling mechanism 25.

The winding main shaft moves to the upper part of the glue rubbing assembly 243 under the driving of the three-coordinate driving platform, the glue rubbing belt wheel pushes the air cylinder 2432 to drive the glue rubbing belt wheel 2431 to move upwards, so that the adhesive tape is attached to the framework, the adhesive tape clamping air cylinder releases the adhesive tape, the winding main shaft drives the framework and the adhesive tape on the framework to be attached to the glue rubbing belt wheel 2431, and one end of the adhesive tape is completely rubbed and attached to the framework by the glue rubbing belt wheel 2431.

The winding spindle drives the framework to rotate, the adhesive tape is wound, at the moment, 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 unreeling mechanism 21.

Finally, the tape pressing cylinder 2413 drives the tape pressing block 2412 to move upwards and contact with the tape pressing rod 2411, at this time, the other end of the tape is pressed and fixed, the cutter pushing cylinder 2422 drives the cutter blade 2421 to move upwards, the tape at the end is cut off, and at this time, the framework completes one-time encapsulation.

However, when the above-mentioned encapsulation process package is used as the retaining wall tape or the reverse-folding tape of the wire-pulling and pressing tape, before the push-clamping cylinder 252 drives the tape-pulling clamp 251 to pull out the tape, the limit cylinder 2532 or the limit screw 2533 is started to make the ejection end close to the encapsulation mechanism 24, i.e. the distance that the tape-pulling clamp 251 pulls the tape to the rear side is shortened, and the length of the pulled tape is precisely limited.

The whole device is matched with a winding spindle, a pipeline winding device and the like, and three processes of the retaining wall adhesive tape, the insulating adhesive tape and the reverse-folding adhesive tape can be realized. In addition, the technology adopts two pushing and clamping air cylinders 252 respectively, and the pushing and clamping air cylinders work independently, so that the technology is very flexible in coping with various technological schemes.

For one product, the three processes of encapsulation, reverse folding of the adhesive tape and wrapping of the adhesive tape are required to be completed, as long as the adhesive tape is arranged on one side of the encapsulation module 2, the limit screw 2533 on the side is adjusted to a position which does not affect the adhesive tape wrapping of the adhesive tape or the limit cylinder 2532 on the side is not started. When the retaining wall adhesive tape is wrapped, the push-clamp cylinder 252 drives the adhesive tape pulling clamp 251 for clamping one end of the retaining wall adhesive tape when the push rod is retracted, then the push-clamp cylinder 252 ejects the adhesive tape, drives the adhesive tape pulling clamp 251 to pull out the retaining wall adhesive tape, and the winding spindle performs the next action of winding the retaining wall adhesive tape until the cutting and rubbing actions are completed.

The insulating tape is arranged on the rubber coating module 2 on the other side, when the reverse folding tape process is executed, the limiting cylinder 2532 works first, the limiting cylinder 2532 is ejected to play a limiting role, then the push-clamping cylinder 252 works, when the push rod of the push-clamping cylinder 252 is retracted, the tape pulling clamp 251 for clamping one end of the reverse folding tape is driven, when the push rod of the push-clamping cylinder 252 is ejected, the reverse folding tape is pulled out, and the pull-out length of the reverse folding tape is determined by the limiting cylinder 2532. And cutting the adhesive after the framework is stuck with the reverse folding adhesive tape, and finishing the action.

When the encapsulation is performed, the ram of the limit cylinder 2532 is retracted, canceling the non-limiting effect. The push rod of the push-clamping cylinder 252 can be completely ejected, so that a sufficient encapsulation space is reserved. And after the encapsulation is finished, the mechanism cuts and rubs the glue to complete the whole encapsulation process.

The whole process is simple and direct, the framework only moves on two sides of the rubber coating mechanism 24, the route is extremely short, the production efficiency of the whole machine is effectively improved, meanwhile, the stability of the whole machine is better, the structural layout of the whole device is reasonable, and the size is prevented from being bulky.

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 (9)

1. A multi-functional jacketing machine rubber coating device, its characterized in that: the rubber coating device comprises a mounting frame (1) and rubber coating modules (2) symmetrically distributed on the left side and the right side of the mounting frame (1);

the rubber coating module (2) comprises a rubber belt unreeling mechanism (21), a tensioning rubber belt collecting mechanism (22), a rubber belt positioning wheel set (23), a rubber coating mechanism (24) and a rubber belt tearing mechanism (25) which are sequentially arranged along the rubber belt conveying direction;

the tape pulling mechanism (25) comprises a tape pulling clamp (251), a pushing clamp cylinder (252) for driving the tape pulling clamp (251) to linearly move, and a limiting structure (253) for limiting the linear movement distance of the tape pulling clamp (251);

the limiting structure (253) and the pushing and clamping air cylinder (252) are respectively arranged at two sides of the glue pulling direction of the glue pulling belt clamp (251).

2. The multi-functional jacketing machine encapsulation device of claim 1 wherein: the rubber tearing belt clamp (251) is arranged on the sliding rail (3) in a sliding way through a sliding block (4), and the sliding rail (3) is arranged on the mounting frame (1).

3. The multi-functional jacketing machine encapsulation device of claim 2 wherein: the limiting structure (253) comprises a mounting block (2531) and limiting air cylinders (2532) or limiting screws (2533) mounted on two sides of the mounting block (2531), and the limiting air cylinders (2532) or the limiting screws (2533) on two sides are respectively corresponding to the sliding blocks (4) connected with the two rubber belt clips (251).

4. A multi-functional jacketing machine encapsulation device according to claim 3 wherein: the mounting block (2531) is detachably connected to the sliding rail (3) corresponding to the tail end of the rubber tearing belt clamp (251), and the pushing clamp cylinder (252) is arranged on the mounting frame (1) corresponding to the head end of the rubber tearing belt clamp (251).

5. The multi-functional jacketing machine encapsulation device of claim 4 wherein: the middle part embedding of installation piece (2531) sets up in the notch that forms between mounting bracket (1) with slide rail (3) tail end to through the screw with the notch can dismantle the connection.

6. The multi-functional jacketing machine encapsulation device of claim 1 wherein: the tensioning and tape-collecting mechanism (22) comprises a pull rod (221), the pull rod (221) is arranged in parallel with the positioning wheel of the tape positioning wheel set (23), and the pull rod (221) is used for tensioning and recovering the tape under the driving of a tape-collecting cylinder (222).

7. The multi-functional jacketing machine encapsulation device of claim 6 wherein: one end of the pull rod (221) is rotatably connected with a rotating roller (223), and the rotating roller (223) is arranged in the linear rail groove (11) of the mounting frame (1) in a rolling mode.

8. The multi-functional jacketing machine encapsulation device of claim 1 wherein: the rubber coating mechanism (24) comprises a rubber pressing assembly (241), a rubber belt cutting assembly (242) and a rubber rubbing assembly (243) which are sequentially arranged along the conveying direction of the rubber belt, wherein the rubber pressing assembly (241), the rubber belt cutting assembly (242) and the rubber rubbing assembly (243) are vertically distributed below the rubber belt pulled out by the rubber belt pulling mechanism (25), and a winding main shaft is arranged above the rubber belt.

9. The multi-functional jacketing machine encapsulation device of claim 8 wherein: the adhesive pressing assembly (241) comprises an adhesive pressing rod (2411) and an adhesive pressing block (2412) which are distributed up and down, and an adhesive pressing belt pushing cylinder (2413) for driving the adhesive pressing block (2412) to move up and down, wherein the adhesive pressing rod (2411) is rotationally connected to the mounting frame (1).