CN113327729B - Machining method and machining tool for insulating shielding sleeve - Google Patents

Abstract

The invention belongs to the technical field of insulating shielding sleeves, and discloses a processing method and a processing tool for an insulating shielding sleeve, wherein the processing tool comprises a profiling rod, a carrying platform, a fixing mechanism, a pushing block and a connecting device, the carrying platform is provided with a carrying plate, the carrying plate is provided with a profiling groove, the profiling rod is matched with the profiling groove, the fixing mechanism is arranged on one side of the profiling groove, the pushing block is arranged on the other side of the profiling groove, the lower surface of the pushing block is flush with the horizontal plane of the top of the profiling rod, the pushing block moves along the horizontal direction to push the insulating shielding soft plate on the other side of the tilted profiling groove to be bent around the profiling rod, the insulating shielding soft plate on the other side of the profiling groove after being bent is attached to the horizontal plane on the upper side of the profiling rod, the insulating shielding soft plates on the two sides of the profiling groove are directly opposite, the connecting device is connected with the insulating shielding soft plates on the two sides of the profiling groove to form the insulating shielding sleeve, the size of the cross section of the insulation shielding sleeve is the same as that of the cross section of the profiling rod, so that the manufacturing efficiency is improved, and the manufacturing cost is reduced.

Description

Processing method and processing tool for insulating shielding sleeve

Technical Field

The invention relates to the technical field of insulating shielding sleeves, in particular to a processing method and a processing tool for an insulating shielding sleeve.

Background

At present, when the insulation shielding sleeve applied to computer, communication and consumer electronic products is manufactured, the insulation shielding soft board needs to be bent manually, that is, the two sides of the insulation shielding soft board are bent manually to be overlapped, and the overlapped parts at the two sides of the insulation shielding soft board are connected together by adopting a gluing or welding mode. In order to adapt to a specific application scenario, the cross section of the insulation shielding sleeve needs to be made into a specific shape, but when the insulation shielding soft plate is bent manually, the size of the cross section of the insulation shielding sleeve cannot be ensured to meet the requirement, and further the manufactured insulation shielding sleeve may not meet the use requirement, so that the manufacturing efficiency is low, meanwhile, the manufacturing material is wasted, and the manufacturing cost is increased.

Therefore, the above problems need to be solved.

Disclosure of Invention

The invention aims to provide a processing method and a processing tool for an insulating shielding sleeve, so as to ensure that the size of the cross section of the insulating shielding sleeve meets the requirement, improve the manufacturing efficiency and reduce the manufacturing cost.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides a processing method of an insulation shielding sleeve, which comprises the following steps:

placing an insulation shielding soft board on a bearing plate, and fixing the insulation shielding soft board on one side of an imitated groove on the bearing plate;

the profiling rod descends into the profiling groove, and the insulation shielding soft plate on the other side of the profiling groove tilts;

bending the insulation shielding soft board on the other side of the tilted profiling groove around the profiling rod to be attached to the horizontal plane at the top of the profiling rod, and enabling the insulation shielding soft boards on the two sides of the profiling groove to face the insulation shielding soft boards;

and the insulation shielding soft board is connected with the two sides of the profiling groove.

Preferably, the insulation shielding flexible board connecting both sides of the contour groove includes:

bending the insulation shielding soft plate on the other side of the profiling groove around the profiling rod until the insulation shielding soft plate is opposite to the double-sided adhesive tape on the insulation shielding soft plate on one side of the profiling groove;

and rolling the surface of the insulation shielding soft board on the other side of the contour groove, which is far away from one side of the contour groove.

Preferably, the insulation shielding flexible printed circuit board connecting both sides of the contour groove further includes:

bending the insulation shielding soft board on the other side of the profiling groove around the profiling rod to be arranged at intervals with the insulation shielding soft board on one side of the profiling groove along the horizontal direction;

releasing the insulation shielding soft board on one side of the contour groove, and tilting the insulation shielding soft board on one side of the contour groove;

bending the insulation shielding soft board on one side of the profiling groove towards the insulation shielding soft board on the other side of the profiling groove around the profiling rod, wherein a double-faced adhesive tape on the insulation shielding soft board on one side of the profiling groove is opposite to the insulation shielding soft board on the other side of the profiling groove;

and rolling the surface of the insulation shielding soft board on one side of the profiling groove, which is far away from the surface of the insulation shielding soft board on the other side of the profiling groove.

Preferably, the flexible insulation shielding board connecting the two sides of the contour groove further includes:

bending the insulation shielding soft plate on the other side of the profiling groove around the profiling rod until the insulation shielding soft plate is opposite to the insulation shielding soft plate on one side of the profiling groove;

and welding the insulation shielding soft plates on two sides of the profiling groove.

The invention also provides a processing tool based on the processing method of the insulation shielding sleeve, the processing tool comprises the profiling rod, and the processing tool further comprises:

the bearing plate is arranged on the bearing platform, the profiling groove is formed in the bearing plate, and the profiling rod can move towards the profiling groove so that the insulation shielding soft board can be pressed between the profiling rod and the groove wall of the profiling groove;

the fixing mechanism is arranged on one side of the profiling groove;

the pushing block is arranged on the other side of the profiling groove, the lower surface of the pushing block is flush with the horizontal plane of the top of the profiling rod, and the pushing block can move in the horizontal direction to push the insulation shielding soft board on the other side of the tilted profiling groove; and

and the connecting device is configured to connect the insulation shielding soft boards on two sides of the contour groove so that the insulation shielding soft boards form an insulation shielding sleeve.

As preferred, connecting device includes the running roller, the running roller with the ejector pad sets up relatively, and be located respectively the both sides of loading board, the processing frock still includes:

the bearing plate is fixedly connected with the bearing platform;

the movable end of the first driving piece is connected with the push block; and

and the movable end of the second driving piece is connected with the roller.

Preferably, the pushing block is provided with an inclined plane, the outermost side of the flexible insulation shielding plate on one side of the bent profiling groove abuts against the inclined plane, and an included angle is formed between the flexible insulation shielding plate on one side of the profiling groove and a horizontal plane when the flexible insulation shielding plate is rolled by the roller, so that the double faced adhesive tape on the flexible insulation shielding plate on one side of the profiling groove can be gradually attached to the flexible insulation shielding plate on the other side of the profiling groove.

Preferably, a connecting plate is connected to the carrier in a sliding manner, the first driving member and the second driving member are both fixedly connected to the connecting plate, and the processing tool further includes a third driving member configured to drive the connecting plate to move in the horizontal direction.

Preferably, the fixing mechanism includes a suction hole provided in the carrier plate and located at one side of the contour groove, and a vacuum generating device configured to form a negative pressure in the suction hole to suck the insulation shielding soft plate at one side of the contour groove.

Preferably, the connecting device includes an ultrasonic horn configured to weld the insulation shielding soft boards on both sides of the contour groove.

The invention has the beneficial effects that: the size of the cross section of the profiling rod is the same as that of the cross section of the required insulation shielding sleeve, the fixing mechanism fixes the insulation shielding soft board on one side of the profiling groove on the bearing plate, the profiling rod presses the insulation shielding soft board in the profiling groove, the insulation shielding soft board on the other side of the profiling groove tilts, the push block pushes the insulation shielding soft board on the other side of the tilting profiling groove to bend around the profiling rod, the insulation shielding soft board on the other side of the bent profiling groove is attached to the horizontal plane of the top of the profiling rod, the insulation shielding soft boards on the two sides of the profiling groove are opposite, the insulation shielding soft boards on the two sides of the profiling groove are connected to form the insulation shielding sleeve, the insulation shielding soft boards on the two sides of the profiling groove are wound around the profiling rod, namely, the size of the cross section of the formed insulation shielding sleeve is the same as that of the cross section of the profiling rod, and the size of the cross section of the insulation shielding sleeve meets the requirement, the manufacturing efficiency is improved, and the manufacturing cost is reduced.

Drawings

Fig. 1 is a flow chart of a method of manufacturing an insulation shield bushing in an embodiment of the invention;

FIG. 2 is a schematic structural diagram of a machining tool in an embodiment of the present invention;

FIG. 3 is a top view of a tooling in an embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a front view of the tooling in an embodiment of the present invention;

fig. 6 is a partially enlarged view at B in fig. 5.

In the figure:

1. a stage; 11. a carrier plate; 111. profiling grooves; 12. a connecting plate;

2. a profiling rod;

31. sucking holes;

4. a push block;

5. a connecting device; 51. a roller; 52. an ultrasonic horn;

61. a first driving member; 62. a second driving member; 63. a third driving member;

71. a fourth drive; 72. and a fifth driving member.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. are used in an orientation or positional relationship based on that shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

Example one

The embodiment provides a processing tool, please refer to fig. 2 to 6, the processing tool includes a profiling rod 2, a carrier 1, a fixing mechanism, a pushing block 4 and a connecting device 5, a carrier plate 11 is disposed on the carrier 1, a profiling groove 111 is disposed on the carrier plate 11, the profiling rod 2 can move towards the profiling groove 111, so that an insulating shielding soft board can be pressed between the profiling rod 2 and a groove wall of the profiling groove 111, the fixing mechanism is disposed on one side of the profiling groove 111, the pushing block 4 is disposed on the other side of the profiling groove 111, a lower surface of the pushing block 4 is flush with a horizontal plane of a top of the profiling rod 2, the pushing block 4 can move in a horizontal direction to push the insulating shielding soft board on the other side of the tilted profiling groove 111, and the connecting device 5 is configured to connect the insulating shielding soft boards on two sides of the profiling groove 111, so that the insulating shielding soft board forms an insulating shielding sleeve.

In this embodiment, the size of the cross section of the profiling rod 2 is the same as the size of the cross section of the required insulation shielding sleeve, the fixing mechanism fixes the insulation shielding soft board on one side of the profiling groove 111 on the loading plate 11 to position the insulation shielding soft board, the profiling rod 2 presses the insulation shielding soft board in the profiling groove 111, the insulation shielding soft board on the other side of the profiling groove 111 tilts, the push block 4 pushes the insulation shielding soft board on the other side of the tilted profiling groove 111 to bend around the profiling rod 2, the insulation shielding soft board on the other side of the bent profiling groove 111 is attached to the horizontal plane of the top of the profiling rod 2, the insulation shielding soft boards on the two sides of the profiling groove 111 are aligned, the insulation shielding soft boards on the two sides of the profiling groove 111 are connected to form the insulation shielding sleeve, the insulation shielding soft boards on the two sides connected together are wound around the profiling rod 2, that is to form the insulation shielding sleeve with the size of the cross section of the insulation shielding sleeve being the same as the size of the cross section of the profiling rod 2, and then the size of the cross section of the insulation shielding sleeve meets the requirement, the manufacturing efficiency is improved, and the manufacturing cost is reduced.

Because the length that the insulating shielding soft board that fixed establishment can guarantee to be located one side of profile groove 111 through the insulating shielding soft board of one side of fixed profile groove 111, and then fix a position the insulating shielding soft board to the insulating shielding soft board of the opposite side of guaranteeing the perk profile groove 111 can be buckled to the horizontal plane laminating with the top of profile rod 2, guarantees simultaneously that the insulating shielding soft board of the both sides of profile groove 111 can just right.

It can be understood that, as shown in fig. 2, the processing tool in the present embodiment further includes a vertical driving mechanism, and the vertical driving mechanism includes a fourth driving member 71, and the fourth driving member 71 can drive the profile rod 2 to move up and down.

Accordingly, as shown in fig. 1, the present embodiment provides a method for processing an insulation shield sleeve, which includes the following steps:

s1, placing the insulation shielding soft board on the bearing plate 11, and fixing the insulation shielding soft board on one side of the profiling groove 111 on the bearing plate 11;

s2, the copying rod 2 descends into the copying groove 111, and the insulation shielding soft board on the other side of the copying groove 111 tilts;

s3, bending the insulation shielding soft board on the other side of the tilted profiling groove 111 around the profiling rod 2 to be attached to the horizontal plane of the top of the profiling rod 2, and facing the insulation shielding soft boards on the two sides of the profiling groove 111;

and S4, connecting the insulation shielding soft boards on the two sides of the contour groove 111.

In this embodiment, the profile rod 2 can be moved completely into the profile groove 111 while the horizontal plane of the top of the profile rod 2 is in the same horizontal plane as the opening of the profile groove 111.

When the flexible insulation shielding boards on the two sides of the contour groove 111 are connected together by gluing, that is, the flexible insulation shielding board on one side of the contour groove 111 is provided with a double-sided tape on the side away from the bearing board 11, step S3 in the method for processing the insulation shielding sleeve includes:

s31, bending the insulation shielding soft board on the other side of the profiling groove 111 around the profiling rod 2 to be opposite to the double-sided adhesive tape on the insulation shielding soft board on one side of the profiling groove 111;

s32, rolling the surface of the flexible insulation shielding plate on the other side of the contour groove 111 away from the flexible insulation shielding plate on the side of the contour groove 111.

Because the surface of the insulation shielding soft board on one side of the profiling groove 111 is kept away from by the insulation shielding soft board on the other side of the profiling groove 111 in the embodiment in a rolling manner, the insulation shielding soft boards on the two sides of the profiling groove 111 are ensured not to generate bubbles during gluing, the connection quality is improved, the situation that the insulation shielding sleeve manufactured due to the bubbles does not meet the use requirement is avoided, the manufacturing efficiency is further improved, and meanwhile, the manufacturing cost is further reduced.

Referring to fig. 2 and fig. 3, in the present embodiment, the connecting device 5 includes a roller 51, the roller 51 and the pushing block 4 are disposed opposite to each other and located on two sides of the loading plate 11, a horizontal driving mechanism is disposed in the present embodiment to drive the roller 51 and the pushing block 4 to move along a horizontal direction, that is, the processing tool further includes a first driving member 61 and a second driving member 62, the loading plate 11 is fixedly connected to the platform 1, a movable end of the first driving member 61 is connected to the pushing block 4, and a movable end of the second driving member 62 is connected to the roller 51. The first driving piece 61 drives the pushing block 4 to move towards the roller 51, the second driving piece 62 drives the roller 51 to move towards the pushing block 4, and the roller 51 can roll on the surface of the insulation shielding soft board on the other side of the profile groove 111 away from the side of the profile groove 111 while moving horizontally.

When the flexible insulation shielding boards on the two sides of the contour groove 111 are connected together by welding, step S3 in the method for processing the insulation shielding sleeve further includes:

s33, bending the soft insulation shielding plate on the other side of the contour groove 111 around the contour rod 2 to be opposite to the soft insulation shielding plate on one side of the contour groove 111;

and S34, welding the insulation shielding soft boards on the two sides of the contour groove 111.

As shown in fig. 2, 4 and 5, the connecting device 5 includes an ultrasonic horn 52, the ultrasonic horn 52 is configured to weld the insulation shielding soft board on both sides of the contour groove 111, and the vertical driving mechanism further includes a fifth driving member 72, and the fifth driving member 72 can drive the ultrasonic horn 52 to move up and down in the vertical direction.

It can be understood that the connecting device 5 of the processing tool in the embodiment can adopt two connecting modes of gluing or welding, so that the processing tool in the embodiment has high universality.

Preferably, the fixing mechanism includes a suction hole 31 and a vacuum generating device (not shown in the figure), the suction hole 31 is disposed on the bearing plate 11 and is located at one side of the contour groove 111, the vacuum generating device is configured to form a negative pressure environment in the suction hole 31 to adsorb the insulation shielding soft board at one side of the contour groove 111, in this embodiment, the insulation shielding soft board at one side of the contour groove 111 is fixed by negative pressure adsorption, compared with applying a pressing force to the insulation shielding soft board, this embodiment can avoid damaging the insulation shielding soft board, and ensure that the insulation shielding effect of the obtained insulation shielding sleeve meets the requirement.

It can be understood that, in this embodiment, when the flexible insulation shielding boards on the two sides of the contour groove 111 are connected together in a gluing manner, since the double-sided tape is disposed on the side of the flexible insulation shielding board on the side of the contour groove 111 away from the loading board 11, the flexible insulation shielding board on the side of the contour groove 111 fixed in an adsorption manner in this embodiment can avoid contact with the double-sided tape, and thus the connection effect is ensured.

Example two

Since the width of the cross section of the profiling rod 2 near the top thereof may gradually decrease with the increasing height, and the depth of the profiling groove 111 in the present embodiment is smaller than the height of the profiling rod 2, that is, the part of the cross section of the profiling rod 2 gradually decreasing with the increasing height is exposed outside the profiling groove 111, and the top of the profiling rod 2 is located above the opening of the profiling groove 111, step S3 in the processing method of the insulation shield sleeve in the present embodiment includes, compared to the first embodiment:

s35, bending the insulation shielding soft board on the other side of the profiling groove 111 around the profiling rod 2 to be arranged at intervals with the insulation shielding soft board on one side of the profiling groove 111 along the horizontal direction;

s36, releasing the insulation shielding soft board on one side of the contour groove 111, and tilting the insulation shielding soft board on one side of the contour groove 111;

s37, bending the insulation shielding soft board on one side of the profiling groove 111 towards the insulation shielding soft board on the other side of the profiling groove 111 around the profiling rod 2, wherein the double faced adhesive tape on the insulation shielding soft board on one side of the profiling groove 111 is opposite to the insulation shielding soft board on the other side of the profiling groove 111;

s38, rolling the surface of the flexible insulation shielding plate on one side of the contour groove 111 away from the surface of the flexible insulation shielding plate on the other side of the contour groove 111.

In this embodiment, the fixing mechanism stops adsorbing the flexible insulation shielding board on one side of the contour groove 111, the flexible insulation shielding board on one side of the contour groove 111 which is not adsorbed is tilted, the third driving element 63 can drive the roller 51 to push the flexible insulation shielding board on one side of the contour groove 111 to bend around the contour rod 2, the flexible insulation shielding board on one side of the bent contour groove 111 can be attached to the flexible insulation shielding board on the other side of the contour groove 111 and the surface of the contour rod 2 attached to the flexible insulation shielding board in the contour groove 111, so that the flexible insulation shielding board can be wound around the contour rod 2, the flexible insulation shielding boards connecting the two sides of the contour groove 111 can form the required insulation shielding sleeve, that is, the size of the cross section of the formed insulation shielding sleeve is the same as the size of the cross section of the contour rod 2, and further the size of the cross section of the insulation shielding sleeve meets the requirement, the manufacturing efficiency is improved, and the manufacturing cost is reduced.

Further, when the roller 51 pushes the flexible insulation shielding plate on one side of the contour groove 111 to bend around the contour rod 2, when the roller 51 moves to above the horizontal plane of the top of the contour rod 2, the flexible insulation shielding plate on one side of the contour groove 111 will be instantly aligned with the flexible insulation shielding plate on the other side of the contour groove 111 under the action of the roller 51, and the double-sided adhesive thereon will be glued with the flexible insulation shielding plate on the other side of the contour groove 111, and there is a possibility of air bubbles appearing at the glued position of the flexible insulation shielding plate on the other side of the contour groove 111, so that the roller 51 is required to gradually glue the double-sided adhesive on the flexible insulation shielding plate on one side of the contour groove 111 with the flexible insulation shielding plate on the other side of the contour groove 111, for this reason, as shown in fig. 5, the push block 4 is provided with an inclined plane, the outermost side of the flexible insulation shielding plate on one side of the curved contour groove 111 abuts against the inclined plane, and the flexible insulation shielding plate on one side of the contour groove 111 has an included angle with the horizontal plane when being rolled by the roller 51, so that the double faced adhesive tape on the insulation shielding soft board of one side of the profile groove 111 can gradually laminate with the insulation shielding soft board of the other side of the profile groove 111, the roller 51 can gradually roll the insulation shielding soft board of one side of the profile groove 111, so that the double faced adhesive tape on the insulation shielding soft board of one side of the profile groove 111 is glued with the insulation shielding soft board of the other side of the profile groove 111, avoid the air bubble at the gluing position, improve the connection quality, avoid the insulation shielding sleeve pipe that leads to manufacturing because of the air bubble not meeting the use requirement, further improve the manufacturing efficiency, and further reduce the manufacturing cost.

Accordingly, since the outermost side of the flexible insulation shielding plate on one side of the curved groove 111 abuts against the inclined surface, in order to prevent the roller 51 from rolling the double-sided adhesive tape on the flexible insulation shielding plate on one side of the curved groove 111 onto the inclined surface of the push block 4, referring to fig. 2, 3 and 5, in this embodiment, the carrier 1 is slidably connected with the connecting plate 12, the first driving member 61 and the second driving member 62 are both fixedly connected to the connecting plate 12, the horizontal driving mechanism of the processing tool further includes a third driving member 63, the third driving member 63 is configured to drive the connecting plate 12 to move in the horizontal direction, the second driving member 62 stops driving after the driving roller 51 bends the flexible insulation shielding plate on one side of the curved groove 111 to contact with the inclined surface, the third driving member 63 drives the connecting plate 12 to move, and simultaneously the roller 51 and the push block 4 move together, the roller 51 can gradually roll the flexible insulation shielding plate on one side of the curved groove 111, so that the double-sided adhesive tape on the insulation shielding soft board at one side of the contour groove 111 is prevented from rolling onto the inclined plane of the push block 4 while the double-sided adhesive tape on the insulation shielding soft board at the other side of the contour groove 111 is glued.

It is understood that, in this embodiment, the insulation shielding soft board on one side of the contour groove 111 may not be provided with the double-sided tape, and the roller 51 pushes the insulation shielding soft board on one side of the contour groove 111 to be opposite to the insulation shielding soft board on the other side of the contour groove 111, and welds the insulation shielding soft boards on both sides of the contour groove 111 to form the insulation shielding sleeve.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Numerous obvious variations, adaptations and substitutions will occur to those skilled in the art without departing from the scope of the invention. This need not be, nor should it be exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A method for processing an insulation shielding sleeve is characterized by comprising the following steps:

placing an insulation shielding soft board on a bearing plate (11), and fixing the insulation shielding soft board on one side of a profiling groove (111) on the bearing plate (11);

the profiling rod (2) descends into the profiling groove (111), and the insulation shielding soft plate on the other side of the profiling groove (111) tilts;

bending the insulation shielding soft board on the other side of the tilted profiling groove (111) around the profiling rod (2) to be attached to the horizontal plane of the top of the profiling rod (2), and facing the insulation shielding soft boards on two sides of the profiling groove (111) to the right;

and the insulation shielding soft board is connected with two sides of the profiling groove (111).

2. The method for processing an insulation shield sleeve according to claim 1, wherein the insulation shield soft plate connecting both sides of the contour groove (111) comprises:

bending the insulation shielding soft board on the other side of the profiling groove (111) around the profiling rod (2) to be opposite to the double-sided adhesive tape on the insulation shielding soft board on one side of the profiling groove (111);

and rolling the surface of the insulation shielding soft board on the other side of the profiling groove (111) on the side far away from the profiling groove (111).

3. The method for processing an insulation shielding bushing according to claim 1, wherein the insulation shielding soft board connecting both sides of the contour groove (111) further comprises:

bending the insulation shielding soft board on the other side of the profile groove (111) around the profile rod (2) to be arranged at intervals with the insulation shielding soft board on one side of the profile groove (111) along the horizontal direction;

releasing the insulation shielding soft board on one side of the contour groove (111), and tilting the insulation shielding soft board on one side of the contour groove (111);

bending the soft insulation shielding plate on one side of the contour groove (111) around the contour rod (2) towards the soft insulation shielding plate on the other side of the contour groove (111), wherein a double-sided adhesive tape on the soft insulation shielding plate on one side of the contour groove (111) is opposite to the soft insulation shielding plate on the other side of the contour groove (111);

rolling the surface of the insulation shielding soft board on one side of the profiling groove (111) far away from the insulation shielding soft board on the other side of the profiling groove (111).

4. The method for processing an insulation shield sleeve according to claim 1, wherein the insulation shield soft plate connecting both sides of the contour groove (111) further comprises:

bending the insulation shielding soft board on the other side of the contour groove (111) around the contour rod (2) to be opposite to the insulation shielding soft board on one side of the contour groove (111);

and welding the insulation shielding soft boards on two sides of the profiling groove (111).

5. A processing tool based on the processing method of the insulation shielding sleeve of any one of claims 1 to 4, characterized in that the processing tool comprises the profiling rod (2), and the processing tool further comprises:

the carrying platform (1), the carrying plate (11) is arranged on the carrying platform (1), the profiling groove (111) is arranged on the carrying plate (11), and the profiling rod (2) can move towards the profiling groove (111) so that the insulation shielding soft board can be pressed between the profiling rod (2) and the groove wall of the profiling groove (111);

the fixing mechanism is arranged on one side of the profiling groove (111);

the pushing block (4) is arranged on the other side of the profiling groove (111), the lower surface of the pushing block (4) is flush with the horizontal plane of the top of the profiling rod (2), and the pushing block (4) can move in the horizontal direction to push the insulation shielding soft board on the other side of the tilted profiling groove (111); and

a connecting device (5) configured to connect the insulation shielding soft boards on two sides of the contour groove (111) so that the insulation shielding soft boards form an insulation shielding sleeve.

6. The processing tool according to claim 5, wherein the connecting device (5) comprises a roller (51), the roller (51) is opposite to the pushing block (4) and is respectively located on two sides of the bearing plate (11), and the processing tool further comprises:

the movable end of the first driving piece (61) is connected with the push block (4); and

and the movable end of the second driving piece (62) is connected with the roller (51).

7. The machining tool according to claim 6, wherein the pushing block (4) is provided with an inclined surface, the outermost side of the insulation shielding soft board on one side of the bent contour groove (111) abuts against the inclined surface, and an included angle is formed between the insulation shielding soft board on one side of the contour groove (111) and a horizontal plane when the insulation shielding soft board is rolled by the roller (51), so that double faced adhesive tapes on the insulation shielding soft board on one side of the contour groove (111) can be gradually attached to the insulation shielding soft board on the other side of the contour groove (111).

8. The machining tool according to claim 7, characterized in that a connecting plate (12) is slidably connected to the stage (1), the first driving member (61) and the second driving member (62) are both fixedly connected to the connecting plate (12), and the machining tool further comprises a third driving member (63), wherein the third driving member (63) is configured to drive the connecting plate (12) to move in a horizontal direction.

9. The machining tool according to claim 5, characterized in that the fixing mechanism comprises a suction hole (31) and a vacuum generating device, the suction hole (31) is arranged on the bearing plate (11) and located on one side of the contour groove (111), and the vacuum generating device is configured to form negative pressure in the suction hole (31) so as to suck the insulation shielding soft plate on one side of the contour groove (111).

10. The machining tool according to claim 5, characterized in that the connecting device (5) comprises an ultrasonic welding head (52), and the ultrasonic welding head (52) is configured to weld the insulation shielding soft plates on two sides of the contour groove (111).

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