CN114589941B

CN114589941B - Special clothing made of insulating carbon fiber fabric

Info

Publication number: CN114589941B
Application number: CN202210119455.XA
Authority: CN
Inventors: 王柯钦; 郭雪健; 张文宾; 李可可; 李娜
Original assignee: Xinxiang Xinke Protective Technology Co ltd
Current assignee: Xinxiang Xinke Protective Technology Co ltd
Priority date: 2022-02-08
Filing date: 2022-02-08
Publication date: 2024-01-26
Anticipated expiration: 2042-02-08
Also published as: CN114589941A

Abstract

The invention relates to the field of special clothing, in particular to special clothing made of insulating carbon fiber fabric. The invention aims to provide special clothing made of insulating carbon fiber fabric. In order to solve the technical problems, the invention provides the special garment made of the insulating carbon fiber fabric, which comprises a bottom plate of a working machine, an installation vertical post, a bottom paving system, a longitudinal embedding system, a horizontal embedding system, a bearing moving system, a top mounting plate, a mold box and the like; four mounting vertical posts are fixedly connected above the bottom plate of the working machine. According to the invention, the automatic encircling, repeated flattening and embedding of the carbon fiber cloth at the bottom of the inner side of the helmet die are realized, and the carbon fiber cloth at the side face is sequentially subjected to double flattening in the longitudinal and horizontal directions, namely, the transverse and longitudinal lines are respectively processed, so that the carbon fiber cloth at the side face is completely embedded into the grooves and the lines on the inner side surface of the helmet die.

Description

Special clothing made of insulating carbon fiber fabric

Technical Field

The invention relates to the field of special clothing, in particular to special clothing made of insulating carbon fiber fabric.

Background

At present, carbon fiber is an excellent choice in the material of special clothing in the prior art, wherein carbon fiber cloth is required to be paved in a helmet mold in the processing process of the carbon fiber helmet, a plurality of carbon fiber raw material cloths are manually paved on the inner surface of the helmet mold, so that the inner surface of the helmet is completely covered, the inner surface of the helmet mold is tightly attached to the carbon fiber cloth, then the carbon fiber cloth is manually pressed into corresponding grooves and lines of the helmet mold by fingers, the operation is complicated, the physical effort is high, and in the case of covering the carbon fiber cloth, some lines of small corners are missed by hand touch, so that the subsequent molding shape is disqualified; in the process, if a common spherical tool is used for pressing, the carbon fiber cloth cannot be pressed and embedded into the inner side of the lines and the grooves of the inner side of the die, and in the pressing process, the carbon fiber cloth is caused to deviate and misplacement.

Aiming at the problems, we provide a special garment made of insulating carbon fiber fabric.

Disclosure of Invention

In order to overcome the defect that carbon fibers become an excellent choice in the materials of special clothing in the prior art, in the processing process of the carbon fiber helmet, carbon fiber cloth needs to be paved in a helmet mold, a plurality of carbon fiber raw material cloths are manually paved on the inner surface of the helmet mold, so that the inner surface of the helmet is completely covered, the inner surface of the helmet mold is tightly attached to the carbon fiber cloth, then the carbon fiber cloth is manually pressed into corresponding grooves and lines of the helmet mold by fingers, the work is complicated, the physical effort is high, and in the case of covering the carbon fiber cloth, the lines of some small corners are manually leaked through hand touch, so that the subsequent forming shape is unqualified; in the process, if a common spherical tool is used for pressing, the carbon fiber cloth cannot be pressed and embedded into the inner sides of the lines and the grooves on the inner side of the die, and the carbon fiber cloth can be offset and misplaced in the pressing process.

In order to solve the technical problems, the invention provides the special garment made of the insulating carbon fiber fabric, which comprises a working machine bottom plate, an installation vertical column, a storage box, a middle installation plate, a lifting electric sliding rail column, a bottom paving system, a longitudinal embedding system, a horizontal embedding system, a bearing moving system, a top installation plate, a mould box, a material storage box and an operation control screen; four mounting vertical posts are fixedly connected above the bottom plate of the working machine; the top of the bottom plate of the working machine is provided with a storage box; the upper parts of the four mounting vertical posts are fixedly connected with a middle mounting plate; the top mounting plates are arranged at the tops of the four mounting vertical posts; lifting electric sliding rail columns are symmetrically arranged between the bottom of the top mounting plate and the middle mounting plate; the lifting electric sliding rail columns on the two sides are connected with a bearing moving system in a sliding way; the bearing moving system is in transmission connection with a bottom paving system; the bearing moving system is in transmission connection with a longitudinal embedded system; the bottom of the longitudinal embedded system is provided with a horizontal embedded system; the bearing moving system drives the bottom paving system, the longitudinal embedded system and the horizontal embedded system to realize vertical lifting and horizontal movement; the top of the middle mounting plate is provided with a mould box; a material storage box is arranged on the right side of the top die box of the middle mounting plate; the front side of the right front mounting vertical post is provided with an operation control screen; the bottom paving system is used for paving and embedding the carbon fiber cloth at the bottom in the die box into corresponding lines and grooves in the bottom of the die box; the longitudinal embedding system and the horizontal embedding system are used for flatly embedding the carbon fiber cloth on the inner side surface of the die box into corresponding lines and grooves in the die box.

Preferably, the top of the middle mounting plate is provided with a square frame seat, and the mold box is detachably and embedded in the square frame seat.

Preferably, the bearing moving system comprises a second sliding mounting long plate and a first electric sliding rail column; the lifting electric sliding rail columns on two sides are respectively and slidably connected with a second sliding installation long plate, two first electric sliding rail columns are fixedly connected between the second sliding installation long plates on two sides, and the bottom paving system, the longitudinal embedding system and the horizontal embedding system are connected with the first electric sliding rail columns.

Preferably, the bottom paving system comprises a bearing ring frame, a first electric sliding seat, a second electric sliding seat, a first supporting seat, a second supporting seat, an electric annular sliding rail, a toothed ring, a gear assembly, a collection installation disc, a second rotating shaft rod, a third flat gear, an electric sliding rail frame, an electric sliding block, an installation fixing round rod, a movable connecting ball and an embedded pressing ball; the two first electric sliding rail columns are connected with a first electric sliding seat and a second electric sliding seat in a sliding manner; a bearing ring frame is fixedly connected between the first electric sliding seat and the second electric sliding seat; the top of the bearing ring frame is fixedly connected with a first supporting seat and a second supporting seat; the inner sides of the first supporting seat and the second supporting seat are fixedly connected with an electric annular sliding rail; the inner side of the electric annular slide rail is in transmission connection with a toothed ring; the inner side of the bearing ring frame is rotationally connected with an aggregate mounting disc; the axle center at the top of the integrated mounting disc is fixedly connected with a second rotating shaft lever; the outer surface of the second rotating shaft rod is fixedly connected with a third flat gear; the toothed ring is in transmission connection with a third flat gear through a gear assembly; an electric slide rail frame is arranged at the bottom of the integrated mounting disc; an electric sliding block is connected to the inner side of the electric sliding rail frame in a sliding way; the electric sliding block is fixedly inserted with a mounting and fixing round rod; the bottom of the installation fixed round rod is fixedly connected with a movable connecting ball; the lower side of the movable connecting ball is movably connected with an embedded pressing ball; the outer surface of the embedded pressing ball is uniformly provided with a plurality of spherical bulges.

Preferably, the gear assembly comprises a first flat gear, a first rotating shaft rod, a gear lack, a bearing frame plate, a mounting sleeve box, a rotating support sliding rod and a second flat gear; the upper part of the assembly mounting disc is welded with a mounting sleeve box; the inner side of the mounting sleeve box is movably connected with a rotary support slide bar; the upper side of the rotary support sliding rod is fixedly connected with a second flat gear; the second flat gear moves upwards and then is meshed with the third flat gear; the top of the mounting sleeve box is welded with a bearing frame plate; the bearing frame plate is rotationally connected with a first rotating shaft rod; the outer surface of the first rotating shaft rod is fixedly connected with a first flat gear; the first flat gear is meshed with the toothed ring; the outer surface of the first rotating shaft rod is fixedly connected with a gear lack; the gear-missing gear engages the second flat gear.

Preferably, the bottom paving system further comprises a control toggle pressing plate, a sliding control plate, a first reset spring, a second elastic telescopic rod, a movement control long plate and a rotation control plate; the bottom of the first rotating shaft rod is fixedly connected with a control toggle pressing plate; the inner side of the mounting sleeve box is connected with a sliding control plate in a sliding manner; a first reset spring and a second reset spring are fixedly connected to one side of the sliding control plate in sequence; the first reset spring and the second reset spring are fixedly connected to the inner side of the mounting sleeve; the top of the sliding control plate is fixedly connected with a second elastic telescopic rod; the top of the second elastic telescopic rod is connected with the mounting sleeve box in a sliding manner; the rotary support slide bar is in sliding rotary connection with the mounting sleeve box; the outer surface of the mounting fixed round rod is sleeved with a movable control long plate; the inner side of the electric slide rail frame is rotationally connected with a rotation control plate; the bottom of the rotary support sliding rod is provided with a hemispherical block; a circular opening with the same diameter as the upper part of the second elastic telescopic rod is formed in one side, close to the second rotating shaft rod, of the track, sliding with the second elastic telescopic rod, of the top of the inner side of the mounting sleeve; an arc-shaped track is arranged at the top of the mounting sleeve box, and the circular opening is positioned at the inner side of the track; the control toggle pressing plate is connected with the arc-shaped track at the top of the mounting sleeve box in a sliding way through a convex ball.

Preferably, the longitudinal embedded system comprises a first sliding mounting long plate, a mounting seat, a connecting inner rod, an electric rotating shaft sleeve, a first electric telescopic connecting plate, a second electric telescopic connecting plate, a transverse pressing roller, a connecting mounting plate, a first electric rotating shaft seat, a third electric telescopic connecting plate and an arc-shaped circular tube pressing head; the first electric sliding rail column is connected with a first sliding installation long plate in a sliding way; the bottom of the first sliding installation long plate is fixedly connected with an installation seat; the bottom of the mounting seat is fixedly connected with a connecting inner rod; an electric rotating shaft sleeve is arranged on the outer side of the connecting inner rod; the bottom of the connecting inner rod is connected with a horizontal embedded system; the outer side of the electric rotating shaft sleeve is provided with a first electric telescopic connecting plate; the outer side of the electric rotating shaft sleeve is fixedly sleeved with a second electric telescopic connecting plate; the telescopic end of the second electric telescopic connecting plate is rotationally connected with a transverse pressing roller; the transverse pressing roller is rotationally connected to the telescopic end of the first electric telescopic connecting plate; a connection mounting plate is fixedly sleeved on the outer side of the electric rotating shaft sleeve; one side of the connecting mounting plate is provided with a first electric rotating shaft seat; a third electric telescopic connecting plate is arranged at the end part of the first electric rotating shaft seat; an arc circular tube pressing head is arranged at the bottom of the third electric telescopic connecting plate.

Preferably, the horizontal direction embedding system comprises a second electric rotating shaft seat, a first elastic expansion plate, an arc pressing head, a buckling frame, a connecting rotating shaft seat and a clamping plate; the bottom of the connecting inner rod is provided with a second electric rotating shaft seat; the bottom of the second electric rotating shaft seat is provided with a first elastic expansion plate; the telescopic end of the first elastic telescopic plate is fixedly connected with an arc-shaped pressing head; the top of the expansion plate of the first elastic expansion plate is fixedly connected with a clamping frame; the top of the first elastic expansion plate is provided with a connecting rotating shaft seat; a clamping plate is rotationally connected in the connecting rotating shaft seat; the other end of the clamping plate is inserted into the inner side of the buckle frame in a hook shape.

In order to solve the problem that carbon fiber is an excellent choice in the material of special clothing in the prior art, carbon fiber cloth needs to be paved in a helmet mold in the processing process of the carbon fiber helmet, a plurality of carbon fiber raw material cloths are manually paved on the inner surface of the helmet mold, so that the inner surface of the helmet is completely covered, the inner surface of the helmet mold is tightly attached to the carbon fiber cloth, then the carbon fiber cloth is manually pressed into corresponding grooves and lines of the helmet mold by fingers, the operation is complicated, the physical effort is high, and in the case of covering the carbon fiber cloth, lines of small corners are manually missed through hand touch, so that the subsequent molding shape is disqualified; in the process, if a common spherical tool is used for pressing, the carbon fiber cloth cannot be pressed and embedded into the inner sides of the lines and the grooves on the inner side of the die, and in the pressing process, the problem that the carbon fiber cloth is offset and misplaced is caused;

The method comprises the steps of designing a bottom paving system, longitudinally embedding the bottom paving system, controlling the bearing moving system to drive the bottom paving system to move to the top of a mold box, controlling a lifting electric sliding rail column to drive the bearing moving system to move downwards, namely, driving the bottom paving system to move downwards to enter the interior of the mold box, flatly embedding carbon fiber cloth at the bottom of the interior of the mold box into corresponding lines and grooves in the interior of the bottom paving system, controlling the bottom paving system to move upwards and reset, paving a plurality of carbon fiber cloth on the side surface of the interior of the mold box for a circle, controlling the bearing moving system to drive the bottom paving system to move away from the top of the mold box, controlling the bearing moving system to drive the longitudinal embedding system and the horizontal embedding system to move to the position above the top of the mold box, controlling the lifting electric sliding rail column to drive the bearing moving system to move downwards, namely, controlling the bearing moving system to drive the longitudinal embedding system and the horizontal embedding system to move downwards to enter the interior of the mold box, controlling the longitudinal embedding system to fully pave the carbon fiber cloth at the side surface of the interior of the mold box in the vertical embedding system in the vertical direction, and then controlling the horizontal embedding system to press the carbon fiber cloth at the side surface of the mold box;

The automatic encircling of the carbon fiber cloth of the inboard bottom of helmet mould is realized and is applyed the embedding repeatedly, to the carbon fiber cloth of side, loops through the dual flattening of vertical and horizontal direction, handles respectively to horizontal and vertically line promptly, makes the carbon fiber cloth of side completely imbed the effect in recess and the line of helmet mould inboard surface.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a schematic perspective view of a carrying and moving system according to the present invention;

FIG. 4 is a schematic view of a first perspective of the bottom plating system of the invention;

FIG. 5 is a second perspective view of the bottom plating system of the invention;

FIG. 6 is a third perspective view of the bottom plating system of the invention;

FIG. 7 is a schematic perspective view of a first portion of the bottom plating system of the invention;

FIG. 8 is a schematic perspective view of a second portion of the bottom plating system of the invention;

FIG. 9 is a schematic perspective view of a longitudinal embedded system according to the present invention;

fig. 10 is a schematic perspective view of a horizontal embedded system according to the present invention.

The marks in the drawings are: 1-working machine bottom plate, 2-mounting upstand, 3-storage box, 4-middle mounting plate, 5-lifting electric slide rail column, 6-bottom laying system, 7-longitudinal embedding system, 8-horizontal embedding system, 9-bearing moving system, 10-top mounting plate, 11-mold box, 12-material storage box, 13-running control screen, 601-bearing ring frame, 602-first electric slide, 603-second electric slide, 604-first supporting seat, 605-second supporting seat, 606-electric annular slide rail, 607-toothed ring, 608-first flat gear, 609-first rotating shaft rod, 6010-missing gear, 6011-bearing frame plate, 6012-control toggle pressing plate, 6013-mounting sleeve, 6014-rotating supporting slide bar, 6015-second flat gear, 6016-set mounting disk, 6017-second spindle shaft, 6018-third flat gear, 6019-slide control plate, 6020-first return spring, 6021-second return spring, 6022-second elastic telescopic rod, 6023-electric slide rail frame, 6024-electric slide block, 6025-mounting fixed round rod, 6026-movable connecting ball, 6027-movement control long plate, 6028-rotation control plate, 6029-embedded pressing ball, 701-first sliding mounting long plate, 702-mounting seat, 703-connecting inner rod, 704-electric spindle sleeve, 705-first electric telescopic connecting plate, 706-second electric telescopic connecting plate, 707-transverse pressing roller, 708-engagement mounting plate, 709-first electric rotating shaft seat, 7010-third electric telescopic connecting plate, 7011-arc round pipe pressing head, 801-second electric rotating shaft seat, 802-first elastic telescopic plate, 803-arc pressing head, 804-buckle frame, 805-connecting rotating shaft seat, 806-clamping plate, 901-second sliding mounting long plate, 902-first electric sliding rail column.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

1-2, the special garment made of insulating carbon fiber fabric comprises a working machine bottom plate 1, an installation vertical column 2, a storage box 3, a middle installation plate 4, a lifting electric sliding rail column 5, a bottom paving system 6, a longitudinal embedded system 7, a horizontal embedded system 8, a bearing moving system 9, a top installation plate 10, a mold box 11, a material storage box 12 and an operation control screen 13; four mounting vertical posts 2 are fixedly connected above the bottom plate 1 of the working machine; the top of the working machine bottom plate 1 is provided with a storage box 3; the upper parts of the four mounting vertical posts 2 are fixedly connected with a middle mounting plate 4; the top mounting plates 10 are arranged at the tops of the four mounting upstands 2; lifting electric sliding rail columns 5 are symmetrically arranged between the bottom of the top mounting plate 10 and the middle mounting plate 4; the lifting electric sliding rail columns 5 on the two sides are connected with a bearing moving system 9 in a sliding manner; the bearing moving system 9 is in transmission connection with the bottom paving system 6; the bearing moving system 9 is in transmission connection with a longitudinal embedded system 7; the bottom of the longitudinal embedded system 7 is provided with a horizontal embedded system 8; the bearing moving system 9 drives the bottom paving system 6, the longitudinal embedded system 7 and the horizontal embedded system 8 to realize vertical lifting and horizontal movement; the top of the middle mounting plate 4 is provided with a mould box 11; a material storage box 12 is arranged on the right side of the top die box 11 of the middle mounting plate 4; the front side of the right front mounting upstand 2 is provided with a running control screen 13; the bottom paving system 6 is used for paving and embedding the carbon fiber cloth at the bottom in the die box 11 into corresponding lines and grooves in the bottom; the longitudinal embedding system 7 and the horizontal embedding system 8 are used for flatly embedding the carbon fiber cloth on the inner side surface of the die box 11 into corresponding lines and grooves in the die box.

When the special clothing made of insulating carbon fiber fabric is used, an external power supply is connected, the equipment is controlled to operate by an operation control screen 13, firstly, a mold box 11 is placed in a square frame seat at the corresponding position of the top of a middle mounting plate 4, then a piece of carbon fiber fabric is paved at the inner bottom of the mold box 11, then a bearing moving system 9 is controlled to drive a bottom paving system 6 to move to the top of the mold box 11, then a lifting electric sliding rail column 5 is controlled to drive the position of the bearing moving system 9 to move downwards, namely the bearing moving system 9 drives the bottom paving system 6 to move downwards to enter the inside of the mold box 11, the carbon fiber fabric at the inner bottom of the mold box 11 is tiled and embedded into corresponding lines and grooves in the inside of the mold box, then the bottom paving system 6 is controlled to move upwards and reset, then a plurality of carbon fiber fabrics are paved on one circle of the inner side surface of the mold box 11, then the bearing moving system 9 is controlled to drive the bottom paving system 6 to move away from the top of the mold box 11, and the bearing moving system 9 is controlled to drive a longitudinal embedding system 7 and a horizontal direction 8 to move to the top of the mold box 11, then the lifting electric sliding rail column 5 is controlled to drive the position of the bearing moving system 9 to move downwards, namely the bearing moving system 9 to drive the bottom paving system 7 and the horizontal direction 8 to move to the horizontal direction to enter the horizontal direction of the carbon fiber fabric to the inner side of the mold box 11 to be embedded in the side of the carbon fiber fabric is completely and the carbon fiber fabric is embedded into the side of the inner side of the mold box 11 in turn, and the carbon fiber fabric is pressed into the side of the carbon fiber fabric is completely and the carbon fiber fabric is embedded into the side by the carbon fiber fabric is completely and the carbon fiber fabric is pressed into the carbon fabric. The transverse lines and the longitudinal lines are respectively processed, so that the carbon fiber cloth on the side face is completely embedded into the grooves and the lines on the inner side surface of the helmet die.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 2, a square frame seat is provided on the top of the middle mounting plate 4, and a mold box 11 is detachably and embedded in the square frame seat.

The mold box 11 is positioned and placed inside the square frame seat, so that the mold box 11 is prevented from moving when the mold box 11 is operated.

As shown in fig. 3, the load-bearing moving system 9 includes a second sliding-mounting long plate 901 and a first electric slide rail 902; the lifting electric sliding rail columns 5 on two sides are respectively and slidably connected with a second sliding installation long plate 901, two first electric sliding rail columns 902 are fixedly connected between the second sliding installation long plates 901 on two sides, and the bottom paving system 6, the longitudinal embedding system 7 and the horizontal embedding system 8 are connected with the first electric sliding rail columns 902.

The lifting electric sliding rail columns 5 drive the two second sliding mounting long plates 901 to perform up-and-down sliding motion, and similarly, the two first electric sliding rail columns 902 drive the first electric sliding seat 602 and the second electric sliding seat 603 to slide respectively, and the two first electric sliding rail columns 902 drive the first sliding mounting long plates 701 to perform sliding motion simultaneously, so that the horizontal and vertical motion of the bearing moving system 9 to drive the bottom paving system 6, the longitudinal embedding system 7 and the horizontal embedding system 8 is realized.

As shown in fig. 4 to 8, the bottom paving system 6 includes a bearing ring frame 601, a first electric sliding seat 602, a second electric sliding seat 603, a first supporting seat 604, a second supporting seat 605, an electric annular sliding rail 606, a toothed ring 607, a gear assembly, a set mounting disk 6016, a second rotating shaft 6017, a third flat gear 6018, an electric sliding rail frame 6023, an electric sliding block 6024, a mounting fixing round bar 6025, an articulated ball 6026 and an embedded pressing ball 6029; the two first electric sliding rail columns 902 are connected with a first electric sliding seat 602 and a second electric sliding seat 603 in a sliding manner; a bearing ring frame 601 is fixedly connected between the first electric slide seat 602 and the second electric slide seat 603; the top of the bearing ring frame 601 is fixedly connected with a first supporting seat 604 and a second supporting seat 605; the inner sides of the first support seat 604 and the second support seat 605 are fixedly connected with an electric annular slide rail 606; the inner side of the electric annular slide rail 606 is in transmission connection with a toothed ring 607; the inner side of the bearing ring frame 601 is rotationally connected with a collection mounting disc 6016; the second rotating shaft rod 6017 is fixedly connected with the top axle center of the integrated mounting disc 6016; the outer surface of the second rotating shaft 6017 is fixedly connected with a third flat gear 6018; the toothed ring 607 is in driving connection with a third flat gear 6018 via a gear assembly; an electric sliding rail frame 6023 is arranged at the bottom of the assembly mounting disc 6016; an electric slide block 6024 is connected to the inner side of the electric slide rail frame 6023 in a sliding manner; the electric slide block 6024 is fixedly inserted with a mounting and fixing round rod 6025; the bottom of the mounting and fixing round rod 6025 is fixedly connected with a movable connecting ball 6026; an embedded pressing ball 6029 is movably connected to the lower side of the movable connecting ball 6026; a plurality of spherical bulges are uniformly arranged on the outer surface of the embedded pressing ball 6029.

Firstly, the lifting electric sliding rail column 5 is controlled to drive the position of the bearing moving system 9 to move downwards, namely, the bearing moving system 9 drives the bottom leveling system 6 to move downwards and enter the inside of the die box 11, at the moment, the bottom of the embedded pressing ball 6029 contacts with carbon fiber cloth at the bottom of the die box 11, the bottom of the embedded pressing ball 6029 is movably connected with the embedded pressing ball 6029, the carbon fiber cloth is pressed into lines and grooves on the inner side surface of the die box 11 through the spherical protruding portion on the outer surface of the embedded pressing ball 6029, the embedded pressing ball 6029 presses the carbon fiber cloth downwards after contacting with the embedded pressing ball 6029, the carbon fiber cloth is pressed into lines and grooves, and the electric sliding rail frame 6023 is controlled to drive the electric sliding block 6024 to move downwards and then the electric sliding block 6024 drives the installation fixing round rod 6025, the movable connecting ball 6026 and the embedded pressing ball 6029 to move integrally, and then the bottom of the embedded pressing ball 6029 is movably connected with the movable connecting ball 6026, at the moment, the bottom of the embedded pressing ball 6029 is pressed on the top of the carbon fiber cloth, and when the movable connecting ball 6029 moves, the bottom of the embedded pressing ball 6029 is pressed into the lines and grooves on the inner side surface of the die box 11, the bottom of the carbon fiber cloth is pressed into the area, and the bottom of the carbon fiber cloth is completely pressed into the area of the die box.

The gear assembly comprises a first flat gear 608, a first rotating shaft lever 609, a gear lack 6010, a bearing frame plate 6011, a mounting sleeve 6013, a rotating support sliding rod 6014 and a second flat gear 6015; the upper part of the collective mounting disc 6016 is welded with a mounting sleeve 6013; the inner side of the mounting sleeve 6013 is movably connected with a rotary support slide bar 6014; a second flat gear 6015 is fixedly connected to the upper side of the rotary support sliding rod 6014; the second flat gear 6015 moves upward to engage the third flat gear 6018; the top of the mounting sleeve 6013 is welded with a bearing frame plate 6011; a first rotating shaft lever 609 is rotatably connected to the bearing frame plate 6011; the outer surface of the first rotating shaft lever 609 is fixedly connected with a first flat gear 608; the first flat gear 608 is meshed with the toothed ring 607; the outer surface of the first rotating shaft lever 609 is fixedly connected with a gear-missing 6010; the gear-missing wheel 6010 engages the second flat gear 6015.

The electric annular sliding rail 606 is controlled to drive the toothed ring 607 to rotate, at this time, the toothed ring 607 rotates in a anticlockwise direction from top to bottom, the toothed ring 607 drives the first flat gear 608 to rotate anticlockwise, then the first flat gear 608 drives the first rotating shaft lever 609 to rotate, then the first rotating shaft lever 609 drives the gear absence 6010 and controls to stir the pressing plate 6012 to rotate anticlockwise, when the gear absence 6010 rotates to be meshed with the second flat gear 6015, at this time, the second flat gear 6015 is driven to rotate, then the second flat gear 6015 drives the third flat gear 6018 to rotate, the third flat gear 6018 drives the second rotating shaft lever 6017 to rotate, further the second rotating shaft lever 6017 drives the set mounting disc 6016 to rotate, and then the set mounting disc 6016 drives all parts connected with the first rotating shaft lever to realize the adjustment direction of the embedded pressing ball 6029.

Firstly, the lifting electric sliding rail column 5 is controlled to drive the position of the bearing moving system 9 to move downwards, namely, the bearing moving system 9 drives the bottom paving system 6 to move downwards and enter the die box 11, at the moment, the electric annular sliding rail 606 is controlled to drive the toothed ring 607 to rotate, at the moment, the toothed ring 607 rotates in a anticlockwise direction from top to bottom, the toothed ring 607 drives the first flat gear 608 to rotate anticlockwise, then the first flat gear 608 drives the first rotating shaft lever 609 to rotate, then the first rotating shaft lever 609 drives the gear absence 6010, the second flat gear 6015 and the third flat gear 6018 to rotate, the third flat gear 6018 drives the second rotating shaft lever 6017 to rotate, the second rotating shaft lever 6017 drives the collecting and mounting disc 6016 to rotate, then the collecting and mounting disc 6016 drives all parts connected with the same to rotate, at the moment, the bottom of the embedded pressing ball 6029 contacts with carbon fiber cloth at the bottom in the die box 11, for the carbon fiber cloth in the middle area of the inner bottom surface, the embedded pressing ball 6029 presses the carbon fiber cloth downwards after contacting, so that the carbon fiber cloth is pressed into lines and grooves, and for the area of the outer ring of the inner bottom surface, the electric sliding rail frame 6023 is controlled to drive the electric sliding block 6024 to move, then the electric sliding block 6024 drives the installation fixing round rod 6025, the movable connecting ball 6026, the movable control long plate 6027 and the embedded pressing ball 6029 to integrally move, so that the pressing ball 6029 is tightly adhered to the inner surface of the mold box 11, as the movable connecting ball 6026 is movably connected with the embedded pressing ball 6029, the bottom of the embedded pressing ball 6029 is pressed at the top of the carbon fiber cloth, when the movable connecting ball 6026 moves, the bottom of the embedded pressing ball 6029 moves in a rolling mode at the top of the carbon fiber cloth, and the bottom of the embedded pressing ball 6029 is deflected at the bottom of the movable connecting ball 6026, namely, the embedded pressing ball 6029 rolls towards the area of the outer ring of the bottom surface of the mold box 11, presses the carbon fiber cloth of the area of the outer ring of the bottom surface until the carbon fiber cloth of the area of the outer ring of the bottom surface is completely pressed and tiled to be embedded into the bottom of the inner surface of the mold box 11, so that the flattening of the carbon fiber cloth on the ground inside the mold box 11 is completed, the embedded pressing ball 6029 is always in a state of being tightly attached to the carbon fiber cloth inside the mold box 11, the control needs to be more accurate for the lifting electric sliding rail column 5 and the bearing moving system 9, and the instant friction force is larger when the embedded pressing ball 6029 is always in a state of being tightly attached to the carbon fiber cloth inside the mold box 11 and is in contact with the carbon fiber cloth inside the mold box 11.

Example 3

On the basis of embodiment 2, as shown in fig. 4 to 8, the bottom paving system 6 further includes a control toggle platen 6012, a slide control plate 6019, a first return spring 6020, a second return spring 6021, a second elastic telescopic rod 6022, a movement control long plate 6027, and a rotation control plate 6028; the bottom of the first rotating shaft lever 609 is fixedly connected with a control toggle pressing plate 6012; the inner side of the mounting sleeve 6013 is connected with a sliding control plate 6019 in a sliding manner; a first return spring 6020 and a second return spring 6021 are fixedly connected to one side of the sliding control plate 6019 in sequence; the first return spring 6020 and the second return spring 6021 are fixedly connected to the inner side of the mounting sleeve 6013; a second elastic telescopic rod 6022 is fixedly connected to the top of the sliding control plate 6019; the top of the second elastic telescopic rod 6022 is connected with the mounting sleeve 6013 in a sliding manner; the rotation support slide bar 6014 is in sliding rotation connection with the mounting sleeve 6013; the outer surface of the mounting and fixing round rod 6025 is sleeved with a movement control long plate 6027; a rotation control board 6028 is rotatably connected to the inner side of the electric slide rail frame 6023; a hemispherical block is arranged at the bottom of the rotary support sliding rod 6014; a circular opening with the same diameter as the upper part of the second elastic telescopic rod 6022 is arranged on one side of the track, which slides with the second elastic telescopic rod 6022, of the inner top of the mounting sleeve 6013, which is close to the second rotating shaft rod 6017; an arc-shaped track is arranged at the top of the mounting sleeve 6013, and a circular opening is positioned at the inner side of the track; the toggle platen 6012 is controlled to be slidably coupled to the arcuate track at the top of the mounting sleeve 6013 by a cam.

Firstly, the lifting electric sliding rail column 5 is controlled to drive the position of the bearing moving system 9 to move downwards, namely, the bearing moving system 9 drives the bottom paving system 6 to move downwards to enter the inside of the mold box 11, at the moment, the bottom of the embedded pressing ball 6029 contacts with carbon fiber cloth at the bottom of the inside of the mold box 11, the embedded pressing ball 6029 presses the carbon fiber cloth downwards after contacting with the carbon fiber cloth in the middle area of the inner bottom surface, so that the carbon fiber cloth is pressed into lines and grooves, at the moment, the electric sliding rail frame 6023 is controlled to drive the electric sliding block 6024 to move, then the electric sliding block 6024 drives the installation fixing round rod 6025, the movable connecting ball 6026, the movement control long plate 6027 and the embedded pressing ball 6029 to move integrally, then the bottom of the embedded pressing ball 6029 is pressed on the top of the carbon fiber cloth because the movable connecting ball 6026 is movably connected with the embedded pressing ball 6029, when the movable connecting ball 6026 moves, the bottom of the embedded pressing ball 6029 moves on the top of the carbon fiber cloth in a rolling way, the embedded pressing ball 6029 deflects on the bottom of the movable connecting ball 6026, namely, the embedded pressing ball 6029 rolls towards the area of the outer ring of the bottom surface to press the carbon fiber cloth on the area of the outer ring of the bottom surface, meanwhile, during the movement of the movable control long plate 6027, one side of the movable control long plate 6027 props against the rotary control plate 6028 to rotate, then the rotary control plate 6028 rotates on the inner side of the electric slide rail frame 6023, the upper half part of the rotary control plate 6028 props the sliding control plate 6019 towards the other side, the sliding control plate 6019 slides on the inner side of the mounting sleeve 6013, the sliding control plate 6019 compresses the first return spring 6020 and the second return spring 6021 and drives the second elastic telescopic rod 6022 to move towards the direction close to the second rotary shaft 6017 on the inner side of the mounting sleeve 6013, then the sliding control board 6019 moves to the bottom of the rotation support slide bar 6014, and then the sliding control board 6019 drives the rotation support slide bar 6014 to slide upwards inside the installation sleeve 6013, namely, the rotation support slide bar 6014 drives the second flat gear 6015 to move to a position meshed with the third flat gear 6018, and the second elastic telescopic rod 6022 is slidingly inserted into the circular opening of the installation sleeve 6013 in the process, the spherical top part of the top of the second elastic telescopic rod 6022 is exposed from the circular opening, namely, the embedded pressing ball 6029 rolls towards the area of the outer ring of the bottom surface, the pressing of the carbon fiber cloth of the area of the outer ring of the bottom surface is finished, then the electric sliding rail frame 6023 is controlled to drive the electric sliding block 6024 to reversely move for resetting, namely, the electric sliding block 6024 drives the installation fixing round rod 6025, the movable connecting ball 6026, the movable control long plate 6027 and the embedded pressing ball 6029 to reset, then the embedded pressing ball 6029 is reset to the middle position of the inner bottom of the mold box 11, then the electric annular sliding rail 606 is controlled to drive the toothed ring 607 to rotate, at this time, the toothed ring 607 rotates in a counterclockwise direction from top to bottom, then the toothed ring 607 drives the first flat gear 608 to rotate counterclockwise, then the first flat gear 608 drives the first rotating shaft lever 609 to rotate, then the first rotating shaft lever 609 drives the missing gear 6010 and the control toggle pressing plate 6012 to rotate counterclockwise, then when the missing gear 6010 rotates to be meshed with the second flat gear 6015, at this time the second flat gear 6015 is driven to rotate, then the second flat gear 6015 drives the third flat gear 6018 to rotate, the third flat gear 6018 drives the second rotating shaft lever 6017 to rotate, then the second rotating shaft lever 6017 drives the set mounting disc 6016 to rotate, then the set mounting disc 6016 drives all parts connected with the first flat gear lever 609 to rotate, and then the electric sliding rail 6023, after the electric slide block 6024, the mounting fixed round rod 6025, the movable connecting ball 6026, the movable control long plate 6027, the rotary control plate 6028 and the embedded pressing ball 6029 are adjusted in direction, then the gear-lack 6010 is disengaged from the second flat gear 6015, the stirring pressing plate 6012 is controlled to continue to rotate and move to the circular opening position of the top of the mounting sleeve 6013, the spherical top part of the second elastic telescopic rod 6022 is controlled to be pressed downwards by the stirring pressing plate 6012, meanwhile, the first reset spring 6020 and the second reset spring 6021 also start to stretch and reset, further the sliding control plate 6019 is driven to reversely move and reset, further the rotary control plate 6028 is reset, then the electric annular slide rail 606 is controlled to stop driving the toothed ring 607 to continuously rotate, at the moment, the electric slide rail frame 6023 is controlled to drive the electric slide block 6024 to move so that the embedded pressing ball 6029 is embedded in another area of the outer ring of the bottom surface, and repeatedly, until carbon fiber cloth of the area of the outer ring of the bottom surface is completely pressed and embedded into the bottom of the inner surface of the die box 11, and accordingly the carbon fiber cloth inside the die box 11 is flattened, the carbon cloth is pressed against the carbon cloth in the die 11 by the principle, and the carbon cloth is pressed in a tight contact with the carbon cloth, and the carbon cloth is intermittently pressed, and the carbon cloth is pressed inside the die box is pressed, and the carbon cloth is intermittently, and the carbon cloth is pressed.

As shown in fig. 9, the longitudinal embedded system 7 includes a first sliding mounting long plate 701, a mounting seat 702, a connecting inner rod 703, an electric rotating shaft sleeve 704, a first electric telescopic connecting plate 705, a second electric telescopic connecting plate 706, a transverse pressing roller 707, a connecting mounting plate 708, a first electric rotating shaft seat 709, a third electric telescopic connecting plate 7010 and an arc-shaped circular tube pressing head 7011; a first sliding mounting long plate 701 is connected with the first electric sliding rail column 902 in a sliding manner; the bottom of the first sliding mounting long plate 701 is fixedly connected with a mounting seat 702; the bottom of the mounting seat 702 is fixedly connected with a connecting inner rod 703; an electric rotating shaft sleeve 704 is arranged outside the connecting inner rod 703; the bottom of the connecting inner rod 703 is connected with a horizontal embedded system 8; a first electric telescopic connecting plate 705 is arranged on the outer side of the electric rotating shaft sleeve 704; a second electric telescopic connecting plate 706 is fixedly sleeved outside the electric rotating shaft sleeve 704; a transverse pressing roller 707 is rotatably connected to the telescopic end of the second electric telescopic connecting plate 706; the transverse pressing roller 707 is rotatably connected to the telescopic end of the first electric telescopic connection plate 705; the outer side of the electric rotating shaft sleeve 704 is fixedly sleeved with a connecting mounting plate 708; a first electric rotating shaft seat 709 is arranged on one side of the connection mounting plate 708; a third electric telescopic connecting plate 7010 is arranged at the end part of the first electric rotating shaft seat 709; an arc round tube pressing head 7011 is arranged at the bottom of the third electric telescopic connecting plate 7010.

Firstly, the bearing moving system 9 is controlled to drive the longitudinal embedded system 7 and the horizontal embedded system 8 to move above the top of the mold box 11, and the lifting electric sliding rail column 5 is controlled again to drive the bearing moving system 9 to move downwards, namely, the bearing moving system 9 drives the longitudinal embedded system 7 and the horizontal embedded system 8 to move downwards to enter the inside of the mold box 11, at the moment, the first electric telescopic connecting plate 705 and the second electric telescopic connecting plate 706 are controlled to stretch, the transverse pressing roller 707 is pressed to the surface of carbon fiber cloth on one circle of the inner side surface of the mold box 11, then the electric rotating sleeve 704 is controlled to drive the first electric telescopic connecting plate 705, the second electric telescopic connecting plate 706, the transverse pressing roller 707, the connecting mounting plate 708, the first electric rotating seat 709, the third electric telescopic connecting plate 7010 and the arc-shaped circular tube pressing head 7011 to synchronously rotate, the transverse pressing roller 707 rolls on the surface of the carbon fiber cloth on one circle of the inner side surface of the mold box 11, presses and flattens the carbon fiber cloth on one circle of the inner side surface of the mold box 11, drives the bearing moving system 9 to drive the longitudinal embedding system 7 to repeatedly lift through the lifting electric sliding rail column 5, further presses and flattens the carbon fiber cloth on the inner side surface of the whole mold box 11 by the transverse pressing roller 707, then controls the first electric telescopic connecting plate 705 and the second electric telescopic connecting plate 706 to shrink and reset, controls the first electric rotating shaft seat 709 to drive the third electric telescopic connecting plate 7010 and the arc circular tube pressing head 7011 to swing up and down, controls the third electric telescopic connecting plate 7010 to stretch in real time in the process of swinging up and down by the third electric telescopic connecting plate 7010 and the arc circular tube pressing head 7011, drives the arc circular tube pressing head 7011 to cling to the carbon fiber cloth on the inner side surface of the mold box 11 at any time, when the arc-shaped round pipe pressing head 7011 passes through the lines and grooves on the inner side surface of the die box 11, the carbon fiber cloth is flattened and embedded into the lines and grooves, the electric rotating shaft sleeve 704 is controlled to rotate in real time, the longitudinal embedded system 7 is controlled to lift and adjust the vertical direction after one circle of treatment is completed, the whole inner side surface of the die box 11 is further treated, and the upper and lower directions of the carbon fiber cloth are completely paved on the inner surface of the die box 11.

As shown in fig. 10, the horizontal direction embedding system 8 includes a second electric rotating shaft seat 801, a first elastic expansion plate 802, an arc pressing head 803, a fastening frame 804, a connecting rotating shaft seat 805 and a clamping plate 806; the bottom of the connecting inner rod 703 is provided with a second electric rotating shaft seat 801; a first elastic expansion plate 802 is arranged at the bottom of the second electric rotating shaft seat 801; an arc-shaped pressing head 803 is fixedly connected to the telescopic end of the first elastic telescopic plate 802; the top of the expansion plate of the first elastic expansion plate 802 is fixedly connected with a clamping bracket 804; the top of the first elastic expansion plate 802 is provided with a connecting rotating shaft seat 805; the connecting rotating shaft seat 805 is rotationally connected with a clamping plate 806; the other end of the clamping plate 806 is hooked and inserted inside the fastening frame 804.

After the processing of the longitudinal embedded system 7 is completed, the first elastic expansion plate 802 is compressed manually at this time, the clamping plate 806 is rotated and pulled out from the inside of the clamping frame 804, then the first elastic expansion plate 802 loses the external force of compression, the first elastic expansion plate 802 drives the arc pressing head 803 to extend to contact the inner surface of the mold box 11, and then the second electric rotating shaft seat 801 is controlled to rotate again at this time, so that the arc pressing head 803 is pressed in the circumferential motion of the carbon fiber cloth surface of the inner surface of the mold box 11, and then the carbon fiber cloth is pressed into the grains and the grooves in the horizontal direction.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. The special garment made of the insulating carbon fiber fabric is characterized by comprising a working machine base plate (1), an installation vertical column (2), a middle installation plate (4), a lifting electric sliding rail column (5), a bottom paving system (6), a longitudinal embedding system (7), a horizontal embedding system (8), a bearing moving system (9), a top installation plate (10) and a die box (11); four mounting vertical posts (2) are fixedly connected above the bottom plate (1) of the working machine; the upper parts of the four mounting vertical posts (2) are fixedly connected with a middle mounting plate (4); the top mounting plates (10) are arranged at the tops of the four mounting vertical posts (2); lifting electric sliding rail columns (5) are symmetrically arranged between the bottom of the top mounting plate (10) and the middle mounting plate (4); the lifting electric sliding rail columns (5) on two sides are connected with a bearing moving system (9) in a sliding way; the bearing moving system (9) is in transmission connection with the bottom paving system (6); the bearing moving system (9) is in transmission connection with a longitudinal embedded system (7); the bottom of the longitudinal embedded system (7) is provided with a horizontal embedded system (8); the bearing moving system (9) drives the bottom paving system (6), the longitudinal embedded system (7) and the horizontal embedded system (8) to realize vertical lifting and horizontal movement; a mould box (11) is arranged at the top of the middle mounting plate (4); the bottom paving system (6) is used for paving and embedding carbon fiber cloth at the bottom in the die box (11) into corresponding lines and grooves in the bottom; the longitudinal embedding system (7) and the horizontal embedding system (8) are used for flatly embedding the carbon fiber cloth on the inner side surface of the die box (11) into corresponding lines and grooves in the die box; the top of the middle mounting plate (4) is provided with a square frame seat, and the mold box (11) is detachably embedded in the square frame seat; the bearing moving system (9) comprises a second sliding mounting long plate (901) and a first electric sliding rail column (902); a second sliding installation long plate (901) is connected to the lifting electric sliding rail columns (5) on two sides in a sliding way, two first electric sliding rail columns (902) are fixedly connected between the second sliding installation long plates (901) on two sides, and the bottom paving system (6), the longitudinal embedding system (7) and the horizontal embedding system (8) are connected with the first electric sliding rail columns (902); the bottom paving system (6) comprises a bearing ring frame (601), a first electric sliding seat (602), a second electric sliding seat (603), a first supporting seat (604), a second supporting seat (605), an electric annular sliding rail (606), a toothed ring (607), a gear assembly, a collection installation disc (6016), a second rotating shaft rod (6017), a third flat gear (6018), an electric sliding rail frame (6023), an electric sliding block (6024), an installation fixing round rod (6025), a movable connecting ball (6026) and an embedded pressing ball (6029); the two first electric sliding rail columns (902) are connected with a first electric sliding seat (602) and a second electric sliding seat (603) in a sliding manner; a bearing ring frame (601) is fixedly connected between the first electric sliding seat (602) and the second electric sliding seat (603); the top of the bearing ring frame (601) is fixedly connected with a first supporting seat (604) and a second supporting seat (605); the inner sides of the first supporting seat (604) and the second supporting seat (605) are fixedly connected with an electric annular sliding rail (606); the inner side of the electric annular slide rail (606) is in transmission connection with a toothed ring (607); the inner side of the bearing ring frame (601) is rotationally connected with a collecting and mounting disc (6016); the top axle center of the collecting and mounting disc (6016) is fixedly connected with a second rotating shaft lever (6017); the outer surface of the second rotating shaft rod (6017) is fixedly connected with a third flat gear (6018); the toothed ring (607) is in transmission connection with a third flat gear (6018) through a gear assembly; an electric slide rail frame (6023) is arranged at the bottom of the assembly mounting disc (6016); an electric sliding block (6024) is connected to the inner side of the electric sliding rail frame (6023) in a sliding way; the electric sliding block (6024) is fixedly inserted with a mounting and fixing round rod (6025); the bottom of the installation fixed round rod (6025) is fixedly connected with a movable connecting ball (6026); an embedded pressing ball (6029) is movably connected to the lower side of the movable connecting ball (6026); a plurality of spherical bulges are uniformly arranged on the outer surface of the embedded pressing ball (6029); the gear assembly comprises a first flat gear (608), a first rotating shaft rod (609), a gear-lack (6010), a bearing frame plate (6011), a mounting sleeve (6013), a rotating support sliding rod (6014) and a second flat gear (6015); the upper part of the assembly mounting disc (6016) is welded with a mounting sleeve box (6013); the inner side of the mounting sleeve box (6013) is movably connected with a rotary support slide bar (6014); the upper side of the rotary support sliding rod (6014) is fixedly connected with a second flat gear (6015); the second flat gear (6015) moves upwards to engage with the third flat gear (6018); a bearing frame plate (6011) is welded at the top of the mounting sleeve box (6013); a first rotating shaft rod (609) is rotatably connected to the bearing frame plate (6011); the outer surface of the first rotating shaft rod (609) is fixedly connected with a first flat gear (608); the first flat gear (608) is meshed with the toothed ring (607); the outer surface of the first rotating shaft rod (609) is fixedly connected with a gear-missing wheel (6010); the gear-missing wheel (6010) is meshed with the second flat gear (6015); the bottom paving system (6) further comprises a control toggle pressing plate (6012), a sliding control plate (6019), a first reset spring (6020), a second reset spring (6021), a second elastic telescopic rod (6022), a movement control long plate (6027) and a rotation control plate (6028); the bottom of the first rotating shaft rod (609) is fixedly connected with a control toggle pressing plate (6012); a sliding control plate (6019) is connected on the inner side of the mounting sleeve box (6013) in a sliding manner; a first reset spring (6020) and a second reset spring (6021) are fixedly connected to one side of the sliding control plate (6019) in sequence; the first reset spring (6020) and the second reset spring (6021) are fixedly connected to the inner side of the mounting sleeve box (6013); the top of the sliding control plate (6019) is fixedly connected with a second elastic telescopic rod (6022); the top of the second elastic telescopic rod (6022) is connected with the mounting sleeve box (6013) in a sliding way; the rotary support sliding rod (6014) is in sliding rotary connection with the mounting sleeve box (6013); the outer surface of the mounting fixed round rod (6025) is sleeved with a movable control long plate (6027); a rotation control plate (6028) is rotatably connected to the inner side of the electric slide rail frame (6023); the bottom of the rotary support sliding rod (6014) is provided with a hemispherical block; the top of the inner side of the mounting sleeve box (6013) and one side, close to the second rotating shaft rod (6017), of the sliding track of the second elastic telescopic rod (6022) are provided with a circular opening with the same diameter as the upper part of the second elastic telescopic rod (6022); an arc-shaped track is arranged at the top of the mounting sleeve box (6013), and a circular opening is positioned at the inner side of the track; the toggle pressing plate (6012) is controlled to be connected with the arc-shaped track at the top of the mounting sleeve box (6013) in a sliding manner through a convex ball.

2. The special garment made of the insulating carbon fiber fabric according to claim 1, wherein the longitudinal embedded system (7) comprises a first sliding mounting long plate (701), a mounting seat (702), a connecting inner rod (703), an electric rotating shaft sleeve (704), a first electric telescopic connecting plate (705), a second electric telescopic connecting plate (706), a transverse pressing roller (707), a connecting mounting plate (708), a first electric rotating shaft seat (709), a third electric telescopic connecting plate (7010) and an arc-shaped circular tube pressing head (7011); the first electric sliding rail column (902) is connected with a first sliding mounting long plate (701) in a sliding way; the bottom of the first sliding installation long plate (701) is fixedly connected with an installation seat (702); the bottom of the mounting seat (702) is fixedly connected with a connecting inner rod (703); an electric rotating shaft sleeve (704) is arranged at the outer side of the connecting inner rod (703); the bottom of the connecting inner rod (703) is connected with a horizontal embedded system (8); a first electric telescopic connecting plate (705) is arranged on the outer side of the electric rotating shaft sleeve (704); a second electric telescopic connecting plate (706) is fixedly sleeved on the outer side of the electric rotating shaft sleeve (704); the telescopic end of the second electric telescopic connecting plate (706) is rotatably connected with a transverse pressing roller (707); the transverse pressing roller (707) is rotatably connected to the telescopic end of the first electric telescopic connecting plate (705); a connection mounting plate (708) is fixedly sleeved on the outer side of the electric rotating shaft sleeve (704); one side of the connection mounting plate (708) is provided with a first electric rotating shaft seat (709); a third electric telescopic connecting plate (7010) is arranged at the end part of the first electric rotating shaft seat (709); an arc round tube pressing head (7011) is arranged at the bottom of the third electric telescopic connecting plate (7010).

3. The special garment made of the insulating carbon fiber fabric according to claim 2, wherein the horizontal direction embedding system (8) comprises a second electric rotating shaft seat (801), a first elastic expansion plate (802), an arc-shaped pressing head (803), a clamping frame (804), a connecting rotating shaft seat (805) and a clamping plate (806); the bottom of the connecting inner rod (703) is provided with a second electric rotating shaft seat (801); a first elastic expansion plate (802) is arranged at the bottom of the second electric rotating shaft seat (801); an arc-shaped pressing head (803) is fixedly connected to the telescopic end of the first elastic telescopic plate (802); the top of the expansion plate of the first elastic expansion plate (802) is fixedly connected with a clamping frame (804); the top of the first elastic expansion plate (802) is provided with a connecting rotating shaft seat (805); the connecting rotating shaft seat (805) is rotationally connected with a clamping plate (806); the other end of the clamping plate (806) is inserted into the inner side of the clamping frame (804) in a hook shape.