CN112609435A - Automatic fabric cutting, tiling and compacting device for fabrics - Google Patents

Abstract

The invention relates to the field of textile fabric cutting machines, and discloses an automatic fabric cutting, tiling and compacting device, which comprises a main box, wherein a cutting knife cavity is arranged in the main box, the lower side of the cutting knife cavity is communicated with a cutting cavity, the right side of the cutting cavity is communicated with a fabric roller cavity, the left side of the cutting cavity is communicated with a tiling cavity communicated with the cutting knife cavity, and a tiling plate which extends rightwards into the cutting cavity is fixedly connected in the lower end wall of the tiling cavity. The cutting work efficiency and the cloth cutting amount are improved.

Description

Automatic fabric cutting, tiling and compacting device for fabrics

Technical Field

The invention relates to the field of textile fabric cutting machines, in particular to an automatic fabric cutting, laying and compacting device.

Background

At present cloth need the manual work to carry out the measurement of cloth size and tailor again before the work of tailorring the regulation pattern, and the manual work has certain error to cause the waste of cloth, simultaneously in the work of tiling cloth, can not be better carry out the tiling work to the cloth of tailorring, and this can cause can not tailor more complete when tailorring corresponding pattern at the in-process of tailorring, and work efficiency has certain reduction.

Disclosure of Invention

The invention aims to provide an automatic cloth cutting, tiling and compacting device, which can overcome the defects in the prior art, so that the practicability of equipment is improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to an automatic cloth cutting, spreading and compacting device, which comprises a main body box, wherein a cutting knife cavity is arranged in the main body box, the lower side of the cutting knife cavity is communicated with and provided with a cutting cavity, the right side of the cutting cavity is communicated with and provided with a cloth roller cavity, the left side of the cutting cavity is communicated with and provided with a spreading cavity communicated with the cutting knife cavity, the lower end wall of the spreading cavity is fixedly connected with a spreading plate which extends rightwards into the cutting cavity, the left side of the cutting knife cavity and the upper side of the spreading cavity are provided with a wire wheel cavity, the left side of the wire wheel cavity is provided with a movable belt wheel cavity, the left side of the movable belt wheel cavity is provided with a gear meshing cavity, the left side of the gear meshing cavity is provided with a disc rotating cavity, the lower side of the disc rotating cavity is communicated with and provided with a piston cavity, the lower side of the piston cavity is communicated with and, the left end face of the motor is fixedly connected with a main power shaft which extends leftwards and penetrates through the movable belt wheel cavity, the tail end of the left side of the main power shaft is connected with a spline shaft which extends leftwards and into the gear meshing cavity in a spline fit mode, the spline shaft is fixedly connected with a main power gear, the tail end of the left side of the spline shaft is connected with a rotating block in a rotating fit mode, a rotating block spring is fixedly connected between the left end face of the rotating block and the left end wall of the gear meshing cavity, a left side electromagnet which corresponds to the rotating block is connected in the left end wall of the gear meshing cavity in a specified mode, a belt wheel power shaft which extends leftwards and into the gear meshing cavity and penetrates through the belt wheel cavity and the cutting knife cavity rightwards is connected in the right end wall of the gear meshing cavity and positioned at the, the wire wheel power shaft is fixedly connected with a wire wheel positioned in the wire wheel cavity, the tail end of the right side of the wire wheel power shaft is fixedly connected with a cutting motion gear, a cutting reset spring is fixedly connected between the right end surface of the power shaft of the wire wheel and the right end wall of the cutting knife cavity, a cutting knife is connected in a sliding fit manner in the cutting knife cavity and behind the cutting motion gear, a cutter spring is fixedly connected between the upper end surface of the cutter and the upper end wall of the cutter cavity, a cloth fixing shaft which extends forwards and penetrates through the cloth roller cavity is connected in a rotating fit manner in the rear end wall of the cloth roller cavity, the cloth fixing shaft is fixedly connected with a cloth roller located in the cloth roller cavity, the right end wall of the gear meshing cavity is fixedly connected with a right electromagnet corresponding to the rotating block, and the main power shaft is fixedly connected with a movable driving belt wheel located in the motor.

On the basis of the technical scheme, a disc power shaft which extends rightwards into the gear meshing cavity and leftwards into the disc rotating cavity is connected in the left end wall of the gear meshing cavity and is positioned at the lower side of the spline shaft in a rotating and matching manner, the tail end of the right side of the disk power shaft is fixedly connected with an air exhaust power gear meshed with the main power gear, the tail end of the left side of the disk power shaft is fixedly connected with a disk, the left end surface of the disk is fixedly connected with a cross rod, the left side of the cross rod is connected with a vertical rod which extends downwards into the piston cavity in a rotating matching way, the lower side of the vertical rod is hinged with a piston, an exhaust one-way valve is fixedly connected in the piston cavity and at the upper side of the piston cavity, a pressure strip is connected in the pressure strip cavity in a sliding fit manner, and a pressure plate spring is fixedly connected between the upper end surface of the pressure plate and the upper end wall of the pressure plate cavity.

On the basis of the technical scheme, a bevel gear turning cavity is arranged on the left side of the movable pulley cavity, a turning transmission shaft which extends rightwards into the movable pulley cavity and leftwards into the bevel gear turning cavity is connected to the left end wall of the movable pulley cavity in a rotating fit manner, a movable driven pulley is fixedly connected to the right end of the turning transmission shaft, a movable power belt is connected between the movable driven pulley and the movable driving pulley in a power fit manner, a driving bevel gear is fixedly connected to the left end of the turning transmission shaft, a sliding plate moving cavity is communicated with the rear side of the tiled cavity, a movable power shaft which extends upwards into the sliding plate moving cavity and is bilaterally symmetrical to the sliding plate moving cavity is connected to the lower end wall of the sliding plate moving cavity in a rotating fit manner, a movable pulley is fixedly connected to the upper end of the movable power shaft, and a movable belt, the left side movable power shaft extends upwards to the bevel gear turning cavity, and the tail end of the upper side of the left side movable power shaft is fixedly connected with a driven bevel gear meshed with the driving bevel gear.

On the basis of the technical scheme, the sliding plate moving cavity is connected with a sliding plate in a sliding fit mode, a fixed block sliding cavity with an upward opening and a downward opening is arranged in the sliding plate, the sliding plate is internally provided with a transverse rod through cavity communicated with the fixed block sliding cavity and provided with a forward opening, the moving belt is fixedly connected with a fixed pin which extends upwards and penetrates through the fixed block sliding cavity, the fixed pin is fixedly connected with a fixed block at the upper end of the fixed pin, the fixed block is fixedly connected with a transverse rod which extends forwards and penetrates through the transverse rod through cavity to the transverse rod in the sliding plate moving cavity, the transverse rod is fixedly connected with an air exhaust plate which extends forwards and penetrates through the flat laying cavity, an air exhaust cavity with an opening towards money is arranged in the air exhaust plate, and a plurality of.

On the basis of the technical scheme, an air exhaust pipeline is fixedly connected between the front end wall of the tiled cavity and the right end wall of the piston cavity, an air exhaust check valve is fixedly connected in the air exhaust pipeline, a corrugated pipe corresponding to the air exhaust cavity and the air exhaust pipeline is fixedly connected between the front end surface of the air exhaust plate and the front end wall of the tiled cavity, the left end wall of the sliding plate moving cavity is communicated with a left side trigger cavity, a left side trigger pin capable of being abutted against the left end surface of the sliding plate is connected in a sliding fit manner in the left side trigger cavity, a left side trigger spring is fixedly connected between the left end surface of the left side trigger pin and the left end wall of the left side trigger cavity, a left side trigger switch capable of being abutted against the left side trigger pin is fixedly connected in the rear end wall of the left side trigger cavity, a right side trigger cavity is communicated with the right side trigger cavity of the sliding plate moving, the right side triggers the round pin right-hand member face with fixedly connected with right side trigger spring between the chamber right-hand member wall is triggered on the right side, the right side trigger switch that fixedly connected with can with right side trigger pin butt in the chamber rear end wall is triggered on the right side, the pressure strip up end with fixedly connected with pressure strip stay cord between the line wheel.

The invention has the beneficial effects that: this device is through the suction to cloth, can drag cloth to the platform left side and detect cloth to the state of demand size simultaneously in the motion, thereby it is more accurate to make the cloth size through tailorring of machine, the device can also compress tightly fixedly to the cloth that the tiling was accomplished simultaneously, compaction work after convenient can provide more plain and more multilayer cloth for the work of tailorring of machine afterwards, the manual operation that has significantly reduced has improved the work efficiency and the cloth amount of tailorring.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of an automatic cloth cutting, laying and compacting device.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is an enlarged schematic view of B in fig. 1.

Fig. 4 is an enlarged schematic view of C in fig. 1.

Fig. 5 is a schematic diagram of the structure of D-D in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

With reference to the accompanying drawings 1-5, the automatic fabric cutting and compacting cloth device comprises a main body box 10, a cutting knife cavity 14 is arranged in the main body box 10, a cutting cavity 18 is arranged in the lower side of the cutting knife cavity 14 in a communicated manner, a cloth roller cavity 17 is arranged in the right side of the cutting cavity 18 in a communicated manner, a laying cavity 20 communicated with the cutting knife cavity 14 is arranged in the left side of the cutting cavity 18 in a communicated manner, a laying plate 21 extending rightwards into the cutting cavity 18 is fixedly connected in the lower end wall of the laying cavity 20, a roller cavity 68 is arranged on the left side of the cutting knife cavity 14 and positioned on the upper side of the laying cavity 20, a moving roller cavity 32 is arranged on the left side of the roller cavity 68, a gear meshing cavity 78 is arranged on the left side of the moving roller cavity 32, a disc rotating cavity 56 is arranged on the left side of the gear meshing cavity 78, a piston cavity 65 is communicated with the lower side of the disc rotating cavity 56 and provided with an exhaust, the right side of the movable pulley cavity 32 is located on the upside of the pulley cavity 68, the motor 34 is fixedly connected with the left end face of the motor 34, the left end face of the motor 34 is fixedly connected with the main power shaft 19 which extends through the movable pulley cavity 32 leftwards, the left end of the main power shaft 19 is connected with the spline shaft 73 which extends leftwards into the gear meshing cavity 78 in a spline fit manner, the main power gear 77 is fixedly connected with the spline shaft 73, the left end of the spline shaft 73 is connected with the rotating block 76 in a rotating fit manner, the left end face of the rotating block 76 is fixedly connected with the rotating block spring 75 between the left end wall of the gear meshing cavity 78, the left end wall of the gear meshing cavity 78 is internally and regularly connected with the left electromagnet 74 corresponding to the rotating block 76, the right end wall of the gear meshing cavity 78 is internally and located on the lower side of the spline shaft 73 is connected with the pulley cavity 68 which extends leftwards into the gear meshing cavity 78 and extends right, line wheel power shaft 69 left side end fixedly connected with line wheel power gear 70, fixedly connected with is located on the line wheel power shaft 69 line wheel 67 in line wheel chamber 68, line wheel power shaft 69 right side end fixedly connected with cutting motion gear 12, line wheel power shaft 69 right side end with fixedly connected with cutting reset spring 11 between the wall of cutting knife chamber 14 right-hand member, in the cutting knife chamber 14 and be located sliding fit is connected with cutting knife 13 behind cutting motion gear 12, cutting knife 13 up end with fixedly connected with cutting knife spring 35 between the wall of cutting knife chamber 14 upper end, cloth roller chamber 17 rear end wall internal rotation fit is connected with extends forward and runs through the cloth fixed axle 15 of cloth roller chamber 17, fixedly connected with is located on the cloth fixed axle 15 cloth roller 16 in cloth roller chamber 17, gear meshing chamber 78 right-hand member wall external fixedly connected with the right side electro-magnet 42 that turning block 76 corresponds A movable driving pulley 72 located in the motor 34 is fixedly connected to the main power shaft 19.

In addition, in one embodiment, a disk power shaft 58 extending rightwards into the gear engagement cavity 78 and leftwards into the disk rotation cavity 56 is connected in a rotationally matched manner in the left end wall of the gear engagement cavity 78 and on the lower side of the spline shaft 73, the right end of the disk power shaft 58 is fixedly connected with a suction power gear 71 meshed with the main power gear 77, a disc 57 is fixedly connected with the left end of the disc power shaft 58, a cross bar 59 is fixedly connected with the left end surface of the disc 57, the left side of the cross bar 59 is connected with a vertical bar 66 which extends downwards into the piston cavity 65 in a rotating fit, a piston 64 is hinged on the lower side of the vertical rod 66, an exhaust one-way valve 63 is fixedly connected in the piston cavity 65 and positioned on the upper side of the piston cavity 65, the pressing plate cavity 23 is connected with a pressing plate 22 in a sliding fit mode, and a pressing plate spring 24 is fixedly connected between the upper end face of the pressing plate 22 and the upper end wall of the pressing plate cavity 23.

In addition, in one embodiment, a bevel gear turning cavity 28 is arranged at the left side of the moving pulley cavity 32, a turning transmission shaft 30 which extends rightwards into the moving pulley cavity 32 and leftwards into the bevel gear turning cavity 28 is connected in a rotationally matched manner to the left end wall of the moving pulley cavity 32, a moving driven pulley 31 is fixedly connected to the right end of the turning transmission shaft 30, a moving power belt 33 is connected in a rotationally matched manner between the moving driven pulley 31 and the moving driving pulley 72, a driving bevel gear 29 is fixedly connected to the left end of the turning transmission shaft 30, a sliding plate moving cavity 43 is communicated with the rear side of the tiled cavity 20, a moving power shaft 26 which extends upwards into the sliding plate moving cavity 43 and is bilaterally symmetrical to the sliding plate moving cavity 43 is connected in a rotationally matched manner to the lower end wall of the sliding plate moving cavity 43, a moving pulley 36 is fixedly connected to the upper end of the moving power shaft, a moving belt 37 is connected between the left and right moving belt wheels 36 in a power fit manner, the left moving power shaft 26 extends upwards into the bevel gear turning cavity 28, and the tail end of the upper side of the left moving power shaft 26 is fixedly connected with a driven bevel gear 27 meshed with the driving bevel gear 29.

In addition, in one embodiment, a sliding plate 40 is connected in a sliding plate moving cavity 43 in a sliding fit manner, a fixed block sliding cavity 39 with an upward opening and a downward opening is arranged in the sliding plate 40, a fixed pin 41 extending upward and penetrating through the fixed block sliding cavity 39 is fixedly connected to the moving belt 37, a fixed block 38 is fixedly connected to the upper end of the fixed pin 41, an air suction plate 49 extending forward into the tiled cavity 20 is fixedly connected to the front end face of the sliding plate 40, an air suction cavity 48 with a downward opening is arranged in the air suction plate 49, and a plurality of air suction holes 51 with a downward opening are arranged on the lower side of the air suction cavity 48 in a communicating manner and are distributed.

In addition, in one embodiment, an air exhaust duct 60 is fixedly connected between the front end wall of the tiled chamber 20 and the right end wall of the piston chamber 65, an air exhaust check valve 61 is fixedly connected in the air exhaust duct 60, a bellows 50 corresponding to the air exhaust chamber 48 and the air exhaust duct 60 is fixedly connected between the front end surface of the air exhaust plate 49 and the front end wall of the tiled chamber 20, a left trigger chamber 52 is communicated with the left end wall of the sliding plate moving chamber 43, a left trigger pin 53 capable of abutting against the left end surface of the sliding plate 40 is slidably connected in the left trigger chamber 52, a left trigger spring 54 is fixedly connected between the left end surface of the left trigger pin 53 and the left end wall of the left trigger chamber 52, a left trigger switch 55 capable of abutting against the left trigger pin 53 is fixedly connected in the rear end wall of the left trigger chamber 52, a right trigger chamber 46 is communicated with the right side of the sliding plate moving, the right side trigger cavity 46 is connected with a right side trigger pin 47 capable of being abutted against the right end face of the sliding plate 40 in a sliding fit mode, a right side trigger spring 45 is fixedly connected between the right end face of the right side trigger pin 47 and the right end wall of the right side trigger cavity 46, a right side trigger switch 44 capable of being abutted against the right side trigger pin 47 is fixedly connected in the rear end wall of the right side trigger cavity 46, and a pressure plate pull rope 25 is fixedly connected between the upper end face of the pressure plate 22 and the wire wheel 67.

The fixing and connecting method in this embodiment includes, but is not limited to, bolting, welding, and the like.

As shown in fig. 1-5, the hold-down leaf springs 24 are compressed when the apparatus of the present invention is in an initial state;

sequence of mechanical actions of the whole device:

when the working is started, the motor 34 starts to drive the main power shaft 19 to rotate, the main power shaft 19 rotates to drive the movable driving belt wheel 72 to rotate, and meanwhile, the main power shaft 19 drives the spline shaft 73 to rotate;

when the main power shaft 19 rotates to drive the movable driving belt wheel 72 to rotate, the movable driving belt wheel 72 rotates to drive the movable driven belt wheel 31 to rotate through the movable power belt 33, the movable driven belt wheel 31 rotates to drive the driving bevel gear 29 to rotate through the direction-changing transmission shaft 30 so as to drive the driven bevel gear 27 to rotate, the driven bevel gear 27 rotates to drive the movable belt wheel 36 and the movable belt 37 to rotate through the left movable power shaft 26, the movable belt 37 moves to drive the fixed block 38 to move through the fixed pin 41, and the fixed block 38 moves to enable the sliding plate 40 to move in a left-right translation mode under the limitation of the fixed block sliding cavity 39 and the sliding plate 40, so that the pumping plate 49 is driven to move;

meanwhile, when the spline shaft 73 rotates, the spline shaft 73 drives the main power gear 77 to rotate so as to drive the air extraction power gear 71 to rotate, the air extraction power gear 71 rotates to drive the disc 57 to rotate through the disc power shaft 58, the disc 57 rotates to drive the vertical rod 66 and the piston 64 to move up and down through the cross rod 59, so that air in the air extraction pipeline 60 can be extracted into the piston cavity 65 and then discharged from the exhaust pipeline 62, air suction work in the air extraction pipeline 60 is achieved, air can be sucked into the piston cavity 65 from the air extraction pipeline 60 through the air extraction hole 51, the air extraction cavity 48 and the corrugated pipe 50, and at the moment, strong suction force is formed below the air extraction hole 51;

when the air suction plate 49 moves to the rightmost end of the tiled cavity 20, cloth is arranged on the lower side of the air suction hole 51, one end of the cloth can be tightly adsorbed on the lower side of the air suction hole 51 under the action of strong suction, and one end of the cloth is dragged to the leftmost side in the tiled cavity 20 in the process that the air suction plate 49 moves leftwards;

when the sliding plate 40 drives the suction plate 49 to move to the leftmost side in the sliding plate moving chamber 43 and the tiled chamber 20, at this time, the sliding plate 40 touches the left trigger pin 53, under the thrust action of the sliding plate 40, the left trigger pin 53 starts to move leftwards to the position where the left trigger pin 53 touches the left trigger switch 55 by overcoming the thrust action of the left trigger spring 54, at the moment, the left trigger switch 55 starts to trigger the right electromagnet 42 to generate suction to the rotating block 76, the rotating block 76 starts to drive the driving power gear 77 and the spline shaft 73 to move rightwards to the position where the driving power gear 77 is meshed with the pulley power gear 70 by overcoming the tension action of the rotating block spring 75 under the suction action of the right electromagnet 42, at the moment, the driving power gear 77 is not meshed with the air extraction power gear 71, the air extraction power gear 71 stops rotating, so that the suction of the air extraction hole 51 is not generated any more, and the cloth directly falls on the flat board 21;

when the main power gear 77 is meshed with the pulley power gear 70, the main power gear 77 starts to drive the pulley power gear 70 to rotate at the moment, and the pulley power gear 70 rotates to drive the pulley 67 and the cutting motion gear 12 to rotate through the pulley power shaft 69;

when the wire wheel 67 rotates, the pressure plate pull rope 25 starts to be loosened, the pressure plate 22 moves downwards to the position for pressing the cloth on the flat plate 21 under the thrust action of the pressure plate spring 24, and the work of pressing the cloth is finished;

when the power shaft 69 of the reel drives the cutting motion gear 12 to rotate, the cutting motion gear 12 rotates to drive the cutting knife 13 to move downwards to overcome the tension of the cutting knife spring 35, at the moment, the cutting knife 13 moves downwards to a position for cutting cloth at the rightmost end, and at the moment, the cloth which is fallen on the flat board 21 is a piece of cloth which reaches the required complete size;

meanwhile, after the sliding plate 40 touches the left trigger pin 53, because the moving belt 37 does not stop moving, the fixed pin 41 and the fixed block 38 move to the front side of the sliding plate moving cavity 43 at the moment, but because of the limitation of the fixed block sliding cavity 39 and the sliding plate 40, the cross bar 42 is still in a state of extending forwards, at the moment, the sliding plate 40 starts moving rightwards, at the moment, the air suction plate 49 can carry out pressing work on the cloth on the flat laying plate 21 in the process of moving rightwards, and the machine is more perfect when cutting patterns conveniently;

when the sliding plate 40 moves to the rightmost side of the sliding plate moving cavity 43 and touches the right trigger pin 47, at this time, the right trigger pin 47 moves rightwards under the thrust action of the sliding plate 40 and overcomes the thrust action of the right trigger spring 45 to the position where the right trigger switch 44 touches, at this time, the right trigger switch 44 starts to trigger the left electromagnet 74 to generate suction to the rotating block 76, the rotating block 76 drives the spline shaft 73 and the main power gear 77 to move leftwards under the tension action of the rotating block spring 75 to the position where the main power gear 77 is meshed with the air-extracting power gear 71, at this time, the air-extracting power gear 71 starts to rotate again, so that the suction starts to the air-extracting hole 51, and the air-extracting hole 51 can absorb a cut new piece of cloth;

meanwhile, the reel power gear 70 does not rotate any more, the reel power shaft 69 starts to rotate reversely under the action of the cutting return spring 11, and the reel power shaft 69 rotates reversely to drive the reel 67 and the cutting motion gear 12 to rotate reversely;

when the wire wheel 67 rotates reversely, the pressure plate pull rope 25 is tensioned again, and the pressure plate 22 starts to move upwards to a position not contacting with the cloth against the thrust action of the pressure plate spring 24 under the tension action of the pressure plate pull rope 25;

meanwhile, when the cutting motion gear 12 rotates reversely, the cutting knife 13 starts to be driven to move upwards, and at the moment, the cloth tiling work of a new round starts.

The invention has the beneficial effects that: this device is through the suction to cloth, can drag cloth to the platform left side and detect cloth to the state of demand size simultaneously in the motion, thereby it is more accurate to make the cloth size through tailorring of machine, the device can also compress tightly fixedly to the cloth that the tiling was accomplished simultaneously, compaction work after convenient can provide more plain and more multilayer cloth for the work of tailorring of machine afterwards, the manual operation that has significantly reduced has improved the work efficiency and the cloth amount of tailorring.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides an automatic fabric cutting tiling compaction cloth device, includes the main part case, its characterized in that: the cutting device is characterized in that a cutting knife cavity is arranged in the main box, a cutting cavity is communicated with the lower side of the cutting knife cavity, a cloth roller cavity is communicated with the right side of the cutting cavity, a flat laying cavity communicated with the cutting knife cavity is arranged on the left side of the cutting cavity, a flat laying plate extending to the right side in the cutting cavity is fixedly connected in the lower end wall of the flat laying cavity, a wire wheel cavity is arranged on the left side of the cutting knife cavity and positioned on the upper side of the flat laying cavity, a movable belt wheel cavity is arranged on the left side of the wire wheel cavity, a gear meshing cavity is arranged on the left side of the gear meshing cavity, a disc rotating cavity is arranged on the lower side of the disc rotating cavity, a piston cavity is communicated with the lower side of the piston cavity, an exhaust pipeline with a backward opening is arranged on the lower side of the piston cavity, a motor is fixedly connected to the right side of the movable belt wheel cavity and positioned, the tail end of the left side of the main power shaft is connected with a spline shaft which extends leftwards into the gear meshing cavity in a matched manner, the spline shaft is fixedly connected with a main power gear, the tail end of the left side of the spline shaft is connected with a rotating block in a rotating manner, a rotating block spring is fixedly connected between the left end surface of the rotating block and the left end wall of the gear meshing cavity, a left electromagnet corresponding to the rotating block is fixedly connected in the left end wall of the gear meshing cavity, the right end of the gear meshing cavity is positioned in the right end wall of the spline shaft, and is connected with a wire wheel power shaft which extends leftwards into the gear meshing cavity and extends rightwards through the wire wheel cavity to the cutting knife cavity, the tail end of the left side of the wire wheel power shaft is fixedly connected with a wire wheel power gear, the wire wheel power shaft is fixedly connected with a wire wheel, the utility model discloses a cloth roller, including cutting motion gear, cutting knife chamber, cloth roller chamber, gear meshing chamber, gear wheel power shaft right-hand member face, fixedly connected with cutting reset spring between the cutting knife chamber right-hand member wall, the cutting knife intracavity just is located sliding fit is connected with the cutting knife behind the cutting motion gear, the cutting knife up end with fixedly connected with cutting knife spring between the cutting knife chamber upper end wall, cloth roller chamber rear end wall internal rotation cooperation is connected with and extends forward and runs through the cloth fixed axle in cloth roller chamber, fixedly connected with is located on the cloth fixed axle the cloth roller of cloth roller intracavity, gear meshing chamber right-hand member wall external fixedly connected with the right side electro-magnet that the turning block corresponds, the epaxial fixedly connected with of main power is located removal driving pulley in the motor.

2. The automatic fabric cutting, laying and compacting device for the cloth according to claim 1, characterized in that: just be located in the gear engagement chamber left end wall integral key shaft downside normal running fit is connected with and extends to right the gear engagement intracavity and extend to left the disc power shaft of disc rotation intracavity, the terminal fixedly connected with in disc power shaft right side with the power gear that bleeds of main power gear engagement, the terminal fixedly connected with disc in disc power shaft left side, disc left end face fixedly connected with horizontal pole, horizontal pole left side normal running fit is connected with downwardly extending to the montant of piston intracavity, the montant downside articulates there is the piston, the piston intracavity just is located piston chamber upside fixedly connected with exhaust check valve, pressure strip intracavity sliding fit is connected with the pressure strip, the pressure strip up end with fixedly connected with pressure strip spring between the pressure strip chamber upper end wall.

3. The automatic fabric cutting, laying and compacting device for the cloth according to claim 1, characterized in that: a bevel gear turning cavity is arranged on the left side of the movable pulley cavity, a turning transmission shaft which extends rightwards into the movable pulley cavity and leftwards into the bevel gear turning cavity is connected to the left end wall of the movable pulley cavity in a rotating fit manner, a movable driven pulley is fixedly connected to the right end of the turning transmission shaft, a movable power belt is connected between the movable driven pulley and the movable driving pulley in a power fit manner, a driving bevel gear is fixedly connected to the left end of the turning transmission shaft, a sliding plate moving cavity is communicated with the rear side of the tiled cavity, a movable power shaft which extends upwards into the sliding plate moving cavity and is bilaterally symmetrical to the sliding plate moving cavity is connected to the lower end wall of the sliding plate moving cavity in a rotating fit manner, a movable pulley is fixedly connected to the upper end of the movable power shaft, and a movable belt is, the left side movable power shaft extends upwards to the bevel gear turning cavity, and the tail end of the upper side of the left side movable power shaft is fixedly connected with a driven bevel gear meshed with the driving bevel gear.

4. An automatic fabric cutting, laying and compacting device as claimed in claim 3, characterized in that: the improved belt-type air extractor is characterized in that a sliding plate is connected in a sliding plate moving cavity in a sliding fit mode, a fixed block sliding cavity with an upward opening and a downward opening is arranged in the sliding plate, a transverse rod through cavity communicated with the fixed block sliding cavity and with a forward opening is arranged in the sliding plate, a fixed pin extending through the fixed block sliding cavity upwards is fixedly connected to a moving belt, a fixed block is fixedly connected to the tail end of the upper side of the fixed pin, a transverse rod through cavity extending forwards to the transverse rod in the sliding plate moving cavity is fixedly connected to the front side of the fixed block, a pumping plate extending forwards in the tiled cavity is fixedly connected to the front side of the transverse rod, a pumping cavity with an opening facing money is arranged in the pumping plate, and a plurality of pumping.

5. The automatic fabric cutting, laying and compacting device for the cloth according to claim 1, characterized in that: an air exhaust pipeline is fixedly connected between the front end wall of the tiled cavity and the right end wall of the piston cavity, an air exhaust check valve is fixedly connected in the air exhaust pipeline, a corrugated pipe corresponding to the air exhaust cavity and the air exhaust pipeline is fixedly connected between the front end surface of the air exhaust plate and the front end wall of the tiled cavity, the left end wall of the sliding plate moving cavity is communicated with a left side trigger cavity, a left side trigger pin capable of being abutted against the left end surface of the sliding plate is connected in the left side trigger cavity in a sliding fit manner, a left side trigger spring is fixedly connected between the left end surface of the left side trigger pin and the left end wall of the left side trigger cavity, a left side trigger switch capable of being abutted against the left side trigger pin is fixedly connected in the rear end wall of the left side trigger cavity, a right side trigger cavity is communicated with the right side trigger cavity, and a right side trigger, the right side triggers the round pin right-hand member face with fixedly connected with right side trigger spring between the chamber right-hand member wall is triggered on the right side, the right side trigger switch that fixedly connected with can with right side trigger pin butt in the chamber rear end wall is triggered on the right side, the pressure strip up end with fixedly connected with pressure strip stay cord between the line wheel.

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