CN210826881U - Electronic shear type longitudinal and transverse cutting all-in-one machine - Google Patents

Abstract

The utility model discloses an electronic scissors type longitudinal and transverse cutting integrated machine, which belongs to the field of composite material processing equipment, can automatically cut wide composite material fabric into narrow fabric without manual cutting, and has the advantages of improving production efficiency and cutting precision; the longitudinal cutting structure comprises a first cutting part and a second cutting part, the first cutting part comprises a plurality of first electronic scissors, and the first electronic scissors are sequentially and fixedly arranged in the direction vertical to the conveying direction of the composite material fabric; the second cutting part comprises a plurality of second electronic scissors which are sequentially and fixedly arranged along the direction vertical to the conveying direction of the composite material fabric; the cutting edge of first electron scissors sets up with the blade of second electron scissors is crisscross. The utility model is suitable for a broad width combined material fabric divides and is cut into narrow width strip structure.

Description

Electronic shear type longitudinal and transverse cutting all-in-one machine

Technical Field

The utility model relates to a cutting equipment, in particular to electron scissors formula cuts all-in-one vertically and horizontally.

Background

For the processing and transportation of composite materials, at present, the composite materials are woven to form wide fabrics, the wide fabrics are wound into rolls for transportation, when the composite materials are actually used, the wide fabrics need to be cut into narrow fabrics according to different use scenes and requirements, when the composite materials with the required width of 30mm are cut, generally, due to the fact that the width is small, an electronic scissors is provided with a motor, installation is limited, automatic cutting cannot be achieved, manual cutting is low in efficiency, cutting efficiency is low, and the automatic production is not facilitated.

Based on the practical experience and professional knowledge of the product engineering application for years, the designer actively carries out research and innovation by matching with the application of the theory, and creates an electronic shear type longitudinal and transverse cutting integrated machine in order to make the electronic shear type longitudinal and transverse cutting integrated machine more practical.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an electronic scissors formula is indulged crosscut all-in-one can be cut into the narrow width with the combined material fabric of broad width is automatic, need not the manual work and cuts, has the advantage that improves production efficiency and cutting accuracy.

The above technical purpose of the present invention can be achieved by the following technical solutions:

an electronic shear type longitudinal and transverse cutting integrated machine comprises a rack, a cutting mechanism and a transverse cutting mechanism, wherein the cutting mechanism and the transverse cutting mechanism are sequentially arranged along the conveying direction of a composite material fabric;

the longitudinal cutting structure comprises a first cutting part and a second cutting part, the first cutting part comprises a plurality of first electronic scissors, and the first electronic scissors are sequentially and fixedly arranged in the direction vertical to the conveying direction of the composite material fabric;

the second cutting part comprises a plurality of second electronic scissors which are sequentially and fixedly arranged along the direction vertical to the conveying direction of the composite material fabric;

the cutting edges of the first electronic scissors and the second electronic scissors are arranged in a staggered mode.

Further, the installation of first electron scissors specifically does, still includes first installation department, first installation department is followed a plurality of first mounting holes have been seted up to the installation direction of first electron scissors.

Furthermore, the second electronic scissors are specifically installed by a second installation part, and the second installation part is arranged along the installation direction of the second electronic scissors and provided with a plurality of second installation holes.

Further, a compression roller is arranged between the first cutting portion and the second cutting portion, and the height of the compression roller is adjustable.

Furthermore, the height of the compression roller is adjustable, and specifically comprises a first air cylinder, a cylinder body of the first air cylinder is fixedly connected with the rack, two ends of the compression roller are rotatably connected with a first bearing seat through bearings, and the first bearing seat is fixedly connected with a piston rod of the first air cylinder.

Furthermore, a traction structure is arranged between the longitudinal cutting structure and the transverse cutting structure, the traction structure comprises a power roller and a pressing roller, the power roller is coaxially and fixedly connected with a motor, and the motor is fixedly connected with the rack;

the two ends of the pressing roller are rotatably connected with a second bearing seat through bearings, the second bearing seat is fixedly connected with a piston rod of a second air cylinder, and a cylinder body of the second air cylinder is fixedly connected with the rack.

Furthermore, a discharging plate is arranged on one side, away from the longitudinal cutting structure, of the transverse cutting structure, and the angle of the discharging plate is adjustable.

Furthermore, the angle of the discharging plate can be adjusted, specifically, the angle-adjustable discharging plate comprises a first connecting piece, a second connecting piece and a third connecting piece;

the first connecting piece is rotatably connected with the rack, a clamping groove for the discharge plate to be embedded is formed in the first connecting piece, and a threaded hole for a bolt to penetrate through is formed in the first connecting piece;

the second connecting piece is fixedly connected with the rack, the third connecting piece is fixedly connected with the discharging plate, a telescopic rod is arranged between the second connecting piece and the third connecting piece, and two ends of the telescopic rod are respectively and rotatably connected with the second connecting piece and the third connecting piece;

the telescopic rod comprises a first rod and a second rod, the first rod is sleeved on the second rod, and the locking bolt penetrates through the rod wall of the first rod to tightly push the second rod.

The utility model discloses following beneficial effect has:

the longitudinal cutting structure is used for cutting the wide composite material fabric into narrow width, and the transverse cutting structure is used for cutting the narrow composite material into a specified length. When cutting for required width is 30 mm's combined material fabric, generally because the width is less, can't realize automatically cutting, the utility model discloses in when rip cutting, a plurality of first electronic scissors cut into the width with the combined material fabric of width earlier and be 60 mm's bar structure, then a plurality of second electronic scissors cut into the width and be 30 mm's bar structure to the width is 60 mm's bar structure, cut through twice, realize cutting the combined material fabric of width into the width and be 30 mm's bar structure, need not the manual work and cut, have the advantage that improves production efficiency and cut the precision.

Drawings

Fig. 1 is a schematic structural diagram of the electronic scissors type longitudinal and transverse cutting integrated machine in the embodiment;

FIG. 2 is an enlarged view of the connection between the first mounting portion and the first pair of electric scissors at A in FIG. 1;

FIG. 3 is a schematic structural view of the present embodiment for showing the connection plate, the L-shaped positioning surface, and the two side surfaces of the first mounting portion;

fig. 4 is a side view of the whole electronic scissors type slitting machine in the embodiment;

fig. 5 is an enlarged view of a structure for embodying the first connecting member at B in fig. 4.

In the figure, 1, a frame; 2. a slitting structure; 21. a first cutting portion; 211. a first electronic scissor; 22. a second cutting portion; 221. a second electronic scissor; 3. a transverse cutting structure; 4. a first mounting portion; 41. a first mounting hole; 5. a second mounting portion; 51. a second mounting hole; 6. a pressure roller; 61. a first cylinder; 62. a first bearing housing; 7. a traction structure; 71. a power roller; 72. pressing the roller; 721. a second bearing housing; 722. a second cylinder; 8. a discharge plate; 81. a first connecting member; 811. a card slot; 812. a bolt; 82. a second connecting member; 83. a third connecting member; 84. a telescopic rod; 841. a first lever; 8411. locking the bolt; 842. a second lever; 9. a connecting plate; 91. an L-shaped positioning surface.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

An electronic scissors type longitudinal and transverse cutting integrated machine is shown in figure 1 and comprises a machine frame 1, a longitudinal cutting structure 2 and a transverse cutting structure 3, wherein the longitudinal cutting structure 2 and the transverse cutting structure 3 are sequentially arranged along the conveying direction of a composite material fabric;

the longitudinal cutting structure 2 comprises a first cutting part 21 and a second cutting part 22, the first cutting part 21 comprises a plurality of first electronic scissors 211, and the first electronic scissors 211 are sequentially and fixedly arranged in the direction vertical to the conveying direction of the composite material fabric;

the second cutting part 22 comprises a plurality of second electronic scissors 221, and the plurality of second electronic scissors 221 are sequentially and fixedly arranged along the direction vertical to the conveying direction of the composite material fabric;

the cutting edges of the first electronic scissors 211 and the second electronic scissors 221 are staggered.

The longitudinal cutting structure 2 is used for cutting a wide composite material fabric into narrow width, and the transverse cutting structure 3 is used for cutting the narrow composite material into a designated length. When cutting for required width is 30 mm's combined material fabric, generally because the width is less, can't realize automatic cutting, the utility model discloses in when rip cutting, a plurality of first electronic scissors 211 cut into the strip structure that the width is 60mm with the combined material fabric of width earlier, then a plurality of second electronic scissors 221 cut into the strip structure that the width is 30mm to the strip structure that the width is 60mm, cut through twice, realize cutting the combined material fabric of width into the strip structure that the width is 30mm, need not the manual work and cut, have the advantage that improves production efficiency and cut the precision.

As shown in fig. 2, the first electronic scissors 211 is specifically mounted to further include a first mounting portion 4, and the first mounting portion 4 is provided with a plurality of first mounting holes 41 along the mounting direction of the first electronic scissors 211. Here, the first mounting portion 4 is a strip-shaped structure made of a metal material, and the first mounting hole 41 may be a through hole or a waist-shaped hole, and is used for mounting and fixing the first electronic scissors 211, and the waist-shaped hole can compensate for a processing error of a hole position, and can be used for fine adjustment of a position of the first electronic scissors 211 in a later period. Correspondingly, a connecting plate 9 is arranged on the first electronic scissors 211, and a threaded hole for fixing is formed in the connecting plate 9. Preferably, the connecting plate 9 has L-shaped positioning surfaces 91 (see fig. 3) for engaging with two side surfaces of the first mounting portion 4 to preliminarily position the first pair of electric scissors 211.

As shown in fig. 2, the second electronic scissors 221 further includes a second mounting portion 5, and the second mounting portion 5 has a plurality of second mounting holes 51 along the mounting direction of the second electronic scissors 221. Here, the mounting structure of the second electronic scissors 221 and the second mounting portion 5 is the same as the mounting structure of the first electronic scissors 211 and the first mounting portion 4, and the description thereof is omitted.

As shown in fig. 4, a pinch roller 6 is provided between the first cut portion 21 and the second cut portion 22, and the height of the pinch roller 6 is adjustable. The height of the pressing roller 6 can be adjusted specifically by including a first cylinder 61, and providing ascending or descending power for the pressing roller 6, wherein the cylinder body of the first cylinder 61 is fixedly connected with the frame 1, two ends of the pressing roller 6 are rotatably connected with a first bearing seat 62 through bearings, and the first bearing seat 62 is fixedly connected with a piston rod of the first cylinder 61. The pressing roller 6 compresses the 60mm strip-shaped structure after one-step cutting, so that the fabric is prevented from loosening or arching, and the accuracy of a cutting path in two-step cutting is ensured.

As shown in fig. 4, a traction structure 7 is arranged between the longitudinal cutting structure 2 and the transverse cutting structure 3, the traction structure 7 comprises a power roller 71 and a pressing roller 72, the power roller 71 is coaxially and fixedly connected with a motor (not shown in the figure), and the motor is fixedly connected with the frame 1;

two ends of the pressing roller 72 are rotatably connected with the second bearing seat 721 through bearings, the second bearing seat 721 is fixedly connected with a piston rod of the second cylinder 722, and a cylinder body of the second cylinder 722 is fixedly connected with the frame 1. The motor provides enough power for the rotation of the power roller 71, the second air cylinder 722 provides power for the ascending or descending of the pressing roller 72, and the transmission of the composite material fabric is realized by the friction force between the double rollers and the composite material fabric.

As shown in fig. 1, a discharging plate 8 is arranged on one side of the transverse cutting structure 3 away from the longitudinal cutting structure 2, and the angle of the discharging plate 8 is adjustable, so that the blanking speed can be adjusted according to the traction speed of the traction structure 7 on the composite material fabric.

As shown in fig. 1, 4 and 5, the angle of the discharging plate 8 is adjustable, specifically, the discharging plate includes a first connecting member 81, a second connecting member 82 and a third connecting member 83; the first connecting piece 81 is rotatably connected with the frame 1, a clamping groove 811 for the discharging plate 8 to be embedded is formed in the first connecting piece 81, and a threaded hole for the bolt 812 to pass through is formed in the first connecting piece 81; the second connecting piece 82 is rotatably connected with the frame 1, the third connecting piece 83 is fixedly connected with the discharging plate 8, an expansion link 84 is arranged between the second connecting piece 82 and the third connecting piece 83, and two ends of the expansion link 84 are respectively rotatably connected with the second connecting piece 82 and the third connecting piece 83; the telescopic rod 84 comprises a first rod 841 and a second rod 842, the first rod 841 is sleeved on the second rod 842, and the locking bolt 8411 penetrates through the rod wall of the first rod 841 to tightly push the second rod 842. By loosening the locking bolt 8411, the angle of the telescopic rod 84 is adjusted to an angle matched with the discharging speed, and then the locking bolt 8411 is screwed down. When the discharging plate 8 is adjusted, the bolt 812 on the first connecting piece 81 is loosened, so that the bolt can be used for compensating the length of the discharging plate 8 when the angle of the discharging plate 8 is adjusted, and after the angle of the discharging plate 8 is adjusted, the bolt 812 fixes the discharging plate 8; the first connecting piece 81 is rotatably connected with the frame 1 and is used for adapting to the rotation of the angle of the discharging plate 8.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. An electronic shear type longitudinal and transverse cutting integrated machine comprises a rack (1) and is characterized by comprising a longitudinal cutting structure (2) and a transverse cutting structure (3), wherein the longitudinal cutting structure (2) and the transverse cutting structure (3) are sequentially arranged along the conveying direction of a composite fabric;

the longitudinal cutting structure (2) comprises a first cutting part (21) and a second cutting part (22), the first cutting part (21) comprises a plurality of first electronic scissors (211), and the first electronic scissors (211) are sequentially and fixedly arranged in the direction vertical to the conveying direction of the composite material fabric;

the second cutting part (22) comprises a plurality of second electronic scissors (221), and the second electronic scissors (221) are sequentially and fixedly arranged along the direction vertical to the conveying direction of the composite material fabric;

the cutting edges of the first electronic scissors (211) and the second electronic scissors (221) are arranged in a staggered mode.

2. An electronic scissors formula is cut all-in-one vertically and horizontally according to claim 1, characterized in that, the installation of first electron scissors (211) is specifically, still include first installation department (4), first installation department (4) have seted up a plurality of first mounting holes (41) along the installation direction of first electron scissors (211).

3. An electronic scissors formula is cut all-in-one vertically and horizontally according to claim 1, characterized in that, the installation of second electron scissors (221) is specifically, still include second installation department (5), second installation department (5) along the installation direction of second electron scissors (221) seted up a plurality of second mounting holes (51).

4. An electronic scissors formula is cut all-in-one vertically and horizontally according to claim 1, characterized in that, be equipped with pinch roller (6) between first cutting portion (21) and the second cutting portion (22), the height of pinch roller (6) is adjustable.

5. The electronic scissors formula is cut all-in-one vertically and horizontally of claim 4, characterized in that, the height-adjustable of pinch roller (6) is specifically, including first cylinder (61), the cylinder body of first cylinder (61) is with frame (1) fixed connection, pinch roller (6) both ends through the bearing with first bearing frame (62) rotation connection, first bearing frame (62) with the piston rod fixed connection of first cylinder (61).

6. An electronic scissors formula is cut all-in-one vertically and horizontally according to claim 1, characterized in that, a traction structure (7) is arranged between the longitudinal cutting structure (2) and the transverse cutting structure (3), the traction structure (7) comprises a power roller (71) and a pressing roller (72), the power roller (71) is coaxially and fixedly connected with a motor, and the motor is fixedly connected with the rack (1);

two ends of the pressing roller (72) are rotatably connected with a second bearing seat (721) through bearings, the second bearing seat (721) is fixedly connected with a piston rod of a second air cylinder (722), and a cylinder body of the second air cylinder (722) is fixedly connected with the rack (1).

7. An electronic scissors formula is cut all-in-one vertically and horizontally according to claim 1, characterized in that, the side of crosscut structure (3) far away from rip cutting structure (2) is equipped with ejection plate (8), the angle of ejection plate (8) is adjustable.

8. An electronic scissors formula is cut all-in-one vertically and horizontally according to claim 7, characterized in that, the angle of ejection of compact board (8) is adjustable specifically, including first connecting piece (81), second connecting piece (82) and third connecting piece (83);

the first connecting piece (81) is rotatably connected with the rack (1), a clamping groove (811) for the discharge plate (8) to be embedded into is formed in the first connecting piece (81), and a threaded hole for a bolt (812) to pass through is formed in the first connecting piece (81);

the second connecting piece (82) is fixedly connected with the rack (1), the third connecting piece (83) is fixedly connected with the discharging plate (8), an expansion link (84) is arranged between the second connecting piece (82) and the third connecting piece (83), and two ends of the expansion link (84) are respectively rotatably connected with the second connecting piece (82) and the third connecting piece (83);

the telescopic rod (84) comprises a first rod (841) and a second rod (842), the first rod (841) is sleeved on the second rod (842), and a locking bolt (8411) penetrates through the rod wall of the first rod (841) to tightly push the second rod (842).

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