CN116252343B - Slitting jig and slitting method for diaphragm machining - Google Patents

Abstract

The invention relates to the technical field of slitting equipment, and discloses a slitting jig and a slitting method for diaphragm processing, wherein the slitting jig comprises a guide structure, a conveying structure and a slitting structure, wherein the conveying structure is detachably arranged in the guide structure; the auxiliary shielding limit can be performed by mounting and dismounting according to the width of the diaphragm through the extension structure; the shear-shaped shearing mode is realized through the slitting structure, the stress of the cutting part is enhanced, the point stress cutting is realized, the rapid shearing can be realized, and the abrasion of the cutter body is reduced; meanwhile, the relative included angle of the cutter body can be adjusted to change the cutting point position and the cutting force strength according to different thicknesses; meanwhile, the whole device is convenient for cutting adjustment and use of multiple width dimensions.

Description

Slitting jig and slitting method for diaphragm machining

Technical Field

The invention relates to the technical field of slitting equipment, in particular to a slitting jig and a slitting method for diaphragm processing.

Background

The jig can be divided into three types of process assembly jigs, project test jigs and circuit board test jigs, wherein the process assembly jigs comprise an assembly jig, a welding jig, a disassembly jig, a dispensing jig, an irradiation jig, an adjustment jig and a shearing jig;

the diaphragm processing technology needs to use the matching of the adjusting jig and the shearing jig to realize the adjustment of the position of the cutter and change the width of the slit diaphragm; the existing equipment mostly adopts a diaphragm to guide on a guide roller, and then a cutter is pressed on the diaphragm and is attached to the guide roller to generate a cutting force; however, with long-time use, the cutter is not only worn by the impact force of the diaphragm, but also worn by rotation of the application point contacted with the guide roller, so that the slitting jig for diaphragm processing is designed.

Disclosure of Invention

The invention aims to provide a slitting jig and a slitting method for diaphragm processing, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the slitting jig comprises a guide structure, a conveying structure and a slitting structure, wherein the conveying structure is detachably arranged in the guide structure, and the slitting structure is detachably arranged on the guide structure;

the Y-shaped frame is detachably arranged on the first guide frame in the guide structure, one end of the Y-shaped frame is detachably arranged on the left side wall and the right side wall of the rear end of the first guide frame, the other two ends of the Y-shaped frame are respectively movably arranged on a fifth guide roller, and the fifth guide rollers are respectively arranged on the upper side and the lower side of the Y-shaped frame and are symmetrical.

Preferably, the guiding structure comprises a first guiding frame, a plurality of first guiding rollers, a pair of second guiding rollers, a second guiding frame, a plurality of third guiding rollers and a pair of lifting handles;

the first guide frame is of a concave structure, a first adjusting opening is formed in the middle of the front end of the first guide frame, a plurality of first sockets are formed in the inner rear side wall of the first adjusting opening in an equidistant manner near the top end of the first guide frame, a plurality of first threaded holes are formed in the lower wall of the first guide frame in an equidistant manner near the front end of the first guide frame, and the first threaded holes are respectively communicated with the first sockets;

the first guide rollers are respectively movably and equidistantly arranged on the left side wall and the right side wall of the front end of the first guide frame, and are symmetrical to each other;

the pair of second guide rollers are respectively and movably arranged in the rear end of the first guide frame, the distance between the second guide rollers is the same as that between the first guide rollers, one of the second guide rollers is close to the rear end part, and the diameters of the pair of second guide rollers are respectively the same as that of the first guide rollers;

the second guide frame is of a rectangular plate body structure, a second adjusting port which is the same as the first adjusting port is formed in the middle of the front end of the second guide frame, turning claws are arranged on the lower walls of the left side and the right side of the rear end of the second guide frame, a plurality of second jacks which are the same as the first jacks are formed in the rear side wall of the second guide frame near the bottom at equal intervals, and a plurality of second threaded holes which are respectively communicated with the second adjusting ports are formed in the middle of the upper wall of the second guide frame near the front end at equal intervals; the second guide frame is movably connected to the inner side walls of the left side wall and the right side wall of the rear end of the first guide frame through turnover claws;

the third guide rollers are respectively and movably arranged on the lower walls at the left side and the right side of the front end of the second guide frame, correspond to the first guide rollers respectively, can be respectively attached to the first guide rollers, and have the same diameters as the first guide rollers respectively;

the lifting handles are respectively and fixedly arranged at the front ends of the left side and the right side of the second guide frame.

Preferably, the extension structure is composed of a plurality of groups of extension components, wherein the extension components are respectively detachably arranged on the first guide frame and the second guide frame and are symmetrical to each other;

the extension assembly comprises a pair of extension frames, a pair of mounting bolts, two pairs of guide wheels, a pair of first adjusting bolts and a pair of baffle rods;

one end of the extension frame is detachably inserted into the first socket and the second socket respectively, and the length of the other end of the extension frame is the same as that of the left side wall in the first adjusting groove;

one end of each of the mounting bolts is movably screwed into the first threaded hole and the second threaded hole respectively, and is movably screwed into one end of the extension frame respectively;

the two pairs of guide wheels are respectively and movably arranged on the lower wall of the other end of the extension frame, are respectively positioned at the upper side and the lower side and are mutually symmetrical, the two pairs of guide rollers respectively correspond to two pairs of first guide rollers close to the front end of the first guide frame, the diameters of the two pairs of guide wheels are respectively the same as the diameters of the first guide rollers, and the guide wheels can be relatively attached;

one end of the first adjusting bolt is detachably screwed into the left side wall of the other end of one pair of extension frames positioned on the second guide frame and is positioned between one pair of guide wheels;

one end of the baffle rod is detachably sleeved on the first adjusting bolt respectively and is positioned at the left side of the extension frame.

Preferably, the slitting structure comprises a pair of bearing assemblies and a plurality of shearing assemblies;

the bearing assemblies are detachably arranged on the lower wall of the first guide frame and the upper wall of the second guide frame respectively, and are mutually symmetrical and positioned at the rear side of the first adjusting port; the shearing assemblies are respectively detachably arranged on the bearing assembly and are respectively positioned on the upper side and the lower side to be symmetrical with each other;

the bearing assembly comprises a first frame seat, a second frame seat, a transverse railing, a loop bar and a magnet;

the first frame seat is of a convex structure, and the bottom of the first frame seat is detachably arranged on the upper wall of the second guide frame through a first bolt, is close to the left end and is positioned at the rear side of the second adjusting port; a first overturning port is formed in the middle of the top end of the first frame seat;

the second frame seat is of a convex structure, is detachably arranged on the upper wall of the second guide frame through a first bolt, is close to the right end and is positioned at the rear side of the second adjusting opening, corresponds to the first frame seat, is provided with a second overturning opening corresponding to the first overturning opening in the middle of the top end of the second frame seat, and is provided with clamping grooves communicated with the right ends of the front side wall and the rear side wall of the second overturning opening;

one end of the rail rod is movably embedded in the clamping groove at the front side of the top end of the second frame seat, and the other end of the rail rod can be movably embedded in the clamping groove at the rear side of the second overturning port and movably penetrates through the second overturning port;

one end of the loop bar is movably arranged in a first overturning port at the top end of the first frame seat through a pin shaft, the other end of the loop bar is movably embedded in a second overturning port of the second frame seat, and a right side wall of the other end of the loop bar is provided with a fitting groove corresponding to the clamping groove; the fit groove can be movably clamped on the rail rod;

the magnet is fixedly embedded in the lower wall in the engagement groove at the other end of the loop bar, and can be attached and adsorbed with the transverse bar.

Preferably, the shearing assembly comprises a movable arm support, a limit bolt, a long rod bolt, a nut and a cutter body;

the movable arm support is of a Z-shaped structure, a sliding hole is formed in the middle of one end of the movable arm support, one end of the movable arm support is movably sleeved on the loop bar through the sliding hole, the other end of the movable arm support is positioned on the front side of the extension frame, and a knife slot is formed in the middle of the other end of the movable arm support;

one end of the limit bolt is movably screwed into one end of the movable arm support and is attached to the side wall of the loop bar;

one end of the long rod bolt respectively penetrates through two side walls of the knife slot at the other end of the movable arm support in a movable way;

the nut is movably screwed on the long rod bolt;

the cutter body is movably embedded in a cutter groove at the other end of the movable arm support near the middle part and is movably sleeved on the long rod bolt; the cutting edge at one end of the cutter body is of an inclined structure.

Preferably, the cutter body positioned on the first guide frame and one end of the cutter body positioned on the second guide frame can be relatively attached, and the cutting edges are relatively staggered.

Preferably, the length of the cutter body is smaller than the length of the cutter groove, and one end of the cutter body can penetrate through the cutter groove.

The slitting jig and the slitting method for diaphragm processing provided by the invention have the beneficial effects that:

1. according to the invention, the diaphragm can be limited left and right through the guide structure, and meanwhile, the diaphragm is pressed and limited, so that the diaphragm cannot move up and down, and the tension of a cutting part is ensured.

2. According to the invention, the auxiliary shielding limiting can be performed by mounting and dismounting according to the width of the diaphragm through the extension structure.

3. According to the invention, a scissor-shaped shearing mode is realized through the slitting structure, the stress of a cutting part is enhanced, the point stress cutting is realized, the rapid shearing can be realized, and the abrasion of a cutter body is reduced; meanwhile, the relative included angle of the cutter body can be adjusted to change the cutting point position and the cutting force strength according to different thicknesses; meanwhile, the whole device is convenient for cutting adjustment and use of multiple width dimensions.

Drawings

Fig. 1 is a schematic view of an assembly structure of the present invention.

Fig. 2 is a schematic diagram of a split structure of the guiding structure of the present invention.

Fig. 3 is a schematic diagram of a splitting structure of the delay structure of the present invention.

Fig. 4 is a schematic diagram of a splitting structure of the present invention.

Fig. 5 is a schematic view of a partial enlarged structure at A1 in fig. 4 according to the present invention.

Fig. 6 is a schematic view of a partial enlarged structure at A2 in fig. 4 according to the present invention.

Fig. 7 is a schematic view of a partial enlarged structure at A3 in fig. 4 according to the present invention.

Fig. 8 is a schematic view of a partial enlarged structure at A4 in fig. 1 according to the present invention.

Fig. 9 is a schematic view of a partial enlarged structure at A5 in fig. 1 according to the present invention.

Fig. 10 is a schematic view of a partially enlarged structure at A6 in fig. 1 according to the present invention.

In the figure: 1. a guide structure; 11. a first guide frame; 12. a first guide roller; 13. a second guide roller; 14. a second guide frame; 15. a third guide roller; 16. lifting the handle; 2. a conveying structure; 21. an extension rack; 22. installing a bolt; 23. a guide wheel; 24. a first adjusting bolt; 25. a gear lever; 3. cutting the structure; 35. a carrier assembly; 51. a first mount; 52. a second mount; 53. a transverse railing; 54. a loop bar; 55. a magnet; 36. a shear assembly; 61. a movable arm support; 62. a limit bolt; 63. a long rod bolt; 64. a nut; 65. a cutter body; 7. a Y-shaped frame; 8. and a fifth guide roller.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-10, the present invention provides a technical solution: the utility model provides a diaphragm processing is with cutting tool, includes and leads send structure 1, prolong send structure 2 and cut structure 3, and prolong send structure 2 detachable to be arranged in leading send structure 1, cut structure 3 detachable to be arranged on leading send structure 1;

the Y-shaped frame 7 is detachably arranged on the first guide frame 11 in the guide structure 1, the Y-shaped frame 7 is provided with three ends, one end of the Y-shaped frame 7 is detachably arranged on the left side wall and the right side wall of the rear end of the first guide frame 11, the other two ends of the Y-shaped frame 7 are respectively movably arranged on the fifth guide rollers 8, and the fifth guide rollers 8 are respectively arranged on the upper side and the lower side of the Y-shaped frame and are symmetrical.

As a preferred solution, the guiding structure 1 further comprises a first guiding frame 11, a plurality of first guiding rollers 12, a pair of second guiding rollers 13, a second guiding frame 14, a plurality of third guiding rollers 15 and a pair of lifting handles 16;

the first guide frame 11 is of a concave structure, a first adjusting port is formed near the middle of the front end, a plurality of first sockets are formed in the inner rear side wall of the first adjusting port near the top end at equal intervals, a plurality of first threaded holes are formed in the lower wall of the first guide frame 11 near the front end at equal intervals, and the first threaded holes are respectively communicated with the first sockets; the first guide rollers 12 are respectively movably and equidistantly arranged on the left and right side walls of the front end of the first guide frame 11 and are symmetrical to each other; the pair of second guide rollers 13 are respectively and movably arranged in the rear end of the first guide frame 11, the distance between the second guide rollers 13 is the same as that between the first guide rollers 12, one of the second guide rollers 13 is close to the rear end part, and the diameters of the pair of second guide rollers 13 are respectively the same as that of the first guide rollers 12; the second guide frame 14 is of a rectangular plate body structure, a second adjusting port which is the same as the first adjusting port is formed in the middle of the front end, turning claws are arranged on the lower walls of the left side and the right side of the rear end of the second guide frame 14, a plurality of second sockets which are the same as the first sockets and correspond to the first sockets are formed in the inner rear side wall of the second adjusting port of the second guide frame 14 at equal intervals near the bottom, and a plurality of second threaded holes which are respectively communicated with the second adjusting ports are formed in the middle of the upper wall of the second guide frame 14 at equal intervals near the front end; the second guide frame 14 is movably connected to the inner side walls of the left and right side walls of the rear end of the first guide frame 11 through turning claws; the third guide rollers 15 are respectively and movably arranged on the lower walls of the left side and the right side of the front end of the second guide frame 14 and respectively correspond to the first guide rollers 12, the third guide rollers 15 can be respectively attached to the first guide rollers 12, and the diameters of the third guide rollers 15 are respectively the same as the diameters of the first guide rollers 12; a pair of lift handles 16 are fixedly provided on the front ends of the left and right sides of the second guide frame 14, respectively.

As a preferred scheme, the extension structure 2 is composed of a plurality of groups of extension components, wherein the plurality of extension components are respectively detachably arranged on the first guide frame 11 and the second guide frame 14 and are symmetrical to each other;

the extension assembly comprises a pair of extension frames 21, a pair of mounting bolts 22, two pairs of guide wheels 23, a pair of first adjusting bolts 24 and a pair of baffle rods 25;

one end of the pair of extension frames 21 is detachably inserted into the first socket and the second socket respectively, and the length of the other end of the extension frames 21 is the same as that of the left side wall in the first adjusting groove; one end of a pair of mounting bolts 22 is movably screwed into the first threaded hole and the second threaded hole respectively, and is movably screwed into one end of the extension frame 21 respectively; two pairs of guide wheels 23 are respectively and movably arranged on the lower wall of the other end of the extension frame 21 and are respectively positioned on the upper side and the lower side and are mutually symmetrical, the two pairs of guide wheels respectively correspond to two pairs of first guide rollers 12 close to the front end of the first guide frame 11, the diameters of the two pairs of guide wheels 23 are respectively the same as the diameters of the first guide rollers 12, and the guide wheels 23 can be relatively attached; one end of a pair of first adjusting bolts 24 is detachably screwed into the left side wall of the other end of one pair of extension frames 21 positioned on the second guide frame 14 and is positioned between one pair of guide wheels 23; one end of a pair of baffle rods 25 is detachably sleeved on the first adjusting bolts 24 respectively and is positioned at the left side of the extension frame 21.

Preferably, the slitting structure 3 further comprises a pair of carrying assemblies 35 and a plurality of shearing assemblies 36;

the pair of bearing components 35 are respectively detachably arranged on the lower wall of the first guide frame 11 and the upper wall of the second guide frame 14 and are mutually symmetrical at the rear side of the first adjusting port; the shearing assemblies 36 are respectively detachably arranged on the bearing assembly 35 and are respectively positioned on the upper side and the lower side to be symmetrical with each other;

the bearing assembly 35 comprises a first frame base 51, a second frame base 52, a rail 53, a loop bar 54 and a magnet 55;

the first frame seat 51 is of a convex structure, and the bottom of the first frame seat 51 is detachably arranged on the upper wall of the second guide frame 14 through a first bolt, is close to the left end and is positioned at the rear side of the second adjusting port; a first overturning port is arranged in the middle of the top end of the first frame seat 51; the second frame 52 is of a convex structure, the second frame 52 is detachably arranged on the upper wall of the second guide frame 14 through a first bolt, is close to the right end and is positioned at the rear side of the second adjusting opening, the second frame 52 corresponds to the first frame 51, a second overturning opening corresponding to the first overturning opening is formed in the middle of the top end of the second frame 52, and clamping grooves communicated with each other are formed in the right ends of the front side wall and the rear side wall of the second overturning opening; one end of the transverse railing 53 is movably embedded in a clamping groove at the front side of the top end of the second frame seat 52, and the other end of the transverse railing 53 can be movably embedded in a clamping groove at the rear side of the second turnover opening and movably penetrates through the second turnover opening; one end of the loop bar 54 is movably arranged in a first turnover opening at the top end of the first frame seat 51 through a pin shaft, the other end of the loop bar is movably embedded in a second turnover opening of the second frame seat 52, and a right side wall of the other end of the loop bar 54 is provided with a fitting groove corresponding to the clamping groove; the engagement groove can be movably clamped on the rail 53; the magnet 55 is fixedly fitted in the lower wall of the engagement groove at the other end of the rod 54, and the magnet 55 can be attached to the rail 53.

Preferably, the shearing assembly 36 includes a moving arm support 61, a limit bolt 62, a long rod bolt 63, a nut 64 and a cutter body 65;

the movable arm support 61 is of a Z-shaped structure, a sliding hole is formed in the middle of one end of the movable arm support 61, one end of the movable arm support 61 is movably sleeved on the loop bar 54 through the sliding hole, the other end of the movable arm support 61 is positioned on the front side of the extension frame 21, and a knife slot is formed in the middle of the other end of the movable arm support 61; one end of a limit bolt 62 is movably screwed into one end of the movable arm support 61 and is attached to the side wall of the loop bar 54; one end of the long rod bolt 63 respectively penetrates through two side walls of the knife slot at the other end of the movable arm support 61 movably; the nut 64 is movably screwed on the long rod bolt 63; the cutter body 65 is movably embedded in a cutter groove at the other end of the movable arm support 61 near the middle part and is movably sleeved on the long rod bolt 63; the blade at one end of the cutter body 65 is of an inclined structure.

As a preferred solution, the cutter body 65 on the first guiding frame 11 and one end of the cutter body 65 on the second guiding frame 14 can be relatively attached, and the cutting edges are relatively staggered for designing the cutting requirement.

As a preferred scheme, still further, cutter body 65 length is less than the sword groove length, and cutter body 65 one end can run through in the sword groove for design upset demand realizes different cutting atress size adjustment.

Examples, as can be seen from figures 1-10 of the description:

the slitting method of the slitting jig for diaphragm processing comprises the following operation steps:

s1, guiding and conveying a diaphragm through a fifth guide roller 8 between Y-shaped frames 7 on a first guide frame 11 in the guide structure 1, so as to realize certain tension limit; then the diaphragm passes through the lower part of the fifth guide roller 8 at the bottom and then passes through the upper part of the fifth guide roller 8 at the top to carry out turning-back guide; s2, the second guide frame 14 can be turned over and lifted up and opened on the first guide frame 11 by lifting the handle 16 to force the second guide frame 14, so that the diaphragm passes through the space between the first guide frame 11 and the rear end of the second guide frame 14, is guided horizontally forward in a bearing way by the second guide roller 13, passes through the first guide roller 12, and is limited between the first guide frame 11 and the second guide frame 14 by resetting the second guide frame 14, and at the moment, the front end of the diaphragm can be clamped and limited with the first guide roller 12 by the third guide roller 15; s3, secondly, one end of the diaphragm can pass through the relatively staggered cutter bodies 65 in the shearing assembly 36 in the slitting structure 3, a clamp is formed by the relatively staggered cutter bodies 65, and the diaphragm is subjected to point stress cutting in the moving process like a scissors structure; the cut diaphragm can be connected with a rolling device to drive continuous movement, rolling and cutting; s4, according to the width of the diaphragm, the extension frame 21 in the extension frame 2 is arranged at the corresponding positions of the first guide frame 11 and the second guide frame 14 through the mounting bolts 22 to carry out opposite, so that the middle positions of the first adjusting port and the second adjusting port are clamped by the guide wheels 23 up and down to carry out limit conveying, the first adjusting bolts 24 can be rotated, the baffle rod 25 is turned over to be relatively vertical to the extension frame 21 to carry out limit for shielding the left side of the diaphragm, and the right side of the diaphragm is shielded by the right side wall of the first guide frame 11; the stop lever 25 is rotated in parallel with the extension frame 21 when not in use, and can be provided with a plurality of sets of extension components; s5, after the width is adjusted, the position of the movable arm support 61 on the sleeve rod 54 in the bearing assembly 35 can be adjusted according to the cutting width, so that the position of the relatively staggered cutter body 65 at the cutting point of the diaphragm is adjusted; and the movable arm support 61 is fastened on the loop bar 54 through a rotation limit bolt 62; s6, according to different thicknesses of the cutting diaphragms, the long rod bolts 63 and nuts 64 are rotated, the crossing angle of the cutting edges at one ends of the two opposite staggered cutter bodies 65 is adjusted, and the cutting force and the stress area of the tangential points are changed; and S7, finally, the tie rod can be moved to be separated from the sleeve rod 54 and the magnet 55, one end of the sleeve rod 54 can be separated from the second frame seat 52, the sleeve rod 54 can be turned over and opened on the first frame seat 51, a plurality of shearing assemblies 36 can be installed for multi-width slitting, and after the sleeve rod 54 is reset, the clamping and limiting are carried out by means of the adsorption of the transverse railing 53 and the magnet 55.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. Cutting jig is used in diaphragm processing, its characterized in that: the automatic feeding device comprises a guide structure (1), a feeding structure (2) and a cutting structure (3), wherein the feeding structure (2) is detachably arranged in the guide structure (1), and the cutting structure (3) is detachably arranged on the guide structure (1);

a Y-shaped frame (7) is detachably arranged on a first guide frame (11) in the guide structure (1), the Y-shaped frame (7) is provided with three ends, one end of the Y-shaped frame is detachably arranged on the left side wall and the right side wall of the rear end of the first guide frame (11), the other two ends of the Y-shaped frame (7) are respectively and movably arranged on a fifth guide roller (8), and the fifth guide rollers (8) are respectively and symmetrically arranged on the upper side and the lower side;

the guide structure (1) comprises a first guide frame (11), a plurality of first guide rollers (12), a pair of second guide rollers (13), a second guide frame (14), a plurality of third guide rollers (15) and a pair of lifting handles (16);

the first guide frame (11) is of a concave structure, a first adjusting port is formed in the middle of the front end of the first guide frame, a plurality of first sockets are formed in the inner rear side wall of the first adjusting port in an equidistant manner near the top end of the first guide frame, a plurality of first threaded holes are formed in the lower wall of the first guide frame (11) in an equidistant manner near the front end of the first guide frame, and the first threaded holes are respectively communicated with the first sockets;

the first guide rollers (12) are respectively movably and equidistantly arranged on the left side wall and the right side wall of the front end of the first guide frame (11);

the pair of second guide rollers (13) are respectively and movably arranged in the rear end of the first guide frame (11), the distance between the second guide rollers (13) is the same as that between the first guide rollers (12), one of the second guide rollers (13) is close to the rear end part, and the diameters of the pair of second guide rollers (13) are respectively the same as that of the first guide rollers (12);

the second guide frame (14) is of a rectangular plate body structure, a second adjusting port which is the same as the first adjusting port is formed in the middle of the front end of the second guide frame, turnover claws are arranged on the lower walls of the left side and the right side of the rear end of the second guide frame (14), a plurality of second jacks which are the same as the first jacks are formed in the inner side wall of the second adjusting port of the second guide frame (14) near the bottom at equal intervals, a plurality of second threaded holes which are respectively communicated with the second adjusting port are formed in the middle of the upper wall of the second guide frame (14) near the front end at equal intervals, and the second guide frame (14) is movably connected to the inner side walls of the left side wall and the right side wall of the rear end of the first guide frame (11) through the turnover claws;

the third guide rollers (15) are respectively and movably arranged on the lower walls at the left side and the right side of the front end of the second guide frame (14), and respectively correspond to the first guide rollers (12), the third guide rollers (15) can be respectively attached to the first guide rollers (12), and the diameters of the third guide rollers (15) are respectively the same as the diameters of the first guide rollers (12);

a pair of lifting handles (16) are respectively fixedly arranged on the front ends of the left side and the right side of the second guide frame (14);

the extension structure (2) consists of a plurality of groups of extension components, wherein the extension components are respectively detachably arranged on the first guide frame (11) and the second guide frame (14) and are symmetrically arranged;

the extension assembly comprises a pair of extension frames (21), a pair of mounting bolts (22), two pairs of guide wheels (23), a pair of first adjusting bolts (24) and a pair of baffle rods (25);

one end of the pair of extension frames (21) is detachably inserted into the first socket and the second socket respectively, and the length of the other end of the extension frames (21) is the same as that of the left side wall in the first adjusting groove;

one end of each of the pair of mounting bolts (22) is movably screwed into the first threaded hole and the second threaded hole respectively, and is movably screwed into one end of the extension frame (21) respectively;

the two pairs of guide wheels (23) are respectively and movably arranged on the lower wall of the other end of the extension frame (21) and are respectively positioned at the upper side and the lower side and are mutually symmetrical, the two pairs of guide rollers respectively correspond to two pairs of first guide rollers (12) close to the front end of the first guide frame (11), the diameters of the two pairs of guide wheels (23) are respectively the same as the diameters of the first guide rollers (12), and the guide wheels (23) can be relatively attached;

one end of the first adjusting bolt (24) is detachably screwed into the left side wall of the other end of one pair of extension frames (21) positioned on the second guide frame (14) and is positioned between one pair of guide wheels (23);

one end of each baffle rod (25) is detachably sleeved on the corresponding first adjusting bolt (24) and is positioned at the left side of the extension frame (21);

the slitting structure (3) comprises a pair of carrying assemblies (35) and a plurality of shearing assemblies (36);

the pair of bearing assemblies (35) are respectively and detachably arranged on the lower wall of the first guide frame (11) and the upper wall of the second guide frame (14), and are mutually symmetrical at the rear side of the first adjusting port, and the plurality of shearing assemblies (36) are respectively and detachably arranged on the bearing assemblies (35) and are respectively and symmetrically arranged at the upper side and the lower side;

the bearing assembly (35) comprises a first frame seat (51), a second frame seat (52), a transverse rail (53), a sleeve rod (54) and a magnet (55);

the first frame seat (51) is of a convex structure, the bottom of the first frame seat (51) is detachably arranged on the upper wall of the second guide frame (14) through a first bolt, and the first frame seat is close to the left end and is positioned at the rear side of the second adjusting opening; a first overturning port is formed in the middle of the top end of the first frame seat (51);

the second frame seat (52) is of a convex structure, the second frame seat (52) is detachably arranged on the upper wall of the second guide frame (14) through a first bolt, is close to the right end and is positioned at the rear side of the second adjusting port, the second frame seat (52) corresponds to the first frame seat (51), a second overturning port corresponding to the first overturning port is formed in the middle of the top end of the second frame seat (52), and clamping grooves which are communicated are formed in the right ends of the front side wall and the rear side wall of the second overturning port;

one end of the rail rod (53) is movably embedded in a clamping groove at the front side of the top end of the second frame seat (52), and the other end of the rail rod (53) can be movably embedded in a clamping groove at the rear side of the second overturning port and movably penetrates through the second overturning port;

one end of the loop bar (54) is movably arranged in a first overturning opening at the top end of the first frame seat (51) through a pin shaft, the other end of the loop bar is movably embedded in a second overturning opening of the second frame seat (52), a fitting groove corresponding to the clamping groove is formed in the right side wall of the other end of the loop bar (54), and the fitting groove can be movably clamped on the transverse bar (53);

the magnet (55) is fixedly embedded in the lower wall in the fitting groove at the other end of the loop bar (54), and the magnet (55) can be attached and adsorbed with the rail bar (53);

the shearing assembly (36) comprises a movable arm support (61), a limit bolt (62), a long rod bolt (63), a nut (64) and a cutter body (65);

the movable arm support (61) is of a Z-shaped structure, a sliding hole is formed in the middle of one end of the movable arm support (61), one end of the movable arm support (61) is movably sleeved on the loop bar (54) through the sliding hole, the other end of the movable arm support (61) is located at the front side of the extension frame (21), and a cutter groove is formed in the middle of the other end of the movable arm support (61);

one end of the limit bolt (62) is movably screwed into one end of the movable arm support (61) and is attached to the side wall of the loop bar (54);

one end of the long rod bolt (63) respectively penetrates through two side walls of the knife slot at the other end of the movable arm support (61) in a movable way;

the nut (64) is movably screwed on the long rod bolt (63);

the cutter body (65) is movably embedded in a cutter groove at the other end of the movable arm support (61) near the middle part and is movably sleeved on the long rod bolt (63); the cutting edge at one end of the cutter body (65) is of an inclined structure;

the cutter body (65) positioned on the first guide frame (11) and one end of the cutter body (65) positioned on the second guide frame (14) can be relatively attached, and the cutting edges are relatively staggered.

2. The slitting fixture for diaphragm machining according to claim 1, wherein: the length of the cutter body (65) is smaller than that of the cutter groove, and one end of the cutter body (65) can penetrate through the cutter groove.

3. The slitting method of the slitting jig for diaphragm machining according to claim 2, wherein: the method comprises the following operation steps:

s1, a diaphragm can be guided and conveyed through a fifth guide roller (8) between Y-shaped frames (7) on a first guide frame (11) in the guide structure (1), so that a certain tension limit is realized; then the diaphragm passes through the lower part of the fifth guide roller (8) at the bottom and then passes through the upper part of the fifth guide roller (8) at the top to carry out turning-back guide;

s2, the second guide frame (14) can be turned over and lifted up on the first guide frame (11) by lifting the handle (16) to be opened, so that the diaphragm passes through the space between the first guide frame (11) and the rear end of the second guide frame (14), is guided forward horizontally by the bearing of the second guide roller (13), passes through the first guide roller (12), and is limited between the first guide frame (11) and the second guide frame (14) by resetting the second guide frame (14), and the front end of the diaphragm is clamped and limited with the first guide roller (12) by the third guide roller (15);

s3, enabling one end of the diaphragm to penetrate through relatively staggered cutter bodies (65) in the shearing assembly (36) in the slitting structure (3), forming a clamp through the relatively staggered cutter bodies (65), performing point stress cutting on the moving diaphragm, and further enabling the cut diaphragm to be connected with a winding device to drive continuous movement, winding and cutting;

s4, according to the width of the diaphragm, the detachable extension structure (2) can be assembled and disassembled, an extension frame (21) in the extension structure (2) is arranged at corresponding positions of a first guide frame (11) and a second guide frame (14) through a mounting bolt (22) to be opposite, the diaphragm is clamped up and down through a guide wheel (23) at the middle positions of a first adjusting port and a second adjusting port to carry out limit conveying, a first adjusting bolt (24) can be rotated, a baffle rod (25) is turned over and is relatively perpendicular to the extension frame (21) to carry out limit on the left side of the shielding diaphragm, the right side of the diaphragm is shielded by means of the right side wall of the first guide frame (11), the baffle rod (25) is rotated to be parallel to the extension frame (21) when not in use, and a plurality of groups of extension assemblies can be installed;

s5, after the width is adjusted, the position of the movable arm support (61) on the sleeve rod (54) in the bearing assembly (35) can be adjusted according to the cutting width, so that the position of the relatively staggered cutter body (65) at the cutting point of the diaphragm is adjusted, and the movable arm support (61) is fastened on the sleeve rod (54) through the rotary limiting bolt (62);

s6, according to different thicknesses of the cutting diaphragms, rotating the long rod bolt (63) and the nut (64), adjusting the crossing angle of the cutting edges at one ends of the two opposite staggered cutter bodies (65), and changing the cutting force and the stress area of the tangential points;

and S7, finally, the tie rod can be moved to separate from the loop bar (54) and the magnet (55), one end of the loop bar (54) can be separated from the second frame seat (52), the loop bar (54) can be turned over and opened on the first frame seat (51), a plurality of shearing assemblies (36) can be installed to conduct multi-width slitting, and after the loop bar (54) is reset, clamping and limiting are conducted through the adsorption of the tie bar (53) and the magnet (55).

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