CN110835841B

CN110835841B - Equal-length slitting processing device and equal-length slitting method for nylon braid

Info

Publication number: CN110835841B
Application number: CN201911135373.9A
Authority: CN
Inventors: 汪永超; 胡才富
Original assignee: Shandong Binzhou Lupeng Chemical Fiber Products Co ltd
Current assignee: Shandong Binzhou Lupeng Chemical Fiber Products Co ltd
Priority date: 2019-11-19
Filing date: 2019-11-19
Publication date: 2021-02-09
Anticipated expiration: 2039-11-19
Also published as: CN110835841A

Abstract

The invention relates to a nylon braid equal-length slitting processing device and a nylon braid equal-length slitting method, which comprise supporting legs, fixing columns, a connecting disc, slitting rollers, electric push rods, a cutting assembly, a notch fixing assembly and an extrusion assembly, wherein a rotating shaft is installed at the top of each supporting leg, the fixing columns are symmetrically welded on the outer wall of one side of the rotating shaft, the slitting rollers are positioned in the middle of the two supporting legs, two ends of each slitting roller are respectively welded and fixed with the fixing columns, fixing supports are installed on two side walls of each slitting roller through bolts, the electric push rods are installed at the upper ends of the fixing supports, the cutting assemblies are connected to the tops of the electric push rods, the extrusion assemblies are arranged on the outer walls of the slitting rollers at equal intervals, the notch fixing assemblies are arranged at the tops of the slitting rollers and above the cutting assemblies, and cutting grooves are formed, the cutting opening of the mesh belt cannot be loosened, and meanwhile, the cutting precision of the invention is high.

Description

Equal-length slitting processing device and equal-length slitting method for nylon braid

Technical Field

The invention relates to the technical field of nylon braid processing machinery, in particular to a nylon braid equal-length slitting processing device and method.

Background

The woven belt is made of various yarns as raw materials into narrow-width fabric or tubular fabric. The fabric has various varieties and is widely applied to various industrial departments such as clothes, shoe materials, cases, industry, agriculture, military needs, transportation and the like. The woven tape is mainly divided into nylon, acrylic, cotton, terylene, rayon and the like according to the material. Nylon is also called nylon, and nylon woven belts are mainly woven by nylon bright yarns, nylon special-shaped bright yarns, nylon high-stretch yarns, nylon semi-dull yarns and the like through a ribbon loom. The lines can be divided into plane lines, herringbone lines, jacquard lines, satin lines, ribbing lines, check lines, round dot lines and the like, and the nylon woven belts in the market at present belong to relatively high-end woven belts. The nylon woven tape has the advantages of good elasticity and wear resistance under dry and wet conditions, stable size, small shrinkage rate, stiffness, uneasy crease, easy washing and quick drying. In the process of processing the woven tape, the woven tape needs to be cut into different lengths so as to be suitable for different processing requirements.

The conventional nylon braid equal-length slitting processing devices adopt a measuring and cutting mode to perform equal-length slitting of the braid, the mode is complex and complicated to operate, a measuring procedure is required at the cutting cost, so that the cutting efficiency of the braid is low, and meanwhile, the traditional cutting mode adopts cold shearing, so that the braid at a cut is easy to loosen, and the integral quality of the braid is influenced; b. the equal length of current nylon meshbelt cuts processingequipment is at the shearing in-process, because the meshbelt all adopts the stromatolite to place for the meshbelt of cutting blade easy extrusion cutting department both sides sinks, and the meshbelt is stretched, leads to the cutting length of meshbelt to differ, and cutting accuracy is not high promptly.

Disclosure of Invention

In order to solve the problems, the invention provides an isometric slitting processing device and an isometric slitting method for a nylon woven tape, which can solve the problems in the background art.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: a nylon braid equal-length slitting processing device comprises supporting legs, fixing columns, a connecting disc, slitting rollers, electric push rods, cutting assemblies, incision fixing assemblies and extrusion assemblies, wherein a rotating shaft is installed at the tops of the supporting legs, the fixing columns are symmetrically welded on the outer wall of one side of the rotating shaft, the slitting rollers are located in the middle of the two supporting legs, the two ends of each slitting roller are fixedly welded with the corresponding fixing column respectively, fixing supports are installed on the two side walls of each slitting roller through bolts, the electric push rods are installed at the upper ends of the fixing supports, the cutting assemblies are connected to the tops of the electric push rods, the extrusion assemblies are arranged on the outer walls of the slitting rollers at equal intervals, and the incision fixing assemblies are arranged at the tops of the;

the cutting roller comprises a cutting groove, sliding grooves, spiral placing grooves and a rotating handle, the cutting groove is formed in the joint of the cutting roller and the cutting assembly, the sliding grooves are formed in the inner walls of the two sides of the cutting groove at equal intervals, the spiral placing grooves are formed in the outer wall of the cutting roller, and the rotating handle is welded to the outer wall of the cutting roller and is located in the middle of the two adjacent spiral placing grooves;

the cutting assembly comprises a supporting plate, a sliding block, a triangular plate, a resistance heating wire, an arc-shaped top plate, a T-shaped connecting column, a connecting sleeve and a first spring, the supporting plate is installed inside the cutting groove, the lower end faces of the two ends of the supporting plate are connected with an electric push rod, the sliding block is welded on the two side walls of the supporting plate at equal intervals, the sliding block and the sliding groove are of a matched structure, the triangular plate is welded on the upper end faces of the two ends of the supporting plate, the resistance heating wire is arranged at the upper end of the triangular plate, the arc-shaped top plate is arranged right above the supporting plate, the T-shaped connecting column is welded at the bottom of the arc-shaped top plate, the connecting sleeve is installed at the bottom of the T-shaped connecting column in a matched mode and fixed at the top of the supporting plate through bolts, the first spring, then the electric push rod drives the heated resistance heating wire to move upwards to be in contact with the woven belt, and the linear cutting of the woven belt is realized through high-temperature melting.

Further, the extrusion assembly comprises an arc-shaped fixed plate, a first arc-shaped extrusion plate, a conical rubber bump, a second spring, a movable rod and a pull ring, wherein the arc-shaped fixed plate is fixed on the side wall of the spiral placement groove through spot welding, an insertion through hole is formed in the center of the interior of the arc-shaped fixed plate, the movable rod is installed in the insertion through hole in a matched mode, the first arc-shaped extrusion plate is welded at one end of the movable rod, the conical rubber bump is adhered to the outer wall of the first arc-shaped extrusion plate at equal intervals, the pull ring is welded at the other end of the movable rod, the second spring is sleeved on the outer wall of the movable rod, the second spring is located at the interval between the arc-shaped fixed plate and the first arc-shaped extrusion plate, when the extrusion assembly works, the pull ring is pulled by hand, the movable rod is driven to move through the pull ring, so that the first arc-shaped extrusion, loosen the pull ring, the resilience force drives first arc stripper plate and moves down for the toper rubber convex block of first arc stripper plate bottom supports and presses on the surface of meshbelt, fixes a position the meshbelt, and the effectual meshbelt that prevents is not hard up, makes cutting accuracy higher.

Further, the incision fixing component comprises an arc connecting plate, a rotating shaft, a second arc extrusion plate, a fixing rod, a first rack, a second rack, a gear, a third spring, a limiting bottom plate, a T-shaped support rod and a fourth spring, wherein the arc connecting plate is installed at the upper end of the slitting roller through the fixing rod, the T-shaped support rod is arranged on the lower end face of the arc connecting plate, the second arc extrusion plate is sleeved at the upper end of the T-shaped support rod, the fourth spring is arranged at the joint of the second arc extrusion plate and the T-shaped support rod, the rotating shaft is inserted into the side walls of the two arc connecting plates, the gear is welded on the outer wall of the rotating shaft, the first rack and the second rack are respectively meshed on the two sides of the gear, the bottom of the second rack is welded on the top of the second arc extrusion plate, a movable round rod is welded on the bottom of the first rack, the movable round rod penetrates through the, the outer wall of activity round bar and the interval department that is located second arc stripper plate and limiting bottom plate have cup jointed the third spring, concrete during operation, electric putter work drives cutting assembly rebound's in-process, arc roof and limiting bottom plate contact, promote the movable round bar rebound that limiting bottom plate upper end is connected, thereby drive first rack rebound, first rack and gear engagement, and then pivoted gear and second rack meshing, drive second rack rebound, promote second arc stripper plate rebound through the second rack, be the opposite direction motion between second arc stripper plate and the arc roof, the meshbelt of incision department is held between second arc stripper plate and arc roof additional, accomplish the fixed of meshbelt.

Further, the radius size homogeneous phase of arc roof, second arc stripper plate and spiral standing groove is the same, and the same radius structure sets up, guarantees that arc roof and second arc stripper plate when contacting with the meshbelt, and the surface of meshbelt can not the anti fold, and arc roof and second arc stripper plate are the cooperation structure.

Furthermore, the first rack and the second rack are located at the interval between the two spiral placing grooves relative to the slitting roller, so that the bottom of the first rack and the bottom of the second rack are prevented from touching the woven belt, and the woven belt can be ensured to be normally wound and connected on the spiral placing grooves.

In addition, the invention also provides a nylon braid equal-length slitting method, which specifically comprises the following steps:

s1, fixing the end of the woven tape: manually placing the woven belt to be cut to the rightmost end or the leftmost end of the spiral placing groove, manually pulling a pull ring at the upper end of an extrusion assembly in the spiral placing groove, pushing the woven belt to the lower part of the extrusion assembly, and then loosening the pull ring to finish the fixation of the end of the woven belt;

s2, winding and connecting the woven tape: after the fixing is carried out in S1, the manual palm part is tightly attached to the surface of the woven belt, namely, the woven belt is tightly attached to the spiral placing groove, meanwhile, the other hand of an operator holds the rotating handle, the rotating handle drives the slitting roller to rotate, so that the woven belt is gradually wound in the spiral placing groove, the woven belt sequentially passes through the extrusion assembly and the notch fixing assembly, and the slitting roller stops rotating until the spiral placing groove is completely covered by the woven belt;

s3, fixed cutting: manually starting a switch of the resistance heating wire, after the resistance heating wire is heated for 10 seconds, manually starting an electric push rod switch, driving the supporting plate to move upwards along the cutting groove through the electric push rod, so as to drive the arc-shaped top plate to be attached to the arc-shaped extrusion plate of the incision fixing component, clamping the woven tape at the gap between the arc-shaped top plate and the arc-shaped extrusion plate of the incision fixing component, continuously working through the electric push rod, driving the resistance heating wire to be in contact with the woven tape, performing linear cutting, and finally driving the supporting plate to return to an initial position through controlling the electric push rod;

s4, discharging: one side of meshbelt is held to manual work, and simultaneously, operator's another hand pulling pull ring, the hand of gripping the meshbelt is outwards hard, drives meshbelt and spiral standing groove separation, accomplishes and unloads.

The invention has the beneficial effects that:

1. the nylon braid equal-length slitting processing device is provided with the slitting roller, the electric push rod, the cutting assembly and other components, the equal-length slitting processing of the braid is realized by adopting the principle of concentric circular spiral wrapping equal length, the measurement before cutting is not needed like the traditional process, the operation steps are effectively reduced, the operation is simpler and quicker, the cutting efficiency is higher, meanwhile, the braid cutting part is automatically fused by adopting a high-temperature melting and hot cutting mode, and the loose condition is avoided.

2. The nylon mesh belt equal-length slitting processing device is provided with components such as the notch fixing assembly and the extruding assembly, on one hand, the mesh belt is wound on the slitting roller, the extruding assembly is used for positioning the mesh belt, so that the mesh belt cannot slip on the extruding assembly, the mesh belt in each section of spiral placing groove is guaranteed to be equal in length, on the other hand, a certain extruding force is applied to the mesh belt at the notch through the notch fixing assembly during cutting, when the cutting assembly is in contact with the mesh belt, the mesh belt is not prone to elastic deformation, the cutting length of the mesh belt is guaranteed to be consistent, and therefore the cutting precision of the mesh belt is effectively improved.

Drawings

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

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

FIG. 2 is a perspective view of the cutting assembly of the present invention;

FIG. 3 is a cross-sectional view of the extrusion assembly of the present invention;

FIG. 4 is a perspective view of the incision fixation assembly of the present invention;

FIG. 5 is a cross-sectional view taken along line B-B of FIG. 4;

FIG. 6 is a cross-sectional view taken along line C-C of FIG. 4;

fig. 7 is a flow chart of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in figures 1 to 7, the equal-length slitting processing equipment for nylon woven tapes comprises supporting legs 1, fixing columns 2, a connecting disc 3, a slitting roller 4, an electric push rod 5, a cutting assembly 6, a notch fixing assembly 7 and an extrusion assembly 8, a rotating shaft is arranged at the top of the supporting legs 1, fixing columns 2 are symmetrically welded on the outer wall of one side of the rotating shaft, a slitting roller 4 is positioned in the middle of the two supporting legs 1, and cut the both ends of roller 4 respectively with fixed column 2 welded fastening, the both sides wall of cutting roller 4 installs the fixed bolster through the bolt, and electric putter 5 is installed to the upper end of fixed bolster, and electric putter 5's top is connected with cutting component 6, and the outer wall of cutting roller 4 is equidistant to be provided with extrusion component 8, and the top of cutting roller 4 just is located cutting component 6 and is provided with incision fixed component 7 directly over.

The extrusion assembly 8 comprises an arc-shaped fixing plate 81, a first arc-shaped extrusion plate 82, a conical rubber bump 83, a second spring 84, a movable rod 85 and a pull ring 86, the arc-shaped fixing plate 81 is fixed on the side wall of the spiral placement groove 43 through spot welding, an insertion through hole is formed in the center of the interior of the arc-shaped fixing plate 81, the movable rod 85 is installed inside the insertion through hole in a matched mode, the first arc-shaped extrusion plate 82 is welded at one end of the movable rod 85, the conical rubber bump 83 is adhered to the outer wall of the first arc-shaped extrusion plate 82 at equal intervals, the pull ring 86 is welded at the other end of the movable rod 85, the second spring 84 is sleeved on the outer wall of the movable rod 85, the second spring 84 is located at the interval between the arc-shaped fixing plate 81 and the first arc-shaped extrusion plate 82, during specific work, the pull ring 86 is pulled by hand, the pull ring 86, the second spring 84 compresses to generate resilience force, when the braid passes through the bottom of the first arc-shaped extrusion plate 82, the pull ring 86 is loosened, the resilience force drives the first arc-shaped extrusion plate 82 to move downwards, so that the conical rubber bump 83 at the bottom of the first arc-shaped extrusion plate 82 is abutted against the surface of the braid, the braid is positioned, the braid is effectively prevented from loosening, and the cutting precision is higher.

The incision fixing component 7 comprises an arc connecting plate 71, a rotating shaft 72, a second arc extrusion plate 73, a fixing rod 74, a first rack 75, a second rack 76, a gear 77, a third spring 78, a limiting bottom plate 79, a T-shaped supporting rod 7a and a fourth spring 7b, the arc connecting plate 71 is mounted at the upper end of the slitting roller 4 through the fixing rod 74, the T-shaped supporting rod 7a is arranged on the lower end face of the arc connecting plate 71, the second arc extrusion plate 73 is sleeved at the upper end of the T-shaped supporting rod 7a, the fourth spring 7b is arranged at the joint of the second arc extrusion plate 73 and the T-shaped supporting rod 7a, the rotating shaft 72 is inserted into the side walls of the two arc connecting plates 71, the gear 77 is welded on the outer wall of the rotating shaft 72, the first rack 75 and the second rack 76 are respectively engaged with the two sides of the gear 77, the bottom of the second rack 76 is welded on the top of the second arc extrusion plate 73, a movable, the movable round rod penetrates through the second arc-shaped extrusion plate 73, the bottom of the movable round rod is welded with the limit bottom plate 79, the outer wall of the movable round rod is positioned at the interval between the second arc-shaped extrusion plate 73 and the limit bottom plate 79 and is sleeved with the third spring 78, when the electric push rod 5 works to drive the cutting assembly 6 to move upwards, the arc-shaped top plate 65 is contacted with the limit bottom plate 79 to push the movable round rod connected with the upper end of the limit bottom plate 79 to move upwards so as to drive the first rack 75 to move upwards, the first rack 75 is meshed with the gear 77, the rotating gear 77 is meshed with the second rack 76 to drive the second rack 76 to move downwards, the second arc-shaped extrusion plate 73 is pushed to move downwards through the second rack 76, namely the second arc-shaped extrusion plate 73 and the arc-shaped top plate 65 move oppositely, and the mesh belt at the notch is clamped between the second arc-shaped extrusion plate 73 and the arc-shaped top plate 65, and finishing the fixation of the woven belt.

The radius sizes of the arc-shaped top plate 65, the second arc-shaped extrusion plate 73 and the spiral placing groove 43 are the same, and the same radius structures are arranged, so that the arc-shaped top plate 65 and the second arc-shaped extrusion plate 73 are ensured to be in contact with the woven belt, no wrinkle is generated on the surface of the woven belt, and the arc-shaped top plate 65 and the second arc-shaped extrusion plate 73 are in a matched structure.

The first rack 75 and the second rack 76 are located at the interval between two connected spiral placing grooves 43 relative to the slitting roller 4, so that the bottoms of the first rack 75 and the second rack 76 are prevented from touching the woven belt, and the woven belt can be ensured to be normally wound on the spiral placing grooves 43.

Cut roller 4 including cutting groove 41, spout 42, spiral standing groove 43 and rotation handle 44, cut roller 4 and cutting assembly 6 junction and seted up cutting groove 41, cut groove 41's both sides inner wall equidistant spout 42 of having seted up, cut roller 4's outer wall and seted up spiral standing groove 43, it is adjacent that the outer wall of cutting roller 4 just is located two the intermediate position welding of spiral standing groove 43 has rotation handle 44.

The cutting assembly 6 comprises a supporting plate 61, a sliding block 62, a triangular plate 63, a resistance heating wire 64, an arc-shaped top plate 65, a T-shaped connecting column 66, a connecting sleeve 67 and a first spring 68, the supporting plate 61 is installed inside the cutting groove 41, the lower end faces of the two ends of the supporting plate 61 are connected with an electric push rod 5, the sliding blocks 62 are welded on the two side walls of the supporting plate 61 at equal intervals, the sliding blocks 62 and the sliding grooves 42 are of a matched structure, the triangular plate 63 is welded on the upper end faces of the two ends of the supporting plate 61, the resistance heating wire 64 is arranged at the upper end of the triangular plate 63, the arc-shaped top plate 65 is arranged right above the supporting plate 61, the T-shaped connecting column 66 is welded at the bottom of the arc-shaped top plate 65, the connecting sleeve 67 is installed at the bottom of the T-shaped connecting column 66 in a matched, the woven belt to be cut is manually wound in the spiral placing groove 43 and is positioned through the extrusion assembly 8, then the electric push rod 5 drives the resistance heating wire 64 to move upwards to be in contact with the woven belt, and the linear cutting of the woven belt is realized through high-temperature melting.

s1, fixing the end of the woven tape: manually placing the mesh belt to be cut to the rightmost end or the leftmost end of the spiral placing groove 43, manually lifting the pull ring 86 positioned at the upper end of the extrusion assembly 8 in the spiral placing groove 43, pushing the mesh belt to the lower part of the extrusion assembly 8, and then loosening the pull ring 86 to finish the fixation of the end of the mesh belt;

s2, winding and connecting the woven tape: after the fixing in S1, the hand palm portion is tightly attached to the surface of the woven tape, that is, the woven tape is tightly attached to the spiral placing groove 43, meanwhile, the operator holds the rotating handle 44 with the other hand, the slitting roller 4 is driven to rotate by rotating the handle 44, so that the woven tape is gradually wound and connected in the spiral placing groove 43, and the woven tape sequentially passes through the extruding assembly 8 and the slitting fixing assembly 7, until the spiral placing groove 43 is completely covered by the woven tape, and then the rotation of the slitting roller 4 is stopped;

s3, fixed cutting: manually starting the switch of the resistance heating wire 64, after the resistance heating wire 64 is heated for 10S, manually starting the switch of the electric push rod 5, and driving the support plate 61 to move upwards along the cutting groove 41 through the electric push rod 5, so as to drive the arc-shaped top plate 65 to be attached to the second arc-shaped extrusion plate 73 of the incision fixing component 7, clamping the woven tape at the seam between the arc-shaped top plate 65 and the second arc-shaped extrusion plate 73 of the incision fixing component 7, continuously working the electric push rod 5, driving the resistance heating wire 64 to be in contact with the woven tape for linear cutting, and finally controlling the electric push rod 5 to drive the support plate 61 to return to the initial position;

s4, discharging: manually holding one side of the mesh belt, simultaneously, pulling the pull ring 86 by the other hand of the operator, and exerting outward force by the hand part gripping the mesh belt to drive the mesh belt to be separated from the spiral placing groove 43, thereby completing the discharging.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an isometric processingequipment that cuts of nylon meshbelt, includes supporting legs (1), fixed column (2), connection disc (3), cuts roller (4), electric putter (5), cutting assembly (6), incision fixed subassembly (7) and extrusion component (8), its characterized in that: the cutting device comprises supporting legs (1), a rotating shaft is installed at the top of each supporting leg (1), fixing columns (2) are symmetrically welded on the outer wall of one side of the rotating shaft, a cutting roller (4) is located in the middle of the two supporting legs (1), two ends of the cutting roller (4) are respectively welded and fixed with the fixing columns (2), fixing supports are installed on two side walls of the cutting roller (4) through bolts, an electric push rod (5) is installed at the upper end of each fixing support, a cutting assembly (6) is connected to the top of the electric push rod (5), extruding assemblies (8) are arranged on the outer wall of the cutting roller (4) at equal intervals, and a notch fixing assembly (7) is arranged at the top of the cutting roller (;

the cutting roller (4) comprises a cutting groove (41), a sliding groove (42), spiral placing grooves (43) and a rotating handle (44), the cutting groove (41) is formed in the joint of the cutting roller (4) and the cutting assembly (6), the sliding grooves (42) are formed in the inner walls of the two sides of the cutting groove (41) at equal intervals, the spiral placing grooves (43) are formed in the outer wall of the cutting roller (4), and the rotating handle (44) is welded to the outer wall of the cutting roller (4) and is located in the middle of the two adjacent spiral placing grooves (43);

the cutting assembly (6) comprises a supporting plate (61), a sliding block (62), a triangular plate (63), a resistance heating wire (64), an arc-shaped top plate (65), a T-shaped connecting column (66), a connecting sleeve (67) and a first spring (68), wherein the supporting plate (61) is installed inside a cutting groove (41), the lower end faces of the two ends of the supporting plate (61) are connected with an electric push rod (5), the sliding blocks (62) are welded on the two side walls of the supporting plate (61) at equal intervals, the sliding blocks (62) and the sliding groove (42) are of a matched structure, the triangular plate (63) is welded on the upper end faces of the two ends of the supporting plate (61), the resistance heating wire (64) is arranged at the upper end of the triangular plate (63), the arc-shaped top plate (65) is arranged right above the supporting plate (61), the T-shaped connecting column (66) is welded at the bottom of the, the connecting sleeve (67) is fixed on the top of the supporting plate (61) through a bolt, and a first spring (68) is arranged at the joint of the T-shaped connecting column (66) and the connecting sleeve (67).

2. The equal-length slitting processing device for the nylon woven tape according to claim 1, characterized in that: the extrusion assembly (8) comprises an arc-shaped fixing plate (81), a first arc-shaped extrusion plate (82), a conical rubber bump (83), a second spring (84), a movable rod (85) and a pull ring (86), the arc-shaped fixing plate (81) is fixed on the side wall of the spiral placement groove (43) through spot welding, an insertion through hole is formed in the center of the interior of the arc-shaped fixing plate (81), the movable rod (85) is installed inside the insertion through hole in a matched mode, the first arc-shaped extrusion plate (82) is welded at one end of the movable rod (85), the conical rubber bump (83) is bonded on the outer wall of the first arc-shaped extrusion plate (82) at equal intervals, the pull ring (86) is welded at the other end of the movable rod (85), and the second spring (84) is sleeved, and the second spring (84) is located at the interval between the arc-shaped fixing plate (81) and the first arc-shaped pressing plate (82).

3. The equal-length slitting processing device for the nylon woven tape according to claim 1, characterized in that: the incision fixing component (7) comprises an arc-shaped connecting plate (71), a rotating shaft (72), a second arc-shaped extrusion plate (73), a fixing rod (74), a first rack (75), a second rack (76), a gear (77), a third spring (78), a limiting bottom plate (79), a T-shaped supporting rod (7 a) and a fourth spring (7 b), the arc-shaped connecting plate (71) is installed at the upper end of the slitting roller (4) through the fixing rod (74), the T-shaped supporting rod (7 a) is arranged on the lower end face of the arc-shaped connecting plate (71), the second arc-shaped extrusion plate (73) is sleeved at the upper end of the T-shaped supporting rod (7 a), the fourth spring (7 b) is arranged at the joint of the second arc-shaped extrusion plate (73) and the T-shaped supporting rod (7 a), the rotating shaft (72) is inserted into the side walls of the two arc-shaped connecting plates (71), and the gear, the both sides of gear (77) mesh respectively has first rack (75) and second rack (76), the bottom welding of second rack (76) is at the top of second arc stripper plate (73), the bottom welding of first rack (75) has movable round bar, movable round bar runs through in second arc stripper plate (73), the bottom welding of movable round bar has limiting bottom plate (79), the outer wall of movable round bar and the interval department that is located second arc stripper plate (73) and limiting bottom plate (79) have cup jointed third spring (78).

4. The equal-length slitting processing device for the nylon woven tape according to claim 3, characterized in that: the radius sizes of the arc-shaped top plate (65), the second arc-shaped extrusion plate (73) and the spiral placing groove (43) are the same, and the arc-shaped top plate (65) and the second arc-shaped extrusion plate (73) are of a matched structure.

5. The equal-length slitting processing device for the nylon woven tape according to claim 3, characterized in that: the first rack (75) and the second rack (76) are positioned at the interval of two connected spiral placing grooves (43) relative to the slitting roller (4).

6. The equal-length slitting processing device for the nylon woven tape according to claim 2, characterized in that: the nylon braid equal-length slitting processing device comprises a nylon braid equal-length slitting method, and specifically comprises the following steps:

s1, fixing the end of the woven tape: manually placing the mesh belt to be cut to the rightmost end or the leftmost end of the spiral placing groove (43), manually pulling a pull ring (86) positioned at the upper end of the extrusion assembly (8) in the spiral placing groove (43), pushing the mesh belt to the lower part of the extrusion assembly (8), and then loosening the pull ring (86) to finish the fixation of the end of the mesh belt;

s2, winding and connecting the woven tape: after S1 fixation, the manual palm part is tightly attached to the surface of the woven belt, namely the woven belt is tightly attached to the spiral placing groove (43), meanwhile, the other hand of an operator holds the rotating handle (44), the rotating handle (44) drives the slitting roller (4) to rotate, so that the woven belt is gradually wound and connected in the spiral placing groove (43), and the woven belt sequentially passes through the extrusion assembly (8) and the notch fixing assembly (7) until the spiral placing groove (43) is completely covered by the woven belt, and then the slitting roller (4) stops rotating;

s3, fixed cutting: manually starting a switch of the resistance heating wire (64), after the resistance heating wire (64) is heated for 10 seconds, manually starting a switch of an electric push rod (5), driving a support plate (61) to move upwards along a cutting groove (41) through the electric push rod (5), driving an arc-shaped top plate (65) to be attached to a notch fixing component (7), clamping a woven tape at a seam between the arc-shaped top plate (65) and the notch fixing component (7), continuously working the electric push rod (5), driving the resistance heating wire (64) to be in contact with the woven tape, performing linear cutting, and finally controlling the electric push rod (5) to drive the support plate (61) to return to an initial position;

s4, discharging: one side of the mesh belt is manually held, meanwhile, the other hand of an operator pulls the pull ring (86), the hand portion which grips the mesh belt exerts force outwards, the mesh belt is driven to be separated from the spiral placing groove (43), and discharging is completed.