CN214047786U - Novel bonding positioning fixture for manufacturing biomass fiber shoe material - Google Patents

Abstract

A novel bonding positioning clamp for manufacturing biomass fiber shoe materials comprises a coating bottom plate, support legs, a roller side frame, a material conveying roller, a side guard plate, a front positioning mechanism and a rear pressing mechanism; the center of the coating bottom plate is hollowed to form a material conveying hole; the support legs are arranged at four corners of the bottom surface of the coating bottom plate; the roller side frames are arranged at two sides of the material conveying hole; the material conveying rollers are arranged in the material conveying holes in a transverse array, and two ends of each material conveying roller are rotatably arranged with the roller side frames through bearings; the side guard plates are arranged on two sides of the material conveying hole; two ends of the front positioning mechanism are fixedly arranged with the bottom surface of the coating bottom plate; the number of the rear pressing mechanisms is two, and each rear pressing mechanism is arranged on the bottom side of the coating bottom plate. The utility model realizes the coating process after stably clamping the sole, and the clamping stability of the clamp to the clamping speed block of the sole is strong; is suitable for clamping soles with different sizes and has wide application range.

Description

Novel bonding positioning fixture for manufacturing biomass fiber shoe material

Technical Field

The utility model relates to a fiber product processing field, especially a novel bonding positioning fixture that living beings fibre shoes material was made.

Background

After the sole is processed and formed in the processing technology of the shoe, the sole needs to be coated with glue, and the sole and the upper are adhered. In the process of coating the surface of the sole, in order to improve the process efficiency and effect, a mechanical coating mode is gradually adopted to replace the traditional manual coating process, the mechanical coating process has good process efficiency, and large-scale mechanical production is realized. However, in the existing shoe material manufacturing process, the coating device is used for coating the surface of the sole, the sole cannot be well fixed, the coating surface of the sole is completely exposed in the coating device, and the stable coating process is realized in a fixed limiting state of the sole.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems existing in the prior art, the utility model discloses a novel bonding positioning fixture that biomass fiber shoes material was made, its concrete technical scheme as follows: a novel bonding positioning clamp for manufacturing biomass fiber shoe materials comprises a coating bottom plate, support legs, a roller side frame, a material conveying roller, a side guard plate, a front positioning mechanism and a rear pressing mechanism;

the center of the coating bottom plate is hollowed to form a material conveying hole; the support legs are arranged at four corners of the bottom surface of the coating bottom plate, and each support leg is vertically and fixedly arranged with the coating bottom plate; the roller side frames are arranged on two sides of the material conveying hole, and the roller side frame on each side is vertically fixed with the bottom surface of the coating bottom plate; the material conveying rollers are arranged in the material conveying holes in a transverse array, and two ends of each material conveying roller are rotatably arranged with the roller side frames through bearings; the side guard plates are arranged on two sides of the material conveying hole, and the side guard plates on each side are vertically fixed with the coating bottom plate; the front positioning mechanism is arranged at the bottom end of one side of the material conveying hole, the front positioning mechanism is longitudinally arranged in the material conveying hole in a lifting manner, and two ends of the front positioning mechanism are fixedly arranged with the bottom surface of the coating bottom plate; the number of the rear pressing mechanisms is two, the rear pressing mechanisms are symmetrically arranged on two sides of the material conveying hole, and each rear pressing mechanism is arranged on the bottom side of the coating bottom plate.

Furthermore, the top end of each material conveying roller is slightly higher than the top surface of the coating bottom plate, and the length of each material conveying roller is slightly larger than the width of the sole.

Furthermore, the front positioning mechanism comprises a longitudinal plate, a wing block, a transverse plate, a longitudinal sliding block, a longitudinal sliding rail, a positioning rod, a positioning motor, a threaded rod and a first fixing piece; the longitudinal plate is arranged in the center of the material conveying hole; the wing blocks are arranged in the centers of the two sides of the longitudinal plate, and the wing blocks on the two sides and the longitudinal plate are fixedly arranged to form an integrated structure; the transverse plate is arranged at the bottom end of the longitudinal plate, the longitudinal plate is vertically fixed with the transverse plate, and the bottom end of the longitudinal plate is hollowed out to form a motor clamping groove; the longitudinal sliding block is arranged on one side of the longitudinal plate, the longitudinal sliding rail is arranged between the longitudinal sliding block and the longitudinal plate, and the longitudinal sliding block can longitudinally slide through the longitudinal sliding rail and the longitudinal plate; the positioning rods are arranged on two sides of the top surface of the longitudinal sliding block and are vertically and fixedly arranged; the positioning motor is arranged in the center of the transverse plate and fixed with the transverse plate through a fastener, and one side of the positioning motor extends into the motor clamping groove; one end of the threaded rod coaxially rotates with the positioning motor, penetrates through the center of the longitudinal sliding block and is in threaded connection with the longitudinal sliding block; the first fixing piece is arranged on one side of the wing blocks on two sides, one side wall of the first fixing piece is fixed with the wing blocks through a fastening piece, and the top end of the first fixing piece is fixed with the coating bottom plate through the fastening piece.

Furthermore, the number of the positioning rods is two, and the positioning rods are symmetrically arranged on two sides of the longitudinal sliding block; each side the locating lever is cylindric structure, every the locating lever stretch out in the top surface in defeated material hole.

Furthermore, the number of the first fixing pieces is two, and the cross section of each first fixing piece is L-shaped.

Furthermore, each side of the rear pressing mechanism comprises a rear pressing block, a rear rotating shaft, a linkage sheet, a linkage shaft, an angle adjusting motor and an angle adjusting block; the rear pressing block on each side is arranged on two sides of the material conveying hole and between the two material conveying rollers, and the rear pressing block on each side is attached to the top surface of the coating bottom plate; the rear rotating shaft is arranged at the bottom side of one end of the rear pressing block and is vertically fixed with the rear pressing block, and the rear rotating shaft penetrates through the coating bottom plate and is rotatably arranged with the coating bottom plate; the linkage piece is arranged at the bottom end of the rear rotating shaft, and the bottom end of the rear rotating shaft is vertically fixed with one end of the linkage piece; the linkage shaft is arranged on the top surface of one end of the linkage sheet; the angle modulation motor is arranged on the bottom surface of the coating bottom plate and is fixedly attached to the coating bottom plate through a fastener; the angle adjusting block is arranged on one side of the angle adjusting motor, the angle adjusting block can be rotatably adjusted through the angle adjusting motor, the center of the angle adjusting block is hollowed to form an angle adjusting hole, and the linkage shaft penetrates through the angle adjusting hole and is arranged in the angle adjusting hole in a sliding mode.

Furthermore, the bottom surface of coating bottom plate is equipped with the spacing section of thick bamboo of pivot, the spacing section of thick bamboo of pivot with coating bottom plate vertical fixation, the length of back pivot is slightly longer than the length of the spacing section of thick bamboo of pivot, the spacing section of thick bamboo of pivot cup joint in the outside of back pivot realizes the back pivot with the spacing rotation of the spacing section of thick bamboo of pivot.

Furthermore, the longitudinal section of the curved arc-shaped structure of the rear pressing block is L-shaped, and the rear pressing blocks on the two sides are oppositely arranged.

Furthermore, the angle adjusting hole is of a waist-shaped hole structure, and the diameter of the angle adjusting hole is matched with that of the linkage shaft.

The utility model has the advantages that:

the utility model discloses surface rubber coating technology design to in sole has positioning fixture, and this fixture device conveys the defeated material back with the sole, and it is fixed to carry out the head end centre gripping through head end and the tail end to the sole to can carry on spacingly to the both sides of sole, realize stabilizing the coating technology after the centre gripping to the sole, anchor clamps are to the centre gripping speed piece of sole, and the stability of centre gripping is strong.

The device is suitable for the clamping process of soles with different sizes in the process of clamping the soles, the rotating angle of the rear pressing block can be adjusted by setting the rotating angle of the angle adjusting motor, the adjustment of the pressing force of the rear pressing block on the soles is realized, the clamping process of the clamp has stronger adaptability, the clamping flexibility is high, and the application range is wide.

Drawings

Fig. 1 is a schematic view of the overall appearance structure of the present invention.

Fig. 2 is a schematic structural diagram of the front positioning mechanism of the present invention.

Fig. 3 is a schematic structural view of a single rear press-fit mechanism of the present invention.

List of reference numerals:

coating the base plate 1;

a material conveying hole 1-1 and a rotating shaft limiting cylinder 1-2;

a support leg 2;

a roll side frame 3;

a delivery roller 4;

a side guard plate 5;

a front positioning mechanism 6;

the device comprises a longitudinal plate 6-1, a wing block 6-2, a transverse plate 6-3, a longitudinal sliding block 6-4, a longitudinal sliding rail 6-5, a positioning rod 6-6, a positioning motor 6-7, a threaded rod 6-8, a first fixing piece 6-9 and a motor clamping groove 6-10;

a rear press-fit mechanism 7;

the device comprises 7-1 parts of a rear pressing block, 7-2 parts of a rear rotating shaft, 7-3 parts of a linkage sheet, 7-4 parts of a linkage shaft, 7-5 parts of an angle adjusting motor, 7-6 parts of an angle adjusting block and 7-7 parts of angle adjusting holes.

Detailed Description

For making the technical scheme of the utility model clear more clearly and definitely, it is right to combine the drawing below the utility model discloses further describe, any is right the utility model discloses technical scheme's technical characteristic carries out the scheme that equivalent replacement and conventional reasoning reachs and all falls into the utility model discloses protection scope. The fixed connection, the fixed arrangement and the fixed structure mentioned in the embodiment are known technologies known to those skilled in the art, such as gluing, welding, screwing, bolt-nut connection, riveting and the like.

The novel bonding positioning fixture for manufacturing the biomass fiber shoe material can be seen by combining the attached drawings, and comprises a coating bottom plate 1, support legs 2, a roller side frame 3, a material conveying roller 4, a side guard plate 5, a front positioning mechanism 6 and a rear pressing mechanism 7;

the center of the coating bottom plate 1 is hollowed to form a material conveying hole 1-1; the support legs 2 are arranged at four corners of the bottom surface of the coating bottom plate 1, and each support leg 2 is vertically and fixedly arranged with the coating bottom plate 1; the roll side frames 3 are arranged at two sides of the material conveying hole 1-1, and the roll side frame 3 at each side is vertically fixed with the bottom surface of the coating bottom plate 1; the material conveying rollers 4 are arranged in the material conveying holes 1-1 in a transverse array, and two ends of each material conveying roller 4 are rotatably arranged with the roller side frames 3 through bearings; the side guard plates 5 are arranged on two sides of the material conveying hole 1-1, and the side guard plates 5 on each side are vertically fixed with the coating bottom plate 1; the front positioning mechanism 6 is arranged at the bottom end of one side of the material conveying hole 1-1, the front positioning mechanism 6 is longitudinally arranged in the material conveying hole 1-1 in a lifting manner, and two ends of the front positioning mechanism 6 are fixedly arranged with the bottom surface of the coating bottom plate 1; the number of the rear pressing mechanisms 7 is two, the rear pressing mechanisms 7 are symmetrically arranged on two sides of the material conveying hole 1-1, and each rear pressing mechanism 7 is arranged on the bottom side of the coating bottom plate 1.

Furthermore, the top end of each material conveying roller 4 is slightly higher than the top surface of the coating bottom plate 1, and the length of each material conveying roller 4 is slightly larger than the width of the sole.

Further, the front positioning mechanism 6 comprises a longitudinal plate 6-1, a wing block 6-2, a transverse plate 6-3, a longitudinal sliding block 6-4, a longitudinal sliding rail 6-5, a positioning rod 6-6, a positioning motor 6-7, a threaded rod 6-8 and a first fixing piece 6-9; the longitudinal plate 6-1 is arranged at the center of the material conveying hole 1-1; the wing blocks 6-2 are arranged in the centers of the two sides of the longitudinal plate 6-1, and the wing blocks 6-2 on the two sides and the longitudinal plate 6-1 are fixedly arranged to form an integrated structure; the transverse plate 6-3 is arranged at the bottom end of the longitudinal plate 6-1, the longitudinal plate 6-1 is vertically fixed with the transverse plate 6-3, and the bottom end of the longitudinal plate 6-1 is hollowed out to form a motor clamping groove 6-10; the longitudinal sliding block 6-4 is arranged on one side of the longitudinal plate 6-1, the longitudinal sliding rail 6-5 is arranged between the longitudinal sliding block 6-4 and the longitudinal plate 6-1, and the longitudinal sliding block 6-4 can longitudinally slide through the longitudinal sliding rail 6-5 and the longitudinal plate 6-1; the positioning rods 6-6 are arranged on two sides of the top surface of the longitudinal sliding block 6-4 and are vertically and fixedly arranged; the positioning motor 6-7 is arranged at the center of the transverse plate 6-3 and is fixed with the transverse plate 6-3 through a fastener, and one side of the positioning motor 6-7 extends into the motor clamping groove 6-10; one end of the threaded rod 6-8 and the positioning motor 6-7 rotate coaxially, and one end of the threaded rod 6-8 penetrates through the center of the longitudinal sliding block 6-4 and is in threaded connection with the longitudinal sliding block 6-4; the first fixing pieces 6-9 are arranged on one side of the wing blocks 6-2 on two sides, one side wall of each first fixing piece 6-9 is fixed with the wing block 6-2 through a fastening piece, and the top ends of the first fixing pieces 6-9 are fixed with the coating bottom plate 1 through fastening pieces.

Furthermore, the number of the positioning rods 6-6 is two, and the positioning rods are symmetrically arranged on two sides of the longitudinal sliding block 6-4; each positioning rod 6-6 is of a cylindrical structure, and each positioning rod 6-6 extends out of the top surface of the material conveying hole 1-1.

Further, the number of the first fixing pieces 6-9 is two, and the cross section of each first fixing piece 6-9 is in an L shape.

Furthermore, the rear pressing mechanism 7 on each side comprises a rear pressing block 7-1, a rear rotating shaft 7-2, a linkage sheet 7-3, a linkage shaft 7-4, an angle adjusting motor 7-5 and an angle adjusting block 7-6; the rear pressing block 7-1 at each side is arranged at two sides of the material conveying hole 1-1 and between the two material conveying rollers 4, and the rear pressing block 7-1 at each side is attached to the top surface of the coating bottom plate 1; the rear rotating shaft 7-2 is arranged at the bottom side of one end of the rear pressing block 7-1 and is vertically fixed with the rear pressing block 7-1, and the rear rotating shaft 7-2 penetrates through the coating bottom plate 1 and is rotatably arranged with the coating bottom plate 1; the linkage piece 7-3 is arranged at the bottom end of the rear rotating shaft 7-2, and the bottom end of the rear rotating shaft 7-2 is vertically fixed with one end of the linkage piece 7-3; the linkage shaft 7-4 is arranged on the top surface of one end of the linkage sheet 7-3; the angle modulation motor 7-5 is arranged on the bottom surface of the coating bottom plate 1 and is fixedly attached to the coating bottom plate 1 through a fastener; the angle adjusting block 7-6 is arranged on one side of the angle adjusting motor 7-5, the angle adjusting block can be rotatably adjusted through the angle adjusting motor 7-5, the center of the angle adjusting block 7-6 is hollowed to form an angle adjusting hole 7-7, and the linkage shaft 7-4 penetrates through the angle adjusting hole 7-7 and is slidably arranged in the angle adjusting hole 7-7.

Further, the bottom surface of the coating bottom plate 1 is provided with a rotating shaft limiting cylinder 1-2, the rotating shaft limiting cylinder 1-2 is vertically fixed with the coating bottom plate 1, the length of the rear rotating shaft 7-2 is slightly longer than that of the rotating shaft limiting cylinder 1-2, and the rotating shaft limiting cylinder 1-2 is sleeved on the outer side of the rear rotating shaft 7-2, so that the rear rotating shaft 7-2 and the rotating shaft limiting cylinder 1-2 rotate in a limiting mode.

Furthermore, the rear pressing block 7-1 is of an arc-shaped structure, the longitudinal section of the rear pressing block 7-1 is L-shaped, and the rear pressing blocks 7-1 on the two sides are oppositely arranged.

Furthermore, the angle adjusting holes 7-7 are of a kidney-shaped hole structure, and the diameter of the angle adjusting holes 7-7 is matched with that of the linkage shafts 7-4.

The structure principle of the utility model is that:

when the utility model is used, the shoe sole is placed on the material conveying roller and transversely conveyed between the side guard plates at the two sides, then the positioning motor is started to drive the threaded rod to rotate, the threaded rod drives the longitudinal slide block to longitudinally lift along the longitudinal plate, and the positioning rod extends out of the top end of the coating bottom plate; then starting the rear pressing mechanisms on the two sides, driving the angle adjusting blocks to rotate by the angle adjusting motor, enabling the linkage shaft to slide in the adjusting holes, enabling the linkage sheet to rotate by taking the rear rotating shaft as a circle center, driving the rear pressing blocks to rotate relatively by the rear rotating shaft, enabling the rear pressing blocks on the two sides to abut against one end of the sole, fixing and limiting the other end of the sole through two positioning rods, and clamping and fixing the sole on the surface of the material conveying roller; after the surface gluing process of the sole is finished, the front positioning mechanism and the rear pressing mechanism reset, and the sole is clamped in a loosening manner.

The utility model has the advantages that:

the utility model discloses surface rubber coating technology design to in sole has positioning fixture, and this fixture device conveys the defeated material back with the sole, and it is fixed to carry out the head end centre gripping through head end and the tail end to the sole to can carry on spacingly to the both sides of sole, realize stabilizing the coating technology after the centre gripping to the sole, anchor clamps are to the centre gripping speed piece of sole, and the stability of centre gripping is strong.

The device is suitable for the clamping process of soles with different sizes in the process of clamping the soles, the rotating angle of the rear pressing block can be adjusted by setting the rotating angle of the angle adjusting motor, the adjustment of the pressing force of the rear pressing block on the soles is realized, the clamping process of the clamp has stronger adaptability, the clamping flexibility is high, and the application range is wide.

Claims (9)

1. A novel bonding positioning clamp for manufacturing biomass fiber shoe materials is characterized by comprising a coating bottom plate (1), support legs (2), a roller side frame (3), a material conveying roller (4), a side guard plate (5), a front positioning mechanism (6) and a rear pressing mechanism (7);

the center of the coating bottom plate (1) is hollowed to form a material conveying hole (1-1); the support legs (2) are arranged at four corners of the bottom surface of the coating bottom plate (1), and each support leg (2) is vertically and fixedly arranged with the coating bottom plate (1); the roll side frames (3) are arranged at two sides of the material conveying hole (1-1), and the roll side frame (3) at each side is vertically fixed with the bottom surface of the coating bottom plate (1); the material conveying rollers (4) are arranged in the material conveying holes (1-1) in a transverse array, and two ends of each material conveying roller (4) are rotatably arranged with the roller side frames (3) through bearings; the side guard plates (5) are arranged on two sides of the material conveying hole (1-1), and the side guard plates (5) on each side are vertically fixed with the coating bottom plate (1); the front positioning mechanism (6) is arranged at the bottom end of one side of the material conveying hole (1-1), the front positioning mechanism (6) is longitudinally arranged in the material conveying hole (1-1) in a lifting manner, and two ends of the front positioning mechanism (6) are fixedly arranged with the bottom surface of the coating bottom plate (1); the number of the rear pressing mechanisms (7) is two, the rear pressing mechanisms are symmetrically arranged on two sides of the material conveying hole (1-1), and each rear pressing mechanism (7) is arranged on the bottom side of the coating bottom plate (1).

2. The novel biomass fiber shoe material manufacturing bonding positioning fixture as claimed in claim 1, wherein the top end of each material delivery roller (4) is slightly higher than the top surface of the coating base plate (1), and the length of each material delivery roller (4) is slightly larger than the width of the sole.

3. The novel bonding positioning fixture for manufacturing the biomass fiber shoe material as claimed in claim 1, wherein the front positioning mechanism (6) comprises a longitudinal plate (6-1), a wing block (6-2), a transverse plate (6-3), a longitudinal sliding block (6-4), a longitudinal sliding rail (6-5), a positioning rod (6-6), a positioning motor (6-7), a threaded rod (6-8) and a first fixing piece (6-9); the longitudinal plate (6-1) is arranged at the center of the material conveying hole (1-1); the wing blocks (6-2) are arranged in the centers of the two sides of the longitudinal plate (6-1), and the wing blocks (6-2) on the two sides and the longitudinal plate (6-1) are fixedly arranged to form an integrated structure; the transverse plate (6-3) is arranged at the bottom end of the longitudinal plate (6-1), the longitudinal plate (6-1) is vertically fixed with the transverse plate (6-3), and the bottom end of the longitudinal plate (6-1) is hollowed out to form a motor clamping groove (6-10); the longitudinal sliding block (6-4) is arranged on one side of the longitudinal plate (6-1), the longitudinal sliding rail (6-5) is arranged between the longitudinal sliding block (6-4) and the longitudinal plate (6-1), and the longitudinal sliding block (6-4) can longitudinally slide through the longitudinal sliding rail (6-5) and the longitudinal plate (6-1); the positioning rods (6-6) are arranged on two sides of the top surface of the longitudinal sliding block (6-4) and are vertically and fixedly arranged; the positioning motor (6-7) is arranged in the center of the transverse plate (6-3) and fixed with the transverse plate (6-3) through a fastener, and one side of the positioning motor (6-7) extends into the motor clamping groove (6-10); one end of the threaded rod (6-8) coaxially rotates with the positioning motor (6-7), and one end of the threaded rod (6-8) penetrates through the center of the longitudinal sliding block (6-4) and is in threaded connection with the longitudinal sliding block (6-4); the first fixing pieces (6-9) are arranged on one sides of the wing blocks (6-2) on two sides, one side wall of each first fixing piece (6-9) is fixed with the wing block (6-2) through a fastening piece, and the top ends of the first fixing pieces (6-9) are fixed with the coating bottom plate (1) through fastening pieces.

4. The novel bonding positioning fixture for manufacturing the biomass fiber shoe material as claimed in claim 3, wherein the number of the positioning rods (6-6) is two, and the positioning rods are symmetrically arranged on two sides of the longitudinal sliding block (6-4); each side of the positioning rod (6-6) is of a cylindrical structure, and each positioning rod (6-6) extends out of the top surface of the material conveying hole (1-1).

5. The novel biomass fiber shoe material manufacturing bonding positioning fixture as claimed in claim 3, wherein the number of the first fixing pieces (6-9) is two, and each first fixing piece (6-9) is L-shaped in cross section.

6. The novel bonding and positioning fixture for manufacturing the biomass fiber shoe material as claimed in claim 1, wherein each side of the rear pressing mechanism (7) comprises a rear pressing block (7-1), a rear rotating shaft (7-2), a linkage plate (7-3), a linkage shaft (7-4), an angle adjusting motor (7-5) and an angle adjusting block (7-6); the rear pressing block (7-1) at each side is arranged at two sides of the material conveying hole (1-1) and between the two material conveying rollers (4), and the rear pressing block (7-1) at each side is attached to the top surface of the coating bottom plate (1); the rear rotating shaft (7-2) is arranged at the bottom side of one end of the rear pressing block (7-1) and is vertically fixed with the rear pressing block (7-1), and the rear rotating shaft (7-2) penetrates through the coating bottom plate (1) and is rotatably arranged with the coating bottom plate (1); the linkage piece (7-3) is arranged at the bottom end of the rear rotating shaft (7-2), and the bottom end of the rear rotating shaft (7-2) is vertically fixed with one end of the linkage piece (7-3); the linkage shaft (7-4) is arranged on the top surface of one end of the linkage sheet (7-3); the angle adjusting motor (7-5) is arranged on the bottom surface of the coating bottom plate (1) and is fixedly attached to the coating bottom plate (1) through a fastening piece; the angle adjusting block (7-6) is arranged on one side of the angle adjusting motor (7-5), the angle adjusting block can be rotatably adjusted through the angle adjusting motor (7-5), the center of the angle adjusting block (7-6) is hollowed to form an angle adjusting hole (7-7), and the linkage shaft (7-4) penetrates through the angle adjusting hole (7-7) and is arranged in the angle adjusting hole (7-7) in a sliding mode.

7. The novel bonding and positioning fixture for manufacturing the biomass fiber shoe material as claimed in claim 6, wherein a rotating shaft limiting cylinder (1-2) is arranged on the bottom surface of the coating bottom plate (1), the rotating shaft limiting cylinder (1-2) is vertically fixed with the coating bottom plate (1), the length of the rear rotating shaft (7-2) is slightly longer than that of the rotating shaft limiting cylinder (1-2), and the rotating shaft limiting cylinder (1-2) is sleeved on the outer side of the rear rotating shaft (7-2) to realize the limiting rotation of the rear rotating shaft (7-2) and the rotating shaft limiting cylinder (1-2).

8. The novel bonding and positioning fixture for biomass fiber shoe material manufacturing according to claim 6, characterized in that the back pressing block (7-1) has an arc-shaped structure, the longitudinal section of the back pressing block (7-1) is L-shaped, and the back pressing blocks (7-1) on two sides are oppositely arranged.

9. The novel biomass fiber shoe material manufacturing bonding positioning fixture as claimed in claim 6, wherein the angle adjusting holes (7-7) are of a kidney-shaped hole structure, and the diameter of the angle adjusting holes (7-7) is adapted to the diameter of the linkage shaft (7-4).

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