CN112167775A - Leather shoe fabric cutting equipment for leather shoe production and processing and use method thereof - Google Patents

Abstract

The application relates to leather shoe fabric cutting equipment for leather shoe production and processing and a using method thereof, and the leather shoe fabric cutting equipment comprises a base, a rack arranged on the upper end surface of the base and a cutting pressing plate connected in the rack in a sliding manner, wherein the rack is provided with a first driving piece for driving the cutting pressing plate to move up and down, and the lower end surface of the cutting pressing plate, the upper end surface of the base and the inner side wall of the rack form a through hole for fabric to pass through; one side of the base is rotatably connected with a driving roller and a driven roller which are positioned at the end part of the through opening and used for clamping the fabric, and the driving roller and the driven roller are parallel to the extending direction of the lower edge of the end part of the through opening; the driving roller is positioned below the driven roller, the fabric abuts against the outer side wall of the driven roller and penetrates through a gap between the driving roller and the driven roller in the direction of the base, and a gap is formed between the driving roller and the side wall of the base; and a second driving piece for driving the driving roller to rotate is arranged on one side of the base. This application has the effect that improves the letter sorting efficiency of surface fabric and waste material.

Description

Leather shoe fabric cutting equipment for leather shoe production and processing and use method thereof

Technical Field

The application relates to the field of leather shoe processing, in particular to leather shoe fabric cutting equipment for leather shoe production and processing and a using method thereof.

Background

The leather shoes are made of natural leather as vamp, leather or rubber, plastic, PU foaming and PVC as sole, and through sewing, adhering, injection molding and other steps.

Leather shoe fabrics need to be used in the production process of the leather shoes, the leather shoe fabrics need to be cut into specific shapes suitable for the leather shoes according to the styles and sizes of the leather shoes through leather shoe fabric cutting equipment, and common leather shoe fabric cutting equipment comprises a cutting machine. The cutting machine is with the help of the effort pressurization of machine motion in shaping cutting die, the machine of cutting process is carried out to the material, the cutting machine includes the base, the frame of fixed base up end and slide in the frame and be located the clamp plate of deciding of base top, install in the frame and order about the pneumatic cylinder of deciding the clamp plate and reciprocate, when cutting the surface fabric, with surface fabric tiling base up end, and place shaping cutting die in the surface fabric top, start the cutting machine after that, make the pneumatic cylinder order about decide the clamp plate and exert pressure in shaping cutting die downwards, shaping cutting die is tailor to the surface fabric, thereby accomplish the preparation work of leather shoes surface fabric.

With respect to the related art in the above, the inventors consider that: after the fabric cutting work is finished, workers are required to take out the cut fabrics one by one from the waste materials, so that the sorting efficiency is low, and therefore, the improvement space is still provided.

Disclosure of Invention

In order to improve the sorting efficiency, the application provides leather shoe fabric cutting equipment for leather shoe production and processing and a using method thereof.

The application provides a leather shoe fabric cutting device for leather shoe production and processing and a use method thereof adopt the following technical scheme:

a leather shoe fabric cutting device for leather shoe production and processing comprises a base, a rack arranged on the upper end surface of the base and a cutting press plate connected in the rack in a sliding manner, wherein the rack is provided with a first driving piece for driving the cutting press plate to move up and down, and a through hole for fabric to pass through is formed on the lower end surface of the cutting press plate, the upper end surface of the base and the inner side wall of the rack; one side of the base is rotatably connected with a driving roller and a driven roller which are positioned at the end part of the through opening and used for clamping the fabric, and the driving roller and the driven roller are parallel to the extending direction of the lower edge of the end part of the through opening; the driving roller is positioned below the driven roller, the fabric abuts against the outer side wall of the driven roller and penetrates through a gap between the driving roller and the driven roller in the direction of the base, and a gap is formed between the driving roller and the side wall of the base; and a second driving piece for driving the driving roller to rotate is arranged on one side of the base.

Through adopting above-mentioned technical scheme, cutting the clamp plate, the opening tip department that base up end and frame inboard side wall formed rotates and connects drive roll and driven voller, and driven voller and drive roll distribute from top to bottom, thereby can cut out the completion back at the surface fabric, stretch out the one end of surface fabric from the opening tip, and follow one side that the driven voller deviates from the base and pass the gap between driven voller and the driven voller toward the base direction, because surface fabric and the laminating of driven voller outer peripheral face, make the surface fabric form the radian, under the drive of second driving piece, the drive roll rotates, and take out the surface fabric from the base up end, and the waste material takes place the bending outside the driven voller, because the surface fabric that cuts does not follow the waste material and bend together, thereby make surface fabric and waste material take place the separation.

Preferably, the driven roller is hollow, a plurality of through holes communicated with the inside of the driven roller are formed in the peripheral surface of the driven roller, an air blower is arranged on one side of the base, the output end of the air blower is communicated with a connecting pipe, and one end, far away from the air blower, of the connecting pipe is rotatably connected with one end of the driven roller and communicated with the same.

Through adopting above-mentioned technical scheme, because the surface fabric has elasticity, after tailorring again, the surface fabric still with the waste material laminating together, when the driven voller forces the waste material crooked, still partly laminating inseparabler surface fabric can follow the waste material and take place the bending together, and follow the waste material and discharge together under the drive of drive roll, through air-blower and driven voller inside intercommunication, and set up the through-hole at the driven voller outer peripheral face, thereby when making the air current of air-blower follow through-hole discharge, apply effort in one side of surface fabric in the driven voller laminating, be favorable to the separation of waste material and surface fabric.

Preferably, the driven roller and the upper end surface of the base are at the same height, and when the fabric abuts against the upper end of the driven roller and the upper end of the base at the same time, the fabric is in a horizontal state; the base one side is provided with first arc guide rail, first arc guide rail encircles in the driven roll axis, first sliding ring has all been cup jointed in the equal slip of first arc guide rail outer peripheral face, the first sliding ring outside is provided with first installation piece, the second driving piece specifically is for being fixed in the mobile motor of one side that first mounting panel deviates from the sliding ring, the mobile motor output shaft with drive roll one end coaxial coupling.

By adopting the technical scheme, when the fabric needs to be cut, the driving roller can be moved to the position above the driven roller under the guiding action of the first arc-shaped guide rail, and the upper end of the driven roller and the upper end surface of the base are at the same height, so that the fabric clamped between the driving roller and the driven roller can be conveyed to the upper end surface of the base under the driving of the moving motor, and the automatic feeding replaces the manual fabric laying operation, thereby improving the fabric cutting efficiency; meanwhile, when the fabric is cut, the end part of the fabric is still remained between the driving roller and the driven roller, so that the condition that the fabric deviates in the cutting process is reduced, and the defective rate is reduced; similarly, when sorting the waste materials and the fabrics, the driving roller can be moved to the lower part of the driven roller, and the end parts of the fabrics are clamped between the driving roller and the driven roller, so that the end parts of the fabrics are moved to the lower part of the driven roller in the moving process, the preparation is made for sorting the waste materials and the fabrics, and the sorting efficiency of the cutting equipment to the fabrics and the waste materials is improved.

Preferably, one side of the base is provided with a second arc-shaped guide rail, the first arc-shaped guide rail and the second arc-shaped guide rail are respectively arranged at two ends of the driven roller and are opposite to each other, the outer peripheral surface of the second arc-shaped guide rail is sleeved with a second sliding ring in a sliding mode, one side, facing the first sliding ring, of the second sliding ring is provided with a second installation block, and one end, far away from the first installation block, of the driving roller is rotatably connected with the second installation block.

Through adopting above-mentioned technical scheme, the setting of second arc guide and second sliding ring to combine the effect of first arc guide and first sliding ring, be favorable to improving the stability of drive roll when rotating around the driven roll axis, and be favorable to two arc guide to provide the holding power for the both ends of driven roll, be favorable to reducing the driven roll pressurized and the probability of buckling.

Preferably, a fixed motor is arranged on one side of the base, the axis of the output shaft of the movable motor is overlapped with the axis of the driven roller, the output shaft of the fixed motor is fixedly connected with a connecting rod, and one end, far away from the fixed motor, of the connecting rod is fixedly connected with the second sliding ring.

Through adopting above-mentioned technical scheme to accessible fixed motor orders about the connecting rod and rotates around the driven voller axis, and drives the second sliding ring and slide along second arc guide rail extending direction, and the second sliding ring drives the drive roll and removes, thereby has realized the automatic switch-over of drive roll in the driven voller upper and lower level, is favorable to alleviateing staff's work load.

Preferably, a pressing strip is arranged on the upper end face of the base, the pressing strip presses the fabric onto the upper end face of the base, and the pressing strip is arranged away from the driven roller.

By adopting the technical scheme, one end of the fabric is tightly pressed on the base through the pressing strip, so that the probability of fabric deviation when the fabric is cut by the cutting equipment is favorably reduced, and the probability of defective product output is favorably reduced.

Preferably, two guide rods penetrating through the pressing strips are fixed on the upper end face of the base.

By adopting the technical scheme, the guide rod plays a role in guiding and limiting the pressing strip, and the situation that the pressing strip moves along with the fabric is favorably avoided.

A use method of leather shoe fabric cutting equipment for leather shoe production and processing comprises the following specific steps:

a. clamping the fabric: starting a fixed motor, enabling an output shaft of the fixed motor to rotate positively and driving a connecting rod to rotate, driving a second slip ring to slide from the lower end of a second guide rail to the upper end of the second guide rail through the connecting rod, and clamping the fabric between a driving roller and a second driven roller;

b. conveying the fabric: starting a moving motor, enabling an output shaft of the moving motor to rotate positively and driving a driving roller to rotate, driving the fabric to move towards the direction of the through opening by the driving roller until the fabric moves to the layering position, and closing the moving motor;

c. fixing the fabric: the pressing strip slides upwards, one end of the fabric, which is far away from the driving roller, extends into a gap between the pressing strip and the upper end face of the base, and then the pressing strip slides downwards to press the fabric on the upper end face of the base;

d. cutting the fabric: placing a forming cutting die on the upper end surface of the fabric, starting a first driving piece, driving a cutting pressing plate to move downwards by the first driving piece, applying pressure to the forming cutting die, and pressing the forming cutting die and cutting the fabric;

e. separating the fabric: taking out the forming cutting die, driving the fixed motor, reversing an output shaft of the fixed motor and driving the connecting rod to rotate, driving the second sliding ring to slide from the upper end of the second guide rail to the lower end of the second guide rail by the connecting rod, moving the driving roller to the lower part of the driven roller, simultaneously moving the end part of the fabric clamped between the driving roller and the second driven roller from the upper part of the driven roller to the lower part of the driven roller, stopping the rotation of the fixed motor, simultaneously starting the moving motor and the air blower, reversing an output shaft of the moving motor and driving the driven roller to rotate, discharging the waste fabric under the driving of the driven roller, discharging the air flow input into the driven roller by the air blower from the through hole, and separating the cut.

Through adopting above-mentioned technical scheme, when carrying the material, swing the drive roll to driven voller top through fixed motor to order about the drive roll through the mobile motor and rotate, thereby realize automatic pay-off, at the in-process of unloading, order about the drive roll through fixed motor equally and remove to driven voller below, and order about the driven voller through the mobile motor and rotate, and then accomplish waste material and surface fabric separation work and the work of unloading of waste material, thereby wholly improved the efficiency of tailorring and the efficiency of unloading of this equipment of tailorring.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the driving roller and the driven roller are rotatably connected to one side of the base, and the driving roller is arranged below the driven roller, so that the fabric extends out of the end part of the through hole and penetrates through a gap between the driving roller and the driven roller towards the base, the waste materials are forced to bend at the driven roller while the fabric is pulled by the driving roller to be unloaded, and the sorting efficiency of the fabric and the waste materials is improved;

2. the air blower is communicated with the interior of the driven roller through the connecting pipe, and the through hole is formed in the outer side wall of the driven roller, so that the air flow conveyed to the driven roller by the air blower is discharged from the through hole, and the waste material and the fabric are separated.

Drawings

Fig. 1 is a schematic structural diagram of a fabric feeding process according to an embodiment of the present application.

Fig. 2 is an enlarged schematic view at a in fig. 1.

Fig. 3 is a schematic structural diagram of waste material discharge in the embodiment of the application.

Fig. 4 is an enlarged schematic view at B in fig. 3.

Description of reference numerals: 1. a base; 11. layering; 12. a guide bar; 13. a first arcuate guide rail; 131. a first slip ring; 132. a first limiting outer edge; 133. a first mounting block; 14. a second arcuate guide rail; 141. a second slip ring; 142. a second limiting outer edge; 143. a second mounting block; 15. a fixed seat; 16. a fixing plate; 17. a waste collection tank; 18. a fabric collecting box; 2. a frame; 21. a side frame; 22. a cross frame; 221. a first driving member; 3. cutting the pressing plate; 4. fixing a motor; 5. fabric; 6. a driven roller; 61. a through hole; 7. a drive roll; 8. a moving motor; 9. a blower; 91. a connecting pipe; 10. and (6) a port.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses leather shoe fabric cutting equipment for leather shoe production and processing and a using method thereof. Referring to fig. 1, a leather shoe fabric cutting device for leather shoe production and processing comprises a base 1 for placing fabric 5, a frame 2 fixedly installed on the upper end surface of the base 1, and a cutting press plate 3 connected to the frame 2 in a sliding manner. The base 1 is rectangular, and the frame 2 includes two side frames 21 respectively disposed at two ends of the base 1 in a length direction and a cross frame 22 horizontally fixed between the two side frames 21. Two ends of the cutting press plate 3 are respectively connected to the inner sides of the two side frames 21 in a sliding manner, the cross frame 22 is provided with a first driving piece 221 for driving the cutting press plate 3 to move up and down, and the first driving piece 221 can be a power element with a telescopic function such as a hydraulic cylinder, an air cylinder and the like. The lower end surface of the cutting pressing plate 3, the upper end surface of the base 1 and the inner side walls of the two side frames 21 form a through hole 10 for the fabric 5 to pass through. The cutting pressing plate 3 is driven by the first driving piece 221 to move downwards and press the forming cutting die, so that the purpose of cutting the fabric 5 is achieved.

Referring to fig. 1 and 2, one side of the base 1 located at the end of the through hole 10 is the front side of the base 1, two fixing seats 15 respectively arranged at two ends of the base 1 in the length direction are fixed on the front side of the base 1, and the two fixing seats 15 are opposite to each other and close to the upper end face of the base 1. A driven roller 6 parallel to the length direction of the base 1 is rotatably connected between the two bases 1, and two ends of the driven roller 6 penetrate through the adjacent fixed seats 15 respectively. The upper end of the driven roller 6 is at the same height as the upper end surface of the base 1, and when the fabric 5 abuts against the upper end of the driven roller 6 and the upper end of the base 1 at the same time, the fabric 5 is in a horizontal state.

Referring to fig. 1 and 2, a first arc-shaped guide rail 13 is fixed to the front surface of the base 1, and the first arc-shaped guide rail 13 surrounds the axis of the driven roller 6. First arc guide rail 13 is located the one end of driven voller 6, and first sliding ring 131 has been cup jointed in the slip of first arc guide rail 13 outer peripheral face, and first arc guide rail 13 tail end is fixed with first spacing outer edge 132, and first spacing outer edge 132 is widened toward first arc guide rail 13 week side, is favorable to preventing that first sliding ring 131 breaks away from first arc guide rail 13. A first mounting block 133 is fixed on the outer side of the first slip ring 131, a second driving piece is fixed on one side, away from the first slip ring 131, of the first mounting block 133, the second driving piece is specifically a moving motor 8, an output shaft of the moving motor 8 is coaxially connected with a driving roller 7, the driving roller 7 is parallel to a driven roller 6, a gap for the fabric 5 to pass through is formed between the driving roller 7 and the driven roller 6, and the driving roller 7 and the driven roller 6 are used for clamping the end portion of the fabric 5. In the cutting step, the first slip ring 131 can be moved to the upper end of the first arc-shaped guide rail 13, the driving roller 7 is driven to rotate by the moving motor 8, the driving roller 7 and the driven roller 6 convey the fabric 5 to the upper end face of the base 1, so that the step of manually laying the fabric 5 is replaced, and the working strength of workers is favorably reduced.

Referring to fig. 1, a pressing strip 11 for pressing the fabric 5 is placed on the upper end face of a base 1, the length direction of the pressing strip 11 is consistent with that of the base 1, two guide rods 12 respectively arranged at two ends of the base 1 in the length direction are fixed on the upper end face of the base 1, the two guide rods 12 are close to the back face of the base 1, and the two guide rods 12 respectively vertically penetrate through two ends of the pressing strip 11. In the cutting process, the tiled fabric 5 can be tightly pressed on the upper end face of the base 1 by the pressing strip 11, so that the condition that the fabric 5 deviates when the fabric 5 is cut by the cutting equipment is reduced, and the probability of defective product output is further reduced.

Referring to fig. 3 and 4, a second arc-shaped guide rail 14 is fixed to the front surface of the base 1. The first arc-shaped guide rail 13 and the second arc-shaped guide rail 14 are respectively arranged at two ends of the driven roller 6 and are opposite to each other, and the second arc-shaped guide rail 14 surrounds the axis of the driven roller 6. The second sliding ring 141 is sleeved on the outer peripheral surface of the second arc-shaped guide rail 14 in a sliding mode, the second limiting outer edge 142 is fixed at the tail end of the second arc-shaped guide rail 14, the second limiting outer edge 142 is widened towards the peripheral side of the second arc-shaped guide rail 14, and the second sliding ring 141 is prevented from being separated from the second arc-shaped guide rail 14. A second mounting block 143 is fixed on one side of the second slip ring 141 facing the first arc-shaped guide rail 13, and one end of the driving roller 7 far away from the first arc-shaped guide rail 13 is rotatably connected with the second mounting block 143. The arrangement of the first arc-shaped guide rail 13 and the second arc-shaped guide rail 14 respectively provides supporting force for two ends of the driven roller 6, and the probability that the driven roller 6 is pressed and bent is favorably reduced.

Referring to fig. 3 and 4, the front of base 1 is fixed with fixed plate 16, fixed plate 16 is located the one side that second arc guide rail 14 deviates from first arc guide rail 13, one side that fixed plate 16 deviates from second arc guide rail 14 is fixed with fixed motor 4, fixed motor 4 output shaft and driven voller 6 axis coincidence run through fixed plate 16 and set up, fixed motor 4 output shaft fixedly connected with connecting rod, the connecting rod is perpendicular with fixed motor 4's output shaft axis, the one end and the second sliding ring 141 fixed connection of fixed motor 4 are kept away from to the connecting rod. In the step of waste material and surface fabric 5 separation, order about the connecting rod through fixed motor 4 and rotate around driven voller 6 axis to drive second sliding ring 141 and slide to first curved guide 13 below along second curved guide 14 extending direction, make the surface fabric 5 of centre gripping between drive roll 7 and driven voller 6 form the radian, under the drive of mobile motor 8, drive roll 7 rotates, and take surface fabric 5 out from base 1 up end, surface fabric 5 begins the autosegregation with waste material driven voller 6 department simultaneously, thereby be favorable to improving this equipment of tailorring and to waste material and surface fabric 5 letter sorting efficiency.

Referring to fig. 1 and 2, driven voller 6 is inside hollow, driven voller 6 outer peripheral face offer with the inside intercommunication of a plurality of driven voller 6 and evenly distributed's through-hole 61, air-blower 9 has been placed to base 1 one side, air-blower 9 output intercommunication has connecting pipe 91, the one end that air-blower 9 was kept away from to connecting pipe 91 passes through the bearing with driven voller 6 one end and realizes rotating the connection, and connecting pipe 91 and the inside intercommunication of driven voller 6. In the discharging step, air flow is conveyed to the interior of the driven roller 6 through the air blower 9 and is discharged from the through hole 61, so that acting force is applied to the fabric 5, and the waste materials and the fabric 5 are separated.

Referring to fig. 1, a scrap collecting box 17 is installed on the front surface of a base 1, the scrap collecting box 17 is opened upwards, when a driving roller 7 moves to a position below a driven roller 6, a gap exists between the driving roller 7 and the front surface of the base 1, a space is provided for discharging waste materials, and the scrap collecting box 17 is used for collecting the waste materials.

Referring to fig. 1, a fabric collecting box 18 is fixed on one side of the waste collecting box, which is far away from the base 1, and the fabric collecting box 18 is opened upwards and used for collecting cut fabrics 5.

A use method of leather shoe fabric cutting equipment for leather shoe production and processing comprises the following specific steps:

a. clamping the fabric: starting the fixed motor 4, enabling an output shaft of the fixed motor 4 to rotate positively and driving the connecting rod to rotate, driving the second slip ring 141 to slide from the lower end of the second guide rail to the upper end of the second guide rail through the connecting rod, and clamping the fabric 5 between the driving roller 7 and the second driven roller 6;

b. conveying the fabric: starting the movable motor 8, enabling an output shaft of the movable motor 8 to rotate positively and driving the driving roller 7 to rotate, enabling the driving roller 7 to drive the fabric 5 to move towards the through hole 10 until the fabric 5 moves to the position of the pressing strip 11, and closing the movable motor 8;

c. fixing the fabric: the pressing strip 11 slides upwards, one end, far away from the driving roller 7, of the fabric 5 extends into a gap between the pressing strip 11 and the upper end face of the base 1, and then the pressing strip 11 slides downwards to press the fabric 5 on the upper end face of the base 1;

d. cutting the fabric: placing a forming cutting die on the upper end surface of the fabric 5, starting a first driving piece 221, driving the cutting pressing plate 3 to move downwards by the first driving piece 221, and applying pressure to the forming cutting die, wherein the forming cutting die is pressed and cuts the fabric 5;

e. separating the fabric: taking out the forming cutting die, driving the fixed motor 4, reversely rotating an output shaft of the fixed motor 4 and driving a connecting rod to rotate, driving a second sliding ring 141 to slide from the upper end of the second guide rail to the lower end of the second guide rail by the connecting rod, moving the driving roller 7 to the lower part of the driven roller 6, simultaneously moving the end part of the fabric 5 clamped between the driving roller 7 and the second driven roller 6 from the upper part of the driven roller 6 to the lower part of the driven roller 6, stopping the rotation of the fixed motor 4, simultaneously starting the moving motor 8 and the air blower 9, reversely rotating an output shaft of the moving motor 8 and driving the driven roller 6 to rotate, discharging the waste fabric 5 under the driving of the driven roller 6, discharging the air flow input into the driven roller 6 by the air blower 9 from the through hole 61, and separating the.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an equipment is tailor to leather shoes surface fabric of leather shoes production and processing usefulness, includes base (1), sets up frame (2) and sliding connection in frame (2) of base (1) up end decide clamp plate (3), frame (2) are provided with and order about decide first driving piece (221) that clamp plate (3) reciprocated, its characterized in that: the lower end face of the cutting press plate (3), the upper end face of the base (1) and the inner side wall of the rack (2) form a through hole (10) for the fabric (5) to pass through; one side of the base (1) is rotatably connected with a driving roller (7) and a driven roller (6) which are positioned at the end part of the through hole (10) and used for clamping the fabric (5), and the driving roller (7) and the driven roller (6) are parallel to the extending direction of the lower edge of the end part of the through hole (10); the driving roller (7) is positioned below the driven roller (6), the fabric (5) abuts against the outer side wall of the driven roller (6) and penetrates through a gap between the driving roller (7) and the driven roller (6) towards the base (1), and a gap exists between the driving roller (7) and the side wall of the base (1); and a second driving piece for driving the driving roller (7) to rotate is arranged on one side of the base (1).

2. The leather shoe fabric cutting device for leather shoe production and processing according to claim 1, characterized in that: the driven roller (6) is hollow inside, a plurality of through holes (61) communicated with the driven roller (6) are formed in the outer peripheral surface of the driven roller (6), an air blower (9) is arranged on one side of the base (1), the output end of the air blower (9) is communicated with a connecting pipe (91), and one end, away from the air blower (9), of the connecting pipe (91) is rotatably connected with one end of the driven roller (6) and communicated with one another.

3. The leather shoe fabric cutting device for leather shoe production and processing according to claim 1, characterized in that: the driven roller (6) and the upper end surface of the base (1) are at the same height, and when the fabric (5) abuts against the upper end of the driven roller (6) and the upper end of the base (1) at the same time, the fabric (5) is in a horizontal state; base (1) one side is provided with first arc guide rail (13), first arc guide rail (13) encircle in driven voller (6) axis, first sliding ring (131) have been cup jointed in the slip of first arc guide rail (13) outer peripheral face, the first sliding ring (131) outside is provided with first installation piece (133), the second driving piece specifically is for being fixed in moving motor (8) that first mounting panel deviates from one side of sliding ring, moving motor (8) output shaft with drive roll (7) one end coaxial coupling.

4. The leather shoe fabric cutting device for leather shoe production and processing according to claim 3, characterized in that: the novel driving roller is characterized in that a second arc-shaped guide rail (14) is arranged on one side of the base (1), the first arc-shaped guide rail (13) and the second arc-shaped guide rail (14) are respectively arranged at two ends of the driven roller (6) and are opposite to each other, a second sliding ring (141) is sleeved on the outer peripheral surface of the second arc-shaped guide rail (14) in a sliding mode, a second mounting block (143) is arranged on one side, facing the first sliding ring (131), of the second sliding ring (141), and one end, far away from the first mounting block (133), of the driving roller (7) is rotatably connected with the second mounting block (143).

5. The leather shoe fabric cutting device for leather shoe production and processing according to claim 4, characterized in that: the automatic feeding device is characterized in that a fixed motor (4) is arranged on one side of the base (1), the axis of an output shaft of the movable motor (8) is overlapped with the axis of the driven roller (6), a connecting rod is fixedly connected to the output shaft of the fixed motor (4), and one end, far away from the fixed motor (4), of the connecting rod is fixedly connected with the second sliding ring (141).

6. The leather shoe fabric cutting device for leather shoe production and processing according to claim 1, characterized in that: the fabric pressing device is characterized in that a pressing strip (11) is arranged on the upper end face of the base (1), the fabric (5) is pressed on the upper end face of the base (1) through the pressing strip (11), and the pressing strip (11) is far away from the driven roller (6).

7. The leather shoe fabric cutting device for leather shoe production and processing according to claim 6, characterized in that: two guide rods (12) penetrating through the pressing strips (11) are fixed on the upper end face of the base (1).

8. A method of using the apparatus for cutting leather shoe material for manufacturing and processing leather shoes according to any one of claims 1 to 7, characterized in that: the method comprises the following specific steps:

a. clamping the fabric: starting the fixed motor (4), enabling an output shaft of the fixed motor (4) to rotate positively and driving the connecting rod to rotate, driving the second slip ring (141) to slide to the upper end of the second guide rail from the lower end of the second guide rail through the connecting rod, and clamping the fabric (5) between the driving roller (7) and the second driven roller (6);

b. conveying the fabric: starting a movable motor (8), enabling an output shaft of the movable motor (8) to rotate positively and driving a driving roller (7) to rotate, driving the fabric (5) to move towards a through hole (10) by the driving roller (7) until the fabric (5) moves to a pressing strip (11), and closing the movable motor (8);

c. fixing the fabric: the pressing strip (11) slides upwards, one end, far away from the driving roller (7), of the fabric (5) extends into a gap between the pressing strip (11) and the upper end face of the base (1), then the pressing strip (11) slides downwards, and the fabric (5) is tightly pressed on the upper end face of the base (1);

d. cutting the fabric: placing a forming cutting die on the upper end surface of the fabric (5), starting a first driving piece (221), driving a cutting pressing plate (3) to move downwards by the first driving piece (221), pressing the cutting pressing plate on the forming cutting die, and pressing the forming cutting die to cut the fabric (5);

e. separating the fabric: taking out the forming cutting die, driving the fixed motor (4), reversely rotating an output shaft of the fixed motor (4) and driving the connecting rod to rotate, driving the second slip ring (141) to slide from the upper end of the second guide rail to the lower end of the second guide rail by the connecting rod, moving the driving roller (7) to the lower part of the driven roller (6), meanwhile, the end part of the fabric (5) clamped between the driving roller (7) and the second driven roller (6) moves from the upper part of the driven roller (6) to the lower part of the driven roller (6) and stops the rotation of the fixed motor (4), the cutting machine is characterized in that the moving motor (8) and the air blower (9) are started simultaneously, the output shaft of the moving motor (8) rotates reversely and drives the driven roller (6) to rotate, the waste fabrics (5) are discharged under the driving of the driven roller (6), the air flow input into the driven roller (6) by the air blower (9) is discharged from the through hole (61), and the cut fabrics (5) are separated from the waste fabrics (5) under the driving of the air flow.

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