CN111480944A

CN111480944A - Shoe cloth cutting equipment

Info

Publication number: CN111480944A
Application number: CN202010337956.6A
Authority: CN
Inventors: 林有城
Original assignee: Individual
Current assignee: Wenling Chengqi Shoes Co.,Ltd.
Priority date: 2020-04-26
Filing date: 2020-04-26
Publication date: 2020-08-04
Anticipated expiration: 2040-04-26
Also published as: CN111480944B

Abstract

The invention relates to cutting equipment, in particular to shoe cloth cutting equipment. The technical problem is how to design a shoe cloth cutting device which can replace manual work to move a die, is convenient to operate, has the advantages of difficult injury to hands and high working efficiency. A shoe cloth cutting device comprises: the shoe comprises a base plate, wherein an objective table is arranged on one side of the base plate, and a push plate is slidably placed on one side of the base plate, which is far away from the base plate, and is used for placing shoe cloth; the frame is arranged at the edge of one side of the bottom plate. According to the shoe cloth cutting machine, the servo motor is started to rotate reversely, the pressing block can move downwards to push the vamp mold to move downwards to cut shoe cloth, the cut vamp mold is reset, the next vamp mold rotates forwards to the shoe cloth to cut the shoe cloth, the operation is simple and convenient, and the working efficiency is not affected by hurting the hand easily.

Description

Shoe cloth cutting equipment

Technical Field

The invention relates to cutting equipment, in particular to shoe cloth cutting equipment.

Background

Shoes have a long history of development. Approximately 5000 years ago in the yangshao culture period, the most primitive shoe made of hide appeared. Shoes are a tool for protecting feet of people from being injured. At first, in order to overcome special conditions and prevent feet from being difficult or injured, fur shoes are invented. The development of shoes has now made this look. Shoes with various styles and functions are seen everywhere, in the manufacturing process of the shoes, shoe cloth is rarely used, but the shoe cloth is produced in a large block, and the shoe cloth needs to be cut to the required size.

At present, the most all is the shape of deciding to the demand through the cooperation of machine and people with shoes cloth, then need use the mould, decide the in-process, people need once deciding, just need remove mould to shoes cloth next position, promote shoes cloth again and remove to the machine in, the machine promotes the mould and decides shoes cloth, so the operation is more troublesome, and when pushing shoes cloth in the machine, the hand is hindered by the machine easily, leads to need not to continue subsequent work, influences work efficiency.

Therefore, it is particularly necessary to design a shoe cloth cutting device which can replace manual work to move the mold, is convenient to operate, has a hand not easy to be injured, and has high working efficiency so as to solve the problems existing in the prior art.

Disclosure of Invention

In order to overcome the defects that people are required to move the mold and then push the shoe cloth into the machine, the machine pushes the mold to cut the shoe cloth, the operation is troublesome, hands are easily injured by the machine, and the working efficiency is influenced, the technical problem of the invention is that: the utility model provides a can replace the manual work to remove the mould, convenient operation, the hand is still difficult to be hindered, equipment is decided to shoe cloth that work efficiency is high.

A shoe cloth cutting device comprises: the shoe comprises a base plate, wherein an objective table is arranged on one side of the base plate, and a push plate is slidably placed on one side of the base plate, which is far away from the base plate, and is used for placing shoe cloth; the rack is arranged at the edge of one side of the bottom plate; the first driving wheels are at least two and rotatably mounted in the middle of one side, facing the bottom plate, of the outer side of the object stage, and a first belt is wound between the two first driving wheels; the fixed teeth are arranged at one part of the circumferential direction of the first belt at intervals; the servo motor is arranged on one side of the bottom plate close to the first transmission wheel and is vertically arranged, and an output shaft of the servo motor is fixedly connected with the circle center of one side of the first transmission wheel facing the bottom plate; the pressing component is arranged on the rack, is matched with the fixed teeth and is used for providing power; and the pressing die assembly is arranged on one side of the bottom plate far away from the rack and is matched with the pressing assembly for cutting the shoe cloth.

Further, the push-down assembly comprises: the first supporting sleeve is arranged on one side, facing the bottom plate, in the rack; the second rotating shaft is rotatably connected in the first supporting sleeve in a penetrating way, one end of the second rotating shaft is rotatably connected with one part of the rack, and one side of the other end of the second rotating shaft is fixedly connected with a rotating rod; the connecting rod is hinged to one side of the rotating rod far away from the first supporting sleeve; the second chain wheel is fixedly sleeved on a part of the second rotating shaft far away from the rotating rod; the guide sleeve is arranged at the end part of the rack close to the push plate, a pressing block is arranged in the guide sleeve in a sliding mode, the pressing block is matched with the die assembly, and the end part of the pressing block, far away from the push plate, is hinged with the end part of the connecting rod, facing the bottom plate; the rotating shaft is rotatably arranged on one side in the rack far away from the second rotating shaft, and a part of the rotating shaft close to the rack is fixedly sleeved with a first chain wheel; a chain wound between the first sprocket and the second sprocket; a second bevel gear mounted to an end of the rotating shaft remote from the first sprocket; the first rotating shaft is rotatably arranged at one side, close to the first belt and the rack, outside the object stage; the first bevel gear is fixedly sleeved at the end part of the first rotating shaft facing the bottom plate and is meshed with the second bevel gear; the first gear is fixedly sleeved at one part of the first rotating shaft close to the objective table and matched with the fixed teeth; the guide rod is slidably connected to one part of the rack far away from the bottom plate in a penetrating manner, a clamping block is fixedly connected to the end part of the guide rod facing the bottom plate, and the clamping block is in contact fit with the tail end of the rotating rod; the first spring is sleeved on the guide rod, one end of the first spring is fixedly connected with one side of the clamping block far away from the rotating rod, and the other end of the first spring is fixedly connected with one side, facing the bottom plate, in the rack.

Further, the die assembly comprises: the mounting plate is mounted on one side of the bottom plate far away from the rack, and a second support sleeve is fixedly connected to one side of the mounting plate, which faces the rack and is far away from the bottom plate; the hollow sleeve is rotatably connected in the second supporting sleeve in a penetrating manner; the rotary disc is fixedly sleeved on one side of the outer side of the hollow sleeve far away from the bottom plate and is fixedly connected in the circumferential direction; the third rotating shaft is rotatably arranged on one side in the mounting plate facing the rotary disc, and the end part of the third rotating shaft penetrates through the hollow sleeve and is fixedly connected with a mounting block; the number of the special-shaped rods is at least two, and the special-shaped rods are placed on two sides of the mounting block in a sliding manner; the vamp mould is arranged at the end part of the special-shaped rod far away from the mounting block and is matched with the pressing block; a second spring connected between a side of the profiled bar facing the turntable and an interior of the mounting block.

Further, still including rotating assembly, rotating assembly includes: the rotating shaft is rotatably arranged on one side, far away from the first rotating shaft, outside the object stage; the second gear is fixedly sleeved on one part of the circumferential direction of the rotating shaft close to the objective table and matched with the fixed teeth; the number of the second driving wheels is at least two, one of the second driving wheels is fixedly sleeved at one part of the rotating shaft far away from the objective table, and the other one of the second driving wheels is arranged at the outer circumferential direction of the hollow sleeve far away from the turntable; the second belt is wound between the two second driving wheels; the third gear is fixedly sleeved on the outer circumferential direction of the hollow sleeve close to the second transmission wheel; the fourth rotating shaft is rotatably arranged on one side of the mounting plate close to the third rotating shaft, and a fourth gear meshed with the third gear is fixedly sleeved on one part of the fourth rotating shaft, which is far away from the bottom plate, in the circumferential direction; the gear-lacking gear is fixedly sleeved on one part of the circumference of the fourth rotating shaft far away from the fourth gear; and the fifth gear is fixedly sleeved on one part of the circumference of the third rotating shaft close to the second driving wheel and is matched with the gear with missing teeth.

Further, the method also comprises the following steps: the guide rack is arranged on one side of the push plate, which is far away from the chain; the arc-shaped rack is arranged at one part of the circumferential direction of the outer side of the turntable, which is close to the guide rack, and is matched with the guide rack.

Further, the method also comprises the following steps: the arc wedge block is arranged at an eccentric position on one side of the turntable far away from the second support sleeve; the contact rod is installed towards the bottom plate and is close to one side of the special-shaped rod of the vamp mould, and the contact rod is matched with the arc-shaped wedge block.

The beneficial effects are that:

1. through starting servo motor reversal, the briquetting that can make moves down promotes vamp mould and moves down and decide shoes cloth, and the vamp mould after cutting off resets, makes next vamp mould corotation this moment decide it on to shoes cloth, so easy and simple to handle, and the difficult influence work efficiency that is hindered by the hand.

2. Through rotating assembly's effect, can decide the back that resets at the vamp mould with shoes cloth for another vamp mould corotation is decided to shoes cloth on, need not the people and stimulates the installation piece and rotate and make another vamp mould corotation to shoes cloth on, labour saving and time saving.

3. Through the effect of direction rack and arc rack, need not operating personnel hand pulling push pedal and drive shoes cloth and remove convenient and fast.

Drawings

Fig. 1 is a schematic front view of the present invention.

Fig. 2 is a schematic perspective view of the present invention.

Fig. 3 is an enlarged schematic view of part a of the present invention.

FIG. 4 is a schematic view of a first partial body structure according to the present invention.

FIG. 5 is a schematic view of a second partial body structure according to the present invention.

Fig. 6 is a perspective view of a third embodiment of the present invention.

In the figure: 1 a bottom plate, 2 an object stage, 3 a push plate, 4 a shoe cloth, 6 a frame, 7 a servo motor, 8 a first transmission wheel, 9 a first belt, 10 a fixed gear, 11 a pressing component, 1101 a first rotating shaft, 1102 a first gear, 1103 a first bevel gear, 1104 a second bevel gear, 1105 a first chain wheel, 1106 a second rotating shaft, 1107 a second chain wheel, 1108 a chain, 1109 a first supporting sleeve, 1110 rotating rods, 1111 guide rods, 1112 clamp blocks, 1113 a first spring, 1114 connecting rods, 1115 guide sleeves, 1116 press blocks, 1117 rotating shafts, 12 a press mold component, 1201 mounting plates, 1202 a third rotating shaft, 1203 a second supporting sleeve, 1204 a hollow sleeve, 1205 a rotating disc, 1206 mounting blocks, 1207 a special-shaped rod, 1208 an upper mold, 1209 a second spring, 13 a rotating component, 1301 a second gear, a second transmission wheel 1303 and a

second belt

1302, 1304 third gear, 1305 fourth rotating shaft, 1306 fourth gear, 1307 toothless gear, 1308 fifth gear, 1309 rotating shaft, 15 guide rack, 16 arc rack, 17 arc wedge block and 18 contact rod.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example 1

Referring to fig. 1, 2, 4, 5 and 6, a shoe cloth cutting device comprises a bottom plate 1, an object stage 2, a push plate 3, a frame 6, a servo motor 7, a first driving wheel 8, a first belt 9, fixed teeth 10, a pressing component 11 and a pressing module 12, wherein the object stage 2 is installed at the top of the bottom plate 1, the push plate 3 capable of placing the shoe cloth 4 is arranged in the object stage 2 in a sliding manner, the frame 6 is fixedly connected to the right side of the top of the bottom plate 1, the pressing component 11 is arranged on the frame 6, two first driving wheels 8 are rotatably connected to the middle of the front side of the bottom of the object stage 2, the first belt 9 is wound between the first driving wheels 8 at the front side and the rear side, the fixed teeth 10 are fixedly connected to the front part of the outer side of the first belt 9 at uniform intervals, the fixed teeth 10 are matched with the pressing component 11, the pressing module 12 is arranged at the left part of the front side of the top of the bottom plate 1, the pressing module 12 is matched with the pressing, an output shaft of the servo motor 7 is fixedly connected with the circle center of the bottom of the first driving wheel 8 at the rear side.

The pressing component 11 comprises a first rotating shaft 1101, a first gear 1102, a first bevel gear 1103, a second bevel gear 1104, a first chain wheel 1105, a second rotating shaft 1106, a second chain wheel 1107, a chain 1108, a first supporting sleeve 1109, a rotating rod 1110, a guide rod 1111, a clamping block 1112, a first spring 1113, a connecting rod 1114, a guide sleeve 1115, a pressing block 1116 and a rotating shaft 1117, the first rotating shaft 1101 is rotatably connected with the front part of the right side of the bottom of the objective table 2, the first gear 1102 is fixedly connected with the upper part of the first rotating shaft 1101, the first gear 1102 is matched with a fixed gear 10, the first bevel gear 1103 is fixedly connected with the lower part of the first rotating shaft 1101, the rotating shaft 1117 is rotatably connected with the lower part of the right side of the inside of the frame 6, the second bevel gear 1104 is fixedly connected with the left end of the rotating shaft 1117, the second bevel gear 1104 is positioned above the first bevel gear 1103 and meshed with the second bevel gear, the first supporting sleeve 1109 is fixedly connected, the right end of a second rotating shaft 1106 is rotatably connected with the upper part of the inner right side surface of the rack 6, a second chain wheel 1107 is fixedly connected to the right part of the second rotating shaft 1106, a first chain wheel 1105 is fixedly connected to the right part of a rotating shaft 1117, a chain 1108 is wound between the second chain wheel 1107 and the first chain wheel 1105, a rotating rod 1110 is fixedly connected to the left part of the second rotating shaft 1106, a connecting rod 1114 is hinged to the upper part of the left side of the rotating rod 1110, a guide sleeve 1115 is fixedly connected to the middle left end of the rack 6, a pressing block 1116 is arranged in an inward sliding manner in the guide sleeve 1115, the upper right side of the pressing block 1116 is hinged to the lower part of the connecting rod 1114, the pressing block 1116 is matched with the pressing module 12, a guide rod 1111 is arranged in the middle sliding manner on the upper part of the left side of the rack 6, a clamping block 1112 is fixedly connected to the bottom end of the rotating.

The die assembly 12 comprises a mounting plate 1201, a third rotating shaft 1202, a second supporting sleeve 1203, a hollow sleeve 1204, a rotary disc 1205, a mounting block 1206, a special-shaped rod 1207, an upper die 1208 and a second spring 1209, the mounting plate 1201 is fixedly connected to the front portion of the left side of the top of the bottom plate 1, the second supporting sleeve 1203 is fixedly connected to the upper portion of the left side face in the mounting plate 1201, the hollow sleeve 1204 is rotatably connected in the second supporting sleeve 1203, the rotary disc 1205 is fixedly connected to the upper portion of the outer side face 1204 of the hollow sleeve 1204, the third rotating shaft 1202 is rotatably connected to the right side of the bottom in the mounting plate 1201, the mounting block 1206 is fixedly connected to the top end of the third rotating shaft 1202 through the hollow sleeve 1204, the special-shaped rod 1207 is arranged in a sliding manner that the left portion and the right portion of the mounting block 1206 are embedded, the upper die 1208 is fixedly connected to the outer end of the.

Firstly, an operator places shoe cloth 4 on a push plate 3, starts a servo motor 7 to reversely rotate, the servo motor 7 reversely rotates to drive a rear first driving wheel 8 to reversely rotate, the rear first driving wheel 8 reversely rotates to drive a first belt 9 to reversely rotate through a front first driving wheel 8, the first belt 9 reversely rotates to drive a fixed tooth 10 to reversely rotate, when the fixed tooth 10 reversely rotates to contact with a pressing component 11, the fixed tooth 10 drives the pressing component 11 to operate, the pressing component 11 operates to contact with a pressing module 12, the pressing module 11 drives the pressing module 12 to move downwards to contact with the shoe cloth 4, the pressing module 12 cuts the shoe cloth 4, when the fixed tooth 10 continuously reversely rotates to separate from the pressing component 11, the pressing module 11 operates to reset, the pressing module 12 also moves upwards to reset, at the moment, the operator pulls the push plate 3 to move forwards, the push plate 3 drives the shoe cloth 4 to move forwards to a proper position, and stops pulling the push plate 3, the re-drawing pressing die assembly 12 rotates to enable another pressing die component of the pressing die assembly 12 to rotate to the upper side of the shoe cloth 4, when the fixed teeth 10 are contacted with the pressing component 11 again, the fixed teeth 10 continue to drive the pressing component 11 to operate, the pressing die assembly 12 is made to move downwards to cut the shoe cloth 4, and the operation is repeated, so that the shoe cloth 4 can be continuously cut into required patterns to manufacture shoes. When the shoe cloth 4 on the push plate 3 is cut off, the servo motor 7 is turned off, the fixed teeth 10 stop reversing, and the pressing component 11 stops operating.

When the shoe cloth 4 is placed well, the servo motor 7 is started to rotate reversely, when the fixed teeth 10 rotate reversely and are meshed with the first gear 1102, the fixed teeth 10 drive the first gear 1102 to rotate forwardly, the first gear 1102 rotates forwardly to drive the first rotating shaft 1101 to rotate forwardly, the first rotating shaft 1101 rotates forwardly to drive the first bevel gear 1103 to rotate forwardly, the first bevel gear 1103 rotates forwardly to drive the second bevel gear 1104 to rotate forwardly, the second bevel gear 1104 rotates forwardly to drive the rotating shaft 1117 to rotate forwardly, the rotating shaft 1117 rotates forwardly to drive the first chain wheel 1105 below to rotate forwardly, the first chain wheel 1105 rotates forwardly to drive the chain 1108 to rotate forwardly, the chain 1108 rotates forwardly to drive the second chain wheel 1107 to rotate forwardly, the second chain wheel 1107 rotates forwardly to drive the second rotating shaft 1106 to rotate forwardly, the second rotating shaft 1106 rotates forwardly to drive the rotating rod 1110 to rotate forwardly, the rotating rod 1110 separates from the clamping block 1112, the rotating rod 1110 drives the rotating connecting rod 1114 to rotate forwardly and backwa, briquetting 1116 drives moulding-die assembly 12 downstream, moulding-die assembly 12 downstream decides shoe cloth 4, when briquetting 1116 upstream, briquetting 1116 breaks away from moulding-die assembly 12, moulding-die assembly 12 upstream moves and resets, at this moment, fixed tooth 10 also breaks away from with first gear 1102, briquetting 1116 stops reciprocating, bull stick 1110 resets and clamp block 1112 contact, because of first spring 1113's effect, clamp block 1112 carries on spacingly to bull stick 1110, operating personnel draws again that moulding-die assembly 12 rotates and makes another moulding-die component rotate to shoe cloth 4 top, so relapse, can constantly drive moulding-die assembly 12 and decide shoe cloth 4.

When the servo motor 7 starts to rotate reversely, the fixed gear 10 drives the first gear 1102 to rotate forwardly, when the pressing block 1116 moves downwards, the pressing block 1116 contacts with an upper mold 1208 close to the shoe cloth 4, the pressing block 1116 drives the upper mold 1208 to move downwards, the upper mold 1208 moves downwards to drive a special-shaped rod 1207 to move downwards, the second spring 1209 compresses, the upper mold 1208 moves downwards to contact with the shoe cloth 4 to cut the shoe cloth, when the pressing block 1116 moves upwards to reset, the pressing block 1116 is separated from the upper mold 1208, the special-shaped rod 1207 moves upwards to drive the upper mold 1208 to move upwards to reset under the action of the second spring 1209, at the moment, an operator pulls the mounting block 1206 to rotate forwardly, the mounting block 1206 rotates forwardly to drive the special-shaped rod 1207 to rotate forwardly to drive the upper mold 1208 to rotate forwardly, when the mounting block 1206 rotates one hundred eighty degrees, the mounting block 1206 stops pulling to rotate, the other upper mold 1208 moves above the shoe cloth 4, repeating the steps, the shoe cloth 4 can be continuously cut into the required shape by the vamp mold 1208.

Example 2

Referring to fig. 1, 2 and 4, the present embodiment is different from embodiment 1 mainly in that the present embodiment further includes a rotation assembly 13, the rotation assembly 13 includes a second gear 1301, a second transmission wheel 1302, a second belt 1303, a third gear 1304, a fourth rotation shaft 1305, a fourth gear 1306, a tooth-missing gear 1307, a fifth gear 1308 and a rotation shaft 1309, the rotation shaft 1309 is rotatably connected to the front left portion of the bottom of the object stage 2, the second gear 1301 is fixedly connected to the upper portion of the rotation shaft 1309, the second gear 1301 is engaged with the fixed teeth 10, the second transmission wheel 1302 is fixedly connected to the lower portion of the outer side surface of the hollow sleeve 1204 and the lower portion of the rotation shaft 1309, the second belt 1303 is wound between the second transmission wheels 1302 on the left and right sides, the third gear 1304 is fixedly connected to the lower portion of the outer side surface of the hollow sleeve 1204, the fourth rotation shaft 1305 is rotatably connected to the inner bottom of the mounting plate, the lower portion of the fourth rotation, a gear 1307 with missing teeth is positioned at the left side of the fifth gear 1308 and is matched with the fifth gear, a fourth gear 1306 is fixedly connected to the upper part of the fourth rotating shaft 1305, and the fourth gear 1306 is meshed with the third gear 1304.

When the servo motor 7 starts to rotate reversely, and the upper mold 1208 moves upwards to reset, the fixed teeth 10 are meshed with the second gear 1301, the fixed teeth 10 drive the second gear 1301 to rotate forwardly, the second gear 1301 rotates forwardly to drive the rotating shaft 1309 to rotate forwardly, the rotating shaft 1309 rotates forwardly to drive the right second transmission wheel 1302 to rotate forwardly, the right second transmission wheel 1302 rotates forwardly through the second belt 1303 to drive the left second transmission wheel 1302 to rotate forwardly, the left second transmission wheel 1302 rotates forwardly to drive the hollow sleeve 1204 to rotate forwardly, the hollow sleeve 1204 rotates forwardly to drive the rotating disc 1205 to rotate forwardly, the hollow sleeve 1204 also drives the third gear 1304 to rotate forwardly, the third gear 1304 rotates forwardly to drive the fourth gear 1306 to rotate reversely, the fourth gear 1306 rotates reversely to drive the fourth rotating shaft 1305 to rotate reversely, the fourth rotating shaft 1305 rotates reversely to drive the tooth-missing gear 1307 to rotate reversely, when the tooth-missing gear 1307 rotates reversely to mesh with the fifth gear 1308, the tooth-missing gear 1307 drives the fifth gear 1308, the third pivot 1202 corotation drives installation piece 1206 corotation, and then drives vamp mould 1208 corotation one hundred eighty degrees for another vamp mould 1208 corotation is to shoes cloth 4 top, and fixed tooth 10 also breaks away from with second gear 1301, and second gear 1301 stops corotation, and vamp mould 1208 also stops corotation, so, when vamp mould 1208 cuts out the shoes cloth 4 back and resets, can make another vamp mould 1208 corotation to shoes cloth 4 top. Therefore, an operator does not need to pull the mounting block 1206 to rotate forward to enable the other vamp mold 1208 to rotate forward to the position above the shoe cloth 4, and time and labor are saved.

Example 3

Referring to fig. 1, 2, 3 and 6, the present embodiment is different from embodiments 1 and 2 mainly in that in the present embodiment, the present embodiment further includes a guide rack 15 and an arc rack 16, the guide rack 15 is fixedly connected to the lower portion of the outer left side surface of the push plate 3, the arc rack 16 is fixedly connected to the front portion of the outer side surface of the rotary disk 1205 in the circumferential direction on the right side, and the arc rack 16 is matched with the guide rack 15.

Still including arc wedge 17 and contact lever 18, carousel 1205 top off-center position rear side right part rigid coupling has arc wedge 17, and the bottom outside rigid coupling of dysmorphism pole 1207 has contact lever 18, and contact lever 18 cooperates with arc wedge 17.

When the fixed teeth 10 are meshed with the second gear 1301, the rotary table 1205 positively rotates to drive the arc-shaped rack 16 to positively rotate, the vamp mold 1208 also positively rotates, when the arc-shaped rack 16 positively rotates to be meshed with the guide rack 15, the arc-shaped rack 16 drives the guide rack 15 to move forwards, the guide rack 15 moves forwards to drive the push plate 3 to move forwards, the push plate 3 moves forwards to drive the shoe cloth 4 to move forwards, when the arc-shaped rack 16 is separated from the guide rack 15, the push plate 3 stops driving the shoe cloth 4 to move, at the moment, the other vamp mold 1208 also positively rotates to be positioned above the shoe cloth 4, the fixed teeth 10 are separated from the second gear 1301, and the rotary table 1205 stops driving the arc-shaped rack 16 to positively. Therefore, an operator does not need to pull the push plate 3 to drive the shoe cloth 4 to move, and the shoe cloth is convenient and quick.

When carousel 1205 corotation, carousel 1205 corotation still drives arc wedge 17 corotation, if the dysmorphism pole 1207 does not drive when vamp mould 1208 resets, arc wedge 17 corotation also just contacts with contact bar 18, and arc wedge 17 drives contact bar 18 rebound, and contact bar 18 rebound drives dysmorphism pole 1207 rebound, and then drives vamp mould 1208 rebound and resets. When the turntable 1205 stops rotating forwards, the arc wedge block 17 stops rotating forwards. Thus, the situation that the vamp mold 1208 cannot reset to influence the cutting of the shoe cloth 4 can be avoided.

It should be understood that the above description is for exemplary purposes only and is not meant to limit the present invention. Those skilled in the art will appreciate that variations of the present invention are intended to be included within the scope of the claims herein.

Claims

1. The utility model provides a shoes cloth cutting equipment, characterized by, including:

the shoe cover comprises a base plate (1), wherein an objective table (2) is installed on one side of the base plate (1), and a push plate (3) is slidably placed on one side of the base plate (1) far away from the base plate (1) and used for placing shoe cloth (4);

the rack (6), the said rack (6) is mounted to the edge position of one side of the said bottom plate (1);

the number of the first driving wheels (8) is at least two, the first driving wheels (8) are rotatably mounted in the middle of one side, facing the bottom plate (1), of the outer side of the object stage (2), and a first belt (9) is wound between the two first driving wheels (8);

the fixed teeth (10) are mounted on one part of the circumference of the first belt (9) at intervals;

the servo motor (7) is arranged on one side of the bottom plate (1) close to the first transmission wheel (8) and is vertically arranged, and an output shaft of the servo motor (7) is fixedly connected with the position of the circle center of one side of the first transmission wheel (8) facing the bottom plate (1);

the pressing component (11) is arranged on the rack (6), is matched with the fixed teeth (10) and is used for providing power;

and the pressing die assembly (12) is installed at one side of the bottom plate (1) far away from the rack (6), is matched with the pressing assembly (11) and is used for cutting the shoe cloth (4).

2. A cloth shoe cutting apparatus according to claim 1, wherein the pressing unit (11) comprises:

a first supporting sleeve (1109), wherein the first supporting sleeve (1109) is installed on one side, facing the bottom plate (1), in the rack (6);

the second rotating shaft (1106) is rotatably connected in the first supporting sleeve (1109) in a penetrating mode, one end of the second rotating shaft (1106) is rotatably connected with one part of the rack (6), and a rotating rod (1110) is fixedly connected to one side of the other end of the second rotating shaft;

a connecting rod (1114) hinged to a side of the rotating rod (1110) away from the first supporting sleeve (1109);

the second chain wheel (1107) is fixedly sleeved on one part of the second rotating shaft (1106) far away from the rotating rod (1110);

the guide sleeve (1115) is mounted at the end part of the rack (6) close to the push plate (3), a pressing block (1116) is slidably placed in the guide sleeve (1115), the pressing block (1116) is matched with the die assembly (12), and the end part of the pressing block (1116) far away from the push plate (3) is hinged with the end part of the connecting rod (1114) facing the bottom plate (1);

the rotating shaft (1117), the said rotating shaft (1117) is installed in the one side far away from said second spindle (1106) in the said framework (6) of the rotary type, its one portion close to said framework (6) is fitted with the first sprocket (1105) fixedly;

a chain (1108), said chain (1108) being wound between said first sprocket (1105) and said second sprocket (1107);

a second bevel gear (1104) mounted to an end of the rotation shaft (1117) remote from the first sprocket (1105);

a first rotating shaft (1101), wherein the first rotating shaft (1101) is rotatably arranged at one side of the object stage (2) close to the first belt (9) and the rack (6);

a first bevel gear (1103), wherein the first bevel gear (1103) is fixedly sleeved on the end part of the first rotating shaft (1101) facing the bottom plate (1) and is meshed with the second bevel gear (1104);

the first gear (1102), the first gear (1102) is fixedly sleeved on a part of the first rotating shaft (1101) close to the object stage (2), and the first gear is matched with the fixed gear (10);

the guide rod (1111) is slidably connected to one part of the rack (6) far away from the bottom plate (1) in a penetrating manner, a clamping block (1112) is fixedly connected to the end part of the guide rod (1111) facing the bottom plate (1), and the clamping block (1112) is in contact fit with the tail end of the rotating rod (1110);

the first spring (1113), the first spring (1113) suit is in on guide arm (1111), its one end with keep away from change pole (1110) clamp splice (1112) one side fixed connection, the other end with towards bottom plate (1) one side fixed connection in the frame (6).

3. A cloth shoe cutting apparatus according to claim 2, wherein the die assembly (12) comprises:

the mounting plate (1201), the mounting plate (1201) is mounted on the side of the bottom plate (1) far away from the rack (6), and a second supporting sleeve (1203) is fixedly connected to the inner side of the mounting plate (1201) facing the rack (6) and far away from the bottom plate (1);

the hollow sleeve (1204) is rotatably connected in the second support sleeve (1203) in a penetrating manner;

the rotary table (1205) is fixedly sleeved on one side of the outer side of the hollow sleeve (1204) far away from the bottom plate (1) in a circumferential fixed connection mode;

the third rotating shaft (1202), the third rotating shaft (1202) is rotatably installed on one side of the installation plate (1201) facing the rotating disc (1205), and the end part of the third rotating shaft passes through the hollow sleeve (1204) to be fixedly connected with an installation block (1206);

the number of the special-shaped rods (1207) is at least two, and the special-shaped rods (1207) are placed on two sides of the mounting block (1206) in a sliding mode;

an upper mold (1208), the upper mold (1208) mounted to the end of the profiled bar (1207) remote from the mounting block (1206), which mates with the pressing block (1116);

a second spring (1209), the second spring (1209) is connected between the side of the special-shaped rod (1207) facing the turntable (1205) and the inside of the mounting block (1206).

4. A shoe cloth cutting apparatus according to claim 3, further comprising a rotating unit, wherein the rotating unit (13) comprises:

the rotating shaft (1309), the rotating shaft (1309) is rotatably installed at one side of the object stage (2) far away from the first rotating shaft (1101);

the second gear (1301) is fixedly sleeved on one part of the circumferential direction of the rotating shaft (1309) close to the objective table (2) and matched with the fixed gear (10);

the number of the second transmission wheels (1302) is at least two, one of the second transmission wheels is fixedly sleeved at one part of the rotating shaft (1309) far away from the object stage (2), and the other one of the second transmission wheels is arranged at the outer circumferential side of the hollow sleeve (1204) far away from the turntable (1205);

a second belt (1303), said second belt (1303) being wound between two of said second driving wheels (1302);

the third gear (1304) is fixedly sleeved on the outer circumferential side of the hollow sleeve (1204) close to the second transmission wheel (1302);

a fourth rotating shaft (1305), the fourth rotating shaft (1305) is rotatably mounted on one side of the mounting plate (1201) close to the third rotating shaft (1202), and a fourth gear (1306) meshed with the third gear (1304) is fixedly sleeved on one part of the circumference of the fourth rotating shaft (1305) far away from the bottom plate (1);

the gear (1307) with the missing teeth is fixedly sleeved on one part of the circumference of the fourth rotating shaft (1305) far away from the fourth gear (1306);

and the fifth gear (1308) is fixedly sleeved on one part of the circumference of the third rotating shaft (1202) close to the second driving wheel (1302), and is matched with the toothless gear (1307).

5. The shoe cloth cutting apparatus according to claim 4, further comprising:

the guide rack (15), the guide rack (15) is installed on one side of the push plate (3) far away from the chain (1108);

the arc-shaped rack (16) is mounted at one part of the outer side circumference of the rotary disc (1205) close to the guide rack (15) and matched with the guide rack (15).

6. The shoe cloth cutting apparatus according to claim 5, further comprising:

the arc wedge block (17), the arc wedge block (17) is installed at the eccentric position of one side of the turntable (1205) far away from the second supporting sleeve (1203);

-a contact bar (18), said contact bar (18) being mounted on the side of said profiled bar (1207) facing towards said base plate (1) and close to said upper mould (1208), cooperating with said arc-shaped wedge-shaped blocks (17).