CN114197190B

CN114197190B - Equipment that lathe cylinder cloth was tailor

Info

Publication number: CN114197190B
Application number: CN202111505566.6A
Authority: CN
Inventors: 曾凯华
Original assignee: Chizhou Hailin Clothing Co ltd
Current assignee: Chizhou Hailin Clothing Co ltd
Priority date: 2021-12-10
Filing date: 2021-12-10
Publication date: 2023-11-24
Anticipated expiration: 2041-12-10
Also published as: CN114197190A

Abstract

The invention relates to cutting equipment, in particular to equipment for cutting cloth on a lathe roller. The technical problems to be solved are as follows: the equipment for cutting the cloth of the lathe roller, which improves the working efficiency, reduces the labor force and cuts more stable cloth. The utility model provides a lathe cylinder cloth tailors equipment, includes bottom plate, first support frame, transport mechanism and pushes down the mechanism, and the bottom plate top is equipped with transport mechanism, is equipped with pushing down the mechanism on the transport mechanism, pushes down the mechanism top and is equipped with first support frame. The beneficial effects are that: through pulling first axis of rotation, put into first axis of rotation with the cloth afterwards for the cloth extrudees first wedge through self size, makes first wedge upwards slide afterwards, finally can realize carrying out the purpose of blowing to the cloth.

Description

Equipment that lathe cylinder cloth was tailor

Technical Field

The invention relates to cutting equipment, in particular to equipment for cutting cloth on a lathe roller.

Background

The textile industry rapidly develops, the technology is more and more advanced, cloth cutting is always an important step, the traditional textile industry generally adopts a manual cutting mode to cut the cloth in order to reduce equipment cost, but the working efficiency of the mode is low, the cutting is inaccurate, and the simultaneous work of cutting and clamping cannot be realized. The winding of the cloth is realized through a cloth winding drum, when the cloth winding drum is full, a new cloth winding drum needs to be replaced, and the cloth in the conveying process needs to be cut. The existing cloth cutting equipment does not have the function of automatically driving cloth to be conveyed, so that manual cooperation is needed, and the work efficiency is low.

Therefore, there is a need for a machine tool drum cloth cutting apparatus that improves work efficiency, reduces labor, and cuts more stable.

Disclosure of Invention

In order to overcome the defects that the existing equipment does not have the function of automatically driving cloth to convey, thus manual cooperation is needed to be completed, and the working efficiency is low, the technical problem to be solved is as follows: the equipment for cutting the cloth of the lathe roller, which improves the working efficiency, reduces the labor force and cuts more stable cloth.

The technical scheme of the invention is as follows: the utility model provides a lathe cylinder cloth tailors equipment, including the bottom plate, first support frame, first blade, a first gag lever post, a return spring, a first stopper, feed mechanism, transport mechanism and pushing down the mechanism, be equipped with feed mechanism on the bottom plate, the bottom plate top is equipped with transport mechanism, be equipped with pushing down the mechanism on the transport mechanism, pushing down the mechanism top is equipped with first support frame, sliding connection has a first blade in the first support frame, both sides are equipped with a stopper in the first support frame, a blade internally connected has two first gag lever posts, a gag lever post and a stopper sliding fit, be connected with two first return springs between a stopper and the first blade.

In a preferred embodiment of the invention, the feeding mechanism comprises a second support frame, a first rotating shaft, first wedge blocks, second return springs, bearings and third return springs, wherein the second support frames are arranged on two sides of the bottom plate, the first rotating shaft is connected between the second support frames in a rotating and sliding mode, the first wedge blocks are uniformly and slidably arranged in the first rotating shaft, the number of the first wedge blocks is three, the second return springs are connected between the first rotating shaft and the first wedge blocks, the bearings are arranged on the outer sides of the front portions of the first rotating shaft, and the third return springs are connected between the bearings and the second support frames.

In a preferred embodiment of the invention, the conveying mechanism comprises a third supporting frame, a supporting plate, clamping blocks, a second limiting rod, a fourth return spring, a first connecting block, a second wedge-shaped block and an air cylinder, wherein the third supporting frame is arranged on two sides of the top of the bottom plate, the supporting plate is connected between the second supporting frame and the top of the third supporting frame, the clamping blocks are slidably arranged on the supporting plate, elastic pieces are connected between the clamping blocks and the supporting plate, the second limiting rod is connected to the top of the clamping blocks, the clamping blocks are slidably arranged in the middle of the second limiting rod, the clamping blocks are matched with the clamping blocks, the fourth return spring is connected between the clamping blocks and the clamping blocks, the second wedge-shaped block is slidably arranged at the top of the clamping blocks, the first connecting block is connected between the second limiting rod, the air cylinder is arranged at the top of the bottom plate, the telescopic rod of the air cylinder is connected with the second wedge-shaped block on one side, and the second wedge-shaped block is matched with the clamping blocks.

In a preferred embodiment of the invention, the pushing mechanism comprises a fourth support frame, a ratchet bar, a second rotating shaft, a ratchet gear, a third rotating shaft, a first bevel gear, a second bevel gear, a fourth rotating shaft, a first belt pulley, a first conveyor belt and a second connecting block, wherein the fourth support frame is arranged on the upper side of the third support frame on one side, the fourth support frame is in sliding fit with the second wedge block, the ratchet bar is connected with the ratchet bar on the rear side of the telescopic rod of the cylinder, the ratchet bar is in sliding fit with the fourth support frame, the upper side of the rear part of the third support frame on the other side is rotatably connected with the second rotating shaft, the lower part of the second rotating shaft is connected with the ratchet gear, the top of the second rotating shaft is connected with the first bevel gear, the inner rotating part of the rear part of the first support frame is connected with the third rotating shaft, the left part of the third rotating shaft is connected with the second bevel gear, the first bevel gear is meshed with the second bevel gear, the inner rotating part of the first support frame is connected with the fourth rotating shaft, the third rotating shaft is connected with the first belt pulley on the fourth rotating shaft, the first belt pulley is rotatably arranged on the left part of the third rotating shaft and the fourth belt pulley, the upper side of the fourth rotating shaft is provided with the second blade in sliding fit with the first connecting block.

In a preferred embodiment of the present invention, the present invention further comprises a clamping mechanism, wherein the clamping mechanism comprises a third wedge block, a fifth return spring, a fourth wedge block and a sixth return spring, the third wedge block is slidably disposed at the rear portion of the first rotating shaft, the fifth return spring is connected between the third wedge block and the first rotating shaft, the fourth wedge block is slidably disposed at the inner side of the upper portion of the first rotating shaft, and the sixth return spring is connected between the first rotating shaft and the fourth wedge block.

In a preferred embodiment of the invention, the device further comprises a buffer mechanism, wherein the buffer mechanism comprises a second blade, a third limiting rod and a seventh return spring, a plurality of third limiting rods are arranged in the lower portion of the first blade in a sliding mode, the bottom of each third limiting rod is connected with the second blade, and a plurality of seventh return springs are connected between the second blade and the first blade.

In a preferred embodiment of the invention, the feeding mechanism further comprises a feeding mechanism, wherein the feeding mechanism comprises a fifth supporting frame, a spur rack, a fifth rotating shaft, a spur gear, a connecting rod, a torsion spring and a clamping block, the upper side of the bottom plate is connected with the fifth supporting frame, the fifth rotating shaft is connected in the fifth supporting frame in a rotating way, the spur gear is connected in the fifth rotating shaft in a rotating way, the spur rack is connected in the middle of the bottom of the first connecting block, the spur gear is meshed with the spur rack, the connecting rod is connected in the fifth rotating shaft, the clamping block is connected in a rotating way on the connecting rod, the clamping block is matched with the spur gear in a clamping way, and two torsion springs are connected between the clamping block and the connecting rod.

In a preferred embodiment of the invention, the device further comprises a collecting mechanism, wherein the collecting mechanism comprises a sixth rotating shaft, a second belt pulley, a second conveying belt, a cam, a second limiting block, a collecting frame and an eighth return spring, the upper side of the middle part of the bottom plate is connected with the second limiting block, the left side of the upper part of the second limiting block is connected with the collecting frame in a sliding manner, three eighth return springs are connected between the second limiting block and the collecting frame, the sixth rotating shaft is connected in the lower part of the fifth supporting frame in a rotating manner, the cam is connected with the sixth rotating shaft, the cam is matched with the collecting frame, the fifth rotating shaft and the sixth rotating shaft are both connected with the second belt pulley, and the second conveying belt is wound between the second belt pulleys.

Compared with the prior art, the invention has the following advantages: 1. the first rotating shaft is pulled, and then cloth is placed in the first rotating shaft, so that the cloth extrudes the first wedge-shaped block through the size of the cloth, and then the first wedge-shaped block slides upwards, and finally the aim of discharging the cloth can be fulfilled;

2. the second wedge block is driven to slide leftwards through the air cylinder, so that the second wedge block is in contact with the clamping block, then the clamping block slides downwards, then the clamping block clamps cloth, and finally the aim of clamping and transporting the cloth can be achieved.

3. Through obtaining ratchet bar and ratchet gear matched with, the ratchet gear drives the second axis of rotation and rotates for the second axis of rotation drives first bevel gear and rotates, makes first bevel gear and second bevel gear meshing afterwards, then makes the second connecting block drive first blade and slide down, finally can realize the purpose to first blade downwardly sliding.

Drawings

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

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

Fig. 3 is a schematic perspective view of a feeding mechanism according to the present invention.

Fig. 4 is a schematic perspective view of a conveying mechanism according to the present invention.

Fig. 5 is a schematic perspective view of a pushing mechanism of the present invention.

Fig. 6 is a schematic perspective view of a clamping mechanism according to the present invention.

Fig. 7 is a schematic perspective view of a buffer mechanism according to the present invention.

Fig. 8 is a schematic perspective view of a first part of the blanking mechanism of the present invention.

Fig. 9 is a schematic perspective view of a second part of the blanking mechanism of the present invention.

Fig. 10 is a schematic perspective view of a collecting mechanism according to the present invention.

The marks of the components in the drawings are as follows: 1. the bottom plate, 2, the first supporting frame, 3, the first blade, 4, the first limiting rod, 5, the first return spring, 6, the first limiting block, 7, the feeding mechanism, 70, the second supporting frame, 71, the first rotating shaft, 72, the first wedge block, 73, the second return spring, 74, the bearing, 75, the third return spring, 8, the conveying mechanism, 80, the third supporting frame, 81, the supporting plate, 82, the clamping block, 83, the second limiting rod, 84, the fourth return spring, 85, the first connecting block, 86, the second wedge block, 87, the cylinder, 9, the pressing mechanism, 90, the fourth supporting frame, 91, the ratchet bar, 92, the second rotating shaft, 93, the ratchet gear, 94, the third rotating shaft, 95, the first bevel gear, 96 and the second bevel gear, 97, fourth rotation shaft, 98, first belt pulley, 99, first conveyer belt, 910, second connecting block, 10, clamping mechanism, 100, third wedge, 101, fifth return spring, 102, fourth wedge, 103, sixth return spring, 11, buffer mechanism, 110, second blade, 111, third stop lever, 112, seventh return spring, 12, blanking mechanism, 120, fifth support frame, 121, straight rack, 122, fifth rotation shaft, 123, spur gear, 124, connecting rod, 125, torsion spring, 126, fixture block, 13, collection mechanism, 130, sixth rotation shaft, 131, second belt pulley, 132, second conveyer belt, 133, cam, 134, second stop block, 135, collection frame, 136, eighth return spring.

Detailed Description

It should be noted that in the various embodiments described, identical components are provided with identical reference numerals or identical component names, wherein the disclosure contained throughout the description can be transferred in a meaning to identical components having identical reference numerals or identical component names. The position specification, upper, lower, lateral, etc. selected in the description are also referred to directly in the description and the figures shown and are transferred in the sense of a new position when the position is changed.

Example 1

1-5, including bottom plate 1, first support frame 2, first blade 3, first gag lever post 4, first return spring 5, first stopper 6, feed mechanism 7, transport mechanism 8 and pushing down mechanism 9, bottom plate 1 right part upside is equipped with feed mechanism 7, bottom plate 1 top left side is equipped with transport mechanism 8, transport mechanism 8 right part upside is equipped with pushing down mechanism 9, pushing down mechanism 9 top is equipped with first support frame 2, sliding connection has first blade 3 in the first support frame 2, both sides all are equipped with first stopper 6 around the inside of first support frame 2, first blade 3 internally connected with two first gag lever posts 4, first gag lever post 4 and first stopper 6 sliding fit are connected with two first return springs 5 between first stopper 6 and the first blade 3.

When the cloth needs to be cut, people pull the feeding mechanism 7, then put the cloth on the feeding mechanism 7, force is not applied to the feeding mechanism 7 any more, the feeding mechanism 7 slides reversely to the original position, then people pull the cloth to move to the conveying mechanism 8 along the feeding mechanism 7, meanwhile, the conveying mechanism 8 is started, the conveying mechanism 8 works to clamp the cloth and drive the cloth to move leftwards, then the conveying mechanism 8 drives the pressing mechanism 9 to work, the pressing mechanism 9 works to drive the first blade 3 to slide downwards along the first limiting block 6, the first blade 3 drives the first limiting rod 4 to slide downwards, the first return spring 5 is compressed, the first blade 3 can cut the cloth, then the conveying mechanism 8 slides rightwards, meanwhile, the conveying mechanism 8 does not clamp the cloth any more, the pressing mechanism 9 is not driven to work any more, the pressing mechanism 9 does not drive the first blade 3 to slide downwards, under the action of the first return spring 5, the first blade 3 moves upwards and does not contact the cloth any more, and finally the aim of cutting the cloth can be achieved, and the conveying mechanism 8 is closed after the operation of cutting the cloth is finished.

The feeding mechanism 7 comprises a second supporting frame 70, a first rotating shaft 71, first wedge blocks 72, second return springs 73, bearings 74 and third return springs 75, wherein the second supporting frames 70 are respectively arranged on the front side and the rear side of the right portion of the bottom plate 1, the first rotating shafts 71 are connected between the second supporting frames 70 in a rotating and sliding mode, the first wedge blocks 72 are uniformly and slidably arranged in the first rotating shaft 71, the number of the first wedge blocks 72 is three, two second return springs 73 are connected between the first rotating shaft 71 and the first wedge blocks 72, the bearings 74 are arranged on the outer sides of the front portion of the first rotating shaft 71, and the third return springs 75 are connected between the bearings 74 and the second supporting frames 70.

When the cloth is required to be fed, the first rotating shaft 71 is pulled to slide forwards, the first rotating shaft 71 slides forwards to drive the bearing 74 to move forwards, the third return spring 75 is compressed, then the cloth is sleeved on the first rotating shaft 71, the first wedge block 72 is extruded through the cloth, the first wedge block 72 slides inwards, the second return spring 73 is compressed, after the cloth is placed, the first rotating shaft 71 is not applied with force, under the reset of the third return spring 75, the first rotating shaft 71 slides backwards to the original position, after the cloth is used, the cloth cylinder can be taken out, the cloth cylinder does not extrude the first wedge block 72 any more, and under the reset action of the second return spring 73, the first wedge block 72 slides outwards on the first rotating shaft 71.

The conveying mechanism 8 comprises a third supporting frame 80, a supporting plate 81, clamping blocks 82, a second limiting rod 83, a fourth return spring 84, a first connecting block 85, a second wedge block 86 and air cylinders 87, wherein the front side and the rear side of the top of the bottom plate 1 are respectively provided with the third supporting frame 80, the supporting plate 81 is connected between the second supporting frame 70 and the top of the third supporting frame 80, the front side and the rear side of the upper part of the supporting plate 81 are respectively provided with the clamping blocks 82 in a sliding mode, an elastic piece is connected between the clamping blocks 82 and the supporting plate 81, the top of the clamping blocks 82 is connected with the second limiting rod 83, the middle part of each second limiting rod 83 is provided with a clamping block in a sliding mode, the clamping blocks are matched with the clamping blocks 82, the fourth return spring 84 is connected between the clamping blocks and the clamping blocks 82, the second wedge block 86 is connected between the second limiting rod 83, the left side of the top of the bottom plate 1 is provided with the air cylinders 87, and the right part of the telescopic rod of the air cylinders 87 is connected with the second wedge block 86 on the rear side, and the second wedge block 86 is matched with the clamping blocks 82.

When the cloth is required to be clamped and conveyed, the cloth is pulled to move onto the supporting plate 81 along the first rotating shaft 71, then the air cylinder 87 is started, the rear side second wedge block 86 slides leftwards, the second wedge block 86 extrudes the clamping block, the clamping block slides downwards, the fourth return spring 84 is compressed, the clamping block is contacted with the clamping block 82, the cloth is clamped, the second wedge block 86 further slides leftwards, the second wedge block 86 drives the clamping block 82 to slide leftwards along the supporting plate 81, the elastic piece compresses along with the clamping block, the cloth is driven to slide leftwards, after the cloth is cut, the air cylinder 87 is controlled to enable the rear side second wedge block 86 to slide rightwards, the clamping block 82 slides rightwards to be in place under the action of the elastic piece, the second wedge block 86 does not extrude the clamping block any more, the clamping block slides upwards under the reset of the fourth return spring 84, the clamping block is not contacted with the clamping block 82 any more, the clamping block does not clamp the cloth, the aim of clamping and conveying the cloth can be achieved finally, and after the operation is finished, the air cylinder 87 is closed.

The pressing mechanism 9 comprises a fourth supporting frame 90, a ratchet bar 91, a second rotating shaft 92, a ratchet gear 93, a third rotating shaft 94, a first bevel gear 95, a second bevel gear 96, a fourth rotating shaft 97, a first belt pulley 98, a first conveying belt 99 and a second connecting block 910, wherein the fourth supporting frame 90 is arranged on the upper side of the front side third supporting frame 80, the fourth supporting frame 90 is in sliding fit with the second wedge 86, the ratchet bar 91 is connected to the rear side of a telescopic rod of the air cylinder 87, the ratchet bar 91 is in sliding fit with the fourth supporting frame 90, the second rotating shaft 92 is rotatably connected to the upper side of the rear side third supporting frame 80, the ratchet bar 91 is matched with the ratchet gear 93, the first bevel gear 95 is connected to the top of the second rotating shaft 92, the first bevel gear 96 is rotatably connected to the rear side of the first supporting frame 2, the fourth rotating shaft 97 is rotatably connected to the left side of the third rotating shaft 94, the first bevel gear 95 is meshed with the second bevel gear 96, the fourth rotating shaft 97 is rotatably connected to the middle of the first supporting frame 2, the third rotating shaft 94 is rotatably connected to the fourth belt pulley 97 is connected to the fourth bevel gear 96, the first bevel gear 98 is slidably connected to the fourth rotating shaft 97, and the fourth connecting block 910 is slidably connected to the fourth connecting block 910.

When the first blade 3 needs to be driven to cut cloth, the telescopic rod of the air cylinder 87 drives the ratchet bar 91 to slide leftwards, the second rotating shaft 92 is driven to rotate through the ratchet gear 93, the second rotating shaft 92 drives the first bevel gear 95 to rotate, thereby the second bevel gear 96 drives the third rotating shaft 94 to rotate, the third rotating shaft 94 rotates to be matched with the first conveying belt 99 through the first belt pulley 98, the fourth rotating shaft 97 can rotate, the fourth rotating shaft 97 drives the second connecting block 910 to rotate, the second connecting block 910 firstly drives the first blade 3 to slide downwards, the first blade 3 drives the first limiting rod 4 to slide downwards, the first return spring 5 is compressed, the first blade 3 moves downwards to cut cloth, when the telescopic rod of the air cylinder 87 drives the ratchet bar 91 to slide rightwards, the ratchet bar 91 is not matched with the ratchet gear 93, the second rotating shaft 92 stops rotating, the first blade 3 slides upwards under the reset action of the first return spring 5, meanwhile the first blade 3 is not contacted with the cloth, and finally the aim of driving the first blade 3 to cut cloth 87 is achieved, and after the operation is finished.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and fig. 6-10, the clamping mechanism 10 further comprises a clamping mechanism 10, wherein the clamping mechanism 10 comprises a third wedge block 100, a fifth return spring 101, a fourth wedge block 102 and a sixth return spring 103, the third wedge block 100 is slidably arranged at the rear part of the first rotating shaft 71, the fifth return spring 101 is connected between the third wedge block 100 and the first rotating shaft 71, the fourth wedge block 102 is slidably arranged at the inner side of the upper part of the first rotating shaft 71, and the sixth return spring 103 is connected between the first rotating shaft 71 and the fourth wedge block 102.

When the cloth is required to be clamped, people sleeve the cloth on the first rotating shaft 71, the cloth is contacted with the third wedge block 100, so that the third wedge block 100 slides downwards, the fifth return spring 101 is compressed, and then people push the cloth forwards, so that the cloth drives the fourth wedge block 102 to slide forwards, the sixth return spring 103 is compressed, when the cloth moves forwards and is not contacted with the third wedge block 100, the third wedge block 100 slides upwards under the reset action of the fifth return spring 101, meanwhile, the third wedge block 100 clamps the cloth with the fourth wedge block 102, when the cloth is not required to be used, people take out the cloth cylinder, so that the cloth cylinder is not contacted with the fourth wedge block 102, and the fourth wedge block 102 slides backwards to the original position under the reset of the sixth return spring 103, so that the aim of clamping the cloth can be finally realized.

The novel multifunctional knife rest is characterized by further comprising a buffer mechanism 11, wherein the buffer mechanism 11 comprises a second knife blade 110, a third limiting rod 111 and a seventh return spring 112, a plurality of third limiting rods 111 are arranged in the lower portion of the first knife blade 3 in a sliding mode, the bottom of each third limiting rod 111 is connected with the second knife blade 110, and a plurality of seventh return springs 112 are connected between the second knife blade 110 and the first knife blade 3.

When the first blade 3 slides downwards, the first blade 3 drives the second blade 110 to slide downwards, the second blade 110 contacts with the cloth, so that the cloth is cut, and then the second blade 110 contacts with the supporting plate 81, so that the second blade 110 slides upwards along the first blade 3, the second blade 110 drives the third limiting rod 111 to slide upwards, the seventh return spring 112 is compressed, when the first blade 3 drives the second blade 110 to slide upwards, the second blade 110 does not contact with the supporting plate 81, and under the reset of the seventh return spring 112, the second blade 110 slides downwards to the original position, so that the third limiting rod 111 slides downwards to the original position, and finally, better cutting of the cloth can be realized.

The blanking mechanism 12 comprises a fifth supporting frame 120, a spur gear 121, a fifth rotating shaft 122, a spur gear 123, a connecting rod 124, a torsion spring 125 and a clamping block 126, wherein the upper side of the bottom plate 1 is connected with the fifth supporting frame 120, the fifth rotating shaft 122 is connected with the fifth rotating shaft 120 in a rotating manner, the spur gear 123 is connected to the fifth rotating shaft 122 in a rotating manner, the spur gear 121 is connected to the middle of the bottom of the first connecting block 85, the spur gear 123 is meshed with the spur gear 121, the connecting rod 124 is connected to the fifth rotating shaft 122, the clamping block 126 is connected to the connecting rod 124 in a rotating manner, the clamping block 126 is in clamping fit with the spur gear 123, and two torsion springs 125 are connected between the clamping block 126 and the connecting rod 124.

When the cut cloth is required to be fed, the first connecting block 85 drives the straight rack 121 to move leftwards, the straight rack 121 moves leftwards and is meshed with the straight gear 123, the straight gear 123 drives the fifth rotating shaft 122 to rotate, when the cloth moves leftwards to a certain position, the cut cloth is conveyed through the rotation of the fifth rotating shaft 122, when the first connecting block 85 drives the straight rack 121 to move rightwards, the straight rack 121 is matched with the clamping block 126 through the cooperation of the straight gear 123, the torsion spring 125 deforms, the fifth rotating shaft 122 cannot rotate, the straight gear 123 idles, after the straight rack 121 is separated from the straight gear 123, the clamping block 126 reversely rotates to the original position under the reset action of the torsion spring 125, and finally the aim of feeding the cut cloth can be achieved.

The collecting mechanism 13 comprises a sixth rotating shaft 130, a second belt pulley 131, a second conveying belt 132, a cam 133, a second limiting block 134, a collecting frame 135 and an eighth return spring 136, wherein the upper side of the middle part of the bottom plate 1 is connected with the second limiting block 134, the second limiting block 134 is positioned on the right side of the fifth supporting frame 120, the left side of the upper part of the second limiting block 134 is connected with the collecting frame 135 in a sliding manner, three eighth return springs 136 are connected between the second limiting block 134 and the collecting frame 135, the lower part of the fifth supporting frame 120 is rotationally connected with the sixth rotating shaft 130, the sixth rotating shaft 130 is connected with the cam 133, the cam 133 is matched with the collecting frame 135, the fifth rotating shaft 122 and the sixth rotating shaft 130 are connected with the second belt pulley 131, and the second conveying belt 132 is wound between the second belt pulleys 131.

When the cloth needs to be subjected to shaking collection, the cloth falls to the top of the collection frame 135, the fifth rotating shaft 122 rotates through the second belt pulley 131 and the second conveying belt 132, the sixth rotating shaft 130 can be enabled to rotate, the sixth rotating shaft 130 drives the cam 133 to rotate, when the protruding position of the cam 133 rotates to be in contact with the collection frame 135, the collection frame 135 slides rightwards along the second limiting block 134, the eighth return spring 136 is compressed, when the protruding position of the cam 133 rotates to be not in contact with the collection frame 135, the collection frame 135 slides leftwards to be in place under the reset action of the eighth return spring 136, and shaking can be carried out on the collection frame 135, so that the cloth is evenly stacked in the collection frame 135, and finally the purpose of shaking collection of the cloth can be achieved.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which are intended to be comprehended within the scope of the present invention.

Claims

1. The utility model provides a lathe cylinder cloth tailors equipment which characterized in that: the automatic feeding device comprises a bottom plate (1), a first supporting frame (2), a first blade (3), a first limiting rod (4), first return springs (5), first limiting blocks (6), a feeding mechanism (7), a conveying mechanism (8) and a pressing mechanism (9), wherein the feeding mechanism (7) is arranged on the bottom plate (1), the conveying mechanism (8) is arranged at the top of the bottom plate (1), the pressing mechanism (9) is arranged on the conveying mechanism (8), the first supporting frame (2) is arranged at the top of the pressing mechanism (9), the first blade (3) is connected in a sliding mode, the first limiting blocks (6) are arranged on two sides in the first supporting frame (2), the two first limiting rods (4) are connected in the first blade (3) in a sliding mode, and the first limiting rods (4) are in sliding fit with the first limiting blocks (6), and the two first return springs (5) are connected between the first limiting blocks (6) and the first blade (3);

the feeding mechanism (7) comprises a second supporting frame (70), a first rotating shaft (71), first wedge blocks (72), second return springs (73), bearings (74) and third return springs (75), wherein the second supporting frames (70) are arranged on two sides of the bottom plate (1), the first rotating shafts (71) are rotatably and slidably connected between the second supporting frames (70), the first wedge blocks (72) are uniformly and slidably arranged in the first rotating shaft (71), the number of the first wedge blocks (72) is three, the second return springs (73) are connected between the first rotating shaft (71) and the first wedge blocks (72), bearings (74) are arranged on the outer sides of the front portions of the first rotating shaft (71), and the third return springs (75) are connected between the bearings (74) and the second supporting frames (70);

the conveying mechanism (8) comprises a third supporting frame (80), a supporting plate (81), a clamping block (82), a second limiting rod (83), a fourth return spring (84), a first connecting block (85), a second wedge-shaped block (86) and a cylinder (87), wherein the third supporting frame (80) is arranged on two sides of the top of the bottom plate (1), the supporting plate (81) is connected between the second supporting frame (70) and the top of the third supporting frame (80), the clamping block (82) is arranged on the supporting plate (81) in a sliding mode, an elastic piece is connected between the clamping block (82) and the supporting plate (81), the second limiting rod (83) is connected to the top of the clamping block (82), the clamping block is arranged in a sliding mode in the middle of the second limiting rod (83), the fourth return spring (84) is arranged between the clamping block and the clamping block (82), the second wedge-shaped block (86) is arranged on the top of the clamping block in a sliding mode, the first connecting block (85) is connected between the second limiting rod (83), the cylinder (87) is arranged on the top of the bottom plate (1), the cylinder (87) is connected with the second connecting block (86) on one side, and the second wedge-shaped block (86) is connected to the middle part of the clamping block (82) in a sliding mode;

the pushing mechanism (9) comprises a fourth supporting frame (90), a ratchet bar (91), a second rotating shaft (92), a ratchet gear (93), a third rotating shaft (94), a first bevel gear (95), a second bevel gear (96), a fourth rotating shaft (97), a first belt pulley (98), a first conveying belt (99) and a second connecting block (910), wherein the fourth supporting frame (90) is arranged on the upper side of the third supporting frame (80), the fourth supporting frame (90) is in sliding fit with the second wedge block (86), the ratchet bar (91) is connected to the rear side of a telescopic rod of the air cylinder (87), the ratchet bar (91) is in sliding fit with the fourth supporting frame (90), the second rotating shaft (92) is rotatably connected to the upper side of the rear part of the third supporting frame (80), the ratchet bar (91) is matched with the ratchet gear (93), the top of the second rotating shaft (92) is connected with the first bevel gear (95), the third rotating shaft (94) is rotatably connected to the rear part of the third supporting frame (2), the third rotating shaft (94) is connected to the left bevel gear (96), the second bevel gear (96) is rotatably connected to the middle part of the second bevel gear (96), the third rotating shaft (94) and the fourth rotating shaft (97) are both connected with first belt pulleys (98), a first conveying belt (99) is connected between the first belt pulleys (98), a second connecting block (910) is arranged on the upper side of the left part of the fourth rotating shaft (97), and the second connecting block (910) is in sliding fit with the first blade (3).

2. A machine tool drum cloth cutting apparatus as defined in claim 1, wherein: the novel clamping mechanism comprises a clamping mechanism (10), the clamping mechanism (10) comprises a third wedge block (100), a fifth return spring (101), a fourth wedge block (102) and a sixth return spring (103), the third wedge block (100) is arranged in the sliding mode at the rear portion of the first rotating shaft (71), the fifth return spring (101) is connected between the third wedge block (100) and the first rotating shaft (71), the fourth wedge block (102) is arranged on the inner side of the upper portion of the first rotating shaft (71) in a sliding mode, and the sixth return spring (103) is connected between the first rotating shaft (71) and the fourth wedge block (102).

3. A machine tool drum cloth cutting apparatus as claimed in claim 2, wherein: the novel multifunctional knife rest is characterized by further comprising a buffer mechanism (11), wherein the buffer mechanism (11) comprises a second knife blade (110), a third limiting rod (111) and a seventh return spring (112), a plurality of third limiting rods (111) are arranged in the lower portion of the first knife blade (3) in a sliding mode, the bottom of each third limiting rod (111) is connected with the second knife blade (110), and a plurality of seventh return springs (112) are connected between the second knife blade (110) and the first knife blade (3).

4. A machine tool drum cloth cutting apparatus as claimed in claim 3, wherein: the feeding device comprises a feeding mechanism (12), the feeding mechanism (12) comprises a fifth supporting frame (120), straight racks (121), a fifth rotating shaft (122), a spur gear (123), a connecting rod (124), torsion springs (125) and clamping blocks (126), the fifth supporting frame (120) is connected to the upper side of a base plate (1), the fifth rotating shaft (122) is connected to the fifth supporting frame (120) in a rotating mode, the spur gear (123) is connected to the fifth rotating shaft (122) in a rotating mode, the straight racks (121) are connected to the middle of the bottom of a first connecting block (85), the spur gear (123) is meshed with the straight racks (121), connecting rods (124) are connected to the fifth rotating shaft (122), clamping blocks (126) are connected to the connecting rods (124) in a rotating mode, the clamping blocks (126) are matched with the spur gear (123) in a clamping mode, and two torsion springs (125) are connected between the clamping blocks (126) and the connecting rods (124).

5. A machine tool drum cloth cutting apparatus as defined in claim 4 wherein: the device comprises a collecting mechanism (13), the collecting mechanism (13) comprises a sixth rotating shaft (130), a second belt pulley (131), a second conveying belt (132), a cam (133), a second limiting block (134), a collecting frame (135) and an eighth return spring (136), the upper side of the middle of a bottom plate (1) is connected with the second limiting block (134), the left side of the upper part of the second limiting block (134) is slidably connected with the collecting frame (135), three eighth return springs (136) are connected between the second limiting block (134) and the collecting frame (135), the sixth rotating shaft (130) is connected in the lower part of a fifth supporting frame (120), the cam (133) is connected on the sixth rotating shaft (130), the cam (133) is matched with the collecting frame (135), the fifth rotating shaft (122) is connected with the sixth rotating shaft (130) through the second belt pulley (131), and the second conveying belt (132) is wound between the second belt pulleys (131).