CN108978167B - Novel batching cutting device for textile machinery - Google Patents

Abstract

The invention relates to a related textile machine, in particular to a novel batching cutting device for the textile machine, which comprises a cloth cutting mechanism, an upper shell, a cloth positioning mechanism, a cloth conveying mechanism, a cloth rotating mechanism, a cloth storage vehicle and a device base. The cloth cutting mechanism is connected with the upper shell, the upper shell is connected with the cloth positioning mechanism, the cloth conveying mechanism is connected with the upper shell, the cloth conveying mechanism is connected with the device base, the device base is connected with the cloth containing vehicle, and the cloth conveying mechanism is connected with the cloth rotating mechanism.

Description

Novel batching cutting device for textile machinery

Technical Field

The invention relates to a textile machine, in particular to a novel batching cutting device for the textile machine.

Background

The cloth rolling machine is used for rolling and packing various fabrics, non-woven fabrics, foam cotton, leather, paper, reflective materials, acetate cloth, reinforcing belts, conductive cloth and other materials and repeatedly rolling before various fabrics are cut and bundled, straight grain or 45-degree twill fabrics can be rolled, photoelectric opposite sides can be aligned with automatic code control effectively for thick and thin materials, the length of the rolled cloth can be set, the common cloth rolling machine can not be adjusted according to the width of the cloth, and therefore a novel cloth rolling and cutting device for textile machinery is designed to solve the problem.

Disclosure of Invention

The invention mainly solves the technical problem of providing a novel batching cutting device for textile machinery, which can be adjusted according to the width of cloth, is provided with an inspection device for preventing the cloth from being reeled, is provided with a storage device for intensively transporting the reeled cloth, and has simple and reasonable structure and convenient operation.

In order to solve the technical problems, the invention relates to a novel batching cutting device for textile machinery, and particularly relates to a novel batching cutting device for textile machinery.

The cloth cutting mechanism comprises a first servo, an L-shaped fixing piece, a second servo, a cutter positioning cover, a cutter fixing frame, an auxiliary cloth pressing piece and a cloth cutting knife, wherein the first servo is matched with the upper layer shell through a groove;

the upper shell comprises a track groove I, a moving groove and a servo groove, wherein the track groove I is adaptive to the servo groove I, the moving groove is adaptive to the servo three phases, and the servo groove is adaptive to the large-scale servo;

the cloth positioning mechanism comprises a third servo, a support column and a rubber mat, the third servo is matched with the upper shell through a groove, the third servo is connected with the support column, the support column is connected with the rubber mat, the rubber mat is positioned at the bottom end of the support column, and the third servo is positioned at the top end of the support column;

the cloth conveying mechanism comprises a fixed shell, auxiliary conveying rollers, a cloth inspection sensor, supporting legs, auxiliary rollers, a second track groove and a large-scale servo, the fixed shell is connected with the auxiliary conveying rollers, the number of the auxiliary conveying rollers is multiple, the cloth inspection sensor is connected with the fixed shell, the fixed shell is connected with the supporting legs, the number of the supporting legs is two, the two supporting legs are respectively positioned at the left end and the right end of the bottom of the fixed shell, the second track groove is formed in the fixed shell, the second track groove is adaptive to the cloth rotating mechanism, the supporting legs are connected with the auxiliary rollers, the auxiliary rollers are adaptive to the device base, the large-scale servo is connected with the fixed shell, and the large-scale servo is adaptive to the upper shell through the grooves;

the cloth rotating mechanism comprises a kneading finger, a rotating disc, a bearing, a linkage gear, a gear chain, a mechanism shell, an engine, a servo machine IV, a support rod, a roller fixing piece, a spherical roller and an engine fixing cover, wherein the engine fixing cover is connected with the engine through a fastening screw, the engine fixing cover is connected with the mechanism shell through a fastening screw, the engine is connected with the linkage gear through the gear chain, the linkage gear is connected with the mechanism shell, the linkage gear is occluded with the bearing, the bearing is connected with the mechanism shell through a fastening screw, the bearing is connected with the rotating disc, the rotating disc is connected with the kneading finger, the servo machine IV is connected with the mechanism shell, the servo machine IV is adapted to a track groove II, the support rod is connected with the mechanism shell through welding, the support rod is connected with the roller fixing piece, the spherical roller is matched with the device base through a groove;

the cloth storage trolley comprises a storage trolley main body, moving rollers and a trolley fixing mechanism, wherein the storage trolley main body is connected with the moving rollers, the number of the moving rollers is four, the moving rollers are uniformly distributed at the bottom of the storage trolley main body, the storage trolley main body is connected with the trolley fixing mechanism, and the trolley fixing mechanism is matched with a device base through a groove;

the vehicle fixing mechanism comprises a T-shaped handle, a sealing cover, a supporting spring and a clamping part, the clamping part is matched with the main body of the containing vehicle through a through hole, the clamping part is matched with the device base through a groove, the supporting spring is connected with the clamping part, the supporting spring is connected with the sealing cover, the sealing cover is connected with the main body of the containing vehicle through a fastening screw, the T-shaped handle is matched with the main body of the containing vehicle through the through hole, and the T-shaped handle penetrates through the supporting spring and is meshed with the clamping part through threads;

the device base comprises a base main body, a roller groove, a strip-shaped groove, a strong spring, a telescopic plate, a positioning cover, a telescopic piece and a device moving wheel, wherein the roller groove is formed in the base main body and is matched with the auxiliary roller;

the cloth cutting mechanism is connected with the upper shell, the upper shell is connected with the cloth positioning mechanism, the cloth conveying mechanism is connected with the upper shell, the cloth conveying mechanism is connected with the device base, the device base is connected with the cloth containing vehicle, and the cloth conveying mechanism is connected with the cloth rotating mechanism.

As a further optimization of the technical scheme, the novel cloth rolling cutting device for the textile machinery has two cloth positioning mechanisms, two cloth conveying mechanisms and two cloth rotating mechanisms, wherein the cloth positioning mechanisms and the cloth conveying mechanisms are symmetrical in position.

As a further optimization of the technical scheme, the rubber mat of the novel batching cutting device for the textile machinery is made of natural rubber.

As a further optimization of the technical scheme, the supporting spring and the strong spring of the novel batching cutting device for the textile machinery are made of carbon steel.

As a further optimization of the technical scheme, the bearing of the novel batching cutting device for the textile machinery is made of bearing steel.

As a further optimization of the technical scheme, the novel batching and cutting device for the textile machinery has a plurality of auxiliary conveying rollers which are uniformly distributed on the fixed shell.

As a further optimization of the technical scheme, the cloth breaking knife of the novel batching cutting device for the textile machinery is made of steel.

As a further optimization of the technical scheme, the auxiliary roller of the novel batching cutting device for the textile machinery is made of steel.

The novel batching cutting device for the textile machinery has the beneficial effects that:

the novel batching cutting device for the textile machinery can be adjusted according to the width of cloth, is provided with the inspection device for preventing the cloth from being reeled, is provided with the storage device for intensively transporting the reeled cloth, and has the advantages of simple and reasonable structure and convenient operation.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a novel batching cutting device for textile machinery.

Fig. 2 is a schematic cross-sectional structure of a-a in fig. 1.

Fig. 3 is a partially enlarged structural diagram of B in fig. 1.

Fig. 4 is a schematic perspective view of the upper shell 2 of the new cloth rolling and cutting device for textile machinery.

Fig. 5 is a partially enlarged structural diagram of C in fig. 1.

Fig. 6 is a schematic structural diagram of a cloth conveying mechanism 4 of a novel batching cutting device for textile machinery.

Fig. 7 is a schematic structural diagram of a cloth rotating mechanism 5 of a novel cloth rolling and cutting device for textile machinery.

Fig. 8 is a schematic view of a partially enlarged structure of D in fig. 1.

Fig. 9 is a schematic structural view of a cloth storage cart 6 of a novel batching cutting device for textile machinery according to the present invention.

Fig. 10 is a partially enlarged structural view of G in fig. 9.

FIG. 11 is a schematic cross-sectional view of E-E in FIG. 1.

Fig. 12 is a partially enlarged structural view of F in fig. 1.

In the figure: a cloth cutting mechanism 1; a first server 1-1; 1-2 of an L-shaped fixing piece; a second server 1-3; 1-4 cutter positioning covers; 1-5 parts of a cutter fixing frame; auxiliary cloth pressing pieces 1-6; 1-7 parts of a cloth cutter; an upper housing 2; a first track groove 2-1; moving the groove 2-2; a servo groove 2-3; a cloth positioning mechanism 3; a third server 3-1; 3-2 of a support column; 3-3 of a rubber cushion; a cloth conveying mechanism 4; a fixed housing 4-1; an auxiliary conveying roller 4-2; a piece goods inspection sensor 4-3; 4-4 of supporting legs; 4-5 of auxiliary rollers; 4-6 of a second track groove; 4-7 of a large server; a cloth rotating mechanism 5; 5-1 parts of kneading fingers; rotating the disc 5-2; 5-3 parts of a bearing; 5-4 parts of a linkage gear; 5-5 parts of a gear chain; 5-6 parts of a mechanism shell; 5-7 of an engine; a fourth server 5-8; 5-9 parts of a support rod; 5-10 parts of roller fixing piece; 5-11 parts of spherical rollers; 5-12 parts of engine fixing cover; a cloth storage cart 6; a storage cart main body 6-1; moving the roller 6-2; 6-3 of a vehicle fixing mechanism; 6-3-1 of a T-shaped handle; 6-3-2 parts of a sealing cover; a support spring 6-3-3; 6-3-4 parts of a clamping piece; a device base 7; a base body 7-1; a roller groove 7-2; 7-3 of strip-shaped grooves; 7-4 of a strong spring; 7-5 of a telescopic plate; 7-6 of a positioning cover; a telescopic member 7-7; the device moves the wheels 7-8.

Detailed Description

The first embodiment is as follows:

the present invention relates to a related textile machine, and more specifically, to a novel cloth rolling and cutting device for a textile machine, which comprises a cloth cutting mechanism 1, an upper housing 2, a cloth positioning mechanism 3, a cloth conveying mechanism 4, a cloth rotating mechanism 5, a cloth storage cart 6, and a device base 7, and the device can be adjusted according to the width of cloth, is provided with an inspection device for preventing the cloth from rolling, is provided with a storage device for transporting the rolled cloth in a centralized manner, and has a simple and reasonable structure and convenient operation.

The cloth cutting mechanism 1 comprises a first servo machine 1-1, an L-shaped fixing piece 1-2, a second servo machine 1-3, a cutter positioning cover 1-4, a cutter fixing frame 1-5, an auxiliary cloth pressing piece 1-6 and a cloth cutting knife 1-7, wherein the first servo machine 1-1 is matched with an upper outer shell 2 through a groove, the first servo machine 1-1 is connected with the L-shaped fixing piece 1-2, the L-shaped fixing piece 1-2 is matched with the second servo machine 1-3 through a groove, the second servo machine 1-3 is connected with the cutter fixing frame 1-5, the cutter fixing frame 1-5 is connected with the cloth cutting knife 1-7, the cutter fixing frame 1-5 is matched with the cutter positioning cover 1-4 through a through hole, the number of the auxiliary cloth pressing pieces 1-6 is multiple, and the auxiliary cloth pressing pieces are uniformly distributed on the left side and the right side of the cutter fixing frame 1-5, the cloth cutting knife 1-7 is located in the middle of the bottom of the L-shaped fixing part 1-2, the servo machine I1-1 is located at the top end of the L-shaped fixing part 1-2, the cloth cutting knife 1-7 plays a role in cutting cloth, the servo machine II 1-3 plays a role in driving the cloth cutting knife 1-7, the knife positioning cover 1-4 plays a role in fixing parts, and the servo machine I1-1 plays a role in adjusting positions;

the upper shell 2 comprises a track groove I2-1, a moving groove 2-2 and a servo groove 2-3, wherein the track groove I2-1 is adapted to the servo groove I1-1, the moving groove 2-2 is adapted to the servo groove III 3-1, and the servo groove 2-3 is adapted to the large servo groove 4-7;

the cloth positioning mechanism 3 comprises a third servo machine 3-1, a support column 3-2 and a rubber mat 3-3, the third servo machine 3-1 is matched with the upper shell 2 through a groove, the third servo machine 3-1 is connected with the support column 3-2, the support column 3-2 is connected with the rubber mat 3-3, the rubber mat 3-3 is located at the bottom end of the support column 3-2, the third servo machine 3-1 is located at the top end of the support column 3-2, the rubber mat 3-3 plays a role in fixing cloth, and the third servo machine 3-1 adjusts the position of the rubber mat 3-3;

the cloth conveying mechanism 4 comprises a fixed shell 4-1, auxiliary conveying rollers 4-2, a cloth inspection sensor 4-3, supporting legs 4-4, auxiliary rollers 4-5, a track groove II 4-6 and a large-scale servo 4-7, wherein the fixed shell 4-1 is connected with the auxiliary conveying rollers 4-2, the number of the auxiliary conveying rollers 4-2 is multiple, the cloth inspection sensor 4-3 is connected with the fixed shell 4-1, the fixed shell 4-1 is connected with the supporting legs 4-4, the number of the supporting legs 4-4 is two, the two supporting legs are respectively positioned at the left end and the right end of the bottom of the fixed shell 4-1, the track groove II 4-6 is arranged on the fixed shell 4-1, and the track groove II 4-6 is matched with a cloth rotating mechanism 5, the supporting legs 4-4 are connected with the auxiliary rollers 4-5, the auxiliary rollers 4-5 are matched with a base 7 of the device, the large-scale servo 4-7 is connected with the fixed shell 4-1, the large-scale servo 4-7 is matched with the upper shell 2 through a groove, whether the cloth falls off is sensed by the cloth inspection sensor 4-3, when the cloth falls off is detected, the device stops running and is manually adjusted, the auxiliary conveying rollers 4-2 play a role in transmission, the supporting legs 4-4 play a role in supporting, and the large-scale servo 4-7 plays a role in adjusting the distance;

the cloth rotating mechanism 5 comprises a kneading finger 5-1, a rotating disc 5-2, a bearing 5-3, a linkage gear 5-4, a gear chain 5-5, a mechanism shell 5-6, an engine 5-7, a servo motor four 5-8, a support rod 5-9, a roller fixing piece 5-10, a spherical roller 5-11 and an engine fixing cover 5-12, wherein the engine fixing cover 5-12 is connected with the engine 5-7 through a fastening screw, the engine fixing cover 5-12 is connected with the mechanism shell 5-6 through a fastening screw, the engine 5-7 is connected with the linkage gear 5-4 through the gear chain 5-5, the linkage gear 5-4 is connected with the mechanism shell 5-6, the linkage gear 5-4 is meshed with the bearing 5-3, the bearing 5-3 is connected with the mechanism shell 5-6 through a fastening screw, the bearing 5-3 is connected with the rotating disc 5-2, the rotating disc 5-2 is connected with the kneading finger 5-1, the servo machine four 5-8 is connected with the mechanism shell 5-6, the servo machine four 5-8 is adapted to the track groove two 4-6, the support bar 5-9 is connected with the mechanism shell 5-6 through welding, the support bar 5-9 is connected with the roller fixing piece 5-10 through welding, the roller fixing piece 5-10 is connected with the spherical roller 5-11, the spherical roller 5-11 is adapted to the device base 7 through a groove, the kneading finger 5-1 is connected, the engine 5-7 drives the linkage gear 5-4 through the gear chain 5-5, the linkage gear 5-4 drives the bearing 5-3, the bearing 5-3 drives the rotating disc 5-2, the rotating disc 5-2 drives the kneading finger 5-1, so as to drive the cloth to rotate, the engine fixing cover 5-12 plays a role in fixing the engine 5-7, the spherical roller 5-11 plays a role in assisting movement, and the support rod 5-9 plays a role in supporting;

the cloth storage trolley 6 comprises a storage trolley main body 6-1, moving rollers 6-2 and a trolley fixing mechanism 6-3, wherein the storage trolley main body 6-1 is connected with the moving rollers 6-2, the number of the moving rollers 6-2 is four, the moving rollers are uniformly distributed at the bottom of the storage trolley main body 6-1, the storage trolley main body 6-1 is connected with the trolley fixing mechanism 6-3, the trolley fixing mechanism 6-3 is matched with a device base 7 through a groove, the moving rollers 6-2 are convenient to move, the storage trolley main body 6-1 is a carrying container, and the trolley fixing mechanism 6-3 is a fixing mechanism;

the vehicle fixing mechanism 6-3 comprises a T-shaped handle 6-3-1, a sealing cover 6-3-2, a supporting spring 6-3-3 and a clamping piece 6-3-4, wherein the clamping piece 6-3-4 is matched with a storage vehicle main body 6-1 through a through hole, the clamping piece 6-3-4 is matched with a device base 7 through a groove, the supporting spring 6-3-3 is connected with the clamping piece 6-3-4, the supporting spring 6-3-3 is connected with the sealing cover 6-3-2, the sealing cover 6-3-2 is connected with the storage vehicle main body 6-1 through a fastening screw, the T-shaped handle 6-3-1 is matched with the storage vehicle main body 6-1 through a through hole, and the T-shaped handle 6-3-1 penetrates through the supporting spring 6-3-3 and the clamping piece 6-3-4 Through the meshing of the threads, the supporting spring 6-3-3 plays a role of supporting the clamping part 6-3-4, the T-shaped handle 6-3-1 controls the clamping part 6-3-4, and the sealing cover 6-3-2 plays a role of fixing a part;

the device base 7 comprises a base main body 7-1, roller grooves 7-2, strip grooves 7-3, strong springs 7-4, telescopic plates 7-5, a positioning cover 7-6, telescopic pieces 7-7 and device moving wheels 7-8, wherein the base main body 7-1 is provided with the roller grooves 7-2, the roller grooves 7-2 are matched with auxiliary rollers 4-5, the base main body 7-1 is provided with the strip grooves 7-3, the strip grooves 7-3 are matched with the strong springs 7-4, the strong springs 7-4 are connected with the telescopic plates 7-5, the positioning cover 7-6 is connected with the base main body 7-1 through fastening screws, the telescopic pieces 7-7 are connected with the telescopic plates 7-5, and the telescopic pieces 7-7 are matched with the positioning cover 7-6 through holes, the telescopic part 7-7 is connected with the device moving wheel 7-8, the strong spring 7-4 supports the telescopic plate 7-5, thereby realizing the shock absorption effect, and the positioning cover 7-6 plays a role of a sealing part;

cloth cutting mechanism 1 is connected with upper shell 2, and upper shell 2 is connected with cloth positioning mechanism 3, and cloth transport mechanism 4 is connected with upper shell 2, and cloth transport mechanism 4 is connected with device base 7, and device base 7 is connected with cloth storage vehicle 6, and cloth transport mechanism 4 is connected with cloth rotary mechanism 5.

The second embodiment is as follows:

in the following, the present embodiment is described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, there are two cloth positioning mechanisms 3, two cloth conveying mechanisms 4, and two cloth rotating mechanisms 5, wherein the positions of the cloth positioning mechanisms 3 and the cloth conveying mechanisms 4 are symmetrical.

The third concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the rubber pad 3-3 is made of natural rubber.

The fourth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the supporting spring 6-3-3 and the strong spring 7-4 are made of carbon steel.

The fifth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the first embodiment will be further described, in which the material of the bearing 5-3 is bearing steel.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which a plurality of auxiliary conveying rollers 4-2 are uniformly distributed on the fixed housing 4-1.

The seventh embodiment:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment in which the material of the cloth cutting blades 1 to 7 is steel.

The specific implementation mode is eight:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the present embodiment further describes the first embodiment, in which the material of the auxiliary roller 4-5 is steel.

The use method of the device comprises the following steps: the distance between two cloth conveying mechanisms 4 is adjusted through a large-scale servo 4-7 according to the width of the cloth, so that the purpose of adjusting the distance between the cloth rotating mechanisms 5 is achieved, a servo three 3-1 and the large-scale servo 4-7 synchronously move, one end of the cloth penetrates through a cloth inspection sensor 4-3 and an auxiliary conveying roller 4-2 and is connected with a kneading finger 5-1, an engine 5-7 drives a linkage gear 5-4 through a gear chain 5-5, the linkage gear 5-4 drives a bearing 5-3, the bearing 5-3 drives a rotating disc 5-2, and the rotating disc 5-2 drives the kneading finger 5-1 to drive the cloth to rotate.

The servo machine IV 5-8 drives the cloth rotating mechanism 5 to integrally move forwards, and the spherical rollers 5-11 play a role in assisting movement, so that the distance is adjusted according to the thickness of the rolled cloth.

Whether the cloth falls off is sensed by the cloth inspection sensor 4-3, and when the cloth falls off is detected, the device stops running and is adjusted manually.

After the cloth is rolled up, the servo machine III 3-1 drives the supporting column 3-2 to descend, so that the rubber mat 3-3 is connected with the fixed shell 4-1, thereby clamping the cloth, the first servo 1-1 drives the L-shaped fixing piece 1-2 to descend, the L-shaped fixing piece 1-2 drives the cloth cutter 1-7 to descend, the cloth cutter 1-7 is contacted with the cloth, the second servo 1-3 drives the cloth cutter 1-7, thereby realizing the purpose of cutting off the cloth, adjusting the distance between the two cloth rotating mechanisms 5 to lead the kneading finger 5-1 to draw out the rolled cloth, leading the cloth to fall into the cloth receiving vehicle 6, when the cloth storage vehicle 6 is full, the T-shaped handle 6-3-1 is pulled upwards to separate the blocking piece 6-3-4 from the device base 7, so that the cloth in the cloth storage vehicle 6 can be transported to a proper position.

The strong spring 7-4 supports the telescopic plate 7-5, the telescopic plate 7-5 is connected with the telescopic piece 7-7, and the telescopic piece 7-7 is connected with the device moving wheel 7-8, so that the shock absorption effect is realized.

This device can adjust according to the width of cloth, is provided with inspection device, prevents that cloth from beating the book, and the device is provided with storage device, can transport the cloth after beating the book concentratedly, and device simple structure is reasonable, the operation of being convenient for.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (8)

1. The utility model provides a neotype batching cutting device for spinning machine, includes disconnected cloth mechanism (1), upper shell (2), cloth positioning mechanism (3), cloth transport mechanism (4), cloth rotary mechanism (5), cloth storage vehicle (6), device base (7), its characterized in that: the cloth cutting mechanism (1) comprises a first servo machine (1-1), an L-shaped fixing piece (1-2), a second servo machine (1-3), a cutter positioning cover (1-4), a cutter fixing frame (1-5), an auxiliary cloth pressing piece (1-6) and a cloth cutting knife (1-7), wherein the first servo machine (1-1) is matched with the upper outer shell (2) through a groove, the first servo machine (1-1) is connected with the L-shaped fixing piece (1-2), the L-shaped fixing piece (1-2) is matched with the second servo machine (1-3) through a groove, the second servo machine (1-3) is connected with the cutter fixing frame (1-5), the cutter fixing frame (1-5) is connected with the cloth cutting knife (1-7), the cutter fixing frame (1-5) is matched with the cutter positioning cover (1-4) through a through hole, the number of the auxiliary cloth pressing pieces (1-6) is multiple, the auxiliary cloth pressing pieces are uniformly distributed on the left side and the right side of the cutter fixing frame (1-5), the cloth cutting knife (1-7) is located in the middle of the bottom of the L-shaped fixing piece (1-2), and the servo machine I (1-1) is located at the top end of the L-shaped fixing piece (1-2);

the upper shell (2) comprises a track groove I (2-1), a moving groove (2-2) and a servo groove (2-3), the track groove I (2-1) is adapted to the servo groove I (1-1), the moving groove (2-2) is adapted to the servo groove III (3-1), and the servo groove (2-3) is adapted to a large servo (4-7);

the cloth positioning mechanism (3) comprises a third servo (3-1), a support column (3-2) and a rubber mat (3-3), the third servo (3-1) is matched with the upper layer shell (2) through a groove, the third servo (3-1) is connected with the support column (3-2), the support column (3-2) is connected with the rubber mat (3-3), the rubber mat (3-3) is located at the bottom end of the support column (3-2), and the third servo (3-1) is located at the top end of the support column (3-2);

the cloth conveying mechanism (4) comprises a fixed shell (4-1), auxiliary conveying rollers (4-2), cloth inspection sensors (4-3), supporting legs (4-4), auxiliary rollers (4-5), a track groove II (4-6) and a large-scale servo (4-7), wherein the fixed shell (4-1) is connected with the auxiliary conveying rollers (4-2), the number of the auxiliary conveying rollers (4-2) is multiple, the cloth inspection sensors (4-3) are connected with the fixed shell (4-1), the fixed shell (4-1) is connected with the supporting legs (4-4), the number of the supporting legs (4-4) is two, the two supporting legs are respectively positioned at the left end and the right end of the bottom of the fixed shell (4-1), the track groove II (4-6) is arranged on the fixed shell (4-1), the second track groove (4-6) is matched with the cloth rotating mechanism (5), the supporting legs (4-4) are connected with the auxiliary rollers (4-5), the auxiliary rollers (4-5) are matched with the device base (7), the large-scale servo (4-7) is connected with the fixed shell (4-1), and the large-scale servo (4-7) is matched with the upper shell (2) through the groove;

the cloth rotating mechanism (5) comprises a kneading finger (5-1), a rotating disc (5-2), a bearing (5-3), a linkage gear (5-4), a gear chain (5-5), a mechanism shell (5-6), an engine (5-7), a servo four (5-8), a support rod (5-9), a roller fixing piece (5-10), a spherical roller (5-11) and an engine fixing cover (5-12), wherein the engine fixing cover (5-12) is connected with the engine (5-7) through a fastening screw, the engine fixing cover (5-12) is connected with the mechanism shell (5-6) through a fastening screw, the engine (5-7) is connected with the linkage gear (5-4) through the gear chain (5-5), the linkage gear (5-4) is connected with the mechanism shell (5-6), the linkage gear (5-4) is meshed with the bearing (5-3), the bearing (5-3) is connected with the mechanism shell (5-6) through a fastening screw, the bearing (5-3) is connected with the rotating disk (5-2), the rotating disk (5-2) is connected with the kneading finger (5-1), the servo machine four (5-8) is connected with the mechanism shell (5-6), the servo machine four (5-8) is adapted to the track groove two (4-6), the support rod (5-9) is connected with the mechanism shell (5-6) through welding, the support rod (5-9) is connected with the roller fixing piece (5-10) through welding, the roller fixing piece (5-10) is connected with the spherical roller (5-11), the spherical rollers (5-11) are adapted to the device base (7) through grooves;

the cloth storage trolley (6) comprises a storage trolley main body (6-1), moving rollers (6-2) and trolley fixing mechanisms (6-3), wherein the storage trolley main body (6-1) is connected with the moving rollers (6-2), the number of the moving rollers (6-2) is four, the moving rollers are uniformly distributed at the bottom of the storage trolley main body (6-1), the storage trolley main body (6-1) is connected with the trolley fixing mechanisms (6-3), and the trolley fixing mechanisms (6-3) are matched with the device base (7) through grooves;

the vehicle fixing mechanism (6-3) comprises a T-shaped handle (6-3-1), a sealing cover (6-3-2), a supporting spring (6-3-3) and a clamping piece (6-3-4), the clamping piece (6-3-4) is matched with the main body (6-1) of the containing vehicle through a through hole, the clamping piece (6-3-4) is matched with the device base (7) through a groove, the supporting spring (6-3-3) is connected with the clamping piece (6-3-4), the supporting spring (6-3-3) is connected with the sealing cover (6-3-2), the sealing cover (6-3-2) is connected with the main body (6-1) of the containing vehicle through a fastening screw, the T-shaped handle (6-3-1) is matched with the main body (6-1) of the containing vehicle through a through hole, the T-shaped handle (6-3-1) penetrates through the supporting spring (6-3-3) and is meshed with the clamping piece (6-3-4) through threads;

the device base (7) comprises a base main body (7-1), roller grooves (7-2), strip grooves (7-3), strong springs (7-4), a telescopic plate (7-5), a positioning cover (7-6), telescopic pieces (7-7) and device moving wheels (7-8), wherein the roller grooves (7-2) are formed in the base main body (7-1), the roller grooves (7-2) are matched with auxiliary rollers (4-5), the strip grooves (7-3) are formed in the base main body (7-1), the strip grooves (7-3) are matched with the strong springs (7-4), the strong springs (7-4) are connected with the telescopic plate (7-5), the positioning cover (7-6) is connected with the base main body (7-1) through fastening screws, the telescopic piece (7-7) is connected with the telescopic plate (7-5), the telescopic piece (7-7) is matched with the positioning cover (7-6) through a through hole, and the telescopic piece (7-7) is connected with the device moving wheel (7-8);

the cloth cutting mechanism (1) is connected with the upper shell (2), the upper shell (2) is connected with the cloth positioning mechanism (3), the cloth conveying mechanism (4) is connected with the upper shell (2), the cloth conveying mechanism (4) is connected with the device base (7), the device base (7) is connected with the cloth containing vehicle (6), and the cloth conveying mechanism (4) is connected with the cloth rotating mechanism (5).

2. A new batching cutting device for textile machines according to claim 1, characterized in that: the cloth conveying mechanism is characterized in that the number of the cloth positioning mechanisms (3), the number of the cloth conveying mechanisms (4) and the number of the cloth rotating mechanisms (5) are two, wherein the cloth positioning mechanisms (3) are symmetrical to the positions of the cloth conveying mechanisms (4).

3. A new batching cutting device for textile machines according to claim 1, characterized in that: the rubber pad (3-3) is made of natural rubber.

4. A new batching cutting device for textile machines according to claim 1, characterized in that: the supporting spring (6-3-3) and the strong spring (7-4) are made of carbon steel.

5. A new batching cutting device for textile machines according to claim 1, characterized in that: the bearing (5-3) is made of bearing steel.

6. A new batching cutting device for textile machines according to claim 1, characterized in that: the number of the auxiliary conveying rollers (4-2) is multiple and is uniformly distributed on the fixed shell (4-1).

7. A new batching cutting device for textile machines according to claim 1, characterized in that: the cloth cutter (1-7) is made of steel.

8. A new batching cutting device for textile machines according to claim 1, characterized in that: the auxiliary rollers (4-5) are made of steel.

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