CN116446096B - Production process and production device for composite yarn textile layer - Google Patents

Abstract

The utility model discloses a production process and a production device for a composite yarn spinning layer, wherein the production process and the production device comprise a processing table and a portal frame arranged on a processing box, a beating frame is connected to the portal frame in a sliding manner, a beating assembly is arranged in the beating frame, and a driving piece for driving the beating frame to vertically slide is arranged on the portal frame; a plurality of groups of cloth guide frames are arranged in the portal frame; the driving piece drives the flapping frame to have the following two stations: the first station is used for flapping and dedusting the composite yarn spinning layer when the driving piece drives the flapping frame to move downwards so that the flapping assembly is in contact with the composite yarn spinning layer; and the second station is used for driving the beating frame to move upwards when the driving piece drives the plurality of groups of cloth guide frames to drive the composite yarn spinning layer to shake in a reciprocating manner through the connecting component, so that impurities in the composite yarn spinning layer are shaken out. The device is simple and convenient to operate, the integral cleaning effect of the composite yarn spinning layer is effectively improved, and the quality of the composite yarn spinning layer during production can be improved.

Description

Production process and production device for composite yarn textile layer

Technical Field

The utility model relates to the technical field of textile equipment, in particular to a production process and a production device of a composite yarn textile layer.

Background

The composite silk fabric is woven on a water jet loom by adopting a plain weave, adopts a new weaving design and is processed by multiple fine processes. In many places in our life, a composite fabric is needed, which is formed by bonding and laminating a plurality of layers of textile materials or non-woven materials and other materials with certain functions, after the operation, the advantages of the two fabrics are fused, and when the composite yarn textile layer is produced, a plurality of processes and devices are needed to be matched for production.

The application number is as follows: 202220120075.3, chinese patent utility model entitled production process and apparatus for composite yarn textile layer, discloses a production device for graphene fabric, which belongs to the technical field of fabric production, and comprises a housing, wherein two conveying devices, a dust collection assembly and a filtering collection assembly are arranged in the housing, the two conveying devices are arranged on the inner walls of the left side and the right side of the housing, the dust collection assembly is arranged on the inner wall of the housing, the filtering collection assembly is connected with the inner wall of the housing and is positioned above the dust collection assembly, and the dust collection assembly and the filtering collection assembly are connected through a hose. The graphene fabric production equipment disclosed by the utility model has the advantages of good dust removal effect and high dust removal efficiency, can be suitable for fabrics with different thicknesses, and is wide in application range.

In the production process of the composite yarn spinning layer, a plurality of steps are required to be operated, the composite yarn spinning layer is easy to be subjected to friction loss or environmental pollution in the production process, and dust, fiber scraps and other pollutants are led to the composite yarn spinning layer, so that the composite yarn spinning layer is required to be dedusted in the production process, the quality of the composite yarn spinning layer is improved, a suction pump mode is adopted in the above patent, only dust on the surface of the fabric can be cleaned, and impurities entrained in the fabric are difficult to treat.

Disclosure of Invention

The utility model aims to provide a production process and a production device for a composite yarn textile layer, which are used for solving the defects in the prior art.

In order to achieve the above object, the present utility model provides the following technical solutions: the composite yarn spinning layer production device comprises a processing table and a portal frame arranged on the processing table, wherein a flapping frame is connected to the portal frame in a sliding manner, a flapping assembly is arranged in the flapping frame, and a driving piece for driving the flapping frame to vertically slide is arranged on the portal frame; a plurality of groups of cloth guide frames are arranged in the portal frame; the driving piece drives the flapping frame to have the following two stations: the first station is used for flapping and dedusting the composite yarn spinning layer when the driving piece drives the flapping frame to move downwards so that the flapping assembly is in contact with the composite yarn spinning layer; and the second station is used for driving the beating frame to move upwards when the driving piece drives the plurality of groups of cloth guide frames to drive the composite yarn spinning layer to shake in a reciprocating manner through the connecting component, so that impurities in the composite yarn spinning layer are shaken out.

Further, the flapping assembly comprises a flapping rod, a first spring is arranged between the flapping rod and the flapping frame, and the elastic force of the first spring drives the flapping rod to be far away from the flapping frame; and a limiting component for limiting the movement of the flapping rod is arranged in the flapping frame.

Further, a movable plate and a trigger rod are connected in the flapping frame in a sliding manner, a wedge-shaped rod is arranged on the movable plate, and a wedge-shaped groove is formed in the flapping rod; the trigger device is characterized in that a second spring is arranged between the moving plate and the flapping frame, the elastic force of the second spring drives the wedge-shaped rod to be in clamping fit with the wedge-shaped groove, and a fourth rotating rod is arranged between the trigger rod and the moving plate.

Further, the connecting assembly comprises a supporting frame arranged on the portal frame, the supporting frame is rotationally connected with a first rotating rod and a second rotating rod, a first gear is arranged on the first rotating rod, a first toothed plate is arranged on the beating frame, and the first gear is meshed with the first toothed plate; the first rotating rod is connected with a sliding cylinder in a sliding manner, a first inclined fluted disc is arranged on the sliding cylinder, a second inclined fluted disc is arranged on the second rotating rod, an abutting spring is arranged between the first inclined fluted disc and the supporting frame, the elastic force of the abutting spring drives the first inclined fluted disc to be close to the second inclined fluted disc, and the second rotating rod is connected with the cloth guiding frame through a transmission unit.

Further, the transmission unit comprises a reciprocating screw rod, a third rotating rod and a guide rod which are rotatably connected to the portal frame, and the reciprocating screw rod, the third rotating rod and the guide rod are in transmission connection through a belt; the third rotating rod is provided with a first bevel gear, the second rotating rod is provided with a second bevel gear, and the first bevel gear is meshed with the second bevel gear; the reciprocating screw is connected with a screw sleeve in a threaded manner, and the screw sleeve is connected with a corresponding cloth guide frame through a connecting rod.

Further, the device also comprises an air suction assembly, wherein the air suction assembly comprises a dust suction pipe communicated with the flapping frame and the processing table, and a suction pump is arranged on the dust suction pipe; a plurality of air suction holes are formed in the flapping frame, and horn covers are communicated with the air suction holes.

Further, a cloth guide assembly is arranged in the cloth guide frame, and in the reset stroke of the flapping frame, the linkage assembly drives the cloth guide assembly to work to guide the composite yarn spinning layer; the cloth guide assembly comprises two cloth guide rollers which are rotatably connected in the cloth guide frame, second gears are coaxially rotated on the two cloth guide rollers, and the two second gears are meshed.

Further, the linkage assembly comprises a moving block which is connected to the processing table in a sliding way, a first sliding rod and a second sliding rod are connected in the moving block in a sliding way, and the first sliding rod is fixed on the second sliding rod; a limiting frame is fixedly connected to the processing table, an oblique square groove is formed in the limiting frame, and the first sliding rod is connected to the oblique square groove in a sliding manner; the second slide bar is provided with a second toothed plate, the cloth guide roller is also provided with a third gear, the second toothed plate is meshed with the third gear, and the portal frame is provided with a moving unit for driving the moving block to move.

Further, the moving unit comprises a supporting rod arranged on the portal frame, a transverse plate is connected to the supporting rod in a sliding manner, and the transverse plate is connected with the moving block through a linkage rod; a third spring is arranged between the transverse plate and the portal frame, and the elastic force of the third spring drives the transverse plate to be close to the moving block.

The production process of the composite yarn spinning layer production device specifically comprises the following steps:

s1: the composite yarn spinning layer passes through a cloth guide frame on a processing table;

s2: the composite yarn spinning layer between the cloth guide frames is subjected to flapping dust removal by driving the flapping frames to move downwards;

s3: after the flapping frame is reset, the cloth guide frame is driven to shake up and down through the connecting component, and the composite yarn spinning layer is driven to shake and remove dust.

Compared with the prior art, the utility model has the beneficial effects that: this compound silk weaving layer production technology and apparatus for producing, through the processing platform, the portal frame, beat the subassembly, lead the mutual cooperation between cloth frame and the coupling assembling, through beating the frame downstream, with the compound silk weaving layer contact on the processing platform and beat, can beat out the inside dust of compound silk weaving layer, and beat the in-process that resets through the frame, cooperation coupling assembling work drives the synchronous motion of compound silk weaving layer of inside when leading cloth frame motion, so that the cloth after beating can shake, be convenient for clear up the impurity of compound silk weaving layer internal mix, the device operates simple and convenient, the effectual whole cleaning effect that improves compound silk weaving layer, and then the quality when can improving compound silk weaving layer production.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present utility model, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic diagram of an overall structure according to an embodiment of the present utility model;

FIG. 2 is another view of the overall structure provided by the embodiment of the utility model;

fig. 3 is a schematic diagram of an overall internal structure of a portal frame according to an embodiment of the present utility model;

FIG. 4 is a schematic view of a partial structure according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a fabric guiding assembly according to an embodiment of the present utility model;

FIG. 6 is a schematic structural diagram of a connection assembly according to an embodiment of the present utility model;

FIG. 7 is a schematic longitudinal section of an overall structure of a connection assembly according to an embodiment of the present utility model;

FIG. 8 is a schematic diagram of a linkage assembly according to an embodiment of the present utility model;

FIG. 9 is a schematic longitudinal section view of a patting frame structure provided by an embodiment of the present utility model;

FIG. 10 is a schematic cross-sectional view of a limiting frame structure according to an embodiment of the present utility model;

FIG. 11 is a schematic diagram of the overall structure of a limiting frame according to an embodiment of the present utility model;

fig. 12 is an enlarged view at a in fig. 9.

Reference numerals illustrate:

1. a processing table; 2. a portal frame; 3. a cloth guide frame; 4. beating the frame; 501. a support frame; 502. a first rotating lever; 503. a second rotating lever; 504. a first gear; 505. a first toothed plate; 506. a slide cylinder; 507. a first bevel gear disk; 508. a second bevel gear disk; 509. abutting against the spring; 601. a reciprocating screw; 602. a third rotating lever; 603. a guide rod; 604. a belt; 605. a first bevel gear; 606. a second bevel gear; 607. a screw sleeve; 608. a connecting rod; 701. a dust collection pipe; 702. a suction pump; 703. an air suction hole; 704. a horn cover; 801. beating the rod; 802. a first spring; 901. a moving plate; 902. a trigger lever; 903. a wedge bar; 904. wedge-shaped grooves; 905. a second spring; 906. a fourth rotating lever; 1001. a cloth guide roller; 1002. a second gear; 1003. a third gear; 1101. a moving block; 1102. a first slide bar; 1103. a second slide bar; 1104. a limit frame; 1105. an oblique square groove; 1106. a second toothed plate; 1201. a support rod; 1202. a cross plate; 1203. a linkage rod; 1204. and a third spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present disclosure. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present disclosure. All other embodiments, which can be made by one of ordinary skill in the art without the need for inventive faculty, are within the scope of the present disclosure, based on the described embodiments of the present disclosure.

Referring to fig. 1-12, a composite yarn spinning layer production device comprises a processing table 1 and a portal frame 2 arranged on the processing table 1, wherein a beating frame 4 is connected to the portal frame 2 in a sliding manner, a beating assembly is arranged in the beating frame 4, and a driving piece for driving the beating frame 4 to slide vertically is arranged on the portal frame 2; a plurality of groups of cloth guide frames 3 are arranged in the portal frame 2; the driving member drives the patting frame 4 to have the following two stations: the first station is used for flapping and dedusting the composite yarn spinning layer when the driving piece drives the flapping frame 4 to move downwards so that the flapping assembly is in contact with the composite yarn spinning layer; and a second station, when the driving piece drives the beating frame 4 to move upwards, the plurality of groups of cloth guide frames 3 are driven by the connecting component to drive the composite yarn spinning layer to shake reciprocally, and impurities in the composite yarn spinning layer are shaken out.

Specifically, this compound silk weaving layer apparatus for producing, including processing platform 1 and portal frame 2 of setting on processing platform 1, processing platform 1 and portal frame 2 are current equipment, do not do too much in this and do not give in detail, and portal frame 2 is fixed at the top of processing platform 1, and sliding connection has a frame 4 of beating on portal frame 2, and the width of beating frame 4 needs to be greater than the width of compound silk weaving layer, is convenient for beat compound silk weaving layer, is provided with in beating frame 4 and beats the subassembly, is provided with the driving piece that is used for driving beating frame 4 vertical slip on portal frame 2; the driving piece can be a hydraulic cylinder, the hydraulic cylinder is required to be connected with an external power supply and a control switch, one end of the hydraulic cylinder is connected with the beating frame 4, the beating frame 4 in the portal frame 2 can be driven to move downwards through the downward extension of the hydraulic cylinder, the composite yarn spinning layer can be beaten, a plurality of groups of cloth guide frames 3 are arranged in the portal frame 2, the two groups of cloth guide frames 3 are arranged for fixing the two ends of the composite yarn spinning layer in the cloth guide frames 3, the beating frame 4 is required to be arranged between the two groups of cloth guide frames 3, and the composite yarn spinning layer between the cloth guide frames 3 can be beaten and dedusted once through the downward movement of the beating frame 4; the driving member drives the patting frame 4 to have the following two stations: the first station is used for flapping and dedusting the composite yarn spinning layer when the driving piece drives the flapping frame 4 to move downwards so that the flapping assembly is in contact with the composite yarn spinning layer; the second station, drive the frame 4 upward movement of beating through the driving piece, drive multiunit cloth guide frame 3 drive compound silk weaving layer through coupling assembling and reciprocate the shake, shake out the impurity of compound silk weaving layer inside, can realize two kinds of stations through a driving piece, be convenient for beat the back shake to compound silk weaving layer, improve the clearance effect to compound silk weaving layer, can also effectually reduce the use of power supply, reduced compound silk weaving layer apparatus for producing's manufacturing cost.

Compared with the prior art, the utility model has the beneficial effects that: this compound silk weaving layer production technology and apparatus for producing, through processing platform 1, portal frame 2, beat frame 4, beat the subassembly, lead the mutual cooperation between cloth frame 3 and the coupling assembling, through beating frame 4 downstream, with the compound silk weaving layer contact on processing platform 1 and beat, can beat out the inside dust of compound silk weaving layer, and beat the in-process that resets through beating frame 4, cooperation coupling assembling work drives the synchronous motion of inside compound silk weaving layer, can drive when leading cloth frame 3 motion, so that beat the cloth after can shake, be convenient for clear up the impurity of compound silk weaving layer inside mixture, the device is easy and convenient to operate, the effectual whole cleaning effect that improves compound silk weaving layer, and then the quality when can improving compound silk weaving layer production.

In the embodiment provided by the utility model, the beating component comprises the beating rods 801, a first spring 802 is arranged between the beating rods 801 and the beating frame 4, the elastic force of the first spring 802 drives the beating rods 801 to be far away from the beating frame 4, the beating rods 801 can be arranged into a plurality of groups, and the specific number of the beating rods 801 can be set according to the size of the beating frame 4; be provided with the spacing subassembly that the restriction was patted pole 801 motion in the frame 4, when can spacing to the pole 801 of patting through spacing subassembly, when the first spring 802 of connecting on the pole 801 of patting is in compressed state, if spacing back to the pole 801 of patting is relieved to spacing subassembly, first spring 802 restoring force this moment can drive the pole 801 of patting and move down, beats the complex silk weaving layer, and the pole 801 of patting still can receive the butt force of complex silk weaving layer when patting for first spring 802 kick-backs, can drive the pole 801 of patting and repeatedly beat, and the effect of patting is better.

In the embodiment provided by the utility model, a moving plate 901 and a trigger rod 902 are connected in the beating frame 4 in a sliding way, the moving plate 901 horizontally moves in the groove, the trigger rod 902 vertically slides in the groove, a wedge-shaped rod 903 is arranged on the moving plate 901, and a wedge-shaped groove 904 is formed on the beating rod 801; the second spring 905 is arranged between the movable plate 901 and the beating frame 4, the elastic force of the second spring 905 drives the wedge-shaped rod 903 to be matched with the wedge-shaped groove 904 in a clamping mode, the elastic coefficient of the second spring 905 in a free state is larger than that of the first spring 802 when the wedge-shaped rod 903 and the wedge-shaped groove 904 are compressed, a large friction force is formed between the wedge-shaped rod 903 and the wedge-shaped groove 904, the wedge-shaped rod 903 can be pushed to enter the wedge-shaped groove 904 on the beating rod 801 through the restoring force of the second spring 905, so that the beating rod 801 can be pushed to move upwards to press the first spring 802, after the next unlocking is facilitated, the first spring 802 provides power for the beating rod 801 to move so as to enable the beating rod 801 to repeatedly beat a composite yarn spinning layer, a fourth rotating rod 906 is arranged between the trigger rod 902 and the movable plate 901, the trigger rod 902 can be contacted with the processing table 1 at the moment, the trigger rod 902 moves upwards through the abutting of the processing table 1, the trigger rod 902 moves upwards to be matched with the fourth rotating rod 904, the trigger rod 902 moves to press the second spring 801, and the beating rod 801 moves to separate the second rotating rod 801 from the beating rod 801, and the composite yarn 801 moves on the beating rod 801.

In the embodiment provided by the utility model, the connecting component comprises a supporting frame 501 arranged on the portal frame 2, the supporting frame 501 is rotatably connected with a first rotating rod 502 and a second rotating rod 503, the first rotating rod 502 and the second rotating rod 503 are fixed on the portal frame 2 through arranging the supporting frame 501, the first rotating rod 502 and the second rotating rod 503 are arranged in the same straight line direction, a first gear 504 is arranged on the first rotating rod 502, a first toothed plate 505 is arranged on the beating frame 4, the first gear 504 is meshed with the first toothed plate 505, and the part of the first toothed plate 505 is provided with teeth meshed with the first gear 504; the first rotating rod 502 is connected with a sliding cylinder 506 in a sliding way, the sliding cylinder 506 horizontally slides on the first rotating rod 502 through the sliding rod, the sliding cylinder 506 is limited when moving, the sliding cylinder 506 can only slide on the first rotating rod 502 and rotate along with the rotation of the first rotating rod 502, the sliding cylinder 506 is provided with a first inclined fluted disc 507, the second rotating rod 503 is provided with a second inclined fluted disc 508, the anticlockwise rotating sides of the gears on the first inclined fluted disc 507 are respectively provided with an inclined surface, an abutting spring 509 is arranged between the first inclined fluted disc 507 and the supporting frame 501, the elastic force of the abutting spring 509 drives the first inclined fluted disc 507 to be close to the second inclined fluted disc 508, the second rotating rod 503 is connected with the cloth guiding frame 3 through a transmission unit, the downward movement of the beating frame 4 drives the first toothed plate 505 to synchronously move, the first toothed plate 505 moves and engages with the first gear 504, so that the first gear 504 rotates anticlockwise, the first gear 504 will drive the first rotating rod 502 to rotate synchronously, the first rotating rod 502 will drive the first inclined fluted disc 507 to rotate synchronously and reversely, the first inclined fluted disc 507 will not drive the second inclined fluted disc 508 to rotate after the first inclined fluted disc 507 rotates, the first inclined fluted disc 507 will drive the sliding cylinder 506 to slide on the first rotating rod 502 and press the abutting spring 509 until the beating frame 4 contacts with the composite yarn spinning layer on the processing table 1, when the beating frame 4 resets for a certain distance, the first toothed plate 505 moves upwards synchronously, the first gear 504 is driven to rotate clockwise, the first rotating rod 502 connected to the first gear 504 drives the first inclined fluted disc 507 to rotate synchronously, the second inclined fluted disc 508 can be meshed through the rotation of the first inclined fluted disc 507, so that the second rotating lever 503 rotates.

In the embodiment provided by the utility model, the transmission unit comprises a reciprocating screw 601, a third rotating rod 602 and a guide rod 603 which are rotatably connected to the portal frame 2, and the reciprocating screw 601, the third rotating rod 602 and the guide rod 603 are in transmission connection through a belt 604; the third rotating rod 602 is provided with a first bevel gear 605, the second rotating rod 503 is provided with a second bevel gear 606, and the first bevel gear 605 is meshed with the second bevel gear 606; the screw sleeve 607 is connected with the corresponding cloth guide frame 3 through the connecting rod 608 in a threaded connection manner on the reciprocating screw 601, the screw sleeve 607 rotates through the second rotating rod 503 on the supporting frame 501 and is matched with the first bevel gear 605, the second bevel gear 606, the third rotating rod 602, the guide rod 603 and the belt 604, so that the reciprocating screw 601 on the portal frame 2 rotates, the screw sleeve 607 moves back and forth through the rotation of the reciprocating screw 601, the cloth guide frame 3 can be driven to synchronously move through the connecting rod 608 through the back and forth movement of the screw sleeve 607, and therefore the flapped composite yarn spinning layer can be driven to shake, and dust inside the composite yarn spinning layer can be cleaned conveniently.

In another embodiment provided by the utility model, the vacuum cleaner further comprises a suction assembly, wherein the suction assembly comprises a dust suction pipe 701 communicated with the beating frame 4 and the processing table 1, and a suction pump 702 is arranged on the dust suction pipe 701; the patting frame 4 is provided with a plurality of air suction holes 703, the air suction holes 703 are communicated with a horn cover 704, dust generated when the composite yarn spinning layer is patted and dithered can be sucked away by arranging an air suction assembly, and the suction pump 702 is connected with an external power supply and a control switch.

In another embodiment provided by the utility model, a cloth guide assembly is arranged in the cloth guide frame 3, and in the resetting stroke of the beating frame 4, the linkage assembly drives the cloth guide assembly to work for guiding the composite yarn spinning layer; the cloth guide assembly comprises two cloth guide rollers 1001 which are rotatably connected in a cloth guide frame 3, one of the cloth guide rollers 1001 in the same cloth guide frame 3 can be arranged to be movable, the movement of the cloth guide rollers 1001 is facilitated, a composite yarn spinning layer which needs to be processed can be placed between the two cloth guide rollers 1001 to be fixed, the two cloth guide rollers 1001 are coaxially rotated to form a second gear 1002, the two second gears 1002 are meshed, and the composite yarn spinning layer between the two cloth guide rollers 1001 is driven to conduct material guide through the rotation of the two second gears 1002.

In the embodiment provided by the utility model, the linkage assembly comprises a moving block 1101 which is connected to the processing table 1 in a sliding way, a first sliding rod 1102 and a second sliding rod 1103 are connected in the moving block 1101 in a sliding way, and the first sliding rod 1102 is fixed on the second sliding rod 1103; a limiting frame 1104 is fixedly connected to the processing table 1, an inclined square groove 1105 is formed in the limiting frame 1104, the first sliding rod 1102 is slidably connected to the inclined square groove 1105, the inclined square groove 1105 is arranged into a parallelogram shape, and the inclined square groove 1105 is the motion track of the first sliding rod 1102; the second toothed plate 1106 is arranged on the second sliding rod 1103, the third gear 1003 is further arranged on the cloth guide roller 1001, the second toothed plate 1106 is meshed with the third gear 1003, the moving unit for driving the moving block 1101 to move is arranged on the portal frame 2, the first sliding rod 1102 moves in the inclined square groove 1105, the second toothed plate 1106 on the second sliding rod 1103 can be controlled to move so that the second toothed plate 1106 moves upwards and simultaneously is meshed with the third gear 1003, and when the second toothed plate 1106 moves downwards, the second toothed plate 1106 moves at the moment and is not contacted with the third gear 1003, so that the third gear 1003 cannot be driven to rotate reversely.

In the embodiment provided by the utility model, the moving unit comprises a supporting rod 1201 arranged on the portal frame 2, the supporting rod 1201 is arranged in a groove on the portal frame 2, the supporting rod 1201 is connected with a transverse plate 1202 in a sliding manner, the moving direction of the transverse plate 1202 can be controlled by arranging the supporting rod 1201, and the transverse plate 1202 is connected with the moving block 1101 through a linkage rod 1203; a third spring 1204 is arranged between the cross plate 1202 and the portal frame 2, and the elastic force of the third spring 1204 drives the cross plate 1202 to approach the moving block 1101.

Working principle: when the device works, the driving piece can push the beating frame 4 to move downwards, the beating frame 4 moves downwards to be in contact with the composite yarn spinning layer between the cloth guide frames 3, when the beating frame 4 moves downwards, the trigger rod 902 in the beating frame 4 is firstly in contact with the processing table 1, the processing table 1 is abutted against the trigger rod 902, the trigger rod 902 moves and then pushes the moving plate 901 in the beating frame 4 to move through the fourth rotating rod 906, the wedge-shaped rod 903 connected with one side is driven to move through the moving plate 901, the wedge-shaped rod 903 moves to be separated from the wedge-shaped groove 904 on the beating rod 801, and the beating rod 801 can shake back and forth under the action of the first spring 802, so that the cloth can be beaten for multiple times;

after repeated flapping for a plurality of times, the flapping frame 4 is driven to reset through the driving piece until the flapping frame 4 moves to one end distance, at this time, the first toothed plate 505 is meshed with the first gear 504 on the first rotating rod 502 to rotate, the first inclined fluted disc 507 connected with one side can be driven to rotate through the rotation of the first inclined fluted disc 502, the second inclined fluted disc 508 is meshed with the rotation of the first inclined fluted disc 507 to rotate, the second rotating rod 503 is driven to rotate through the rotation of the second rotating rod 503, the first bevel gear 605 is meshed with the second bevel gear 606 to enable the third rotating rod 602 on the portal frame 2 to rotate, the third rotating rod 602 is meshed with the second bevel gear 606 to enable the reciprocating screw 601 to rotate through the belt 604, the connected screw sleeve 607 on the surface of the reciprocating screw 601 can move back and forth on the reciprocating screw 601, the cloth guide frame 3 of the composite silk spinning layer can be fixed through the connecting rod 608 when the screw sleeve 607 moves, the cloth guide frame 3 can be driven to rotate, and the cloth after flapping can be driven to shake through the movement of the cloth guide frame 3, and the whole dust removing effect of the composite silk layer can be further enhanced;

after the beating frame 4 continues to move upwards for a certain distance, at this time, after the first toothed plate 505 is not contacted with the first gear 504, at this time, the shaking cloth guiding frame 3 just moves to the processing table 1, at this time, the beating frame 4 is contacted with the transverse plate 1202 on the portal frame 2, and drives the transverse plate 1202 to move upwards synchronously, the movable block 1101 in the limit frame 1104 is driven by the linkage rod 1203 through the upward movement of the transverse plate 1202, the movable block 1101 moves and simultaneously drives the first sliding rod 1102 and the second sliding rod 1103 to move synchronously, because the first sliding rod 1102 moves, the first sliding rod 1102 is also influenced by the oblique groove 1105 in the limit frame 1104, at this time, the second sliding rod 1103 is connected to drive the second sliding rod 1103 to move to the side of the third gear 1003, and drive the second toothed plate 1106 to contact with the third gear 1003 through the second sliding rod 1103, so that the third gear 1003 rotates, one of the cloth guiding rollers 1001 can be driven to rotate through the rotation of the third gear 1003, and the other side of the cloth guiding rollers 1001 is driven to rotate through the rotation of the second gear 1002 connected with the surface of the cloth guiding frame 3, and the other side of the cloth guiding rollers is driven to move synchronously, and the two cloth guiding rollers 1002 can be driven to move synchronously, and the two layers of the cloth guiding rollers are driven to move synchronously, so that the composite layers can be removed, and the composite layers are further, and the composite layers can be removed.

The utility model also provides a production process of the composite yarn spinning layer production device, which specifically comprises the following steps:

s1: the composite yarn spinning layer passes through a cloth guide frame 3 on the processing table 1, at the moment, the composite yarn spinning layer which needs to be dedusted can be stuffed between two cloth guide rollers 1001 only by moving one cloth guide roller 1001 in the cloth guide frame 3 through external control keying until the composite yarn spinning layer is placed, and the moved cloth guide roller 1001 is reset again;

s2: the composite yarn spinning layer between the cloth guide frames 3 is subjected to flapping and dust removal by driving the flapping frames 4 to move downwards, and the air suction assembly can be started when the flapping and dust removal are carried out, so that the flapped dust can be directly sucked away;

s3: after the beating frame 4 is reset, the cloth guide frame 3 is driven to shake up and down through the connecting component, the composite yarn spinning layer is driven to shake and remove dust, and the dust which is not sucked out after beating can be shaken out through shaking, so that the overall dust removal effect can be improved.

It should be noted that the electric equipment in the present application can be powered by a storage battery or an external power supply.

While certain exemplary embodiments of the present utility model have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the utility model. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the utility model, which is defined by the appended claims.

Claims (7)

1. The utility model provides a compound silk weaving layer apparatus for producing, includes processing platform (1) and sets up portal frame (2) on processing platform (1), its characterized in that:

the portal frame (2) is connected with a flapping frame (4) in a sliding manner, a flapping assembly is arranged in the flapping frame (4), and a driving piece for driving the flapping frame (4) to vertically slide is arranged on the portal frame (2);

a plurality of groups of cloth guide frames (3) are arranged in the portal frame (2);

the driving piece drives the flapping frame (4) to have the following two stations:

the first station is used for performing flapping dust removal on the composite yarn spinning layer when the driving piece drives the flapping frame (4) to move downwards so that the flapping assembly is in contact with the composite yarn spinning layer;

the second station, when the driving piece drives the beating frame (4) to move upwards, the connecting component drives the plurality of groups of cloth guide frames (3) to drive the composite yarn spinning layer to shake reciprocally, so that impurities in the composite yarn spinning layer are shaken out;

a cloth guide assembly is arranged in the cloth guide frame (3), and in the resetting stroke of the flapping frame (4), the linkage assembly drives the cloth guide assembly to work so as to guide the composite yarn spinning layer;

the cloth guide assembly comprises two cloth guide rollers (1001) rotatably connected in a cloth guide frame (3), second gears (1002) are coaxially rotated on the two cloth guide rollers (1001), and the two second gears (1002) are meshed;

the linkage assembly comprises a moving block (1101) which is connected to the processing table (1) in a sliding manner, a first sliding rod (1102) and a second sliding rod (1103) are connected in the moving block (1101) in a sliding manner, and the first sliding rod (1102) is fixed on the second sliding rod (1103);

a limit frame (1104) is fixedly connected to the processing table (1), an inclined square groove (1105) is formed in the limit frame (1104), and the first sliding rod (1102) is connected to the inclined square groove (1105) in a sliding mode;

a second toothed plate (1106) is arranged on the second sliding rod (1103), a third gear (1003) is further arranged on the cloth guide roller (1001), the second toothed plate (1106) is meshed with the third gear (1003), and a moving unit for driving the moving block (1101) to move is arranged on the portal frame (2);

the moving unit comprises a supporting rod (1201) arranged on the portal frame (2), the supporting rod (1201) is connected with a transverse plate (1202) in a sliding manner, and the transverse plate (1202) is connected with the moving block (1101) through a linkage rod (1203);

a third spring (1204) is arranged between the transverse plate (1202) and the portal frame (2), and the elastic force of the third spring (1204) drives the transverse plate (1202) to be close to the moving block (1101).

2. A composite yarn spinning layer production apparatus as claimed in claim 1, wherein,

the flapping assembly comprises a flapping rod (801), a first spring (802) is arranged between the flapping rod (801) and the flapping frame (4), and the elastic force of the first spring (802) drives the flapping rod (801) to be far away from the flapping frame (4);

a limiting component for limiting the movement of the beating rod (801) is arranged in the beating frame (4).

3. A composite yarn spinning layer production apparatus as claimed in claim 2, wherein,

a movable plate (901) and a trigger rod (902) are connected in the flapping frame (4) in a sliding manner, a wedge-shaped rod (903) is arranged on the movable plate (901), and a wedge-shaped groove (904) is formed in the flapping rod (801);

a second spring (905) is arranged between the moving plate (901) and the flapping frame (4), the elastic force of the second spring (905) drives the wedge-shaped rod (903) to be matched with the wedge-shaped groove (904) in a clamping mode, and a fourth rotating rod (906) is arranged between the triggering rod (902) and the moving plate (901).

4. The composite yarn spinning layer production device according to claim 1, wherein the connecting assembly comprises a supporting frame (501) arranged on a portal frame (2), the supporting frame (501) is rotatably connected with a first rotating rod (502) and a second rotating rod (503), a first gear (504) is arranged on the first rotating rod (502), a first toothed plate (505) is arranged on the flapping frame (4), and the first gear (504) is meshed with the first toothed plate (505);

the novel cloth guide frame is characterized in that a sliding barrel (506) is connected to the first rotating rod (502) in a sliding mode, a first inclined fluted disc (507) is arranged on the sliding barrel (506), a second inclined fluted disc (508) is arranged on the second rotating rod (503), an abutting spring (509) is arranged between the first inclined fluted disc (507) and the supporting frame (501), the elastic force of the abutting spring (509) drives the first inclined fluted disc (507) to be close to the second inclined fluted disc (508), and the second rotating rod (503) is connected with the cloth guide frame (3) through a transmission unit.

5. The composite yarn spinning layer production device according to claim 4, wherein the transmission unit comprises a reciprocating screw (601), a third rotating rod (602) and a guide rod (603) which are rotatably connected to the portal frame (2), and the reciprocating screw (601), the third rotating rod (602) and the guide rod (603) are in transmission connection through a belt (604);

a first bevel gear (605) is arranged on the third rotating rod (602), a second bevel gear (606) is arranged on the second rotating rod (503), and the first bevel gear (605) is meshed with the second bevel gear (606);

the reciprocating screw (601) is in threaded connection with a screw sleeve (607), and the screw sleeve (607) is connected with a corresponding cloth guide frame (3) through a connecting rod (608).

6. The composite yarn spinning layer production device according to claim 1, further comprising an air suction assembly, wherein the air suction assembly comprises a dust suction pipe (701) communicated with the beating frame (4) and the processing table (1), and a suction pump (702) is arranged on the dust suction pipe (701);

a plurality of air suction holes (703) are formed in the flapping frame (4), and horn covers (704) are communicated with the air suction holes (703).

7. A production process based on a device for producing a composite yarn textile layer according to any one of claims 1 to 6, characterized in that it comprises in particular the following steps:

s1: the composite yarn spinning layer passes through a cloth guide frame (3) on a processing table (1);

s2: the composite yarn spinning layer between the cloth guide frames (3) is subjected to flapping dust removal by driving the flapping frames (4) to move downwards;

s3: after the flapping frame (4) is reset, the cloth guide frame (3) is driven to shake up and down through the connecting component, and the composite yarn spinning layer is driven to shake and remove dust.