CN112663213A

CN112663213A - Cotton yarn weaving machine

Info

Publication number: CN112663213A
Application number: CN202110003282.0A
Authority: CN
Inventors: 王梅琼
Original assignee: Guangzhou Nandi E Commerce Co ltd
Current assignee: Xuzhou Runjin Textile Co ltd
Priority date: 2021-01-04
Filing date: 2021-01-04
Publication date: 2021-04-16
Anticipated expiration: 2041-01-04
Also published as: CN112663213B

Abstract

The invention discloses a cotton yarn spinning machine, which structurally comprises a base, a winding roller, a transmission belt, a machine frame, a protective device, a spinning platform, a driving rod and a driven rod, wherein when the cotton yarn spinning machine is used after improvement, cotton yarn is guided into a sleeve, two rotating wheels rotate under the tension of the cotton yarn, the two rotating wheels can generate certain pushing and pressing force to extrude an opening and closing elastic block when rotating simultaneously, the opening and closing elastic block is supported and pressed by two U-shaped supporting plates to prevent the opening and closing elastic block from being compressed to retract and deform, a bent part in a bent sleeve is arc-shaped, the abrasion of the cotton yarn can be effectively reduced, the cotton yarn is guided onto a clamping ring and can be contacted with a protective sheet and a drag reducing plate, a foam layer is matched with the protective sheet to protect a yarn guide hole to reduce the friction force between the cotton yarn and the protective sheet and prevent the cotton yarn from directly contacting with a yarn guide hole, the cotton yarn is guided to the textile table from the yarn guide hole to be spun fast, and the textile efficiency of the cotton yarn is improved.

Description

Cotton yarn weaving machine

Technical Field

The invention relates to the field of textile machinery, in particular to a cotton yarn textile machine.

Background

The weaving machine is the machine of weaving the cotton yarn into fabrics, and weaving machine is main including the frame and locate the weaving equipment in the frame, and through its main function be weaving raw and other materials such as cotton yarn and process into the cloth, protects cotton yarn through the protective element, reduces the friction of cotton yarn and feed carrier, when weaving cotton yarn, needs the place of improvement:

when weaving cotton yarn, wear cotton yarn and lead the yarn defeated line on the director, every guide hole on the wire guide all corresponds and wears a yarn, the yarn leads yarn in guide hole inside for a long time, lead the yarn in-process, the yarn can rub mutually with the guide hole, make the easy edge sharp that grinds out of yarn of guide hole, scrape the cotton yarn that leads off easily, influence the weaving efficiency of cotton yarn, and the yarn can paste and form a bent angle at the guide outer wall, the yarn is when defeated line, the wearing and tearing attenuate can appear in the yarn, lead to the cotton yarn easily to be disconnected, influence the weaving effect in later stage.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a cotton yarn weaving machine.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a cotton yarn weaving machine, its structure includes base, wind-up roll, drive belt, frame, protector, weaving platform, driving lever, actuating lever, driven lever, the base inlays admittedly in the frame bottom, be equipped with the wind-up roll of looks lock joint with it on the base, install two drive belts on the wind-up roll, two drive belts pass through the wind-up roll and connect, the one end and the actuating lever that the wind-up roll was kept away from to the drive belt registrate mutually, the actuating lever passes through the drive belt with the wind-up roll and is connected, the drive belt intermediate position is equipped with driving lever and driven lever, the actuating lever adopts movable block mode to cooperate with the frame, install the weaving platform in the frame, weaving bench top portion is equipped with protector, the parallel lock joint of protector.

As a further improvement of the invention, the protective device comprises a sliding cavity, cotton yarns, fasteners, six yarn guiding pieces and a positioning plate, wherein the sliding cavity is buckled on the yarn guiding piece, the cotton yarns penetrate through the sliding cavity and are connected with the yarn guiding piece, the six yarn guiding pieces are transversely arranged on the positioning plate at equal intervals, three fasteners which are embedded and embedded with the six yarn guiding pieces are installed at the bottom of the positioning plate, the fasteners are connected with the sliding cavity through the positioning plate, the positioning plate is buckled on the rack in parallel, and the yarn guiding piece is connected with the textile table through the cotton yarns.

As a further improvement of the invention, the sliding cavity comprises a wire transmission piece, a bent sleeve and an interface, the wire transmission piece is arranged on the inner wall of the bent sleeve, one end of the bent sleeve is inserted and embedded on the yarn guide piece, the interface is arranged at the other end of the bent sleeve and connected with cotton yarns, and the bent sleeve is connected with the fastener through a positioning plate.

As a further improvement of the invention, the wire transmission part comprises an auxiliary part, a sleeve and two mounting plates, wherein the auxiliary part is nested on the mounting plates, the two mounting plates are arranged on two sides of the inner wall of the sleeve, the sleeve is connected with the auxiliary part through the mounting plates, the auxiliary part is contacted with cotton yarns, and the outer wall of the sleeve is tightly attached to the inner wall of the bent sleeve.

As a further improvement of the invention, the auxiliary part comprises a supporting part, a shell, a rotating wheel and an asbestos pad, wherein the supporting part is provided with two transmission belts, the two supporting parts are connected to two sides in the shell, the rotating wheel is arranged in the middle of the top of the shell and is matched with the shell in a movable clamping manner, the asbestos pads are arranged on two sides of the rotating wheel, the asbestos pads are tightly attached to the shell, the shell is connected with the sleeve through a mounting plate, and the rotating wheel is in contact with cotton yarns.

As a further improvement of the invention, the supporting member comprises U-shaped supporting plates, pulling strips, an opening and closing elastic block and a limiting plate, wherein the U-shaped supporting plates are arranged on two sides of the limiting plate and are buckled with each other, the pulling strips are connected inside the U-shaped supporting plates, one ends of the U-shaped supporting plates, which are far away from the limiting plate, are buckled on the opening and closing elastic block, and the opening and closing elastic block is attached to the inner wall of the shell.

As a further improvement of the invention, the yarn guide piece comprises a sleeve piece, a yarn guide hole, a clamping plate, an elastic strip and a clamping groove, one end of the sleeve piece is attached to the outer wall of the yarn guide hole, the other end of the sleeve piece is buckled with the elastic strip, one end of the elastic strip, far away from the sleeve piece, is connected to the clamping plate, the clamping plate is fixedly connected to the inside of the clamping groove, one end of the clamping groove is buckled to the outer wall of the yarn guide hole, the cotton yarn penetrates through the bent sleeve to be connected with the yarn guide hole, the clamping groove is arranged on the positioning plate, and the yarn guide hole is connected.

As a further improvement of the invention, the yarn guide hole comprises a snap ring, a friction piece and a drag reduction plate, the friction piece is arranged in the snap ring and connected with the drag reduction plate, the drag reduction plate is connected with the snap ring through the friction piece, a sleeve piece attached to the outer wall of the snap ring is arranged on the outer wall of the snap ring, the snap ring is buckled with the clamping groove, and the cotton yarn penetrates through the bent sleeve and is connected with the friction piece.

As a further improvement of the invention, the friction piece comprises a protective sheet, a damping block, an elastic cushion strip and a foam layer, one end of the protective sheet is connected with the drag reduction plate, the other end of the protective sheet is attached to the foam layer, the end of the foam layer, far away from the protective sheet, is provided with the elastic cushion strip, the two ends of the elastic cushion strip are buckled on the damping block, the damping block is arranged in the snap ring, and the cotton yarn penetrates through the bent sleeve to be connected with the protective sheet.

Advantageous effects

The cotton yarn weaving machine provided by the invention has the following beneficial effects:

1. the cotton yarn guiding and conveying device is provided with the yarn conveying pieces, the bending sleeve and the connector, the bending sleeve is of an S-shaped wavy structure, the bending positions inside the bending sleeve are all arc-shaped, and the plurality of yarn conveying pieces are arranged on the bending sleeve and are curved, so that cotton yarns can be stably conveyed, the friction force of the cotton yarns during guiding and conveying is reduced, the cotton yarns are effectively prevented from being damaged and thinned, and the quality of the cotton yarns is guaranteed.

2. The invention is provided with the combination arrangement of the U-shaped supporting plate, the pulling strip and the opening and closing elastic block, when two rotating wheels rotate simultaneously to guide and send cotton yarns, a certain pushing force can be generated between the two rotating wheels, the shell can retract inwards under the extrusion of the rotating wheels, the two opening and closing elastic blocks can be pressed in the retraction process of the shell, the opening and closing elastic block is pressed upwards through the U-shaped supporting plate, the U-shaped supporting plate is drawn by the pulling strip, the U-shaped supporting plate is prevented from being expanded outwards under the extrusion force of the opening and closing elastic block, a certain mutual repulsion force can be generated between the U-shaped supporting plate and the rotating wheels, the opening and closing elastic block is effectively prevented from being pressed to be deformed in a retraction mode, and the two rotating wheels can stably guide and send the cotton yarns.

3. According to the cotton yarn guiding device, the protective sheet, the damping block, the elastic cushion strip and the foam layer are arranged, the surface of the protective sheet is smooth, friction force between the protective sheet and cotton yarn can be reduced when the cotton yarn is guided, the foam layer is used for protecting the yarn guiding hole, the cotton yarn is prevented from being in direct contact with the yarn guiding hole, the protective sheet is effectively cushioned through the damping block, the protective sheet is prevented from being separated from the yarn guiding hole due to stress, the cotton yarn can be quickly guided to the textile table from the yarn guiding hole to be woven, and the textile efficiency of the cotton yarn is improved.

In conclusion, the novel cotton yarn spinning machine is formed by combining the base, the winding roller, the driving belt, the machine frame, the protective device, the spinning platform, the driving rod and the driven rod, cotton yarns are guided into the sleeve, the two rotating wheels rotate under the tension of the cotton yarns to quickly guide the cotton yarns out, the cotton yarns are protected by the bent sleeve, the abrasion of the cotton yarns is reduced, the cotton yarns are guided to the clamping ring and can contact the protective sheet, the foam layer is matched with the protective sheet to protect the yarn guide holes, the cotton yarns are prevented from directly contacting the yarn guide holes and are protected, the cotton yarns are quickly guided to the spinning platform from the yarn guide holes to be spun, and the spinning efficiency of the cotton yarns is improved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a cotton yarn weaving machine of the present invention;

fig. 2 is a schematic plan view of the protection device of the present invention.

FIG. 3 is a schematic side view of the sliding chamber of the present invention.

Fig. 4 is a schematic view of the internal structure of the weaving table of the invention.

Fig. 5 is a schematic cross-sectional view of the auxiliary member of the present invention.

FIG. 6 is a cross-sectional view of the supporting member of the present invention.

Figure 7 is a schematic view of the internal structure of the yarn guide of the present invention.

Fig. 8 is a schematic cross-sectional structure of the yarn guide hole of the present invention.

Fig. 9 is a schematic cross-sectional view of a wear part according to the present invention.

In the figure: base-1, wind-up roll-2, transmission belt-3, frame-4, protective device-5, textile table-6, driving rod-7, driving rod-8, driven rod-9, sliding cavity-51, cotton yarn-52, fastener-53, yarn guide-54, positioning plate-55, yarn guide-511, bending sleeve-512, interface-513, auxiliary piece-E1, sleeve-E2, mounting plate-E3, support piece-E11, shell-E12, rotating wheel-E13, asbestos pad-E14, U-shaped supporting plate-111, traction bar-112, opening and closing elastic block-113, limiting plate-114, sleeve-541, yarn guide hole-542, clamping plate-543, elastic bar-544, clamping groove-545, and the like, Snap ring-F1, wear-resistant piece-F2, drag reduction plate-F3, protective sheet-F21, shock absorption block-F22, elastic cushion strip-F23 and foam layer-F24.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Example one

Referring to fig. 1, the present invention provides a technical solution: a cotton yarn weaving machine comprises a base 1, a wind-up roll 2, a transmission belt 3, a frame 4, a protective device 5, a weaving table 6, a driving rod 7, a driving rod 8 and a driven rod 9, the base 1 is embedded at the bottom of the frame 4, the base 1 is provided with a wind-up roll 2 which is buckled with the base 1, two transmission belts 3 are arranged on the winding roller 2, the two transmission belts 3 are connected through the winding roller 2, one end of the transmission belt 3 far away from the winding roller 2 is sleeved with a driving rod 8, the driving rod 8 is connected with the winding roller 2 through the transmission belt 3, a driving rod 7 and a driven rod 9 are arranged in the middle of the driving belt 3, the driving rod 8 is matched with the frame 4 in a movable clamping manner, install weaving platform 6 on the frame 4, 6 tops of weaving platform are equipped with protector 5, protector 5 parallel lock joint is on frame 4.

Referring to fig. 2, the protection device 5 includes a sliding cavity 51, cotton yarns 52, fasteners 53, six yarn guiding members 54, and a positioning plate 55, the sliding cavity 51 is fastened to the yarn guiding member 54, the cotton yarns 52 penetrate through the sliding cavity 51 and are connected to the yarn guiding member 54, the six yarn guiding members 54 are arranged on the positioning plate 55 at equal intervals and transversely, three fasteners 53 embedded with the positioning plate 55 are installed at the bottom of the positioning plate 55, the fasteners 53 are connected to the sliding cavity 51 through the positioning plate 55, the positioning plate 55 is fastened to the frame 4 in parallel, and the yarn guiding member 54 is connected to the textile table 6 through the cotton yarns 52.

The fastener 53 is used for fixing the positioning plate 55, the positioning plate 55 is inserted in the frame 4 in parallel, and the positioning plate 55 is fastened on the frame 4 through the fastener 53, so that the positioning plate 55 can be embedded in the frame 4, the cotton yarn 52 can be stably guided out from the yarn guide 54, and the stability of the guide of the yarn guide 54 is improved.

Referring to fig. 3, the sliding chamber 51 includes a wire transmission member 511, a curved sleeve 512, and a connector 513, the wire transmission member 511 is installed on the inner wall of the curved sleeve 512, one end of the curved sleeve 512 is inserted and embedded in the yarn guide member 54, the other end of the curved sleeve 512 is provided with the connector 513, the connector 513 is connected with the cotton yarn 52, and the curved sleeve 512 is connected with the fastener 53 through the positioning plate 55.

The bent sleeve 512 is used for matching with the cotton yarn 52, the cotton yarn 52 is inserted into the bent sleeve 512 through the connector 513, the bent sleeve 512 is of an S-shaped structure, and the bending part inside the bent sleeve is arc-shaped, so that the guiding and conveying of the cotton yarn 52 can be effectively improved, and the abrasion of the cotton yarn 52 in the guiding and conveying process is reduced.

Referring to fig. 4, the wire transmission member 511 includes an auxiliary member E1, a sleeve E2, and a mounting plate E3, the auxiliary member E1 is nested on the mounting plate E3, the mounting plate E3 has two mounting plates E3, the two mounting plates E3 are mounted on two sides of the inner wall of the sleeve E2, the sleeve E2 is connected to the auxiliary member E1 through the mounting plate E3, the auxiliary member E1 contacts with the cotton yarn 52, and the outer wall of the sleeve E2 is tightly attached to the inner wall of the curved sleeve 512.

The mounting plate E3 is used to fix the auxiliary member E1, and a plurality of auxiliary members E1 are arranged on the mounting plate E3 at equal intervals, and the auxiliary member E1 is fixed at the use position by the mounting plate E3, so that the cotton yarn 52 can be stably guided to the yarn guide 54.

Referring to fig. 5, the auxiliary member E1 includes two supporting members E11, a housing E12, two rotating wheels E13, and an asbestos pad E14, the two supporting members E11 are connected to two sides of the inside of the housing E12, the rotating wheel E13 is disposed at the middle position of the top of the housing E12 and is matched with the two supporting members in a movable engagement manner, the asbestos pads E14 are disposed on two sides of the rotating wheel E13, the asbestos pad E14 is tightly attached to the housing E12, the housing E12 is connected to the sleeve E2 through an installation plate E3, and the rotating wheel E13 is in contact with the cotton yarn 52.

The asbestos pad E14 is used for assisting the rotating wheel E13, cotton yarn 52 is conveyed into the sleeve E2 through the interface 513, the rotating wheel E13 is rotated by the pulling force of the cotton yarn 52, the cotton yarn 52 is conveyed forwards under the action of the rotating wheel E13, the friction between the cotton yarn 52 and the shell E12 is reduced through the asbestos pad E14, the cotton yarn 52 is prevented from being clamped between the two shells E12 when being guided to a half, and the cotton yarn 52 can be guided out through the rotating wheels E13 quickly.

Referring to fig. 6, the supporting member E11 includes a U-shaped supporting plate 111, a pulling strip 112, an opening and closing elastic block 113, and a limiting plate 114, wherein the U-shaped supporting plate 111 is disposed on both sides of the limiting plate 114 and fastened to the two sides of the limiting plate 114, the pulling strip 112 is connected to the inside of the U-shaped supporting plate 111, one end of the U-shaped supporting plate 111 away from the limiting plate 114 is fastened to the opening and closing elastic block 113, and the opening and closing elastic block 113 is attached to the inner wall of the housing E12.

The traction strip 112 is used for drawing the U-shaped supporting plate 111, the opening and closing elastic block 113 is arranged on two sides inside the shell E12, two rotating wheels E13 are used for guiding and sending cotton yarns 52 simultaneously, two rotating wheels E13 rotate simultaneously to generate certain pushing force, the shell E12 is extruded by the rotating wheels E13 and retracts inwards, the two U-shaped supporting plates 111 are used for supporting and pressing, the traction strip 112 is used for drawing the U-shaped supporting plate 111, the U-shaped supporting plate 111 is prevented from being stressed and expanding outwards, the opening and closing elastic block 113 is effectively supported, the opening and closing elastic block 113 is prevented from being pressed to retract and deform, and the rotating wheel E13 can stably convey the cotton yarns 52.

Example two

Referring to fig. 7, the yarn guide 54 includes a sleeve 541, a yarn guide hole 542, a clamping plate 543, an elastic strip 544, and a clamping groove 545, wherein one end of the sleeve 541 is attached to an outer wall of the yarn guide hole 542, the other end of the sleeve 541 is fastened to the elastic strip 544, one end of the elastic strip 544, which is away from the sleeve 541, is connected to the clamping plate 543, the clamping plate 543 is fixedly connected inside the clamping groove 545, one end of the clamping groove 545 is fastened to an outer wall of the yarn guide hole 542, the cotton yarn 52 penetrates through the curved sleeve 512 and is connected to the yarn guide hole 542, the clamping groove 545 is installed on the positioning plate 55, and the yarn guide hole 542 is connected to the textile table.

The elastic strip 544 is used for being matched with the clamping plate 543, one end of the elastic strip 544 is installed outside the yarn guide hole 542, when the yarn guide hole 542 guides the cotton yarn 52, the cotton yarn can be vibrated due to the reason of the frame 4, and the clamping plate 543 and the elastic strip 544 are matched with each other to relieve the vibration force received by the yarn guide hole 542, so that the cotton yarn 52 can be stably guided out of the yarn guide hole 542.

Referring to fig. 8, the yarn guide hole 542 includes a snap ring F1, a friction member F2, and a resistance reducing plate F3, the friction member F2 is disposed inside the snap ring F1, the friction member F2 is connected to the resistance reducing plate F3, the resistance reducing plate F3 is connected to the snap ring F1 through the friction member F2, the outer wall of the snap ring F1 is provided with a sleeve 541 attached to the snap ring F1, the snap ring F1 is fastened to the snap groove 545, and the cotton yarn 52 penetrates through the curved sleeve 512 and is connected to the friction member F2.

The drag reduction plate F3 is used for reducing the resistance of the cotton yarn 52, when the cotton yarn 52 is led out through the snap ring F1, a certain friction force is generated between the outer wall of the cotton yarn 52 and the inner wall of the snap ring F1, the cotton yarn 52 is matched through the drag reduction plate F3, the wire resistance of the cotton yarn 52 is reduced, and the wire efficiency of the cotton yarn 52 is improved.

Referring to fig. 9, the friction member F2 includes a protection plate F21, a shock absorption block F22, an elastic cushion strip F23, and a foam layer F24, one end of the protection plate F21 is connected to a resistance reduction plate F3, the other end is attached to the foam layer F24, an elastic cushion strip F23 is disposed at one end of the foam layer F24 away from the protection plate F21, two ends of the elastic cushion strip F23 are fastened to the shock absorption block F22, the shock absorption block F22 is mounted inside a snap ring F1, and the cotton yarn 52 penetrates through the bending sleeve 512 and is connected to the protection plate F21.

The damping block F22 is used for being matched with a protective sheet F21, when cotton yarn 52 is guided, the cotton yarn 52 can contact the protective sheet F21 and a drag reduction plate F3, the protective sheet F21 and a foam layer F24 protect a yarn guide hole 542, the cotton yarn 52 is prevented from being directly contacted on the yarn guide hole 542, and the vibration sense generated by the work of the machine frame 4 is eliminated through the damping block F22, so that the cotton yarn 52 can be stably guided out through the yarn guide hole 542.

The working principle of the above technical solution is explained as follows:

when the cotton yarn winding machine is used, a worker turns on a power switch through a manipulator of the rack 4, cotton yarns 52 are guided to the textile table 6 through the protective device 5, the cotton yarns 52 are woven into cloth through the textile table 6, the woven cloth is guided to the driving rod 8, the driving rod 8 guides the cotton yarns to the driving rod 7 and the driven rod 9 in sequence, the cotton yarns are guided to the winding roller 2 through the driven rod 9, and the woven cloth is wound through the winding roller 2.

When cotton yarn is woven, cotton yarn 52 penetrates through the connector 513 and is guided into the sleeve E2, the rotating wheel E13 is rotated by the pulling force of the cotton yarn 52, the cotton yarn 52 is conveyed forwards under the action of rotation of the rotating wheel E13, the friction force between the cotton yarn 52 and the shell E12 is reduced through the asbestos pad E14, the cotton yarn 52 is prevented from being too large in friction force and is clamped between the two shells E12 when being guided to a half, the two rotating wheels E13 are used for simultaneously rotating and guiding the cotton yarn 52, as the distance between the two rotating wheels E13 is smaller than the diameter of the cotton yarn 52, when the cotton yarn 52 is guided into the two rotating wheels E13, the two rotating wheels E13 are simultaneously rotated to generate a certain pushing force, the shell E12 is pressed by the extrusion pushing force of the rotating wheels E13 to retract inwards to extrude the opening and closing elastic block 113, the opening and closing elastic block 111 is pressed through the two U-shaped supporting plates 111, and a certain repulsive force is generated between the rotating wheels E13, effectively prevent to open and close the degree of contracting of bullet piece 113, reuse tractive strip 112 leads to U type fagging 111, prevent that U type fagging 111 from receiving to open and close the outside extension of the extrusion force of bullet piece 113, will open and close bullet piece 113 and support on the position of use, prevent to open and close bullet piece 113 pressurized appearance and contract back deformation, make two runners E13 can stably carry cotton yarn 52 to weaving platform 6, in transportation process, crooked sleeve pipe 512 is "S" font structure and inside buckling part is circular-arc, can effectively reduce the wearing and tearing attenuate of cotton yarn 52, guarantee cotton yarn 52' S quality.

The cotton yarn 52 is guided to the yarn guide hole 542 by the bent sleeve 512, a certain vibration sense can be generated in the process of spinning by the spinning table 6, the yarn guide piece 54 is installed on the spinning table 6 and can directly receive the vibration sense of the spinning table 6 during spinning, the elastic strip 544 is installed on the outer wall of the yarn guide hole 542, the elastic strip 544 has a certain buffering effect and can be matched with the clamping plate 543 to relieve the vibration force applied to the yarn guide hole 542, the cotton yarn 52 is guided to the spinning table 6 through the clamping ring F1, the cotton yarn 52 can contact the protecting sheet F21 and the resistance reducing plate F3, the protecting sheet F21 is made of polytetrafluoroethylene, the surface of the protecting sheet is smooth, the friction coefficient is small, the friction force between the cotton yarn 52 and the protecting sheet F21 is reduced, the foam layer F24 is matched with the protecting sheet F21 to conduct yarn guide hole 542, the friction between the protecting sheet F22 and the protecting sheet F22 is used for eliminating the vibration sense generated by spinning by the spinning table 6, carry out effective shock attenuation to protection piece F21, prevent that protection piece F21 from receiving weaving platform 6's vibrations sense and breaking away from the yarn guide hole, carry out effectual protection to yarn guide hole 542 through protection piece F21, make cotton yarn 52 can not the direct contact to yarn guide hole 542, protect cotton yarn 52, prevent that cotton yarn 52 from appearing scraping the breakage and damaging, lead to weaving platform 6 from yarn guide hole 542 with cotton yarn 52 fast and weave, improve cotton yarn 52's textile efficiency.

In summary, according to the invention, by arranging the protection device, cotton yarn is guided into the sleeve, the two rotating wheels rotate under the pulling force of the cotton yarn, the two rotating wheels can generate a certain pushing force to extrude the opening and closing elastic block when rotating simultaneously, the opening and closing elastic block is supported and pressed by the two U-shaped supporting plates, the U-shaped supporting plates are drawn by the pulling strip, the opening and closing elastic block is supported on a use position to prevent the opening and closing elastic block from being compressed and deformed due to retraction, the bent sleeve is in an S-shaped structure, the bending part inside the bent sleeve is in an arc shape, so that the abrasion and thinning of the cotton yarn can be effectively reduced, when the cotton yarn is guided into the snap ring, the cotton yarn can contact with the protection sheet and the resistance reducing plate, the protection sheet is made of polytetrafluoroethylene, the surface of the protection sheet is smooth, the friction coefficient is small, the friction force between the cotton yarn and the protection sheet is reduced, and the foam layer is matched with, prevent cotton yarn direct contact on the yarn guide hole, protect cotton yarn, lead to the weaving platform with cotton yarn from the yarn guide hole fast and weave, improve cotton yarn's weaving efficiency.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a cotton yarn weaving machine, its structure includes base (1), wind-up roll (2), drive belt (3), frame (4), protector (5), weaving platform (6), driving lever (7), actuating lever (8), driven lever (9), its characterized in that:

the base (1) is fixedly embedded at the bottom of a rack (4), two transmission belts (3) are installed on a winding roller (2), one ends, far away from the winding roller (2), of the transmission belts (3) are sleeved with driving rods (8), driving rods (7) and driven rods (9) are arranged in the middle of the transmission belts (3), the driving rods (8) are matched with the rack (4) in a movable clamping mode, a spinning platform (6) is installed on the rack (4), and the protection device (5) is parallelly buckled on the rack (4);

the protective device (5) comprises a sliding cavity (51), cotton yarns (52), fasteners (53), yarn guiding pieces (54) and positioning plates (55), the cotton yarns (52) penetrate through the sliding cavity (51) and are connected with the yarn guiding pieces (54), the yarn guiding pieces (54) are arranged on the positioning plates (55) in parallel, the positioning plates (55) are embedded and embedded with the fasteners (53), the positioning plates (55) are fastened on the rack (4), and the yarn guiding pieces (54) are connected with the spinning platform (6) through the cotton yarns (52).

2. A cotton yarn weaving machine according to claim 1, characterized in that: the sliding cavity (51) comprises a wire transmission piece (511), a bent sleeve (512) and an interface (513), the wire transmission piece (511) is installed on the inner wall of the bent sleeve (512), one end of the bent sleeve (512) is inserted into the yarn guide piece (54), the interface (513) is arranged at the other end of the bent sleeve (512), the interface (513) is connected with cotton yarns (52), and the bent sleeve (512) is connected with the fastener (53) through the positioning plate (55).

3. A cotton yarn weaving machine according to claim 2, characterized in that: the transmission line piece (511) comprises an auxiliary piece (E1), a sleeve (E2) and a mounting plate (E3), wherein the auxiliary piece (E1) is nested on the mounting plate (E3), the mounting plate (E3) is mounted on the inner wall of the sleeve (E2), the auxiliary piece (E1) is in contact with cotton yarns (52), and the outer wall of the sleeve (E2) is clung to the inner wall of the bent sleeve (512).

4. A cotton yarn weaving machine according to claim 3, characterized in that: auxiliary member (E1) is including support piece (E11), casing (E12), runner (E13), asbestos pad (E14), support piece (E11) are connected inside casing (E12), casing (E12) and runner (E13) adopt the activity block mode to cooperate, runner (E13) both sides all are equipped with asbestos pad (E14), asbestos pad (E14) hug closely on casing (E12), casing (E12) is connected with sleeve (E2) through mounting panel (E3), runner (E13) contact with cotton yarn (52).

5. A cotton yarn weaving machine according to claim 4, characterized in that: support piece (E11) including U type fagging (111), tractive strip (112), open and close bullet piece (113), limiting plate (114) and U type fagging (111) lock mutually, U type fagging (111) internally mounted has tractive strip (112), the one end lock joint that limiting plate (114) were kept away from in U type fagging (111) is on opening and closing bullet piece (113), open and close bullet piece (113) and casing (E12) inner wall and laminate mutually.

6. A cotton yarn weaving machine according to claim 1, characterized in that: yarn guide (54) including external member (541), guide hole (542), cardboard (543), elastic strip (544), draw-in groove (545), the laminating of external member (541) one end is in guide hole (542) outer wall, and the other end is buckled with elastic strip (544), cardboard (543) fixed connection is inside draw-in groove (545), draw-in groove (545) one end lock joint is in guide hole (542) outer wall, cotton yarn (52) run through crooked sleeve pipe (512) and are met with guide hole (542), draw-in groove (545) are installed on locating plate (55), guide hole (542) are connected with weaving platform (6) through cotton yarn (52).