CN116971088A - Roll shaft for arranging rope braiding materials - Google Patents

Abstract

The invention discloses a roll shaft for arranging rope braiding materials, wherein a braiding material channel is arranged in a roll body, and a toothed roll assembly for clamping the braiding materials is arranged in the channel, so that one end of the braiding materials is fastened in the channel, and the braiding materials can be clung to the outside of the roll shaft along with the rotation of the roll shaft. The upper toothed roller and the lower toothed roller are respectively linked by an upper connecting rod and a lower connecting rod to slide in an upper slideway and a lower slideway, so that the close connection and the separation of the upper toothed roller and the lower toothed roller are realized; the contact space between the upper slide rail and the lower slide rail is increased through the lower slide rail consisting of the horizontal section and the arc section, so that the invention can clamp fabrics with any thickness. The clamping device is simple in structure, convenient to use, good in clamping effect, and high in practicality and wide in applicability.

Description

Roll shaft for arranging rope braiding materials

Technical Field

The invention mainly relates to a roll shaft for finishing rope braiding materials, in particular to the field of roll shafts.

Background

In the rope braiding industry, roller shafts are used in large numbers as guide rollers, feed rollers and take-up rollers for braiding materials.

When the material receiving roller is used, one end of the fabric is simply wound on the roller shaft, so that the degree of adhesion between the fabric of the inner ring and the roller shaft is not high, a phenomenon of local folding is generated, the fabric cannot withstand excessive tension, and the winding effect on the fabric is poor.

Therefore, there is a need to design a new roller that can be used to finish textile materials.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the roller for finishing the rope braiding material, which realizes the finishing of the rope braiding material through the roller, improves the stability in the operation process by adopting the roller, and solves the problems of low laminating degree of the braiding material and the roller and local folding.

The invention aims to provide a roll shaft for arranging rope braiding materials so as to solve the problems.

In order to achieve the purposes of finishing the woven materials by the roller shafts, improving the fitting degree and improving the stability in the operation process, the invention provides the following technical scheme:

a roll shaft for finishing rope braiding materials, wherein a braiding material channel at two through sides is arranged in the roll body, and a pair of tooth rolls comprising an upper tooth roll and a lower tooth roll are arranged in the channel;

the upper toothed roller is arranged at the top of the channel, and an upper toothed roller shaft of the upper toothed roller is arranged in the upper slideway and slides along the upper slideway;

the lower toothed roller is arranged at the bottom of the channel, and a lower toothed roller shaft of the lower toothed roller is arranged in the lower slideway and slides along the lower slideway;

the upper tooth roller shaft is connected with one end of the upper connecting rod in an axial way, the lower tooth roller shaft is connected with one end of the lower connecting rod in an axial way, and the other end of the upper connecting rod and the other end of the lower connecting rod are respectively sleeved with a fixed shaft rod; the fixed shaft rod is provided with a stretching structure for tightly stretching the upper connecting rod and the lower connecting rod;

and the stretching structure is characterized in that an upper tooth roller and a lower tooth roller are arranged in the channel to clamp the fabric.

Preferably, the upper slide way and the lower slide way are respectively arc-shaped, and the circle centers are the same.

Preferably, the stretching structure comprises a torsion spring and a coaxial different-direction gear set.

Preferably, the upper toothed roller is provided with a braking pawl, and the braking direction is the back shaft direction of the fabric.

Preferably, a horizontal extension section is arranged at the top of the glide slope, and the extension direction is towards the feed inlet end of the channel;

the lower end of the lower connecting rod is provided with a lower sliding cavity for accommodating the lower tooth roller shaft, and the upper end of the lower connecting rod is provided with an upper sliding cavity for accommodating the fixed shaft rod.

Preferably, the stretching structure is a coaxial different-direction gear set, one side of the coaxial different-direction gear set is axially fixed with the side surface of the other end of the upper connecting rod, the shaft end of the other side shaft of the coaxial different-direction gear set is arranged in the upper sliding cavity,

and the shaft end of the other side shaft is in a ring tooth shape, and a half-tooth ring which is in tooth connection with the shaft end of the other side shaft is arranged at the lower part of the upper sliding cavity.

Preferably, the lower connecting rod is provided with a clamping structure, and comprises a spring and a block which are connected with the lower connecting rod and extend downwards;

the blocking block is used for preventing the lower connecting rod from sliding along the lower slide way when the lower connecting rod is arranged at the bottom end position of the lower slide way and the lower connecting rod slides down to the top of the upper slide cavity.

Preferably, the top end of the lower link extends upwardly as a handle.

Preferably, the outer wall of the roll shaft is provided with an arc-shaped groove, and the handle is arranged in the arc-shaped groove;

the arc-shaped groove is hinged with an arc-shaped cover forming the peripheral wall of the roll shaft.

Preferably, the port of the arc-shaped cover and the notch of the arc-shaped groove are provided with matched magnetic attraction devices.

The invention has the advantages that:

according to the roll shaft for arranging the rope braided material, the braided material channel is arranged in the roll body, and the rod holding component for holding the braided material is arranged in the channel, so that one end of the braided material is fastened in the channel, and the braided material can be tightly attached to the outside of the roll shaft along with the rotation of the roll shaft. The upper toothed roller and the lower toothed roller are respectively linked by an upper connecting rod and a lower connecting rod to slide in an upper slideway and a lower slideway, so that the close connection and the separation of the upper toothed roller and the lower toothed roller are realized; and then the contact space between the upper slide rail and the lower slide rail is increased through the lower slide rail formed by the horizontal section and the arc section, so that the invention can clamp fabrics with any thickness.

The roll shaft for arranging the rope braiding materials is simple in structure, convenient to use, good in clamping effect, and high in practicality and universality.

Drawings

Fig. 1 is a schematic structural view of a roll shaft of the present invention.

FIG. 2 is a schematic diagram of the structure of the coaxial anisotropic gear set of the present invention.

FIG. 3 is a schematic view of the lower link of the present invention sliding to the bottom end of the glidepath.

Fig. 4 is a schematic view of a lower link of the present invention limited by a stop block.

Fig. 5 is a schematic view showing a structure in which an upper link and a lower link of the present invention are drawn toward each other.

Fig. 6 is a schematic view showing a structure in which the lower link of the present invention is ready to slide along the extension.

Fig. 7 is a schematic view of the structure of the lower link of the present invention sliding along the extension to the end.

Fig. 8 is an enlarged schematic view of the portion B in fig. 7.

The meaning of the symbols in the drawings is as follows: 1. a channel; 2. an upper toothed roller; 3. a slide way is arranged; 4. an upper connecting rod; 5. a lower toothed roller; 6. a glidepath; 7. a lower connecting rod; 8. an upper slide cavity; 9. an arc-shaped groove; 10. a first side shaft; 11. a second side shaft; 12. a first slave gear; 13. a second slave gear; 14. a block; 15. a handle; 16. a half-toothed ring; 17. an upper toothed roll shaft; 18. and a lower tooth roll shaft.

Detailed Description

The present invention will be further described with reference to the following examples in order to better understand the technical solutions of the present invention and make the above features, objects and advantages of the present invention more clearly understood. The examples are only for illustrating the present invention and are not intended to limit the scope of the present invention.

Example 1: the invention provides a roll shaft for arranging rope weaving materials, which is shown in figures 1 to 8, wherein a channel 1 penetrating two sides is arranged in a roll body, and a toothed roll assembly for clamping the weaving materials is arranged in the channel 1.

The toothed roller assembly is composed of a pair of toothed rollers and a connecting rod assembly.

The pair of tooth rollers comprises an upper tooth roller 2 and a lower tooth roller 5 which are matched, wherein the upper tooth roller 2 is arranged at the top of the channel 1, the lower tooth roller 5 is arranged at the bottom of the channel 1, preferably, the contact surfaces of the upper tooth roller 2 and the lower tooth roller 5 are obliquely arranged, and the upper tooth roller 2 is close to the feed inlet end of the channel 1.

The connecting rod assembly consists of an upper connecting rod 4, a lower connecting rod 7, a fixed shaft rod, an upper slideway 3 and a lower slideway 6.

The lower slide 6 consists of a horizontal section and an arc section, the upper slide 3 is also arc-shaped, and the arc section of the lower slide 6 and the upper slide 3 are both positioned on a circle with the length of the upper connecting rod 4 as a radius and the fixed shaft rod as a circle center; and the arc sections of the upper slide way 3 and the lower slide way 6 are symmetrical with each other based on the AA 'line shown in figure 3, and the fixed shaft rod (circle center) is positioned on the AA' line.

The fixed shaft is provided with a stretching structure which is a coaxial different-direction gear set: the first side shaft 10, the second side shaft 11, the first slave gear 12 and the second slave gear 13 are formed as shown in fig. 2, wherein the first slave gear 12 and the second slave gear 13 are mutually meshed, the first side shaft 10 and the second side shaft 11 are coaxially arranged at the top of the first slave gear 12 and the second slave gear 13, the first side shaft 10 is meshed with the first slave gear 12, and the second side shaft 11 is meshed with the second slave gear 13; the first side shaft 10 and the second side shaft 11 are respectively sleeved on the fixed shaft rod. That is, when the second side shaft 11 rotates, the second slave gear 13 and the first slave gear 12, which are sequentially engaged with each other, rotate coaxially with respect to the second side shaft 11 in an opposite direction.

The top of the upper connecting rod 4 is fixedly connected with the first side shaft 10 (the top of the upper connecting rod 4 is provided with a second through hole, the second through hole is movably sleeved on the fixed shaft rod, the side wall of the second through hole is fixedly connected with the first side shaft 10), the bottom end of the upper connecting rod 4 is provided with a first through hole, and the upper toothed roller 2 shaft penetrates through the first through hole to be movably connected with the upper slideway 3.

The top and the bottom of the lower connecting rod 7 are respectively provided with an upper sliding cavity 8 and a lower sliding cavity along the length direction, wherein the cavity of the upper sliding cavity 8 is provided with a half-toothed ring 16 as shown in fig. 8. The shaft end of the second side shaft is movably arranged in the upper sliding cavity 8, and the shaft end of the second side shaft is provided with a toothed ring along the circumferential direction, which is matched with the half-toothed ring 16. That is, when the shaft end of the second side shaft is placed in the lower part of the upper sliding cavity 8, the lower connecting rod 7 can rotate to realize the opposite AA' line of the lower connecting rod 7 and the upper connecting rod 4 through the coaxial different-direction gear set, and the lower connecting rod 7 and the upper connecting rod 4 can expand or abut against each other along the arc-shaped section in the same angular speed mode based on the fixed shaft (circle center).

The lower tooth roller shaft 18 of the lower tooth roller 5 is movably connected in the lower slideway 6. The lower toothed roller 5 can move back and forth in the lower slideway 6 along with the lower connecting rod 7 through the lower toothed roller shaft 18, and comprises a horizontal section and an arc section. As shown in fig. 4, when the lower link 7 is placed at the bottom end position of the glidepath 6 and the lower link 7 moves downward, that is, the lower toothed roller 18 moves along the glide cavity to the top of the glide cavity, a block 14 is provided at the side of the bottom end of the lower link 7 for preventing the lower link 7 from sliding (swinging) along the glidepath 6.

The spring and the blocking block 14 form a clamping structure of the lower connecting rod 7, wherein the clamping structure further comprises a spring connected with the lower connecting rod 7, and the stretching direction of the spring is downward.

The top end of the lower link 7 extends upward as a handle 15. The outer wall of the roll shaft is provided with a through arc-shaped groove 9, a handle 15 is arranged in the arc-shaped groove 9, the arc-shaped groove 9 is hinged with an arc-shaped cover forming the outer peripheral wall of the roll shaft, and a port of the arc-shaped cover and a notch of the arc-shaped groove 9 are provided with matched magnetic attraction devices.

The horizontal section of the glide slope 6 extends horizontally to the feed inlet end of the channel 1. The horizontal segment is used for the abutment of the upper and lower toothed rollers 2, 5 when the lower toothed roller shaft 18 is placed at the end of the horizontal segment.

The lower link 7 is moved to the position shown in fig. 4, that is, the upper and lower spur rollers 2 and 5 are respectively positioned as shown in fig. 1, and as shown in fig. 1, the broken line circle near the upper spur roller 2 is the movement locus position after the movement of the upper spur roller 2, and the broken line circle near the lower spur roller 5 is the movement locus position after the movement of the lower spur roller 5.

One end of the fabric is placed from the channel 1 to the other end of the channel 1, as shown in fig. 1, the left side end being the feed end. The lower link 7 is pulled up by the handle 15 to the position shown in fig. 3, in which the lower half-toothed ring 16 of the upper slide chamber 8 is in toothed engagement with the toothed ring of the shaft end of the second sideshaft.

The shaft end of the second side shaft is used as the center of a circle, the lower connecting rod 7 is rotated, the lower end of the lower connecting rod 7 swings along the arc section to the position shown in fig. 5, meanwhile, the upper connecting rod 4 rotates in the upper sliding cavity 8, the upper connecting rod 4 swings in a linkage mode through a coaxial different-direction gear set, and the upper toothed roller 2 slides to the bottom end along the upper sliding way 3 through the bottom end of the upper connecting rod 4, as shown in fig. 5.

The handle 15 is released and the lower link 7 moves downwardly under spring tension to the position shown in figure 6. In this condition, the toothed ring at the end of the second sideshaft is disengaged from the lower half-toothed ring 16 of the upper slide chamber 8, and the lower end of the lower connecting rod 7 can translate along the horizontal segment.

The lower link 7 translates along the horizontal segment under the continuous tension of the spring to the position shown in fig. 7, i.e. the upper and lower toothed rollers 2 and 5 contact the fabric in the clamping channel 1, as shown in fig. 1.

When the roll shaft rotates, the fabric at the clamped end is tightly attached to the roll shaft along with the rotation of the roll shaft, and when the fabric is pulled back, the brake pawl arranged on the upper toothed roll 2 can prevent the upper toothed roll 2 from rotating, so that the fabric is prevented from being pulled back by the pulling force.

The second side shaft can be linked by the motor shaft, so that the operation is convenient, the rotating force is reduced, the rotation of the first side shaft is limited by the fixed motor shaft (when the motor shaft does not work), namely, the possibility that the upper toothed roller 2 moves upwards along the upper slideway 3 when the fabric is pulled out by the pulling force is prevented, and the clamping force is further enhanced.

The above-described embodiments are merely illustrative of the principles of the present patent application and their effectiveness, and are not intended to limit the present patent application. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present application. Accordingly, it is intended that all equivalent modifications and variations which a person having ordinary skill in the art would accomplish without departing from the spirit and technical spirit disclosed in the present patent application shall be covered by the claims of the present patent.

Claims (10)

1. The roller shaft for arranging the rope braiding materials is characterized in that a channel (1) at two through sides is arranged in the roller body, and a pair of tooth rollers comprising an upper tooth roller (2) and a lower tooth roller (5) are arranged in the channel (1);

the upper toothed roller (2) is arranged at the top of the channel (1), and an upper toothed roller shaft (17) of the upper toothed roller is arranged in the upper slideway (3) and slides along the upper slideway (3);

the lower toothed roller (5) is arranged at the bottom of the channel (1), and a lower toothed roller shaft (18) of the lower toothed roller is arranged in the lower slideway (6) and slides along the lower slideway (6);

the upper toothed roller shaft (17) is connected with one end of the upper connecting rod (4) in a shaft way, the lower toothed roller shaft (18) is connected with one end of the lower connecting rod (7) in a shaft way, and the other end of the upper connecting rod (4) and the other end of the lower connecting rod (7) are respectively sleeved with a fixed shaft rod; the fixed shaft rod is provided with a stretching structure for tightly stretching the upper connecting rod (4) and the lower connecting rod (7);

through the stretching structure, the upper tooth roller (2) and the lower tooth roller (5) are arranged in the channel (1) to clamp the fabric.

2. A roller for finishing rope braiding material according to claim 1, wherein the upper slideway (3) and the lower slideway (6) are respectively arc-shaped and have the same circle center.

3. A roller for organizing rope braid as claimed in claim 1, wherein the stretching structure comprises torsion springs, coaxial heterogenous gear sets.

4. A roller for finishing a rope braid as claimed in claim 1, characterized in that the upper toothed roller (2) is provided with a braking pawl, the braking direction being the back axis direction of the braid.

5. A roller for finishing rope braiding material according to claim 1, characterized in that the top of the glide slope (6) is provided with a horizontal extension in the direction of the feed inlet end of the channel (1);

the lower end of the lower connecting rod (7) is provided with a lower sliding cavity for accommodating the lower toothed roller shaft (18), and the upper end of the lower connecting rod (7) is provided with an upper sliding cavity (8) for accommodating the fixed shaft rod.

6. The roll shaft for arranging rope braiding materials according to claim 5, wherein the stretching structure is a coaxial anisotropic gear set, one side of the coaxial anisotropic gear set is fixedly connected with the side surface of the other end of the upper connecting rod (4), the shaft end of the other side shaft of the coaxial anisotropic gear set is arranged in the upper sliding cavity (8), the shaft end of the other side shaft is in a ring tooth shape, and a half tooth ring (16) which is in tooth connection with the shaft end of the other side shaft is arranged at the lower part of the cavity of the upper sliding cavity (8).

7. A roller for finishing rope braid as claimed in claim 6, characterized in that the lower link (7) is provided with a detent structure comprising a downwardly extending spring and a stop (14) connected to the lower link (7);

the blocking block (14) is used for preventing the lower connecting rod (7) from sliding along the lower slideway (6) when the lower connecting rod (7) is arranged at the bottom end position of the lower slideway (6) and the lower connecting rod (7) slides downwards to the top of the upper sliding cavity (8).

8. A roller for finishing rope braid as claimed in claim 6, characterized in that the top end of the lower link (7) extends upwards as a handle (15).

9. A roller for finishing rope braid material according to claim 8, characterized in that the outer wall of the roller is provided with an arc-shaped groove (9), and a handle (15) is placed in the arc-shaped groove (9);

the arc-shaped groove (9) is hinged with an arc-shaped cover forming the peripheral wall of the roll shaft.

10. A roller for finishing rope braid as claimed in claim 9, characterized in that the ports of the arc cover and the notches of the arc groove (9) are provided with matching magnetic attraction means.