CN217296791U - Conductive cloth limiting package with pull rope structure - Google Patents

Abstract

The utility model discloses a conductive cloth limit package with a pull rope structure, which comprises a guard plate, a first guard plate and a second guard plate, wherein the first guard plate and the second guard plate are in contact with both ends of a conductive cloth coiled material; the rim of the circular end plate is provided with a sunken radial seam; one end of the drawing rope is fixed with the inner wall of the first guard plate to form a fixed point, the second guard plate is provided with a through hole for the drawing rope to pass through, and the drawing rope passes through the through hole and the radial seam to oppositely tighten the first guard plate and the second guard plate; the lengths of the radial seams of the first protection plate and the second protection plate are different, the connecting line between the through hole and the two radial seams on the second protection plate forms a triangle, and the connecting line between the fixed point and the two radial seams on the first protection plate forms a triangle. Adopt this utility model to play the effect that the axial was tightened up, the neat protection of sign indicating number to electrically conductive cloth coiled material. The wound rope can play a role in stabilizing and limiting, the manufacturing cost is low, and the operation of personnel is convenient.

Description

Conductive cloth limiting package with pull rope structure

Technical Field

The utility model relates to a lead electrical fabric production facility field, concretely relates to take spacing packing of electrically conductive cloth of pull rope structure.

Background

The conductive cloth is made of fiber cloth as a base material, and is subjected to pre-treatment and then is plated with metal to have metal characteristics. The conductive cloth is also the raw material of the next link, such as the processing of conductive foam and the like. When the finished conductive cloth is used as a raw material of the next link, the conductive cloth in the state is often wound into a coiled material, and the axial and radial sizes of the conductive cloth are relatively large. The raw material conductive cloth also needs to be subjected to turnover and storage among links, so that some packaging structures are still needed to protect the conductive cloth. The conventional packaging material is a conventional winding roller or a packaging film, and has no axial tightening effect on the conductive cloth.

SUMMERY OF THE UTILITY MODEL

The to-be-solved problem of the utility model is to provide a take pull rope structure's spacing packing of electrically conductive cloth plays the effect that the axial was tightened up, the neat protection of sign indicating number to electrically conductive cloth coiled material. The wound rope can play a role in stabilizing and limiting, the manufacturing cost is low, and the operation of personnel is facilitated.

In order to solve the above problem, the utility model provides a take spacing packing of electrically conductive cloth of pull rope structure, for reaching the above-mentioned purpose, the utility model provides a technical scheme that its technical problem adopted is:

the utility model provides a take spacing packing of electrically conductive cloth of pull rope structure, includes: the protective plate comprises a first protective plate and a second protective plate which are contacted with two ends of the conductive cloth coiled material, the protective plate comprises a circular end plate and a circular pipe fitting, and the outer ring of the circular pipe fitting is contacted with the inner ring of the conductive cloth coiled material; the rim of the circular end plate is provided with a sunken radial seam; one end of the drawing rope is fixed with the inner wall of the first guard plate to form a fixed point, the second guard plate is provided with a through hole for the drawing rope to pass through, and the drawing rope passes through the through hole and the radial seam to oppositely tighten the first guard plate and the second guard plate; the lengths of the radial seams of the first protection plate and the second protection plate are different, the connecting line between the through hole and the two radial seams on the second protection plate forms a triangle, and the connecting line between the fixed point and the two radial seams on the first protection plate forms a triangle.

The beneficial effect of adopting above-mentioned technical scheme is: according to the technical scheme, the winding roller structure capable of being axially tightened is formed by the aid of the drawing ropes, the gaps and the holes, the large-size conductive cloth coiled material can be axially tightened and tidily stacked, and the edge of the conductive cloth is prevented from being broken or stained. The whole tightening effect is good, the manufacturing cost is low, and the operation of personnel is convenient. The first cover sheet and the second cover sheet can be understood as a two-part wind-up roll. Therefore, the first guard plate and the second guard plate can be suitable for conductive cloth coiled materials with different widths. Actually, the first guard plate and the second guard plate extrude the edges of the conductive cloth, and the pull rope enables the two guard plates to have the tendency of moving towards each other. The pulling rope undergoes multiple U-shaped turns, and the resistance formed by final winding is also large, so that the effect of firm binding is achieved. The radial seam plays a role in clamping and limiting the local part of the drawing rope. The most important thing is that the technical scheme can ensure the firmness of the package by means of a drawing rope, because the connecting line between the turning stress points of the drawing rope is triangular at the same shaft end, and the axes of the guard plate and the conductive cloth coiled material penetrate through the virtual triangle, the guard plate is stable, and one end cannot be raised suddenly.

As a further improvement of the utility model, the first backplate includes first circular end plate and first pipe fitting of an organic whole, and the second backplate includes circular end plate of integrative second and second pipe fitting, and first circular end plate equals with the diameter of the circular end plate of second, and first pipe fitting equals with the external diameter of second pipe fitting.

The beneficial effect of adopting above-mentioned technical scheme is: the two shields are approximately the same size.

As a further improvement, the circular end plate of second possesses two radial seams, and the radial degree of depth of first radial seam is less than the radial degree of depth of second radial seam.

The beneficial effect of adopting above-mentioned technical scheme is: radial seam degree of depth is different separately on two backplate, and the pull rope only can block in the bottom of radial seam for the pull rope fragment between two backplates can not be parallel to each other, has destroyed possible parallelogram structure, has further guaranteed stability.

As the utility model discloses a further improvement again, two first radial seams are in opposite directions of depth direction separately, and two radial seams of second are in opposite directions of depth direction separately.

The beneficial effect of adopting above-mentioned technical scheme is: the force applied at the turning position of the drawing rope is offset, and the stability is strong.

As a further improvement of the utility model, the respective axial projections of the fixing point and the through hole are not intersected, and the drawing rope sequentially passes through the through hole, a second radial seam, a first radial seam and a second radial seam; the drawing rope sequentially comprises a first straight line section, a second straight line section, a third straight line section, a fourth straight line section and a fifth straight line section from the root to the tail end of the drawing rope according to the linear extending direction of the drawing rope, the third straight line section and the fifth straight line section are connected between the first radial seam and the second radial seam and are used as the drawing rope, the first straight line section is connected between the fixed point and the through hole and is used as the drawing rope, and the third straight line section, the fifth straight line section and the first straight line section form included angles in pairs in the length direction.

The beneficial effect of adopting above-mentioned technical scheme is: and when one drawing rope turns for many times, the whole turning track is similar to a lower case letter e, the first straight line section actually penetrates through the hollow part of the conductive cloth coiled material, and the third straight line section and the fifth straight line section penetrate through the outer part of the conductive cloth coiled material. Three straight ropes mutually form an included angle, and a parallelogram structure does not exist, so that the space stability is strong.

As a further improvement, a third radial seam is arranged beside a second radial seam of the second circular end plate, and the tail end of the pull rope is wound between the second radial seam and the third radial seam.

The beneficial effect of adopting above-mentioned technical scheme is: the cantilever structure between the second radial seam and the third radial seam can be wound on the tail end of the pulling rope, so that larger friction resistance can be provided, and the pulling rope is prevented from loosening.

As a further improvement, the width of the first radial seam is equal to the width of the second radial seam and equal to the thickness of the pull rope, and the pull rope is a nylon rope.

The beneficial effect of adopting above-mentioned technical scheme is: ensuring that the radial slot has a sufficient clamping resistance to the withdrawal string passing through it.

As the utility model discloses a further improvement again, the diameter of circular end plate is not more than the quadruple of pipe spare external diameter.

The beneficial effect of adopting above-mentioned technical scheme is: the diameter of the circular tube piece is not small, namely the diameter of the corresponding hollow part of the conductive cloth coiled material is not small, so that a virtual triangle formed by stress points of the same shaft end rope is not an obtuse triangle with an excessively large obtuse angle, and the stability effect of the triangle with the excessively large obtuse angle is not obvious.

As a further improvement of the utility model, the first guard plate and the second guard plate are made of bakelite materials respectively.

The beneficial effect of adopting above-mentioned technical scheme is: the convenient integrated processing of bakelite material, each hole, gap also make things convenient for processing, can also insulate simultaneously, can not take place phenomenons such as electrically conductive short circuit when guaranteeing to save.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a perspective view of a first shield and a second shield according to an embodiment of the present invention;

FIG. 2 is a perspective view of an embodiment of the present invention;

FIG. 3 is a perspective view of an embodiment of the present invention;

fig. 4 is a schematic application diagram of an embodiment of the present invention.

1-a first guard plate; 1 a-a first circular end plate; 1 b-a first round tube; 1 c-a first radial slit; 2-a second guard plate; 2 a-a second circular end plate; 2 b-a second circular tube; 2 c-a second radial slit; 2 d-third radial slot; 2 e-a through hole; 3-pulling the rope; 3 a-a first straight line segment; 3 b-a second straight line segment; 3 c-third straight line segment; 3 d-fourth straight line segment; 3 e-fifth straight line segment; 3 f-a winding section; 4-a fixed point; 5-conductive cloth coiled material.

Detailed Description

The following detailed description is made in conjunction with specific embodiments of the present invention:

in order to reach the purpose of the utility model, a take spacing packing of electrically conductive cloth of pull rope structure, include: the protective plate comprises a first protective plate 1 and a second protective plate 2 which are contacted with two ends of the conductive cloth coiled material 5, the protective plate comprises a circular end plate and a circular pipe fitting, and the outer ring of the circular pipe fitting is contacted with the inner ring of the conductive cloth coiled material 5; the rim of the circular end plate is provided with a sunken radial seam; one end of the drawing rope 3 is fixed with the inner wall of the first guard plate 1 to form a fixed point 4, the second guard plate 2 is provided with a through hole 2e for the drawing rope 3 to pass through, and the drawing rope 3 passes through the through hole 2e and the radial seam to oppositely tighten the first guard plate 1 and the second guard plate 2; the lengths of the respective radial seams of the first protection plate 1 and the second protection plate 2 are different, a connecting line between the through hole 2e and the two radial seams on the second protection plate 2 forms a triangle, and a connecting line between the fixing point 4 and the two radial seams on the first protection plate 1 forms a triangle.

The beneficial effect of adopting above-mentioned technical scheme is: according to the technical scheme, the winding roller structure capable of being axially tightened is formed by the aid of the drawing ropes, the gaps and the holes, the large-size conductive cloth coiled material can be axially tightened and tidily stacked, and the edge of the conductive cloth is prevented from being broken or stained. The whole tightening effect is good, the manufacturing cost is low, and the operation of personnel is convenient. The first cover sheet and the second cover sheet can be understood as a two-part wind-up roll. Therefore, the first guard plate and the second guard plate can be suitable for conductive cloth coiled materials with different widths. Actually, the first guard plate and the second guard plate extrude the edges of the conductive cloth, and the pull rope enables the two guard plates to have the tendency of moving towards each other. The pulling rope undergoes multiple U-shaped turns, and the resistance formed by final winding is also large, so that the effect of firm binding is achieved. The radial seam plays a role in clamping and limiting the local part of the drawing rope. The most important thing is that the technical scheme can ensure the firmness of the package by means of a drawing rope, because the connecting line between the turning stress points of the drawing rope is triangular at the same shaft end, and the axes of the guard plate and the conductive cloth coiled material penetrate through the virtual triangle, the guard plate is stable, and one end cannot be raised suddenly.

In other embodiments of the present invention, the first guard plate 1 includes an integrated first circular end plate 1a and a first circular pipe member 1b, the second guard plate 2 includes an integrated second circular end plate 2a and a second circular pipe member 2b, the first circular end plate 1a is equal to the second circular end plate 2a in diameter, and the first circular pipe member 1b is equal to the second circular pipe member 2b in outer diameter.

The beneficial effect of adopting above-mentioned technical scheme is: the two shields are approximately the same size.

In other embodiments of the present invention, two first radial slits 1c are provided on the first circular end plate 1a, two second radial slits 2c are provided on the second circular end plate 2a, and the radial depth of the first radial slits 1c is smaller than the radial depth of the second radial slits 2 c.

The beneficial effect of adopting above-mentioned technical scheme is: the depth of the radial seam on each of the two guard plates is different, and the drawing ropes can be clamped at the bottom of the radial seam only, so that the drawing rope segments between the two guard plates can not be parallel to each other, a possible parallelogram structure is damaged, and the stability is further ensured.

In other embodiments of the present invention, the respective depth directions of the two first radial slits 1c face each other, and the respective depth directions of the two second radial slits 2c face each other.

The beneficial effect of adopting above-mentioned technical scheme is: the force applied at the turning position of the drawing rope is offset, and the stability is strong.

In other embodiments of the present invention, as shown in fig. 3, the respective axial projections of the fixing point 4 and the through hole 2e do not intersect, and the pull rope 3 sequentially passes through the through hole 2e, a second radial seam 2c, a first radial seam 1c, and a second radial seam 2 c; from the root to the tail end of the drawing rope 3, the drawing rope sequentially comprises a first straight line section 3a, a second straight line section 3b, a third straight line section 3c, a fourth straight line section 3d and a fifth straight line section 3e according to the linear extending direction of the drawing rope 3, the third straight line section 3c and the fifth straight line section 3e which are connected between the first radial seam 1c and the second radial seam 2c and are used for drawing the rope 3, the first straight line section 3a which is connected between the fixing point 4 and the through hole 2e and is used for drawing the rope 3, and the third straight line section 3c, the fifth straight line section 3e and the first straight line section 3a form included angles in pairs in the length direction.

The beneficial effect of adopting above-mentioned technical scheme is: and one drawing rope turns for multiple times, the whole turning track is similar to a lower-case letter e, the first straight line section actually penetrates through the hollow part of the conductive cloth coiled material, and the third straight line section and the fifth straight line section penetrate through the outer part of the conductive cloth coiled material. The three stretched ropes form included angles with each other, and a parallelogram structure does not exist, so that the space stability is strong.

In other embodiments of the present invention, a third radial seam 2d is disposed beside a second radial seam 2c of the second circular end plate 2a, and the end of the pull rope 3 is wound between the second radial seam 2c and the third radial seam 2d for a plurality of turns.

The tail end of the pulling rope 3 forms a winding section 3f, the number of winding turns of the winding section 3f is not limited, and the number of winding turns can be two to three.

The beneficial effect of adopting above-mentioned technical scheme is: the cantilever structure between the second radial seam and the third radial seam can be wound on the tail end of the pulling rope, so that larger friction resistance can be provided, and the pulling rope is prevented from loosening.

In other embodiments of the present invention, the width of the first radial seam 1c and the second radial seam 2c is equal and equal to the thickness of the pull rope 3, and the pull rope 3 is a nylon rope.

The beneficial effect of adopting above-mentioned technical scheme is: ensuring that the radial slot has a sufficient clamping resistance to the withdrawal string passing through it.

In other embodiments of the present invention, the diameter of the circular end plate is not more than four times the outer diameter of the circular tubular member.

The beneficial effect of adopting above-mentioned technical scheme is: the diameter of the circular tube piece is not small, namely the diameter of the corresponding hollow part of the conductive cloth coiled material is not small, so that a virtual triangle formed by stress points of the same shaft end rope is not an obtuse triangle with an excessively large obtuse angle, and the stability effect of the triangle with the excessively large obtuse angle is not obvious.

In other embodiments of the present invention, the first guard plate 1 and the second guard plate 2 are made of bakelite and are integrated with each other.

The beneficial effect of adopting above-mentioned technical scheme is: the convenient integrated processing of bakelite material, each hole, gap also make things convenient for processing, can also insulate simultaneously, can not take place phenomenons such as electrically conductive short circuit when guaranteeing to save.

The distance from the bottom of the second radial seam 2c to the axis of the second guard plate is larger than the radius of the outer wall of the conductive cloth coiled material 5, so that the pull rope 3 is ensured not to interfere with the conductive cloth coiled material 5.

For convenience of representation of the structure of each part, fig. 2 and 3 show more of the withdrawal cord 3 than fig. 1. Fig. 4 is a view showing more conductive cloth rolls 5 on the basis of fig. 2 and 3.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose thereof is to enable people skilled in the art to understand the contents of the present invention and implement the present invention, which cannot limit the protection scope of the present invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered in the protection scope of the present invention.

Claims (9)

1. The utility model provides a take spacing packing of electrically conductive cloth of pull rope structure which characterized in that includes:

the protective plate comprises a first protective plate and a second protective plate which are contacted with two ends of the conductive cloth coiled material, the protective plate comprises a circular end plate and a circular pipe fitting, and the outer ring of the circular pipe fitting is contacted with the inner ring of the conductive cloth coiled material; the rim of the circular end plate is provided with a sunken radial seam;

one end of the pulling rope is fixed with the inner wall of the first guard plate to form a fixed point, the second guard plate is provided with a through hole for the pulling rope to pass through, and the pulling rope passes through the through hole and the radial seam to oppositely tighten the first guard plate and the second guard plate;

the lengths of the radial seams of the first protection plate and the second protection plate are different, a connecting line between the through hole and the two radial seams on the second protection plate forms a triangle, and the connecting line between the fixing point and the two radial seams on the first protection plate forms a triangle.

2. The conductive cloth limit package with a drawstring structure according to claim 1, wherein: first backplate includes integrative first circular end plate and first round pipe spare, the second backplate includes integrative circular end plate of second and second round pipe spare, the diameter of first circular end plate and the circular end plate of second equals, the external diameter of first round pipe spare and second round pipe spare equals.

3. The conductive cloth limit package with a drawstring structure according to claim 2, wherein: the first circular end plate is provided with two first radial seams, the second circular end plate is provided with two second radial seams, and the radial depth of the first radial seams is smaller than that of the second radial seams.

4. The conductive cloth limit package with a drawstring structure according to claim 3, wherein: the depth directions of the two first radial seams are opposite, and the depth directions of the two second radial seams are opposite.

5. The conductive cloth limit package with a drawstring structure according to claim 4, wherein: the axial projections of the fixed point and the through hole are not intersected, and the pulling rope sequentially passes through the through hole, a second radial seam, a first radial seam and a second radial seam; the drawing rope comprises a first straight line section, a second straight line section, a third straight line section, a fourth straight line section and a fifth straight line section in sequence from the root to the tail end of the drawing rope according to the linear extending direction of the drawing rope, wherein the third straight line section and the fifth straight line section are connected between a first radial seam and a second radial seam and are used as the drawing rope, the first straight line section is connected between a fixed point and a through hole and is used as the drawing rope, and the third straight line section, the fifth straight line section and the first straight line section form included angles in pairs in the length direction.

6. The conductive cloth limit package with a drawstring structure according to claim 5, wherein: and a third radial seam is arranged beside a second radial seam of the second circular end plate, and the tail end of the pulling rope is wound between the second radial seam and the third radial seam for a plurality of circles.

7. The conductive cloth limit package with a drawstring structure according to claim 3, wherein: the width of the first radial seam is equal to that of the second radial seam and is equal to the thickness of the pulling rope, and the pulling rope is a nylon rope.

8. The conductive cloth limit package with a drawstring structure according to claim 1, wherein: the diameter of the round end plate is not more than four times of the outer diameter of the round pipe.

9. The conductive cloth limit package with a drawstring structure according to claim 1, wherein: the first guard plate and the second guard plate are made of bakelite materials respectively.

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