CN215800273U - Multi-axial rope connecting structure - Google Patents

Abstract

The utility model discloses a multi-axial rope connecting structure which comprises a longitudinal rope, a transverse rope and a flexible shackle, wherein the longitudinal rope comprises a longitudinal rope and a longitudinal eye ring, the transverse rope comprises a transverse rope and a transverse eye ring, the flexible shackle comprises a flexible rope body, a flexible rope ring and a flexible rope knot, and the flexible shackle respectively penetrates through the longitudinal eye ring and the transverse eye ring to enable the longitudinal rope and the transverse rope to be connected and fixed. The rope fixing device is novel in structure, adopts a fully flexible structure for connection, is simpler and more portable in operation, safe in use, cost-saving, capable of reducing the weight of the whole system, not easy to cause abrasion to the rope, capable of prolonging the whole service life of the rope, and easy to maintain.

Description

Multi-axial rope connecting structure

Technical Field

The utility model relates to a chemical fiber rope, in particular to a multi-axial rope connecting structure.

Background

Currently, the diameter of chemical fiber ropes for mechanical braiding is generally ten millimeters at most, but in some applications, it is necessary to braid chemical fiber ropes with larger diameter to form a net structure, and the braiding of chemical fiber ropes with larger diameter to form a net structure needs to be done by hand, and generally, the existing hand braiding technology has the following three types:

firstly, chemical fiber ropes in the transverse and longitudinal directions are connected with each other through eye loops which are inserted and woven, so that the ropes in the transverse and longitudinal directions form independent cable net structures, and two independent cable nets are combined into a cable net with a larger area through metal heart rings and metal shackles on a construction site, so that the mode is lack of flexibility, the metal shackles and the heart rings with larger weight can not only increase the weight of the cable net and are not beneficial to site construction, but also the shackles and the heart rings made of metal materials are easy to corrode and damage, and the service life is short;

secondly, the chemical fiber ropes in the transverse and longitudinal directions are connected with each other through the eye loops which are inserted and woven, so that the ropes in the transverse and longitudinal directions form an independent cable net structure, and two net bodies are connected in a manual insertion and weaving mode in a construction site, and the mode can cause low site construction efficiency, is not beneficial to site construction operation and cannot meet the requirements of convenience and quickness in site construction;

thirdly, utilize multiaxial metal fastener to hoop the rope of horizontal vertical direction and adopt tiny rope to tie up the rope of horizontal vertical direction, however, although the rope of horizontal vertical direction can be fixed when the rope is not atress, nevertheless because chemical fiber rope is flexible object, the diameter can diminish after the atress, can cause chemical fiber rope to follow the fixed point slippage, can't make the dictyosome in use play a role.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problems in the prior art, the utility model provides a multi-axial rope connecting structure, namely a fully flexible detachable connecting structure, wherein eye rings are woven at the tail ends of transverse and longitudinal ropes or rope main body positions, and the transverse and longitudinal ropes are connected into a giant cable net by penetrating through the eye rings at the tail ends of the transverse and longitudinal ropes or the rope main body positions by using flexible shackles in a construction site.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

as shown in the attached drawings, the multi-axial rope connecting structure provided by the utility model comprises a longitudinal rope, a transverse rope and a flexible shackle, wherein the longitudinal rope comprises a longitudinal rope and a longitudinal eye ring, the transverse rope comprises a transverse rope and a transverse eye ring, the flexible shackle comprises a flexible rope body, a flexible rope ring and a flexible rope knot, and the flexible shackle respectively penetrates through the longitudinal eye ring and the transverse eye ring to enable the longitudinal rope and the transverse rope to be fixedly connected.

The utility model provides an foretell rope connection structure of multiaxis, flexible becket bridle, the flexible becket bridle weave the structure as an organic whole with flexible knot, and flexible becket bridle is the loop body structure that flexible becket bridle knotted and formed, and flexible becket bridle and flexible knot are located the both ends of flexible becket bridle, can adjust the loop body size of flexible becket bridle through twitching the flexible becket bridle.

Foretell multiaxis is to rope connection structure, horizontal rope weaves with horizontal eye as an organic whole and forms, and horizontal eye is inserted by the tip body of horizontal rope and is woven and plaited and form, vertical rope weaves with vertical eye as an organic whole and forms, and vertical eye is inserted by the tip body of vertical rope and is plaited and form, two relative independent settings indulge the rope and form a vertical rope body, two relative connection settings the horizontal rope forms a horizontal rope body, the flexibility is broken out and is one, and a flexible vertical rope body of fixed connection and a horizontal rope body of breaking out, perhaps, a flexible vertical rope body of fixed connection and many horizontal rope bodies of breaking out.

Foretell multi-axial rope connection structure, horizontal rope forms for xenogenesis weaving with horizontal eye, and horizontal eye is inserted by the non-tip xenogenesis of horizontal rope and is compiled and form, vertical rope forms for xenogenesis weaving with vertical eye, and vertical eye is inserted by the non-tip xenogenesis of vertical rope and is compiled and form, one flexible shackle fixed connection one indulges cable and a violently cable, perhaps, one flexible shackle fixed connection one indulges cable and many violently cables.

In the above-described multi-axial rope connecting structure, one of the longitudinal rope bodies is composed of two independent longitudinal ropes, and the other of the transverse rope bodies is composed of two transverse ropes whose transverse eye rings are interwoven or stacked with each other.

In the above-mentioned multi-axial rope connecting structure, the ends of the two transverse ropes are crossed and then woven, and the two transverse eyes formed pass through each other, so that the two transverse ropes are connected in series through the transverse eyes to form one transverse rope body.

In the multi-axial rope connecting structure, the two knitted transverse eye rings are stacked, and the flexible shackles respectively penetrate through the two transverse eye rings to enable the two transverse ropes to be connected into a transverse rope body.

In the multi-axial rope connecting structure, the transverse ropes are subjected to variant knitting on the non-end parts respectively to form transverse eye rings, the longitudinal ropes are subjected to variant knitting on the non-end parts respectively to form longitudinal eye rings, and the flexible rope rings of the flexible shackles respectively penetrate through the longitudinal eye rings of the longitudinal ropes and the transverse eye rings of the transverse ropes.

The utility model has novel structure, and the transverse and longitudinal ropes are connected by adopting the flexible shackle through the structural form of inserting and weaving the eye ring at the tail end of the transverse and longitudinal ropes and the body, so that the transverse and longitudinal ropes with larger diameter can form a huge cable net.

The connecting part of the connecting piece adopts a structural form of split combination design, so that the connecting piece is convenient to disassemble and assemble, more convenient to accurately maintain and replace, reduces the waste of materials and improves the effective and comprehensive utilization of the materials.

The utility model can be used for site construction, and is simple, convenient and safe to operate especially for ropes as long as hundreds of meters.

The utility model adopts the connection between the fully flexible ropes without involving the connection between the chemical fiber ropes and the metal material, thereby avoiding the abrasion between the chemical fiber ropes and the metal material, avoiding the danger of corrosion caused by using the metal material, prolonging the service life of the cable net formed by the transverse and longitudinal cables, and simultaneously greatly reducing the quality of the transverse and longitudinal cable net system and the maintenance cost because the chemical fiber ropes are lighter than the metal material.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of a cross rope structure according to embodiment 1 of the present invention;

FIG. 2 is a schematic view of a longitudinal cable structure according to embodiment 1 of the present invention;

FIG. 3 is a schematic structural view of the flexible shackle of the present invention;

FIG. 4 is a schematic structural view of a cross rope according to embodiment 2 of the present invention;

FIG. 5 is a schematic view of a longitudinal cable structure according to embodiment 2 of the present invention;

fig. 6 is a schematic view of a rope connection structure according to embodiment 1 of the present invention;

fig. 7 is a schematic view of another rope connection structure according to embodiment 1 of the present invention;

fig. 8 is a schematic view of a rope connection structure according to embodiment 2 of the present invention.

1. The rope comprises a transverse rope, 2 longitudinal ropes, 3 flexible shackles, 4 transverse ropes, 5 transverse eye rings, 6 longitudinal ropes, 7 longitudinal eye rings, 8 flexible rope rings, 9 flexible rope bodies and 10 flexible knots.

Detailed Description

In order to make the technical solutions of the present invention better understood, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

[ example 1 ]

As shown in fig. 1, 2, 3 and 6, the multi-axial rope connection structure provided by the utility model comprises a longitudinal rope 2, a transverse rope 1 and a flexible shackle 3, wherein the longitudinal rope 2 comprises a longitudinal rope 6 and a longitudinal eye ring 7, the transverse rope 1 comprises a transverse rope 4 and a transverse eye ring 5, the flexible shackle 3 comprises a flexible rope body 9, a flexible rope ring 8 and a flexible rope knot 10, and the flexible shackle 3 respectively penetrates through the longitudinal eye ring 7 and the transverse eye ring 5 to connect and fix the longitudinal rope 2 and the transverse rope 1.

Further, the structure is woven as an organic whole to flexible becket bridle 8, flexible rope 9 and flexible knot 10, and flexible becket bridle 8 is the loop body structure that flexible becket bridle 9 knotted and formed, and flexible becket bridle 8 and flexible knot 10 are located the both ends of flexible becket bridle 9, can adjust the loop body size of flexible becket bridle 8 through twitching flexible becket bridle 9.

Further, horizontal rope 4 is woven as an organic whole with horizontal eye 5 and is formed, and horizontal eye 5 is inserted by the tip body of horizontal rope 4 and is woven and form, vertical rope 6 is woven as an organic whole with vertical eye 7 and is formed, and vertical eye 7 is inserted by the tip body of vertical rope 6 and is woven and form, two relative independent settings indulge 2 the rope forms a vertical rope body, two relative connection settings the horizontal rope 1 forms a horizontal rope body, flexible shackle 3 is one, a vertical rope body of flexible shackle 3 fixed connection and a horizontal rope body.

Further, one longitudinal rope body is composed of two independent longitudinal ropes 2, and one transverse rope body is composed of two transverse ropes 1 which are mutually crossed and woven or mutually stacked through transverse eye rings 5.

Further, the two transverse eyes 5 are crossed and then woven to pass through each other, so that the two transverse ropes 1 are connected in series through the transverse eyes 5 to form a transverse rope body. That is, the ends of the two wires 1 are crossed and then woven to form two transverse eyes 5 which penetrate each other.

Further, two knitted transverse eyes 5 are stacked on each other, and two transverse ropes 1 are connected into a transverse rope body by respectively penetrating the two transverse eyes 5 through the flexible shackles 3.

Further, the multi-axial rope connecting structure comprises the following steps in the connecting process:

(1) when the transverse cable 1 is used for inserting and weaving the transverse eye ring 5 body, the tail ends of two transverse cables 1 are crossed and then woven, and the formed two transverse eye rings 5 penetrate through each other, so that the two transverse cables 1 are connected in series through the transverse eye rings 5 to form a transverse rope body;

(2) laying a connected transverse rope body on a plane;

(3) the two independent longitudinal ropes 2 which are knitted are oppositely placed on two sides of the transverse rope body 2;

(4) a flexible rope ring 8 of the flexible shackle 3 passes through a longitudinal eye ring 7 of one longitudinal rope 2, then passes through a transverse eye ring 5 at the overlapped part of two transverse ropes 1, and finally passes through a longitudinal eye ring 7 of the other longitudinal rope 2;

(5) winding the flexible shackle 3 around a second circle, winding the flexible rope ring 8 around the longitudinal eye ring 7 of one of the longitudinal ropes 2 again, passing through the transverse eye ring 5 at the superposed part of the two transverse ropes 1, and finally passing through the longitudinal eye ring 7 of the other longitudinal rope 2, so as to adjust the degree of tightness of winding of the flexible shackle 3;

(6) the flexible rope ring 8 is expanded by pulling a single rope of the flexible rope body 9 at the intersection of the flexible rope ring 8 and the flexible rope body 9 until the flexible rope ring 8 can be sleeved on the flexible knot 10;

(7) the flexible rope knot 10 penetrates through the flexible rope ring 8, the flexible rope knot 10 is stopped near the intersection point of the flexible rope knot 10 and the flexible rope ring 8, ropes of the same flexible rope body 9 are pulled in opposite directions, the flexible rope ring 8 is fixed, and the flexible rope ring 8 is screwed by hands;

(8) after the connection is completed, when the flexible shackle 3 is loaded, the two ropes in the flexible rope body 9 will adjust and keep balance.

In the step (1), when the transverse eye ring 5 body is inserted and knitted, the ends of the two transverse cables 1 are respectively inserted and knitted into the eye ring, the two knitted transverse eye rings 5 are stacked, and the two transverse cables 1 are connected into a transverse cable body by the flexible shackles 3 respectively penetrating through the two transverse eye rings 5. The two transverse eyes 5 are stacked in such a way that the eyes are open and the two transverse eyes 5 overlap, so that the flexible string loop 8 of the flexible shackle 3 can be passed through both transverse eyes 5 simultaneously.

[ example 2 ]

As shown in fig. 3, 4, 5 and 8, the multi-axial rope connection structure provided by the utility model comprises a longitudinal rope 2, a transverse rope 1 and a flexible shackle 3, wherein the longitudinal rope 2 comprises a longitudinal rope 6 and a longitudinal eye ring 7, the transverse rope 1 comprises a transverse rope 4 and a transverse eye ring 5, the flexible shackle 3 comprises a flexible rope body 9, a flexible rope ring 8 and a flexible rope knot 10, and the flexible shackle 3 respectively penetrates through the longitudinal eye ring 7 and the transverse eye ring 5 to connect and fix the longitudinal rope 2 and the transverse rope 1.

Further, the structure is woven as an organic whole to flexible becket bridle 8, flexible rope 9 and flexible knot 10, and flexible becket bridle 8 is the loop body structure that flexible becket bridle 9 knotted and formed, and flexible becket bridle 8 and flexible knot 10 are located the both ends of flexible becket bridle 9, can adjust the loop body size of flexible becket bridle 8 through twitching flexible becket bridle 9.

Further, horizontal rope 4 is woven for the xenogenesis with horizontal eye 5 and is formed, and horizontal eye 5 is inserted by the non-tip xenogenesis of horizontal rope 4 and is woven and compile and form, vertical rope 6 is woven for the xenogenesis with vertical eye 7 and is formed, and vertical eye 7 is inserted by the non-tip xenogenesis of vertical rope 6 and is woven and compile and form, one 3 fixed connection one of flexible shackle indulges cable 2 and two horizontal cables 1.

Further, the multi-axial rope connecting structure comprises the following steps in the connecting process:

(1) the transverse cables 1 are subjected to variant knitting on the non-end parts to form transverse eye rings 5, and the longitudinal cables 2 are subjected to variant knitting on the non-end parts to form longitudinal eye rings 7;

(2) placing and flatly paving the two braided transverse cables 1 on a plane in parallel;

(3) one longitudinal cable 2 which is knitted is placed in a crossing way with the two parallel transverse cables 1;

(4) the flexible rope ring 8 of the flexible shackle 3 passes through the longitudinal eye ring 7 of the longitudinal rope 2 and then passes through the transverse eye ring 5 of the transverse rope 1;

(5) winding the flexible shackle 3 around the second circle, winding the flexible rope ring 8 around the longitudinal eye ring 7 of the longitudinal rope 2 again, and then passing through the transverse eye ring 5 of the transverse rope 1, and adjusting the degree of tightness of winding of the flexible shackle 3;

(6) the flexible rope ring 8 is expanded by pulling a single rope of the flexible rope body 9 at the intersection of the flexible rope ring 8 and the flexible rope body 9 until the flexible rope ring 8 can be sleeved on the flexible knot 10;

(7) the flexible rope knot 10 penetrates through the flexible rope ring 8, the flexible rope knot 10 is stopped near the intersection point of the flexible rope knot 10 and the flexible rope ring 8, ropes of the same flexible rope body 9 are pulled in opposite directions, the flexible rope ring 8 is fixed, and the flexible rope ring 8 is screwed by hands;

(8) after the connection is completed, when the flexible shackle 3 is loaded, the two ropes in the flexible rope body 9 will adjust and keep balance.

Based on the embodiment 1, a flexible shackle 3 can also be fixedly connected with a longitudinal rope body and two transverse rope bodies, as shown in fig. 7.

Based on the embodiment 2, one flexible shackle 3 can also be fixedly connected with a longitudinal cable 2 and a transverse cable 1, as shown in fig. 8.

Combining the embodiments 1 and 2, one flexible shackle 3 at least corresponds to one transverse eye 5 and one longitudinal eye 7, and a plurality of longitudinal cables 2 and a plurality of transverse cables 1 are connected with each other through the flexible shackle 3 to form a net structure.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the scope of the present invention is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present invention, and such modifications and equivalents should also be considered as falling within the scope of the present invention.

Claims (8)

1. The utility model provides a multiaxis is to rope connection structure, its characterized in that, is including indulging rope (2), horizontal rope (1), flexible shackle (3), indulge rope (2) including vertical rope (6) and vertical eye (7), horizontal rope (1) is including horizontal rope (4) and horizontal eye (5), flexible shackle (3) are including flexible rope body (9), flexible rope ring (8) and flexible knot (10), vertical eye (7), horizontal eye (5) are passed respectively in flexible shackle (3), make and indulge rope (2) and horizontal rope (1) and be connected fixedly.

2. A multi-axial rope connecting structure according to claim 1, wherein the flexible rope loop (8), the flexible rope (9) and the flexible knot (10) are integrally woven, the flexible rope loop (8) is a loop structure formed by knotting the flexible rope (9), the flexible rope loop (8) and the flexible knot (10) are located at two ends of the flexible rope (9), and the loop size of the flexible rope loop (8) can be adjusted by pulling the flexible rope (9).

3. A multiaxial rope connection structure according to claim 1, where the lateral ropes (4) are integrally woven with the lateral eyelets (5), the lateral eyelets (5) are formed by braiding end bodies of the lateral ropes (4), the longitudinal ropes (6) are integrally woven with the longitudinal eyelets (7), the longitudinal eyelets (7) are formed by braiding end bodies of the longitudinal ropes (6), two longitudinal ropes (2) which are relatively independently arranged form a longitudinal rope body, two transverse ropes (1) which are relatively connected are formed as a lateral rope body, the flexible shackle (3) is one, and one longitudinal rope body and one lateral rope body are fixedly connected to one flexible shackle (3), or one longitudinal rope body and a plurality of lateral rope bodies are fixedly connected to one flexible shackle (3).

4. Multiaxial rope connection structure according to claim 1, characterized in that horizontal rope (4) is woven for the xenogenesis with horizontal eye (5) and forms, and horizontal eye (5) is inserted by the non-tip xenogenesis of horizontal rope (4) and is woven and form, vertical rope (6) is woven for the xenogenesis with vertical eye (7), and vertical eye (7) is inserted and is woven by the non-tip xenogenesis of vertical rope (6) and form, one a longitudinal cable (2) and a traverse cable (1) of flexible shackle (3) fixed connection, or, one a longitudinal cable (2) and many traverse cables (1) of flexible shackle (3) fixed connection.

5. Multiaxial rope connection according to claim 3 where one longitudinal rope consists of two separate longitudinal ropes (2) and one transverse rope consists of two transverse ropes (1) with transverse eyes (5) woven across each other or stacked on each other.

6. Multiaxial rope connection structure according to claim 5 where the ends of two transverse ropes (1) are crossed and then woven, forming two transverse eyes (5) that cross each other so that the two transverse ropes (1) are connected in series through the transverse eyes (5) to form a transverse rope.

7. Multiaxial rope connection according to claim 5 where two braided transverse eyes (5) are stacked on top of each other and two transverse ropes (1) are connected to one transverse rope by flexible shackles (3) passing through the two transverse eyes (5) respectively.

8. Multiaxial rope connection according to claim 4 where the transverse ropes (1) are each cross-woven with transverse eyes (5) at the non-ends, the longitudinal ropes (2) are each cross-woven with longitudinal eyes (7) at the non-ends, and the flexible loops (8) of the flexible shackle (3) are each threaded through the longitudinal eyes (7) of the longitudinal rope (2) and through the transverse eyes (5) of the transverse ropes (1).

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