CN109859890B - Light high-density woven wave-proof sleeve for military intelligent equipment - Google Patents

Abstract

The invention discloses a light high-density woven wave-proof sleeve for military intelligent equipment, which comprises a metal wire woven layer, 4 first anti-pulling ropes, 4 second anti-pulling ropes, a plurality of first buffer units, a plurality of second buffer units and a plurality of annular parts, wherein the plurality of first buffer units and the plurality of second buffer units are alternately distributed, one annular part is arranged between the adjacent first buffer units and second buffer units, the annular part is provided with 8 through holes, each through hole is penetrated by one first anti-pulling rope or one second anti-pulling rope, and each first through hole is fixedly connected with one first anti-pulling rope or one second anti-pulling rope through adhesive; the outer circumference of the circular ring part is fixedly connected with the metal wire weaving layer through adhesive. The wave-proof sleeve has good shielding and extrusion resistance.

Description

Light high-density woven wave-proof sleeve for military intelligent equipment

Technical Field

The invention relates to the field of cables, in particular to a light high-density woven wave-proof sleeve for military intelligent equipment.

Background

The wave-proof sleeve is used as an important material in the electric wire and cable, is widely applied in daily production and life, is often used in various environments and conditions in the actual use process, has a wide application range and is also extremely complex in the placed environment, so that the wave-proof sleeve is often subjected to damage due to heavy pressure in the actual use process. The existing wave-proof sleeve has a strong shielding function, but has insufficient strength and compression resistance, and the complex supporting structure is arranged to cause poor air permeability, so that the cooling of the cable is not facilitated.

Disclosure of Invention

The invention aims to: the invention aims to overcome the defects of the prior art and provides a light high-density woven wave-proof sleeve for military intelligent equipment.

The technical scheme is as follows: the wave-proof sleeve comprises a metal wire weaving layer, 4 first anti-pulling ropes, 4 second anti-pulling ropes, a plurality of first buffer units, a plurality of second buffer units and a plurality of circular ring parts, wherein the first buffer units and the second buffer units are alternately distributed, one circular ring part is arranged between the adjacent first buffer units and the second buffer units, the circular ring part is provided with 8 through holes, each through hole is penetrated by one first anti-pulling rope or one second anti-pulling rope, and each first through hole is fixedly connected with one first anti-pulling rope or one second anti-pulling rope through adhesive; each first buffer unit comprises 4 first T-shaped supporting frames with T-shaped cross sections, each first T-shaped supporting frame is provided with a first perforation penetrated by a first tensile rope, and the 4 first T-shaped supporting frames of each first buffer unit are penetrated by one of the 4 first tensile ropes respectively; each second buffer unit comprises 4 second T-shaped supporting frames with T-shaped cross sections, each second T-shaped supporting frame is provided with a second perforation penetrated by a second tensile rope, and the 4 second T-shaped supporting frames of each second buffer unit are penetrated by one of the 4 second tensile ropes respectively; the 4 first anti-pulling ropes and the 4 second anti-pulling ropes are alternately distributed in a circular ring shape; the outer circumference of the circular ring part is fixedly connected with the metal wire weaving layer through adhesive.

Further, the first T-shaped supporting frame and the second T-shaped supporting frame are both modified polypropylene buffer supporting frames.

Further, the first T-shaped supporting frame comprises a first supporting rib and a first cambered surface unit fixed with the first supporting rib; the second T-shaped supporting frame comprises a second supporting rib and a second cambered surface unit fixed with the second supporting rib.

Further, the length of the first T-shaped supporting frame along the length direction of the wave-proof sleeve is equal to the length of the second T-shaped supporting frame along the length direction of the wave-proof sleeve; are all larger than 20cm.

Further, the length of the circular ring part along the length direction of the wave-proof sleeve is smaller than 5cm.

Further, the metal wire braiding layer is a steel wire braiding layer.

Further, the distances between two adjacent first pull-resistant ropes are equal; the distance between two adjacent second pull resistance ropes is equal.

Further, any adjacent first tensile cord and second tensile cord are distributed at 45 degrees.

Further, the radians of all the first cambered surface units are equal, the radians of all the second cambered surface units are equal, and the radians of the first cambered surface units are equal to the radians of the second cambered surface units and are between 40 and 50 degrees.

The beneficial effects are that: besides the performance of the common wave-proof sleeve, the wave-proof sleeve provided by the invention has the advantages that the extrusion resistance and the tensile rope performance are good due to the arrangement of the plurality of supporting frames. And the first buffer units and the second buffer units are alternately distributed, so that the heat dissipation of the cable is not affected.

Drawings

FIG. 1 is a schematic view of the length direction of a wave shield;

FIG. 2 is A-A' direction;

FIG. 3 is the B-B' direction;

FIG. 4 shows the C-C' direction.

Detailed Description

Reference numerals: 1 the area where the first buffer unit is located; 1.1 a first tensile cord; 1.2 a first T-shaped support; 2, the area where the second buffer unit is located; 2.1 a second tensile cord; 2.2 a second T-shaped support; 3, a circular ring part; 4a metal wire braid.

The utility model provides a light-duty high density is woven wave-proof cover for military use intelligent equipment, includes wire weaving layer, 4 first anti-pulling ropes 1.1, 4 second anti-pulling ropes 2.1, a plurality of first buffer units, a plurality of second buffer units and a plurality of ring portion, and a plurality of first buffer units and a plurality of second buffer units distribute alternately, and have between adjacent first buffer unit and the second buffer unit one ring portion, ring portion has 8 through-holes, and every through-hole is passed by a first anti-pulling rope or a second tensile rope, and every first through-hole passes through adhesive fixedly connected with a first anti-pulling rope or a second tensile rope; each first buffer unit comprises 4 first T-shaped supporting frames 1.2 with T-shaped cross sections, each first T-shaped supporting frame is provided with a first perforation penetrated by a first tensile rope, and the 4 first T-shaped supporting frames of each first buffer unit are penetrated by one of the 4 first tensile ropes respectively; each second buffer unit comprises 4 second T-shaped supporting frames 2.2 with T-shaped cross sections, each second T-shaped supporting frame is provided with a second perforation penetrated by a second anti-pulling rope 2.1, and the 4 second T-shaped supporting frames of each second buffer unit are penetrated by one of the 4 second anti-pulling ropes respectively; the 4 first anti-pulling ropes and the 4 second anti-pulling ropes are alternately distributed in a circular ring shape; the outer circumference of the circular ring part is fixedly connected with the metal wire weaving layer through adhesive.

The first T-shaped supporting frame and the second T-shaped supporting frame are both modified polypropylene buffer supporting frames. The first T-shaped support frame comprises a first support rib and a first cambered surface unit fixed with the first support rib; the second T-shaped supporting frame comprises a second supporting rib and a second cambered surface unit fixed with the second supporting rib. The length of the first T-shaped supporting frame along the length direction of the wave-proof sleeve is equal to the length of the second T-shaped supporting frame along the length direction of the wave-proof sleeve; are all larger than 20cm. The length of the circular ring part along the length direction of the wave-proof sleeve is less than 5cm. The metal wire braiding layer is a steel wire braiding layer. The distance between two adjacent first pull-resistant ropes is equal; the distance between two adjacent second pull resistance ropes is equal. Any adjacent first tensile ropes and second tensile ropes are distributed at 45 degrees. The radians of all the first cambered surface units are equal, the radians of all the second cambered surface units are equal, and the radians of the first cambered surface units are equal to the radians of the second cambered surface units and are between 40 and 50 degrees.

Besides the performance of the common wave-proof sleeve, the wave-proof sleeve provided by the invention has good extrusion resistance and tensile resistance due to the arrangement of the plurality of supporting frames. And because the first buffer units and the second buffer units are distributed alternately, as shown in fig. 1, the area where the first buffer units are located is clamped by 4 first T-shaped support frames to realize buffering, the area where the second buffer units are located is clamped by 4 second T-shaped support frames to realize buffering, and no matter the area where the first buffer units are located or the adjacent support frame supports of the area where the second buffer units are located are provided with larger gaps, the heat dissipation of the cable is not affected. The ring part is bonded and fixed with the metal braiding layer, so that 4 first tensile ropes and 4 second tensile ropes can be spread without disorder.

While the invention has been shown and described with respect to the preferred embodiments, it will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the scope of the invention as defined in the following claims.

Claims (7)

1. The light high-density braided wave-proof sleeve for the military intelligent equipment is characterized by comprising a metal wire braiding layer, 4 first anti-pulling ropes, 4 second anti-pulling ropes, a plurality of first buffer units, a plurality of second buffer units and a plurality of circular ring parts, wherein the first buffer units and the second buffer units are alternately distributed along the length direction of the wave-proof sleeve, one circular ring part is arranged between the adjacent first buffer units and second buffer units, the circular ring part is provided with 8 through holes, each through hole is penetrated by one first anti-pulling rope or one second anti-pulling rope, and each first through hole is fixedly connected with one first anti-pulling rope or one second anti-pulling rope through adhesive; each first buffer unit comprises 4 first T-shaped supporting frames with T-shaped cross sections, each first T-shaped supporting frame is provided with a first perforation penetrated by a first tensile rope, and the 4 first T-shaped supporting frames of each first buffer unit are penetrated by one of the 4 first tensile ropes respectively; each second buffer unit comprises 4 second T-shaped supporting frames with T-shaped cross sections, each second T-shaped supporting frame is provided with a second perforation penetrated by a second tensile rope, and the 4 second T-shaped supporting frames of each second buffer unit are penetrated by one of the 4 second tensile ropes respectively; the 4 first anti-pulling ropes and the 4 second anti-pulling ropes are alternately distributed in a circular ring shape; the outer circumference of the circular ring part is fixedly connected with the metal wire weaving layer through adhesive; the first T-shaped supporting frame and the second T-shaped supporting frame are both modified polypropylene buffer supporting frames; the first T-shaped support frame comprises a first support rib and a first cambered surface unit fixed with the first support rib; the second T-shaped supporting frame comprises a second supporting rib and a second cambered surface unit fixed with the second supporting rib.

2. The light high-density woven wave-proof sleeve for military intelligent equipment according to claim 1, wherein the length of the first T-shaped support frame along the length direction of the wave-proof sleeve is equal to the length of the second T-shaped support frame along the length direction of the wave-proof sleeve; are all larger than 20cm.

3. The lightweight high density woven wave-resistant jacket for military intelligent equipment of claim 1, wherein the length of the annular ring portion along the length of the wave-resistant jacket is less than 5cm.

4. The lightweight high density braided wave-resistant sleeve for military intelligent equipment of claim 1 wherein said wire braid is a wire braid.

5. The lightweight high density woven wave-resistant jacket for military intelligent equipment of claim 1, wherein the distance between two adjacent first tensile cords is equal; the distance between two adjacent second pull resistance ropes is equal.

6. The lightweight high density woven wave cover for military intelligent equipment of claim 1, wherein any adjacent one of the first tensile cords and one of the second tensile cords are spaced 45 degrees apart.

7. The light high-density woven wave-resistant sleeve for military intelligent equipment according to claim 1, wherein the radians of all first cambered surface units are equal, the radians of all second cambered surface units are equal, and the radians of the first cambered surface units are equal to the radians of the second cambered surface units and are between 40 and 50 degrees.