CN214850331U - Buffer type copper-based alloy high-frequency coaxial cable fixing assembly - Google Patents

Abstract

Buffer type copper base alloy high frequency coaxial cable fixing component, comprises a box body, box body lateral wall symmetric connection has the fixed block, the inside stop gear that is provided with of box body, the inside rotation of stop gear is connected with guiding mechanism, the inside cable conductor that pegs graft of guiding mechanism, guiding mechanism run through set up in stop gear with between the box body, the inside spring that is provided with of stop gear, guiding mechanism one side is connected with slowly props the mechanism, slowly prop mechanism one side peg graft in inside the spring. The utility model discloses a guiding mechanism turns to the cable conductor for the cable conductor can utilize rotatable elastic buffer subassembly to restrict the rotation range of cable conductor when turning to the position and swing, and make the steering angle of cable conductor reset, has slowed down and has dragged the effect, has guaranteed the stability of cable conductor when turning to the solid.

Description

Buffer type copper-based alloy high-frequency coaxial cable fixing assembly

Technical Field

The utility model belongs to the technical field of communication cable, in particular to fixed subassembly of buffering formula copper base alloy high frequency coaxial cable.

Background

A communication cable is a communication line consisting of a core twisted from a plurality of mutually insulated wires or conductors and an outer sheath protecting the core from moisture and mechanical damage. In particularly harsh environments, protective layers may also be installed on the outside of the telecommunication cable jacket, if necessary. Communication cables are classified into single-conductor, symmetrical cable and coaxial cable according to the type of cable.

The coaxial cable is a cable which enables an inner conductor and an outer conductor on the same axis to form a loop, the outer conductor surrounds the inner conductor, and the inner conductor and the outer conductor are insulated.

SUMMERY OF THE UTILITY MODEL

The utility model provides a fixed subassembly of buffering formula copper base alloy high frequency coaxial cable to the not enough of prior art existence, concrete technical scheme as follows:

buffer type copper base alloy high frequency coaxial cable fixed subassembly, comprises a box bod, box body lateral wall symmetric connection has the fixed block, the inside stop gear that is provided with of box body, the inside rotation of stop gear is connected with guiding mechanism, the inside cable conductor that pegs graft of guiding mechanism, guiding mechanism run through set up in stop gear with between the box body, the inside spring that is provided with of stop gear, guiding mechanism one side is connected with slowly props the mechanism, slowly prop mechanism one side peg graft in inside the spring, slowly prop the mechanism be located inside stop gear with spring coupling constitutes can pivoted elastic buffer subassembly.

Furthermore, guiding mechanism includes first guide wire pole, pivot and second guide wire pole, the pivot lateral wall rotates and is connected with first guide wire pole and second guide wire pole, box body one side lateral wall has been seted up first and has been led the commentaries on classics mouth, and adjacent one side lateral wall has been seted up the second and has been led the commentaries on classics mouth, first guide wire pole through connection in first lead change mouthful inside, second guide wire pole through connection in the second is led and is changeed mouthful inside.

Furthermore, a first wire hole is formed in the first wire rod, a second wire hole is formed in the second wire rod, a threading groove is formed in the side wall of the rotating shaft, and the first wire hole, the second wire hole and the threading groove are located on the same horizontal line.

Furthermore, first wire pole with second wire pole lateral wall all is connected with slowly prop the mechanism, slowly prop the mechanism and include overhanging piece, guide arm and insert the vaulting pole, two overhanging piece respectively perpendicular connect in first wire pole with second wire pole lateral wall, overhanging piece one end is connected with the wire pole, the wire pole lateral wall is connected with insert the vaulting pole, insert the vaulting pole peg graft in inside the spring.

Furthermore, the limiting mechanism comprises a first limiting cylinder, a second limiting cylinder and a fixed rotary cylinder, the first limiting cylinder, the second limiting cylinder and the fixed rotary cylinder are all arranged on the same center of circle, the rotating shaft is rotatably connected inside the fixed rotary cylinder, a circular guide track is formed between the first limiting cylinder and the second limiting cylinder, and the spring is arranged in the guide track.

Furthermore, stop gear still includes the baffle, the baffle connect perpendicularly in between first spacing section of thick bamboo and the spacing section of thick bamboo of second, the baffle set up in on the symmetry midline of first leading commentaries on classics mouth and second leading commentaries on classics mouth, the baffle both sides are connected with respectively the spring.

The utility model has the advantages that: turn to the cable conductor through guiding mechanism for the cable conductor can utilize rotatable elastic buffer subassembly to restrict the rotation range of cable conductor when turning to the position and swing, and make the angle of turning to of cable conductor reset, has slowed down and has dragged the effect, has guaranteed the stability of cable conductor when turning to the solid.

Drawings

FIG. 1 is a schematic view showing the overall structure of a buffer type copper-based alloy high-frequency coaxial cable fixing component according to the present invention;

fig. 2 shows a schematic view of the overall internal connection structure of the present invention;

FIG. 3 is a schematic view of the fixing structure of the limiting mechanism and the box body of the present invention;

fig. 4 shows a schematic structural diagram of the limiting mechanism of the present invention;

fig. 5 shows a schematic structural view of the guiding mechanism of the present invention;

fig. 6 is a schematic view showing a connection structure of the first wire guide rod and the cushion mechanism of the present invention;

fig. 7 is a schematic view showing a connection structure of a second wire guiding rod and a support mechanism according to the present invention;

fig. 8 shows a schematic view of the structure of the rotating shaft of the present invention;

shown in the figure: 1. a cable wire; 2. a guide mechanism; 21. a first wire guide rod; 211. a first wire hole; 22. a rotating shaft; 221. a threading slot; 23. a second wire guide rod; 231. a second wire hole; 3. a box body; 31. a first rotation guide port; 32. a second rotation guide port; 4. a fixed block; 5. a slow supporting mechanism; 51. an overhanging block; 52. a guide bar; 53. inserting a support rod; 6. a limiting mechanism; 61. a first limiting cylinder; 62. a baffle plate; 63. a second limiting cylinder; 64. fixing the rotary drum; 7. a spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The buffer type copper-based alloy high-frequency coaxial cable fixing assembly comprises a box body 3, wherein the side wall of the box body 3 is symmetrically connected with fixing blocks 4, a limiting mechanism 6 is arranged inside the box body 3, the limiting mechanism 6 is rotatably connected with a guide mechanism 2, a cable 1 is inserted inside the guide mechanism 2, the guide mechanism 2 is arranged between the limiting mechanism 6 and the box body 3 in a penetrating manner, a spring 7 is arranged inside the limiting mechanism 6, one side of the guide mechanism 2 is connected with a slow supporting mechanism 5, one side of the slow supporting mechanism 5 is inserted inside the spring 7, and the slow supporting mechanism 5 is positioned inside the limiting mechanism 6 and connected with the spring 7 to form a rotatable elastic buffer assembly; turn to cable conductor 1 through guiding mechanism 2 for cable conductor 1 can utilize rotatable elastic buffer subassembly to restrict cable conductor 1's rotation range when turning to the position and swing, and make cable conductor 1's steering angle reset, has slowed down and has dragged the effect, has guaranteed cable conductor 1 and is turning to the stability when fixed.

As shown in fig. 2, the guide mechanism 2 includes a first wire guide rod 21, a rotating shaft 22 and a second wire guide rod 23, the side wall of the rotating shaft 22 is rotatably connected with the first wire guide rod 21 and the second wire guide rod 23, a first rotating guide opening 31 is formed in the side wall of one side of the box body 3, a second rotating guide opening 32 is formed in the side wall of the adjacent side, the first wire guide rod 21 is connected inside the first rotating guide opening 31 in a penetrating manner, and the second wire guide rod 23 is connected inside the second rotating guide opening 32 in a penetrating manner; through the first rotation guide opening 31 and the second rotation guide opening 32, the first wire guide rod 21 and the second wire guide rod 23 connected with the rotating shaft 22 can swing within a range, and therefore elastic buffering effect can be achieved in a matching mode.

As shown in fig. 5 and 8, a first wire hole 211 is formed in the first wire rod 21, a second wire hole 231 is formed in the second wire rod 23, a wire threading groove 221 is formed in the side wall of the rotating shaft 22, and the first wire hole 211, the second wire hole 231 and the wire threading groove 221 are located on the same horizontal line; the cable 1 sequentially passes through the first wire hole 211, the threading groove 221 and the second wire hole 231, and the cable 1 turns by fitting the threading groove 221 on the rotating shaft 22.

As shown in fig. 2, 6 and 7, the slow supporting mechanism 5 is connected to side walls of the first wire rod 21 and the second wire rod 23, the slow supporting mechanism 5 includes an overhanging block 51, a guide rod 52 and an inserting support rod 53, the two overhanging blocks 51 are respectively and vertically connected to side walls of the first wire rod 21 and the second wire rod 23, one end of the overhanging block 51 is connected to the guide rod 52, the side wall of the guide rod 52 is connected to the inserting support rod 53, and the inserting support rod 53 is inserted into the spring 7; when the first wire guide bar 21 or the second wire guide bar 23 swings and rotates, the spring 7 is compressed by the connection between the insertion stay 53 and the spring 7, the insertion stay 53 is continuously inserted into the spring 7, and the spring 7 generates a reverse elastic force to cushion the first wire guide bar 21 and the second wire guide bar 23.

As shown in fig. 2, 3 and 4, the limiting mechanism 6 includes a first limiting cylinder 61, a second limiting cylinder 63 and a fixed rotating cylinder 64, the first limiting cylinder 61, the second limiting cylinder 63 and the fixed rotating cylinder 64 are all disposed on the same center of circle, the rotating shaft 22 is rotatably connected inside the fixed rotating cylinder 64, a circular guide track is formed between the first limiting cylinder 61 and the second limiting cylinder 63, and the spring 7 is disposed in the guide track; when the first wire rod 21 and the second wire rod 23 rotate around the rotating shaft 22 in the fixed drum 64, the connected slow-support mechanism 5 and the spring 7 simultaneously perform stable rotation in the guide track, so that the spring 7 can be used for elastic buffering and resetting with limitation in the circumferential direction.

The limiting mechanism 6 further comprises a baffle plate 62, the baffle plate 62 is vertically connected between the first limiting cylinder 61 and the second limiting cylinder 63, the baffle plate 62 is arranged on the symmetrical middle line of the first rotating guide port 31 and the second rotating guide port 32, and the two sides of the baffle plate 62 are respectively connected with the springs 7; the baffle 62 divides the first limiting cylinder 61 and the second limiting cylinder 63 into two areas symmetrically, so that the first wire guide rod 21 and the second wire guide rod 23 respectively perform elastic buffering action.

When the utility model is implemented, the utility model,

firstly, according to fig. 5, a cable 1 sequentially penetrates through a first wire guide rod 21, a rotating shaft 22 and a second wire guide rod 23 of a guide mechanism 2, so that the cable 1 penetrates through a first wire hole 211, a threading groove 221 and a second wire hole 231 on the same horizontal line, firstly penetrates through the first wire hole 211, is attached and steered in the threading groove 221 of the rotating shaft 22, then penetrates through the second wire hole 231, and the initial steering installation of the cable 1 is completed;

then, the guide mechanism 2 with the cables 1 connected in a penetrating manner is integrally placed into the box body 3 according to the drawing 2, so that the first lead rod 21 penetrates through the side wall of the box body 3 and extends out of the box body 3 from the first rotating guide opening 31, the second lead rod 23 penetrates through the adjacent side wall of the box body 3 and extends out of the box body 3 from the second rotating guide opening 32, and the first lead rod 21 and the second lead rod 23 can swing in the first rotating guide opening 31 and the second rotating guide opening 32 respectively;

meanwhile, the rotating shaft 22 is inserted into a fixed rotating cylinder 64 of a limiting mechanism 6 arranged in the box body 3, the rotating shaft 22 can rotate in the fixed rotating cylinder 64, a guide rod 52 connected to the side wall of the first wire guide rod 21 through an outward extending block 51 is inserted into a circular guide track formed between a first limiting cylinder 61 and a second limiting cylinder 63, an insertion support rod 53 connected to the bottom side of the guide rod 52 is similarly inserted into the guide track, one end of the insertion support rod 53 is inserted into a spring 7 arranged in the guide track until one end of the spring 7 is attached to the side wall of the guide rod 52, the other end of the insertion support rod is connected with a baffle 62 arranged on the symmetrical center line of the first wire guide opening 31 and the second wire guide opening 32, and similarly, the insertion support rod 53 of the slow support mechanism 5 connected with the second wire guide rod 23 is also similarly connected with another spring 7, and the other end of the spring 7 is also similarly connected with the baffle side wall 62;

after the guide mechanism 2 is connected in the box body 3 and the limiting mechanism 6, the whole fixed assembly is installed through the fixed block 4 on the box body 3 by using a bolt, so that the buffer type steering fixation of the cable 1 is completed; after the installation and when using cable conductor 1, if cable conductor 1 appears and swings in box body 3, first wire pole 21 is swung in first leading commentaries on classics mouth 31, second wire pole 23 is swung in second leading commentaries on classics mouth 32, when first wire pole 21 and second wire pole 23 swung, guide arm 52 that connects respectively moves along the guide track between first spacing section of thick bamboo 61 and the spacing section of thick bamboo 63 of second, it removes in the guide track to drive simultaneously to insert vaulting pole 53, insert vaulting pole 53 and promote spring 7 and stretch or compress, thereby corresponding spring 7's elasticity can cushion inserting vaulting pole 53, until first wire pole 21 and second wire pole 23 stop swinging, not only avoided cable conductor 1 to be pulled the circumstances when turning to, still reset to cable conductor 1's the position that turns to, thereby guaranteed cable conductor 1 and turned to fixed stability.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, but rather, the appended claims are intended to cover all such modifications, equivalents, and improvements as fall within the true spirit and scope of the invention.

Claims (6)

1. Buffer formula copper base alloy high frequency coaxial cable fixed subassembly, its characterized in that: including box body (3), box body (3) lateral wall symmetric connection has fixed block (4), box body (3) inside is provided with stop gear (6), stop gear (6) inside rotation is connected with guiding mechanism (2), guiding mechanism (2) inside is pegged graft and is had cable conductor (1), guiding mechanism (2) run through set up in stop gear (6) with between box body (3), the inside spring (7) that is provided with of stop gear (6), guiding mechanism (2) one side is connected with slowly props mechanism (5), slowly prop mechanism (5) one side peg graft in inside spring (7), slowly prop mechanism (5) and be located inside stop gear (6) with spring (7) are connected and are constituted the elastic buffer subassembly that can rotate.

2. The buffer type copper-based alloy high-frequency coaxial cable fixing component as claimed in claim 1, wherein: guiding mechanism (2) include first wire pole (21), pivot (22) and second wire pole (23), pivot (22) lateral wall rotates to be connected with first wire pole (21) and second wire pole (23), box body (3) one side lateral wall has been seted up first and has been led and has been changeed mouthful (31), and adjacent one side lateral wall has been seted up the second and has been led and has been changeed mouthful (32), first wire pole (21) through connection in first lead is changeed mouthful (31) inside, second wire pole (23) through connection in the second is led and is changeed mouthful (32) inside.

3. The buffer type copper-based alloy high-frequency coaxial cable fixing component as claimed in claim 2, wherein: first line hole (211) have been seted up to first wire pole (21) inside, second wire pole (23) inside has been seted up second line hole (231), threading groove (221) have been seted up to pivot (22) lateral wall, first line hole (211), second line hole (231) and threading groove (221) are located same water flat line.

4. The buffer type copper-based alloy high-frequency coaxial cable fixing component as claimed in claim 3, wherein: first wire pole (21) with second wire pole (23) lateral wall all is connected with slowly prop mechanism (5), slowly prop mechanism (5) including overhanging piece (51), guide arm (52) and insert vaulting pole (53), two overhanging piece (51) connect perpendicularly respectively in first wire pole (21) with second wire pole (23) lateral wall, overhanging piece (51) one end is connected with guide arm (52), guide arm (52) lateral wall is connected with insert vaulting pole (53), insert vaulting pole (53) peg graft in inside spring (7).

5. The buffer type copper-based alloy high-frequency coaxial cable fixing component as claimed in claim 4, wherein: the limiting mechanism (6) comprises a first limiting cylinder (61), a second limiting cylinder (63) and a fixed rotating cylinder (64), the first limiting cylinder (61), the second limiting cylinder (63) and the fixed rotating cylinder (64) are all arranged on the same circle center, the rotating shaft (22) is rotatably connected inside the fixed rotating cylinder (64), a circular guide track is formed between the first limiting cylinder (61) and the second limiting cylinder (63), and the spring (7) is arranged in the guide track.

6. The buffered copper-based alloy high-frequency coaxial cable fixing assembly as recited in claim 5, wherein: stop gear (6) still include baffle (62), baffle (62) connect perpendicularly in between first spacing section of thick bamboo (61) and the spacing section of thick bamboo of second (63), baffle (62) set up in on the symmetry mean line of first leading commentaries on classics mouth (31) and second leading commentaries on classics mouth (32), baffle (62) both sides are connected with respectively spring (7).

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