CN216450434U - 5G communication optical cable - Google Patents
5G communication optical cable Download PDFInfo
- Publication number
- CN216450434U CN216450434U CN202122271376.4U CN202122271376U CN216450434U CN 216450434 U CN216450434 U CN 216450434U CN 202122271376 U CN202122271376 U CN 202122271376U CN 216450434 U CN216450434 U CN 216450434U
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- optical cable
- rubber
- insulating tape
- fixedly connected
- outer sheath
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Abstract
The utility model provides a 5G communication optical cable, which belongs to the technical field of optical cables and comprises an outer sheath, an insulating tape and a power line, wherein the insulating tape is fixedly connected inside the outer sheath, the power line is fixedly connected inside the insulating tape, a plurality of hollowed holes are formed in the surface of the outer sheath, a plurality of rubber partition strips are fixedly connected inside the hollowed holes, a notch is formed in the surface of each rubber partition strip, a plurality of rubber rollers are movably connected inside each notch, a plurality of sponges are fixedly connected between the insulating tape and the outer sheath, and a rubber block is fixedly connected inside each sponge. This kind of 5G communication optical cable is when in-service use, can be convenient be connected with the threading groove for this cable also can penetrate the threading inslot under the less condition of threading inslot diameter, and the cushion capacity of this cable is strong simultaneously, in the installation of carrying out the optical cable, even there is the heavy object to drop and rolls, also can avoid leading to the optical cable surface splitting to appear, has ensured the service quality of optical cable.
Description
Technical Field
The utility model relates to the technical field of optical cables, in particular to a 5G communication optical cable.
Background
The optical cable organically combines metal wires and optical fibers, and simultaneously, the optical cable is an integrated transmission medium for transmitting electric energy and optical information in the same way and in the same direction, so that the integrated integration of electric power flow, service flow and information flow is realized, the diameter of the existing 5G communication optical cable is certain, when the optical cable needs to pass through the threading groove, the diameter of the optical cable possibly does not match with the inner diameter of the threading groove, if the diameter of the threading groove is too small, the optical cable is difficult to penetrate, in addition, the buffering force of the optical cable in the prior art is poor, a heavy object is difficult to be rolled from the optical cable in the installation process of the optical cable, the surface of the optical cable is easy to split, and the use quality of the optical cable is further influenced.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a 5G communication optical cable to solve the defects in the prior art.
The above object is solved by the following technical solutions:
the utility model provides a 5G communication optical cable, includes oversheath, insulating tape and power cord, insulating tape fixed connection is inside the oversheath, power cord fixed connection is inside the insulating tape, a plurality of fretwork holes have been seted up on the surface of oversheath, and is a plurality of many rubber parting beads of the equal fixedly connected with in inside of fretwork hole, every the notch has all been seted up on the surface of rubber parting bead, every the equal swing joint in inside of notch has a plurality of rubber gyro wheels, a plurality of sponges of fixedly connected with between insulating tape and the oversheath, every the equal fixedly connected with rubber piece in inside of sponge.
As a preferable scheme, a plurality of the rubber division bars are all arranged in the hollow hole in a surrounding mode.
As a preferable scheme, the height of each rubber roller is 0.25-0.5cm higher than the depth of the notch, and the plurality of rubber rollers are sequentially arranged at equal intervals.
Preferably, a plurality of the sponges are arranged around the insulating tape and the outer sheath at equal intervals.
Preferably, each rubber block is located on one side, which is deviated from the outer sheath, of the interior of the sponge, and the cross sections of the plurality of sponges and the rubber blocks are arc-shaped.
Has the advantages that:
(1) this kind of 5G communication optical cable passes through the improvement of structure, makes this device when in-service use, can be convenient be connected with the threading groove for this cable also can penetrate the threading inslot under the less condition of threading inslot diameter, and the buffer power of this cable is strong simultaneously, is carrying out the installation of optical cable in, even there is the heavy object to drop and rolls, also can avoid leading to the splitting to appear on the optical cable surface, has ensured the service quality of optical cable.
(2) The 5G communication optical cable has the advantages that: because a plurality of sponges are the equidistance between insulating tape and oversheath and encircle and arrange, and because every block rubber all is located the inside one side that is partial to the oversheath of sponge, make this device when the in-service use, drop or pound to the heavy object on optical cable surface, bear its gravity through sponge and block rubber at a plurality of angles homoenergetic, and then make the optical cable surface have stronger buffer power to avoid leading to the splitting to appear in the optical cable surface, ensured the service quality of optical cable.
(3) Secondly, the method comprises the following steps: when meeting the less threading groove of internal diameter, use through the cooperation of fretwork hole and rubber parting bead, can make the optical cable when penetrating the threading inslot, encircle the rubber parting bead of arranging and can be compressed in the fretwork hole, and then make the diameter that the rubber parting bead of arranging formed around can be compressed in the threading inslot, under this condition, make this optical cable easily pass the threading groove.
Drawings
Fig. 1 is a schematic overall oblique view structure of the present invention.
FIG. 2 is a schematic diagram of an oblique view structure of the rubber division bar of the present invention.
Fig. 3 is a schematic front sectional view between the outer sheath and the insulating tape according to the present invention.
FIG. 4 is a schematic front cross-sectional view of the sponge of the present invention.
In FIGS. 1-4: 1-an outer sheath; 2, engraving holes; 3-rubber parting beads; 301-a notch; 302-rubber rollers; 4-an insulating tape; 5-a power line; 6-sponge; 601-rubber block.
Detailed Description
Please refer to fig. 1 to fig. 4:
the embodiment provides a 5G communication optical cable, including oversheath 1, insulating tape 4 and power cord 5, insulating tape 4 fixed connection is inside oversheath 1, 5 fixed connection of power cord is inside insulating tape 4, a plurality of fretwork holes 2 have been seted up on the surface of oversheath 1, many rubber parting beads 3 of the equal fixedly connected with in inside of a plurality of fretwork holes 2, notch 301 has all been seted up on the surface of every rubber parting bead 3, the equal swing joint in inside of every notch 301 has a plurality of rubber gyro wheels 302, a plurality of sponges 6 of fixedly connected with between insulating tape 4 and the oversheath 1, the equal fixedly connected with rubber block 601 in inside of every sponge 6.
Furthermore, a plurality of rubber spacers 3 are arranged in the hollow holes 2 in a surrounding manner, through the design, when the optical cable passes through the threading slot, the contact area between the rubber spacers 3 and the threading slot can be increased, so that the threading slot can uniformly compress the rubber spacers 3, the plurality of hollow holes 2 arranged on the surface of the outer sheath 1 are arranged at the edge of one end of the outer sheath 1 at the initial position, the rubber spacers are arranged at equal intervals, when the optical cable passes through the threading slot, the end of the outer sheath 1 is firstly inserted into the threading slot, so that the optical cable slowly advances in the threading slot, the height of each rubber roller 302 is 0.25-0.5cm higher than the depth of the notch 301, and the rubber rollers 302 are arranged at equal intervals in sequence, through the design, the rubber rollers 302 slightly protrude out of the notch 301, the integral diameter of the optical cable is not greatly increased, and meanwhile, when the hollow holes 2 are arranged in the threading slot, the rubber spacing strips 3 can also pass through the threading grooves quickly through the uniformly arranged rubber rollers 302, so as to reduce the friction between the rubber division bar 3 and the threading groove, a plurality of sponges 6 are arranged between the insulating tape 4 and the outer sheath 1 in an equidistant surrounding way, and through the design, the sponges fall or pound heavy objects on the surface of the optical cable, the gravity of the optical cable can be borne by the sponge 6 and the rubber block 601 at a plurality of angles, so that the surface of the optical cable has stronger buffer force, so as to avoid the occurrence of splitting on the surface of the optical cable and ensure the use quality of the optical cable, each rubber block 601 is positioned inside the sponge 6 and is deviated to one side of the outer sheath 1, the cross sections of the plurality of sponges 6 and the rubber blocks 601 are all arc-shaped, the hardness of the rubber blocks 601 is higher than that of the sponges 6, through the design, the sponge 6 can not only play a layer of protection role for the rubber block 601, but also play a supporting role for the outer sheath 1 at multiple angles.
The working principle is as follows:
when the device passes through the threading groove with the smaller inner diameter, the rubber spacers 3 arranged in a surrounding manner can be compressed in the through hole 2 by matching the through hole 2 with the rubber spacers 3, and then the diameters formed by the rubber spacers 3 arranged in a surrounding manner can be compressed in the threading groove, so that the optical cable can easily pass through the threading groove.
Claims (5)
1. The utility model provides a 5G communication optical cable, includes oversheath (1), insulating tape (4) and power cord (5), insulating tape (4) fixed connection is inside oversheath (1), inside power cord (5) fixed connection is inside insulating tape (4), its characterized in that, a plurality of fretwork holes (2) have been seted up on the surface of oversheath (1), and is a plurality of the equal fixedly connected with many rubber parting beads (3) in inside of fretwork hole (2), every notch (301) have all been seted up on the surface of rubber parting bead (3), every the equal swing joint in inside of notch (301) has a plurality of rubber gyro wheels (302), a plurality of sponges (6) of fixedly connected with between insulating tape (4) and oversheath (1), every the equal fixedly connected with rubber piece (601) in inside of sponge (6).
2. The 5G communication optical cable according to claim 1, wherein a plurality of the rubber division bars (3) are arranged around the inside of the hollow hole (2).
3. The 5G communication optical cable according to claim 1, wherein each rubber roller (302) has a height 0.25-0.5cm higher than the depth of the notch (301), and the plurality of rubber rollers (302) are sequentially arranged at equal intervals.
4. The 5G communication optical cable according to claim 1, wherein the plurality of sponges (6) are arranged around the insulating tape (4) and the outer sheath (1) at equal intervals.
5. The 5G communication optical cable according to claim 1, wherein each rubber block (601) is positioned inside the sponge (6) and is biased to one side of the outer sheath (1), and the cross sections of the plurality of sponges (6) and rubber blocks (601) are arc-shaped.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122271376.4U CN216450434U (en) | 2021-09-18 | 2021-09-18 | 5G communication optical cable |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202122271376.4U CN216450434U (en) | 2021-09-18 | 2021-09-18 | 5G communication optical cable |
Publications (1)
Publication Number | Publication Date |
---|---|
CN216450434U true CN216450434U (en) | 2022-05-06 |
Family
ID=81350321
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202122271376.4U Active CN216450434U (en) | 2021-09-18 | 2021-09-18 | 5G communication optical cable |
Country Status (1)
Country | Link |
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CN (1) | CN216450434U (en) |
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2021
- 2021-09-18 CN CN202122271376.4U patent/CN216450434U/en active Active
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