CN209248086U - A kind of multiplex roles optical patchcord - Google Patents
A kind of multiplex roles optical patchcord Download PDFInfo
- Publication number
- CN209248086U CN209248086U CN201822014249.4U CN201822014249U CN209248086U CN 209248086 U CN209248086 U CN 209248086U CN 201822014249 U CN201822014249 U CN 201822014249U CN 209248086 U CN209248086 U CN 209248086U
- Authority
- CN
- China
- Prior art keywords
- optical patchcord
- converter
- interface
- separated time
- wire jumper
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
The utility model relates to technical field of communication equipment, in particular a kind of multiplex roles optical patchcord, including the first converter, main fiber wire jumper and the second converter, first converter side is connected with the first separated time of multiple groups, and first separated time is connected separately with the first FC optical patchcord interface far from the side of the first converter, first ST optical patchcord interface, first LC optical patchcord interface and the first SC optical patchcord interface, first converter is connected with main fiber wire jumper far from the side of the first separated time, the main fiber wire jumper is connected with the second converter far from the side of the first converter, second converter is connected with the second separated time of multiple groups far from the side of main fiber wire jumper, second separated time is connected separately with the 2nd ST optical patchcord interface far from the side of the second converter, 2nd FC optical patchcord interface, 2nd SC optical patchcord interface and the 2nd LC optical patchcord interface, integral device effect is good, and stability and practicability are higher, has certain promotional value.
Description
Technical field
The utility model relates to technical field of communication equipment, specially a kind of multiplex roles optical patchcord.
Background technique
Optical patchcord is used to do the jumper from equipment to optical fiber cloth wired link.There is thicker protective layer, is commonly used in light
Connection between terminal and termination box is applied in optical fiber telecommunications system, Optical Access Network, fibre optic data transmission and local area network etc.
Some fields, optical patchcord (also known as optical fiber connector), that is, the fibre-optical splice of access optical module, also there is a lot of kinds, and phase
It cannot mutually be used between mutually, it is therefore desirable to which a kind of multiplex roles optical patchcord makes improvement to the above problem.
Utility model content
It is mentioned above in the background art to solve the purpose of this utility model is to provide a kind of multiplex roles optical patchcord
Problem.
To achieve the above object, the utility model provides the following technical solutions:
A kind of multiplex roles optical patchcord, including the first converter, main fiber wire jumper and the second converter, described first turn
Parallel operation side is connected with the first separated time of multiple groups, and first separated time is connected separately with the first FC far from the side of the first converter
Optical patchcord interface, the first ST optical patchcord interface, the first LC optical patchcord interface and the first SC optical patchcord interface, described
One converter is connected with main fiber wire jumper far from the side of the first separated time, and the main fiber wire jumper includes flexible rubber ring sheath, absolutely
Edge layer, fibre core, lock pin and tensile steel wire, and the lock pin outer annular is arranged with fibre core, the fibre core outer annular is arranged with
Insulating layer, the insulating layer outer annular are arranged with flexible rubber ring sheath, are equipped between the flexible rubber ring sheath and insulating layer
Tensile steel wire, the main fiber wire jumper are connected with the second converter, the first converter packet far from the side of the first converter
Containing station, main fiber wire jumper signal conversion block in upper housing, lower case, separated time fixed rubber ring, separated time signal conversion block, fiber optic network
Fixture block is fixed with main fiber wire jumper, and the lower case is equipped with separated time fixed rubber ring at the first separated time, the lower case is leaned on
It is equipped with the fixed fixture block of main fiber wire jumper at nearly main fiber wire jumper, is equipped in fiber optic network and stands at the lower case center, the light
Station and the first separated time junction are equipped with separated time signal conversion block in fibre web network, stand in the fiber optic network and connect with main fiber wire jumper
Place is equipped with main fiber wire jumper signal conversion block, and second converter and the first converter structure are identical, second converter
Side far from main fiber wire jumper is connected with the second separated time of multiple groups, and second separated time is distinguished far from the side of the second converter
The 2nd ST optical patchcord interface, the 2nd FC optical patchcord interface, the 2nd SC optical patchcord interface and the 2nd LC optical fiber is connected with to jump
Line interface.
Preferably, second separated time of the first junction box is equipped with eight groups, and first separated time and the first FC optical fiber are jumped
Line interface, the first ST optical patchcord interface, the first LC optical patchcord interface, the first SC optical patchcord interface, the first converter it
Between be electrically connected, the 2nd ST optical patchcord interface of the second separated time, the 2nd FC optical patchcord interface, the 2nd SC optical patchcord connect
Mouth is electrically connected between the 2nd LC optical patchcord interface, the second converter.
Preferably, the first FC optical patchcord interface, the first ST optical patchcord interface, the first LC optical patchcord interface,
First SC optical patchcord interface, the 2nd ST optical patchcord interface of the second separated time, the 2nd FC optical patchcord interface, the 2nd SC optical fiber are jumped
Line interface and the 2nd LC optical patchcord interface are equipped with two groups.
Preferably, it is electrically connected between first converter, the second converter and main fiber wire jumper.
Preferably, it is equipped with fixing bolt between the upper housing and lower case, and leads between the upper housing and lower case
It crosses and is fixedly connected to fixing bolt.
Preferably, the upper housing and lower case are equipped with fixture block at station in fiber optic network, and in the fiber optic network
It stands and is connect by fixture block with upper housing and lower case plug-in.
Compared with prior art, the utility model has the beneficial effects that
1, in the utility model, pass through the first FC optical patchcord interface, the first ST optical patchcord interface, the first LC of setting
Optical patchcord interface, the first SC optical patchcord interface, the 2nd ST optical patchcord interface, the 2nd FC optical patchcord interface, the 2nd SC
Optical patchcord interface, the 2nd LC optical patchcord interface, the first converter and the second converter, it is mutual that the design achieves multiplex roles
Between can mutually use, avoid the problem of interface cannot be used mutually between each other, double Interface design, for backing up, prevent because
Cause entire optical patchcord equipment unavailable for an interface damage, improves the service life and utilization rate of equipment.
2, it in the utility model, by the first converter and the second converter of setting, meets and believes between distinct interface
Number conversion, adapt to a variety of use conditions, improve the service efficiency of equipment.
3, in the utility model, by the tensile steel wire of setting, the design achieves mentioning for the tensile property of optical patchcord
It rises, avoids optical fiber in use due to overbending and around ring, cause signal in the decaying of transmission process.
Detailed description of the invention
Fig. 1 is the utility model main body figure;
Fig. 2 is the first converter structure of the utility model figure;
Fig. 3 is the utility model optical patchcord structure chart.
In figure: the first FC optical patchcord interface of 1-, the first ST optical patchcord interface of 2-, the first LC optical patchcord interface of 3-,
The first SC optical patchcord interface of 4-, the first separated time of 5-, the first converter of 6-, 7- main fiber wire jumper, the second converter of 8-, 9- second
The 2nd ST optical patchcord interface of separated time, 10-, the 2nd FC optical patchcord interface of 11-, the 2nd SC optical patchcord interface of 12-, 13-
Two LC optical patchcord interfaces, 14- upper housing, 15- lower case, 16- separated time fixed rubber ring, 17- separated time signal conversion block, 18- light
Station, 19- main fiber wire jumper signal conversion block, 20- main fiber wire jumper fixed fixture block, 21- flexible rubber ring sheath, 22- in fibre web network
Insulating layer, 23- fibre core, 24- lock pin, 25- tensile steel wire.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment, based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Fig. 1-3 is please referred to, the utility model provides a kind of technical solution:
A kind of multiplex roles optical patchcord, including the first converter 6, main fiber wire jumper 7 and the second converter 8, first turn
6 side of parallel operation is connected with the first separated time of multiple groups 5, and the first separated time 5 is connected separately with the first FC far from the side of the first converter 6
Optical patchcord interface 1, the first ST optical patchcord interface 2, the first LC optical patchcord interface 3 and the first SC optical patchcord interface 4, the
One converter 6 is connected with main fiber wire jumper 7 far from the side of the first separated time 5, main fiber wire jumper 7 include flexible rubber ring sheath 21,
Insulating layer 22, fibre core 23, lock pin 24 and tensile steel wire 25, and 24 outer annular of lock pin is arranged with fibre core 23,23 external rings of fibre core
Shape is arranged with insulating layer 22, and 22 outer annular of insulating layer is arranged with flexible rubber ring sheath 21, flexible rubber ring sheath 21 and insulating layer
Tensile steel wire 25 is equipped between 22, main fiber wire jumper 7 is connected with the second converter 8 far from the side of the first converter 6, and first turn
Be electrically connected between parallel operation 5, the second converter 8 and main fiber wire jumper 7, the first converter 6 include upper housing 14, lower case 15,
Separated time fixed rubber ring 16, separated time signal conversion block 17, station 18, main fiber wire jumper signal conversion block 19 and main fiber in fiber optic network
Wire jumper fixes fixture block 20, and fixing bolt is equipped between upper housing 14 and lower case 15, and leads between upper housing 14 and lower case 15
It crosses and is fixedly connected to fixing bolt, and lower case 15 is equipped with separated time fixed rubber ring 16 at the first separated time 5, lower case 15 is close
It is equipped with the fixed fixture block 20 of main fiber wire jumper at main fiber wire jumper 7, is equipped in fiber optic network at 15 center of lower case and stands 18, upper housing
14 and lower case 15 stand in fiber optic network and be equipped with fixture block at 18, and in fiber optic network station 18 by fixture block and upper housing 14 and
15 plug-in of lower case connects, and station 18 and 5 junction of the first separated time are equipped with separated time signal conversion block 17, optical network in fiber optic network
Station 18 and 7 junction of main fiber wire jumper are equipped with main fiber wire jumper signal conversion block 19, the second converter 8 and the first converter in network
6 structures are identical, and the second converter 8 is connected with the second separated time of multiple groups 9 far from the side of main fiber wire jumper 7, and the second separated time 9 is separate
The side of second converter 8 is connected separately with the 2nd ST optical patchcord interface 10, the 2nd FC optical patchcord interface 11, the 2nd SC light
Fine wire jumper interface 12 and the 2nd LC optical patchcord interface 13, first the second separated time of junction box are equipped with eight groups, and 5 He of the first separated time
First FC optical patchcord interface 1, the first ST optical patchcord interface 2, the first LC optical patchcord interface 3, the first SC optical patchcord connect
It is electrically connected between the 4, first converter 6 of mouth, the 2nd ST optical patchcord interface 10 of the second separated time, the 2nd FC optical patchcord interface
11, the 2nd SC optical patchcord interface 12, the 2nd LC optical patchcord interface 13, be electrically connected between the second converter 8, the first FC light
Fine wire jumper interface 1, the first ST optical patchcord interface 2, the first LC optical patchcord interface 3, the first SC optical patchcord interface 4, second
The 2nd ST optical patchcord interface 10 of separated time, the 2nd FC optical patchcord interface 11, the 2nd SC optical patchcord interface 12 and the 2nd LC light
Fine wire jumper interface 13 is equipped with two groups.
Utility model works process: pass through the first converter 6 and the second converter 8 first for the letter of main fiber wire jumper 7
Number conversion to the first separated time 5 and the second separated time 9, pass through the first FC optical patchcord interface 1, the first ST optical patchcord interface of setting
2, the first LC optical patchcord interface 3, the first SC optical patchcord interface 4, the 2nd ST optical patchcord interface 10, the 2nd FC optical patchcord
Interface 11, the 2nd SC optical patchcord interface 12, the 2nd LC optical patchcord interface 13, the first converter 6 and the second converter 8, should
Design realizes multiplex roles can mutually use between each other, avoid the problem of interface cannot be used mutually between each other, double interface
Design prevents from improving the use of equipment because an interface damage causes entire optical patchcord equipment unavailable for backing up
Service life and utilization rate meet the conversion of signal between distinct interface by the first converter 6 and the second converter 8 of setting,
A variety of use conditions are adapted to, the service efficiency of equipment is improved, by the tensile steel wire 25 of setting, the design achieves optical fiber jumps
The promotion of the tensile property of line avoids optical fiber in use due to overbending and around ring, causes signal in transmission process
Decaying.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired
Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.
Claims (6)
1. a kind of multiplex roles optical patchcord, including the first converter (6), main fiber wire jumper (7) and the second converter (8),
Be characterized in that: the first converter (6) side is connected with the first separated time of multiple groups (5), and first separated time (5) is far from first
The side of converter (6) is connected separately with the first FC optical patchcord interface (1), the first ST optical patchcord interface (2), the first LC light
Fine wire jumper interface (3) and the first SC optical patchcord interface (4), first converter (6) connect far from the side of the first separated time (5)
Be connected to main fiber wire jumper (7), the main fiber wire jumper (7) include flexible rubber ring sheath (21), insulating layer (22), fibre core (23),
Lock pin (24) and tensile steel wire (25), and the lock pin (24) outer annular is arranged with fibre core (23), the fibre core (23) is external
Annular sleeve is equipped with insulating layer (22), and insulating layer (22) outer annular is arranged with flexible rubber ring sheath (21), the elastic gum
It encircles for protection and is equipped with tensile steel wire (25) between set (21) and insulating layer (22), the main fiber wire jumper (7) is far from the first converter (6)
Side be connected with the second converter (8), first converter (6) includes that upper housing (14), lower case (15), separated time are fixed
Cushion rubber (16), separated time signal conversion block (17) are stood (18) in fiber optic network, main fiber wire jumper signal conversion block (19) and main fiber
Wire jumper is fixed fixture block (20), and the lower case (15) is equipped with separated time fixed rubber ring (16) at the first separated time (5), under described
Shell (15) is equipped with main fiber wire jumper at main fiber wire jumper (7) and fixes fixture block (20), sets at lower case (15) center
There is station (18) in fiber optic network, stands (18) in the fiber optic network and the first separated time (5) junction is equipped with separated time signal conversion block
(17), it stands (18) in the fiber optic network and main fiber wire jumper (7) junction is equipped with main fiber wire jumper signal conversion block (19), institute
State that the second converter (8) is identical with the first converter (6) structure, second converter (8) far from main fiber wire jumper (7) one
Side is connected with the second separated time of multiple groups (9), and second separated time (9) is connected separately with the far from the side of the second converter (8)
Two ST optical patchcord interfaces (10), the 2nd FC optical patchcord interface (11), the 2nd SC optical patchcord interface (12) and the 2nd LC light
Fine wire jumper interface (13).
2. a kind of multiplex roles optical patchcord according to claim 1, it is characterised in that: second separated time of the first junction box
It is equipped with eight groups, and first separated time (5) and the first FC optical patchcord interface (1), the first ST optical patchcord interface (2),
One LC optical patchcord interface (3), the first SC optical patchcord interface (4), the first converter are electrically connected between (6), and described second
The 2nd ST optical patchcord interface (10) of separated time, the 2nd FC optical patchcord interface (11), the 2nd SC optical patchcord interface (12), second
LC optical patchcord interface (13), the second converter are electrically connected between (8).
3. a kind of multiplex roles optical patchcord according to claim 1, it is characterised in that: the first FC optical patchcord interface
(1), the first ST optical patchcord interface (2), the first LC optical patchcord interface (3), the first SC optical patchcord interface (4), second point
The 2nd ST optical patchcord interface (10) of line, the 2nd FC optical patchcord interface (11), the 2nd SC optical patchcord interface (12) and second
LC optical patchcord interface (13) is equipped with two groups.
4. a kind of multiplex roles optical patchcord according to claim 1, it is characterised in that: first converter (6), second
It is electrically connected between converter (8) and main fiber wire jumper (7).
5. a kind of multiplex roles optical patchcord according to claim 1, it is characterised in that: the upper housing (14) and lower case
(15) fixing bolt is equipped between, and by being fixedly connected to fixing bolt between the upper housing (14) and lower case (15).
6. a kind of multiplex roles optical patchcord according to claim 1, it is characterised in that: the upper housing (14) and lower case
(15) fixture block is equipped at station (18) in fiber optic network, and station (18) passes through fixture block and upper housing (14) in the fiber optic network
It is connected with lower case (15) plug-in.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822014249.4U CN209248086U (en) | 2018-12-03 | 2018-12-03 | A kind of multiplex roles optical patchcord |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822014249.4U CN209248086U (en) | 2018-12-03 | 2018-12-03 | A kind of multiplex roles optical patchcord |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209248086U true CN209248086U (en) | 2019-08-13 |
Family
ID=67530982
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201822014249.4U Expired - Fee Related CN209248086U (en) | 2018-12-03 | 2018-12-03 | A kind of multiplex roles optical patchcord |
Country Status (1)
Country | Link |
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CN (1) | CN209248086U (en) |
-
2018
- 2018-12-03 CN CN201822014249.4U patent/CN209248086U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190813 Termination date: 20201203 |