CN204229017U - Communications optical cable bus cable device - Google Patents

Abstract

The utility model relates to a kind of communications optical cable bus cable device, comprise: creel stand and can the winding displacement dish be arranged on creel stand that coincide of shape, it is characterized in that, described creel stand is provided with the pressuring line groove and circular groove that are interconnected, what circular described winding displacement dish can rotate is arranged in described circular groove, described winding displacement dish is dismountable is simultaneously arranged in circular groove, tension disc is provided with in described pressuring line groove, described tension disc can slide towards described winding displacement dish, and described winding displacement dish periphery is provided with several evenly distributed wire casings.The tension disc that the utility model utilizes provides single line for winding displacement dish, by the rotation of winding displacement dish, single line enters in wire casing, by the wire casing configurated on winding displacement dish, thus ensure single line according to wire casing arrangement rule order be arranged on winding displacement dish, reach the arrangement of needs, in order to follow-up use, conveniently distinguish and be linked into the corresponding access port of single line.

Description

Communications optical cable bus cable device

Technical field

The utility model relates to a kind of erecting equipment of communications optical cable, particularly relates to a kind of communications optical cable bus cable device.

Background technology

The cable heart that communications optical cable is made up of the optical fiber of some single lines and outer jacket formed.Optical fiber is compared with traditional symmetrical copper loop and coaxial copper loop, and its transmission capacity is much bigger; Attenuation is few; Transmission range is long; Volume is little; Lightweight; Without electromagnetic interference (EMI); Cost is low, is the most promising current communications media.It is just being widely used for, on the Signal transmissions of all departments such as telecommunications, electric power, broadcast, progressively becoming the main body of future communications network.

The optical cable comprising a lot of root single line optical fiber is installed on some equipment of access by root, the single line of different thicknesses or the single line of different colours is needed to distinguish, adopt the artificial method be separated, inefficiency, the probability of makeing mistakes is also larger, when particularly the single line of different thicknesses being arranged on mould according to certain rule, need to arrange according to certain arrangement shape, adopt manual method unrealistic.

Summary of the invention

The utility model overcomes the deficiencies in the prior art, provides a kind of structure simple communications optical cable bus cable device.

For achieving the above object, the technical solution adopted in the utility model is: a kind of communications optical cable bus cable device, comprise: creel stand and can the winding displacement dish be arranged on creel stand that coincide of shape, it is characterized in that, described creel stand is provided with the pressuring line groove and circular groove that are interconnected, what circular described winding displacement dish can rotate is arranged in described circular groove, described winding displacement dish is dismountable is simultaneously arranged in circular groove, tension disc is provided with in described pressuring line groove, described tension disc can slide towards described winding displacement dish, and described winding displacement dish periphery is provided with several evenly distributed wire casings.

In the utility model preferred embodiment, the wire casing that described winding displacement dish periphery is provided with is arcuate structure, and described arcuate structure is recessed into inside described winding displacement plate edge.

In the utility model preferred embodiment, the arc range of described arcuate structure is 180 °-270 °.

In the utility model preferred embodiment, the wire casing on described winding displacement dish is divided into the first wire casing and the second wire casing two kinds wire casing not of uniform size, described first wire casing and described second wire casing is equally spaced is disposed alternately at described winding displacement dish periphery.

In the utility model preferred embodiment, the wire casing on described winding displacement dish is provided with several wire casings of the same size, and described wire casing quantity is mutually corresponding with the single line quantity contained in described optical cable.

In the utility model preferred embodiment, what described tension disc was relative with described winding displacement dish is arc-shaped side, and described arc-shaped side can identical being pressed on described winding displacement dish of structure.

In the utility model preferred embodiment, described tension disc can be pressed to described winding displacement dish by the pressure holding spring that described tension disc is provided with.

In the utility model preferred embodiment, the circle centre position of described winding displacement dish drives connecting motor, and described motor can drive described winding displacement disc spins.

The utility model solves the defect existed in background technology, the tension disc that the utility model utilizes provides single line for winding displacement dish, by the rotation of winding displacement dish, single line enters in wire casing, by the wire casing configurated on winding displacement dish, thus ensure single line being arranged on winding displacement dish according to wire casing arrangement rule order, reach the arrangement of needs, in order to follow-up use, conveniently distinguish and be linked into the corresponding access port of single line.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is step one schematic diagram of the first embodiment of the present utility model;

Fig. 2 is the step 2 schematic diagram of the first embodiment of the present utility model;

Fig. 3 is the schematic diagram of the second embodiment of the present utility model;

Fig. 4 is the structural representation of the creel stand of preferred embodiment of the present utility model;

Fig. 5 is the winding displacement dish structural representation of the first embodiment of the present utility model;

Fig. 6 is the winding displacement dish structural representation of the second embodiment of the present utility model;

Fig. 7 is the three-dimensional structure diagram of the optical cable of the first embodiment of the present utility model;

Fig. 8 is the three-dimensional structure diagram of the optical cable of the second embodiment of the present utility model;

In figure: 1, creel stand, 2, tension disc, 3, pressuring line groove, 4, circular groove, 5, winding displacement dish, the 6, first wire casing, the 7, second wire casing, 8, wire casing, the 9, first single line, the 10, second single line, 11, single line, 12, optical cable.

Embodiment

Be described in further detail the utility model in conjunction with the accompanying drawings and embodiments now, these accompanying drawings are the schematic diagram of simplification, only basic structure of the present utility model are described in a schematic way, and therefore it only shows the formation relevant with the utility model.

As shown in figures 1-8, a kind of communications optical cable bus cable device, comprise: creel stand 1 and can the winding displacement dish 5 be arranged on creel stand 1 that coincide of shape, it is characterized in that, creel stand 1 is provided with the pressuring line groove 3 and circular groove 4 that are interconnected, and what circular winding displacement dish 5 can rotate is arranged in circular groove 4, winding displacement dish 5 is dismountable is simultaneously arranged in circular groove 4, be provided with tension disc 2 in pressuring line groove 3, tension disc 2 can slide towards winding displacement dish 5, and winding displacement dish 5 periphery is provided with several evenly distributed wire casings 8.

The wire casing 8 that winding displacement dish 5 periphery is provided with is arcuate structure, and arcuate structure is recessed into inside winding displacement dish 5 edge.The arcuate structure of wire casing 8 can substantially and the shape of cross section of single line 11 match, single line 11 just by firm the blocking of wire casing 8, and can follow rotation.

The arc range of arcuate structure is 180 °-270 °.This kind of angular range is conducive to snapping in of single line 11, and single line 11 also can not be deviate from easily in wire casing 8 simultaneously.

Tension disc 2 relative with winding displacement dish 5 while be arc-shaped side, arc-shaped side can structure coincide be pressed on winding displacement dish 5.Such structure also can be easy to be pressed in wire casing 8 when can ensure that pressuring line groove 3 inherence remains several single lines 11 few in number.

What tension disc 2 can slide is arranged in pressuring line groove 3, and tension disc 2 can by the wire casing 8 being pushed on winding displacement dish 5 of some single lines 11 pressure holding.Tension disc 2 can provide press force for a branch of single line 11 in optical cable 12, is pressed in wire casing 8 by single line 11.

Tension disc 2 can be pressed to winding displacement dish 5 by the pressure holding spring (not shown) that tension disc 2 is provided with.What pressure holding spring can continue for tension disc 2 provides pressure, ensures the motion stress of single line 11 towards optical cable 12 entrance.

The circle centre position of winding displacement dish 5 drives connecting motor (not shown), and motor can drive winding displacement dish 5 to rotate.The winding displacement dish 5 that motor drives rotates, and improves the automatization level of bus cable device.

The first embodiment of the present utility model is: the wire casing 8 on winding displacement dish 5 is divided into the first wire casing 6 and the second wire casing 7 two kinds wire casing 8, first wire casing 6 not of uniform size and the second wire casing 7 is equally spaced is disposed alternately at winding displacement dish 5 periphery.

The second embodiment of the present utility model is: the wire casing 8 on winding displacement dish 5 is provided with several wire casings 8 of the same size, and wire casing 8 quantity is mutually corresponding with single line 11 quantity contained in optical cable 12.

The first embodiment of the utility model in use, it uses the wire arranging method of communications optical cable 12 circular die bus cable device, communications optical cable 12 comprises some single lines 11, the first single line 9 that single line 11 is divided into cross sectional dimensions different and the second single line 10 two kinds of single lines 11, first single line 9 cross sectional dimensions is greater than the second single line 10 cross sectional dimensions, first single line 9 and the second single line 10 cross sectional dimensions mate with the first wire casing 6 and the second wire casing 7 size respectively, comprise the following steps:

(1) will comprise some first single line 9 optical cables 12 is placed in pressuring line groove 3, and now tension disc 2 pushes optical cable 12 to winding displacement dish 5, drives winding displacement dish 5 to rotate, until the first single line 9 enters in each first wire casing 6 by root;

(2) will comprise some second single line 10 optical cables 12 is placed in pressuring line groove 3, and now tension disc 2 pushes optical cable 12 to winding displacement dish 5, drives winding displacement dish 5 to rotate, until the second single line 10 enters in each second wire casing 7 by root;

（3）

The second single line 10 is pressed into after being first pressed into the first single line 9, cross sectional dimensions due to the first single line 9 is greater than the second wire casing 7 size, first single line 9 can not enter in the second wire casing 7 automatically, ensures that the second single line 10 that cross sectional dimensions is less can not enter into the first wire casing 6 simultaneously.

The utility model the second embodiment in use, it uses the wire arranging method of communications optical cable 12 circular die bus cable device, communications optical cable 12 comprises some single lines 11, the optical cable 12 comprising the consistent single line 11 of some cross sectional dimensions is placed in pressuring line groove 3, now tension disc 2 pushes optical cable 12 to winding displacement dish 5, winding displacement dish 5 is driven to rotate, until single line 11 enters in each wire casing 8 by root; In circular groove 4, take off the winding displacement dish 5 all snapping in single line 11 in each wire casing 8, new winding displacement dish 5 is installed in circular groove 4.

Above according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, related personnel in the scope not departing from this utility model technological thought, can carry out various change and amendment completely.The technical scope of this utility model is not limited to the content on instructions, must determine technical scope according to right.

Claims (8)

1. a communications optical cable bus cable device, comprise: creel stand and can the winding displacement dish be arranged on creel stand that coincide of shape, it is characterized in that, described creel stand is provided with the pressuring line groove and circular groove that are interconnected, what circular described winding displacement dish can rotate is arranged in described circular groove, and described winding displacement dish is dismountable is simultaneously arranged in circular groove, is provided with tension disc in described pressuring line groove, described tension disc can slide towards described winding displacement dish, and described winding displacement dish periphery is provided with several evenly distributed wire casings.

2. communications optical cable bus cable device according to claim 1, is characterized in that: the wire casing that described winding displacement dish periphery is provided with is arcuate structure, and described arcuate structure is recessed into inside described winding displacement plate edge.

3. communications optical cable bus cable device according to claim 2, is characterized in that: the arc range of described arcuate structure is 180 °-270 °.

4. communications optical cable bus cable device according to claim 2, it is characterized in that: the wire casing on described winding displacement dish is divided into the first wire casing and the second wire casing two kinds wire casing not of uniform size, described first wire casing and described second wire casing is equally spaced is disposed alternately at described winding displacement dish periphery.

5. communications optical cable bus cable device according to claim 2, is characterized in that: the wire casing on described winding displacement dish is provided with several wire casings of the same size, and described wire casing quantity is mutually corresponding with the single line quantity contained in described optical cable.

6. communications optical cable bus cable device according to claim 1, is characterized in that: what described tension disc was relative with described winding displacement dish is arc-shaped side, and described arc-shaped side can identical being pressed on described winding displacement dish of structure.

7. communications optical cable bus cable device according to claim 1, is characterized in that: described tension disc can be pressed to described winding displacement dish by the pressure holding spring that described tension disc is provided with.

8. communications optical cable bus cable device according to claim 1, is characterized in that: the circle centre position of described winding displacement dish drives connecting motor, and described motor can drive described winding displacement disc spins.