CN104317020B - Coil configuration device of communication optical cables - Google Patents

Abstract

The invention relates to a coil configuration device of communication optical cables. The coil configuration device comprises a coil configuration frame and a coil configuration disk arranged on the coil configuration frame in a matched way. The coil configuration device is characterized in that a coil pressing slot and a circular slot which are communicated with each other are arranged on the coil configuration frame. The circular coil configuration disk is rotatably arranged in the circular slot. The coil configuration disk is detachably arranged in the circular slot, a coil pressing plate is arranged in the coil pressing slot and slides towards the coil configuration disk. A plurality of evenly arrayed coil slots are arranged on the periphery of the coil configuration disk. The coil pressing plate provides single coils for the coil configuration disk, the single coils enter the coil slots through rotation of the coil configuration disk and then are ensured to be configured on the coil configuration disk according to the configuration rule sequence of the coil slots which are configured on the coil configuration disk, the required configuration structure is obtained for follow-up use, and the single coils can be identified conveniently and can be connected into corresponding access ports of the single coils conveniently.

Description

Communications optical cable bus cable device

Technical field

The present invention relates to a kind of installation equipment of communications optical cable, more particularly to a kind of communications optical cable bus cable device.

Background technology

The cable heart and outer jacket that communications optical cable is made up of the optical fiber of some single lines are constituted.Optical fiber is symmetrical with traditional Copper loop and coaxial copper loop compare, and its transmission capacity is much bigger；Attenuation is few；Transmission range is long；Small volume；It is lightweight；Nothing Electromagnetic interference；Low cost, is current most promising communications media.It is each that it is used widely for telecommunications, electric power, broadcast etc. In the signal transmission of department, will progressively turn into the main body of future communications network.

Optical cable comprising many root single line optical fiber is installed by root and is accessed in some equipment, it is necessary to by the single line of different thicknesses Or the single line of different colours makes a distinction, using artificial separate method, inefficiency, the probability of error is also larger, particularly The single line of different thicknesses is arranged in when on mould according to certain rule, it is necessary to be configured according to certain arrangement shape, adopted It is unrealistic by artificial means.

The content of the invention

Instant invention overcomes the deficiencies in the prior art, there is provided a kind of communications optical cable bus cable device of simple structure.

To reach above-mentioned purpose, the technical solution adopted by the present invention is：A kind of communications optical cable bus cable device, including：Winding displacement Frame and being capable of the identical winding displacement disk being arranged on creel stand of shape, it is characterised in that the creel stand is provided with interconnected Pressuring line groove and circular groove, what the circular winding displacement disk can rotate is arranged in the circular groove, while the winding displacement disk is removable That unloads is arranged in circular groove, and tension disc is provided with the pressuring line groove, and the tension disc can be slided towards the winding displacement disk, described Winding displacement disk periphery is provided with several evenly distributed wire casings.

In a preferred embodiment of the present invention, the wire casing that the winding displacement disk periphery is provided with is arcuate structure, the arc knot The recessed winding displacement plate edge inner side of structure.

In a preferred embodiment of the present invention, the arc range of the arcuate structure is 180 ° -270 °.

In a preferred embodiment of the present invention, the wire casing on the winding displacement disk is divided into the first wire casing and two kinds of the second wire casing is big The small wire casing for differing, first wire casing and second wire casing are disposed alternately at the winding displacement disk periphery at equal intervals.

In a preferred embodiment of the present invention, the wire casing on the winding displacement disk is provided with several wire casings of the same size, institute It is mutually corresponding with the single line quantity contained in the optical cable to state wire casing quantity.

In a preferred embodiment of the present invention, tension disc one side relative with the winding displacement disk is arc-shaped side, described Arc-shaped side can structure coincide be pressed on the winding displacement disk.

In a preferred embodiment of the present invention, the pressure holding spring that the tension disc is provided with can press to the tension disc The winding displacement disk.

In a preferred embodiment of the present invention, the circle centre position drive connection motor of the winding displacement disk, the motor can drive Move the winding displacement disc spins.

The present invention solves defect present in background technology, the tension disc that the present invention is utilized for winding displacement disk provides single line, By the rotation of winding displacement disk, single line is entered into wire casing, by the wire casing configurated on winding displacement disk, so as to ensure that single line is pressed Be arranged on winding displacement disk according to wire casing arrangement rule order, reach the arrangement of needs, in case subsequently use, it is convenient distinguish with It is linked into the corresponding access port of single line.

Brief description of the drawings

The present invention is further described with reference to the accompanying drawings and examples.

The schematic diagram of the step of Fig. 1 is the first embodiment of the invention；

The schematic diagram of the step of Fig. 2 is the first embodiment of the invention two；

Fig. 3 is the schematic diagram of second embodiment of the invention；

Fig. 4 is the structural representation of the creel stand of the preferred embodiments of the present invention；

Fig. 5 is the winding displacement dish structure schematic diagram of the first embodiment of the invention；

Fig. 6 is the winding displacement dish structure schematic diagram of second embodiment of the invention；

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

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

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

Specific embodiment

Presently in connection with drawings and Examples, the present invention is further detailed explanation, and these accompanying drawings are simplified signal Figure, only illustrates basic structure of the invention in a schematic way, therefore it only shows the composition relevant with the present invention.

As shown in figures 1-8, a kind of communications optical cable bus cable device, including：Creel stand 1 and being capable of the identical row of being arranged on of shape Winding displacement disk 5 on coil holder 1, it is characterised in that creel stand 1 is provided with interconnected pressuring line groove 3 and circular groove 4, circular winding displacement What disk 5 can rotate is arranged in circular groove 4, while winding displacement disk 5 is removably arranged in circular groove 4, line ball is provided with pressuring line groove 3 Plate 2, tension disc 2 can be slided towards winding displacement disk 5, and the periphery of winding displacement disk 5 is provided with several evenly distributed wire casings 8.

The wire casing 8 that the periphery of winding displacement disk 5 is provided with is arcuate structure, the recessed edge of winding displacement disk 5 inner side of arcuate structure.Wire casing 8 Arcuate structure can be substantially with single line 11 shape of cross section match, single line 11 just can by blocking that wire casing 8 is consolidated, and with With rotation.

The arc range of arcuate structure is 180 ° -270 °.This kind of angular range is conducive to snapping in for single line 11, while single line 11 also will not the abjection from wire casing 8 easily.

The one side relative with winding displacement disk 5 of tension disc 2 be arc-shaped side, arc-shaped side can structure coincide be pressed on winding displacement disk 5. Such structure can ensure also can readily be pressed into line in residue several single lines 11 few in number in pressuring line groove 3 In groove 8.

What tension disc 2 can be slided is arranged in pressuring line groove 3, and tension disc 2 can be by the push-in of some single lines 11 pressure holding In wire casing 8 on to winding displacement disk 5.Tension disc 2 can be that a branch of single line 11 in optical cable 12 provides press force, and single line 11 is pressed into To in wire casing 8.

The pressure holding spring that tension disc 2 is provided with（It is not shown）Tension disc 2 can be pressed to winding displacement disk 5.Pressure holding spring can It is the lasting offer pressure of tension disc 2, it is ensured that motion stress of the single line 11 towards the entrance of optical cable 12.

The circle centre position drive connection motor of winding displacement disk 5（It is not shown）, motor can drive winding displacement disk 5 to rotate.Motor drives Winding displacement disk 5 rotate, improve the automatization level of bus cable device.

The first embodiment of the invention is：8 points of wire casing on winding displacement disk 5 is that 7 two kinds of the first wire casing 6 and the second wire casing are big The small wire casing 8 for differing, the first wire casing 6 and the second wire casing 7 are disposed alternately at the periphery of winding displacement disk 5 at equal intervals.

Second embodiment of the invention be：Wire casing 8 on winding displacement disk 5 is provided with several wire casings of the same size 8, wire casing 8 quantity are mutually corresponding with the quantity of single line 11 contained in optical cable 12.

When in use, it uses the winding displacement side of the circular die bus cable device of communications optical cable 12 to the first embodiment of the invention Method, communications optical cable 12 includes some single lines 11, and 11 points of single line is cross sectional dimensions different the first single line 9 and the second single line 10 Two kinds of single lines 11, the cross sectional dimensions of the first single line 9 is more than the cross sectional dimensions of the second single line 10, the first single line 9 and the second single line 10 Cross sectional dimensions is matched with the first wire casing 6 and the size of the second wire casing 7 respectively, is comprised the following steps：

（1）To be placed in pressuring line groove 3 comprising some optical cables 12 of first single line 9, now tension disc 2 pushes optical cable 12 to Winding displacement disk 5, drives winding displacement disk 5 to rotate, until the first single line 9 is entered into each first wire casing 6 by root；

（2）To be placed in pressuring line groove 3 comprising some optical cables 12 of second single line 10, now tension disc 2 pushes away optical cable 12 To winding displacement disk 5, winding displacement disk 5 is driven to rotate, until the second single line 10 is entered into 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, because the cross sectional dimensions of the first single line 9 is more than the second wire casing 7 sizes, the first single line 9 will not be automatically into in the second wire casing 7, while ensureing less second single line 10 of cross sectional dimensions not The first wire casing 6 can be entered into.

When in use, it uses the winding displacement side of the circular die bus cable device of communications optical cable 12 to second embodiment of the invention Method, communications optical cable 12 includes some single lines 11, and 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 disk 5, drives winding displacement disk 5 to rotate, until single line 11 enters by root To in each wire casing 8；The winding displacement disk 5 that single line 11 is snapped in each wire casing 8 is removed in from circular groove 4, new winding displacement disk 5 is installed To in circular groove 4.

It is above enlightenment according to desirable embodiment of the invention, by above-mentioned description, related personnel completely can be with Without departing from the scope of the technological thought of the present invention', various changes and amendments are carried out.The technical scope of this invention It is not limited to the content on specification, it is necessary to determine the technical scope according to the scope of the claims.

Claims (6)

1. a kind of communications optical cable bus cable device, including：Creel stand and can the identical winding displacement disk being arranged on creel stand of shape, Characterized in that, the creel stand is provided with interconnected pressuring line groove and circular groove, what the circular winding displacement disk can rotate It is arranged in the circular groove, while the winding displacement disk is removably arranged in circular groove, tension disc, institute is provided with the pressuring line groove Stating tension disc can slide towards the winding displacement disk, and the winding displacement disk periphery is provided with several evenly distributed wire casings；The row Wire casing on drum is divided into two kinds of wire casings not of uniform size of the first wire casing and the second wire casing, first wire casing and second line Groove is disposed alternately at the winding displacement disk periphery at equal intervals.

2. communications optical cable bus cable device according to claim 1, it is characterised in that：The wire casing that the winding displacement disk periphery is provided with It is arcuate structure, the recessed winding displacement plate edge inner side of arcuate structure.

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

4. communications optical cable bus cable device according to claim 1, it is characterised in that：The tension disc and the winding displacement disk phase To one side be arc-shaped side, the arc-shaped side can structure coincide be pressed on the winding displacement disk.

5. communications optical cable bus cable device according to claim 1, it is characterised in that：The pressure holding bullet that the tension disc is provided with The tension disc can be pressed to the winding displacement disk by spring.

6. communications optical cable bus cable device according to claim 1, it is characterised in that：The circle centre position connection horse of the winding displacement disk Reach, the motor can drive the winding displacement disc spins.