CN102436047A

CN102436047A - Optical cable arrangement device

Info

Publication number: CN102436047A
Application number: CN2012100008983A
Authority: CN
Inventors: 雷学武; 李松生; 陈敏; 文君
Original assignee: ETD AMPHENOL FIBER TECHNOLOGY (SHENZEN) Co Ltd
Current assignee: ETD AMPHENOL FIBER TECHNOLOGY (SHENZEN) Co Ltd; Amphenol Fiber Optic Technology Shenzhen Co Ltd
Priority date: 2012-01-04
Filing date: 2012-01-04
Publication date: 2012-05-02
Anticipated expiration: 2032-01-04
Also published as: CN102436047B

Abstract

The invention discloses an optical cable arrangement device. The device comprises a bottom plate and a first slider, wherein a fixed block is arranged on the bottom plate; a first pressing block for clamping optical cables and at least a guide shaft for controlling the sliding direction of the first slider are arranged on the fixed block; the first slider is arranged on the guide shaft in a sliding manner; a spring for clamping the optical cables and an adjusting handle for controlling extension and shrinkage of the spring are arranged on the first slider; one end of the spring is fixed on the first slider and the other end is fixed on the adjusting handle; and one end of the adjusting handle is provided with a rotating shaft installed on the first slider. The device has the following beneficial effects: by clamping the optical cables with the first slider and the spring, the original operation mode of arranging the optical cables with hands is changed, so the device has high efficiency; and the device has simple structure and low cost.

Description

A kind of optical cable collating unit

Technical field

The present invention relates to the fiber optic telecommunications equipment field, particularly a kind of optical cable collating unit.

Background technology

Optical fiber is a kind of total reflection principle and the light conduction instrument reached of light in the fiber that glass or plastics are processed that utilize.Most optical fiber must protect structure to coat by which floor before use, and operated by rotary motion has many optical cables in the optical fiber.The protection structure of fiber outer layer can prevent the injury of surrounding environment to optical fiber: Ru Shui, fire, electric shock etc.Optical cable is divided into: optical fiber, cushion and coating.Optical fiber is similar with concentric cable, does not just have the mesh shields layer, and the center is the glass core that light is propagated.

Because optical fiber is rounded, in plastic layer, be provided with the optical cable of many rounded distributions, install when connecting and need optical cable be arranged in a row at optical fiber, need optical cable be arranged again like this.Existing optical cable fixture for arranging again is as shown in Figure 1; When arranging optical cable, need a hand cable line to be tightened always, and optical cable is pressed on the tool, the another hand glues into multifiber to be installed after one row is fixed again; Its work efficiency is very low, and operation is also inconvenient.

Therefore, be necessary the structure of optical cable fixture for arranging is again improved.

Summary of the invention

Weak point in view of above-mentioned prior art the object of the present invention is to provide a kind of optical cable collating unit, can improve the work efficiency that optical cable is arranged again.

In order to achieve the above object, the present invention has taked following technical scheme:

A kind of optical cable collating unit, it comprises the base plate and first slide block, and said base plate is provided with fixed block, and said fixed block is provided with first briquetting and at least one axis of guide that is used to control the said first slide block glide direction that is used for the clamping optical cable; Said first slide block is slidingly arranged on the said axis of guide; Wherein:

Said first slide block is provided with the spring adjusting handle flexible with being used for control spring that is used for the clamping optical cable, and an end of said spring is fixed on said first slide block, and the other end is fixed on the said adjusting handle; One end of said adjusting handle has rotation axis, and said rotation axis is installed on said first slide block.

In the above-mentioned optical cable collating unit, also comprise second slide block, said second slide block is slidingly arranged on the said axis of guide, and said second slide block is provided with second briquetting that is used for grip optical fiber.

In the above-mentioned optical cable collating unit, also comprise the patch that is used to arrange optical cable, said patch is connected with base plate through a stay cord.

In the above-mentioned optical cable collating unit, said first slide block is provided with first latch mechanism that is used to lock said first slide block.

In the above-mentioned optical cable collating unit, said first latch mechanism comprises lock-screw and operating grip, and an end of said lock-screw and said first slide block are spirally connected, and an end of the other end and operating grip is fixed.

In the above-mentioned optical cable collating unit, said second slide block is provided with second latch mechanism that is used to lock second slide block.

In the above-mentioned optical cable collating unit, the said axis of guide is provided with the fixed mechanism that is used to control the first slide block sliding stroke.

In the above-mentioned optical cable collating unit, the part of said first briquetting and said first slide block are closely fixing, are provided with the gap that holds optical cable between the another part and first slide block.

In the above-mentioned optical cable collating unit, the part of said second briquetting and said second slide block are closely fixing, are provided with the gap that holds optical cable between the another part and second slide block.

In the above-mentioned optical cable collating unit, the bottom surface of said base plate is provided with slipmat.

Compared to prior art; Optical cable collating unit provided by the invention; Comprise the base plate and first slide block, said base plate is provided with fixed block, and said fixed block is provided with first briquetting and at least one axis of guide that is used to control the said first slide block glide direction that is used for the clamping optical cable; Said first slide block is slidingly arranged on the said axis of guide; Said first slide block is provided with the spring adjusting handle flexible with being used for control spring that is used for the clamping optical cable, and an end of said spring is fixed on said first slide block, and the other end is fixed on the said adjusting handle; One end of said adjusting handle has rotation axis, and said rotation axis is installed on said first slide block, through first slide block and spring clamping optical cable; Changed original mode of operation of removing to arrange optical cable through staff; Its efficient is high, and optical cable collating unit of the present invention is simple in structure, and cost is low.

Description of drawings

The optical cable that Fig. 1 provides for prior art is the structural representation of fixture for arranging again.

The perspective view of Fig. 2 during for the user mode of optical cable collating unit of the present invention.

Fig. 3 is the perspective view at the back side of optical cable collating unit of the present invention.

Embodiment

The present invention provides a kind of optical cable collating unit, and is clearer, clear and definite for making the object of the invention, technical scheme and effect, below develops simultaneously embodiment to further explain of the present invention with reference to accompanying drawing.Should be appreciated that specific embodiment described herein only in order to explanation the present invention, and be not used in qualification the present invention.

See also Fig. 2 and Fig. 3, the optical cable collating unit that the embodiment of the invention provides comprises the base plate 10 and first slide block 20.Said base plate 10 is provided with fixed block 30; Said fixed block 30 is provided with first briquetting 31 and at least one axis of guide 32, and said first briquetting 31 is used for the clamping cable line, and the said axis of guide 32 is used to control said first slide block, 20 glide directions; Said first slide block 20 is slidingly arranged on the said axis of guide 32; Thereby can on said base plate 10, move, regulate the distance between first slide block 20 and the fixed block 30, thereby come the optical cable arranged again according to cable length.

In the embodiment of the invention; Said first slide block 20 is provided with the spring 21 that is used for the clamping optical cable and is used for the adjusting handle 22 that control spring 21 stretches, and an end of said spring 21 is fixed on said first slide block 20, and the other end is fixed on the said adjusting handle 22; One end of said adjusting handle 22 has rotation axis (not marking among the figure); Said rotation axis is installed on said first slide block 20, and said adjusting handle 22 can be rotated in certain angle, thereby control spring 21 is flexible.When adjusting handle 22 control springs 21 open with optical fiber arrangements in the gap of spring 21, when spring 21 shrinks optical cable is arranged, arrange good after, control spring 21 stretchings are once more taken out cable line from spring 21.After spring was with the optical cable clamping, installation personnel was filled in said first briquetting 31 times with the part that optical cable stretches out spring 21.

In the specific implementation; Have on the end face on said first slide block 20 one be used for fixing spring 21 fixed leg 24 and the handle erection column 25 that is used for install adjustment handle 22; Said handle erection column 25 is provided with an opening; Be used to hold said adjusting handle 22, adjusting handle 22 can be swung in this opening.

In the embodiment of the invention, the said axis of guide 32 is two, and first slide block 20 is slided on the axis of guide 32 stably.In order further to increase work efficiency, optical cable collating unit provided by the invention also comprises second slide block 40, and said second slide block 40 is slidingly arranged on the said axis of guide 32, and said second slide block 40 is provided with second briquetting 41 that is used for grip optical fiber.

After sliding at first slide block 20, be located, described first slide block 20 is provided with first latch mechanism 23 that is used to lock said first slide block 20.Wherein, said lock-screw 231 and the operating grip 232 of comprising, an end of said lock-screw 231 and said first slide block 20 are spirally connected, and an end of the other end and operating grip 232 is fixed.Said lock-screw 231 is with first slide block 20 fixedly the time; Said lock-screw 231 1 ends and the axis of guide 32 lockings; First slide block 20 can not be moved on the axis of guide 32; When needs slide, only need make lock-screw 231 unclamp the axis of guide 32, first slide block 20 is easily slided on the axis of guide 32.

In order to make lock-screw 231 can well lock the axis of guide 32, institute's axis of guide is provided with a plane 321 (as shown in Figure 2), to increase the contact area between the tight screw 231 and the axis of guide 32.In the present embodiment, an end of said operating grip 232 is fixed on the lock-screw 231, and it can be rotated in 180 degree scopes, thereby 231 lockings of control lock-screw are perhaps unclamped the axis of guide 32, makes 20 lockings of first slide block perhaps slidably.

Further; Please consult Fig. 2 and Fig. 3 once more, said second slide block 40 is provided with second latch mechanism 42 that is used to lock second slide block 40, in the specific implementation; Said second latch mechanism 42 is two screws; And on first slide block 20 and second slide block 40, be provided with threaded hole, through screw that these two slide blocks are fixing together, first slide block 20 and second slide block 40 are slided simultaneously.

Precision when installing in order to improve optical cable, in the present embodiment, the thickness of said first slide block 20 is greater than the thickness of second slide block 40, and the thickness of general first slide block 20 is 3-6 times of second slide block 40, thereby can not rock during second slide block 40.

Further, in order to control the stroke of said first slide block 20 and second slide block 40, the end of the said axis of guide 32 is provided with fixed mechanism.In the specific implementation; Said fixed mechanism comprises jump ring (not shown) and jump ring over cap 321; Said jump ring is fastened on the end of the axis of guide 32; Skid off from the axis of guide 32 ends when preventing first slide block 20 and 40 slips of second slide block, guaranteed the personal safety of installation personnel, controlled the stroke that first slide block 20 and second slide block 40 slide.Said jump ring over cap 321 covers on the said axis of guide 32, has improved the overall appearance of optical cable collating unit.

Please consult Fig. 2 and Fig. 3 once more, the part of said first briquetting 31 and said first slide block 20 are closely fixing, are provided with the gap that holds optical cable between the another part and first slide block 20.The part of said second briquetting 41 and said second slide block 40 are closely fixing, are provided with the gap that holds optical cable between the another part and second slide block 40.

Specifically; The end face of the said fixed block 30 and second slide block 40 is stepped; First briquetting 31 is fixed through the higher side of the end face of screw and fixed block 30, makes between a part and the fixed block 30 of first briquetting 31 to have certain clearance, and the width in this gap is slightly larger than the diameter of optical cable; Thereby cable line is clamped among this gap, and optical cable is arranged in a row.Similarly, the end face of said second slide block 40 is also stepped, an end of second briquetting 41 is divided and second slide block 40 between have certain clearance.

In order to let optical fiber fill in rapidly in the gap, the optical cable collating unit that the embodiment of the invention provides also comprises the patch 51 that is used to arrange optical cable, and said patch 51 is connected with base plate 10 through a stay cord 52.Concrete this theory, said drawing is metallic cable by force, and one of which end and patch 51 are fixing, and the other end and base plate 10 are fixing, in case the detent plug sheet is lost.Said patch 51 is laminar, and its thickness is slightly less than the gap between first briquetting 31 and the fixed block 30, can rapidly optical cable be filled in this gap.

In order to prevent that optical cable collating unit when work from sliding from worktable, slipmat 61 is set on the bottom surface of described base plate 10, in the specific implementation, said slipmat 61 is distributed in the Si Jiaochu of base plate 10, and is the higher rubber blanket of friction factor.

In order to prevent that further optical cable collating unit when work from sliding from worktable, said base plate 10 is provided with mounting hole 62, and through bolt with base plate 10 and stationary table, and said mounting hole 62 is at least two, to improve its latent solidity.

In sum; Optical cable collating unit provided by the invention; Comprise the base plate and first slide block, said base plate is provided with fixed block, and said fixed block is provided with first briquetting and at least one axis of guide that is used to control the said first slide block glide direction that is used for the clamping optical cable; Said first slide block is slidingly arranged on the said axis of guide; Said first slide block is provided with the spring adjusting handle flexible with being used for control spring that is used for the clamping optical cable, and an end of said spring is fixed on said first slide block, and the other end is fixed on the said adjusting handle; One end of said adjusting handle has rotation axis, and said rotation axis is installed on said first slide block, through first slide block and spring clamping optical cable; Changed original mode of operation of removing to arrange optical cable through staff; Its efficient is high, and optical cable collating unit of the present invention is simple in structure, and cost is low.

It is understandable that, concerning those of ordinary skills, can be equal to replacement or change according to technical scheme of the present invention and inventive concept thereof, and all these changes or replacement all should belong to the protection domain of the appended claim of the present invention.

Claims

1. optical cable collating unit; It is characterized in that; Comprise the base plate and first slide block, said base plate is provided with fixed block, and said fixed block is provided with first briquetting and at least one axis of guide that is used to control the said first slide block glide direction that is used for the clamping optical cable; Said first slide block is slidingly arranged on the said axis of guide; Wherein:

2. optical cable collating unit according to claim 1 is characterized in that, also comprises second slide block, and said second slide block is slidingly arranged on the said axis of guide, and said second slide block is provided with second briquetting that is used for grip optical fiber.

3. optical cable collating unit according to claim 1 is characterized in that, also comprises the patch that is used to arrange optical cable, and said patch is connected with base plate through a stay cord.

4. optical cable collating unit according to claim 1 is characterized in that, said first slide block is provided with first latch mechanism that is used to lock said first slide block.

5. optical cable collating unit according to claim 4 is characterized in that, said first latch mechanism comprises lock-screw and operating grip, and an end of said lock-screw and said first slide block are spirally connected, and an end of the other end and operating grip is fixed.

6. optical cable collating unit according to claim 2 is characterized in that, said second slide block is provided with second latch mechanism that is used to lock second slide block.

7. optical cable collating unit according to claim 1 is characterized in that the said axis of guide is provided with the fixed mechanism that is used to control the first slide block sliding stroke.

8. optical cable collating unit according to claim 1 is characterized in that, the part of said first briquetting and said first slide block are closely fixing, are provided with the gap that holds optical cable between the another part and first slide block.

9. optical cable collating unit according to claim 2 is characterized in that, the part of said second briquetting and said second slide block are closely fixing, are provided with the gap that holds optical cable between the another part and second slide block.

10. optical cable collating unit according to claim 1 is characterized in that the bottom surface of said base plate is provided with slipmat.