CN107263302A - Cable assembly lapping device - Google Patents

Abstract

Present invention is disclosed a kind of cable assembly lapping device, the cable assembly includes optical cable and the lock pin positioned at described optical cable one end, and the lapping device includes lock pin abrasive disk and optical cable fixed disk, and lock pin abrasive disk is used to fix the lock pin；Optical cable fixed disk separates and coaxial setting with the lock pin abrasive disk, and the optical cable fixed disk is used to fix the optical cable；Wherein, when cable assembly is fixed at the lapping device, the optical cable is with straight line parallel where the corresponding lock pin in the central shaft of lapping device.The optical cable and lock pin of the cable assembly of the present invention are separately fixed in optical cable fixed disk and lock pin abrasive disk, the part optical cable of connecting core insert is just fixed between optical cable fixed disk and lock pin abrasive disk, when lock pin grinds stress, cable portion will not produce to lock pin and pull power, it is to avoid the fiber section in cable assembly fractures and makes product rejection.

Description

Cable assembly lapping device

Technical field

The present invention relates to milling apparatus field, more particularly to a kind of cable assembly lapping device.

Background technology

Optical cable be in order to meet optics, the performance specification of machinery or environment and manufacture, it is using being placed in crust One or more optical fiber is used as transmission medium and the communications cable component that can use individually or in groups.Optical cable is mainly by optical fiber Constituted with cable sheath, it constitutes optical cable inner core with a number of optical fiber according to certain way, and is carried out by cable sheath Cladding, the transmission to realize optical signal.

Cable assembly generally comprises optical cable and the lock pin positioned at end of cable, it is necessary to utilize lock pin after lock pin is assembled Abrasive disk is ground to lock pin.

In the prior art, the grinding that lock pin is just carried out after lock pin, the optical cable of connecting core insert are fixed merely with lock pin abrasive disk Part is not fixed, in this way, in process of lapping, cable portion can act power to lock pin, causes the optical fiber of inside to fracture.

The content of the invention

It is an object of the invention to provide a kind of cable assembly lapping device.

One of for achieving the above object, an embodiment of the present invention provides a kind of cable assembly lapping device, described Cable assembly includes optical cable and the lock pin positioned at described optical cable one end, and the lapping device includes：

Lock pin abrasive disk, it is used to fix the lock pin；

Optical cable fixed disk, it separates and coaxial setting with the lock pin abrasive disk, and the optical cable fixed disk is used to fix the light Cable；

Wherein, when cable assembly is fixed at the lapping device, the optical cable is put down with straight line where the corresponding lock pin Row is in the central shaft of lapping device.

As the further improvement of an embodiment of the present invention, the lock pin abrasive disk is parallel to the optical cable fixed disk.

As the further improvement of an embodiment of the present invention, the lapping device also includes an at least support column, described The two ends of support column connect the lock pin abrasive disk and the optical cable fixed disk respectively.

As the further improvement of an embodiment of the present invention, the support column is connected with rotation section, and the rotation section leads to Crossing the support column drives the lock pin abrasive disk and the optical cable fixed disk to relatively rotate.

It is used as the further improvement of an embodiment of the present invention, it is characterised in that the optical cable fixed disk includes：

Spider, it is to include the polygon of some lateral margins, and each lateral margin offers an at least cable duct；

Some fixed mechanisms, it is corresponding with some lateral margins；

Wherein, when the fixed mechanism is in the first position away from the cable duct, optical cable can be inserted into the cable duct；When When the fixed mechanism is in the second place for abutting the cable duct, the fixed mechanism limits the optical cable and departs from the light Cable groove.

It is used as the further improvement of an embodiment of the present invention, it is characterised in that the optical cable fixed disk also includes some convex Ear, each lug is arranged between two adjacent lateral margins.

As the further improvement of an embodiment of the present invention, the lock pin abrasive disk includes disk body, and the disk body is bag The regular polygon of some sides is included, and each side offers an at least lock pin groove, two adjacent sides of each lateral margin correspondence Side is set, and fixed mechanism is corresponded with lateral margin, and lock pin groove is corresponded with cable duct.

As the further improvement of an embodiment of the present invention, each fixed mechanism includes fixed block and drive division, described Fixed block is rotatably coupled the drive division, and the drive division is connected with the lateral margin, when the fixed mechanism is in first During position, the fixed block is described when the fixed mechanism changes to the second place by first position away from the cable duct The relatively described drive division of fixed block rotates up to the fixed block and abuts the cable duct.

As the further improvement of an embodiment of the present invention, the drive division includes fix bar and elastic component, described solid Fixed pole interfixes with the lateral margin, and the fixed block and the elastic component are movably connected the fix bar, when described solid Determine block drive the elastic component relatively the fix bar compression when, the fixed block can be rotated relative to the fix bar, when described When fixed block is turned to close to the cable duct, the relatively described fix bar of the elastic component resets and drives the fixed block to abut The cable duct.

As the further improvement of an embodiment of the present invention, the fixed block has a hole, and the fixed block passes through Described hole is socketed in the fix bar, and the elastic component is spring, and the spring is socketed in the fix bar, and described One end of spring abuts the fix bar, and the other end abuts the fixed block.

Compared with prior art, the beneficial effects of the present invention are：The optical cable of the cable assembly of an embodiment of the present invention And lock pin is separately fixed in optical cable fixed disk and lock pin abrasive disk, the part optical cable of connecting core insert, which is just fixed on optical cable, to be consolidated Between price fixing and lock pin abrasive disk, when lock pin grinds stress, cable portion will not produce to lock pin and pull power, it is to avoid groups of cables Fiber section in part fractures and makes product rejection.

Brief description of the drawings

Fig. 1 is the lock pin abrasive disk top view of an embodiment of the present invention；

Fig. 2 is the hold-down mechanism schematic diagram of an embodiment of the present invention；

Fig. 3 is A-A profiles in Fig. 1；

Fig. 4 is the cable assembly lapping device stereogram of an embodiment of the present invention；

Fig. 5 is the cable assembly lapping device side view of an embodiment of the present invention；

Fig. 6 is the cable assembly lapping device top view of an embodiment of the present invention；

Fig. 7 is the fixed mechanism schematic diagram of an embodiment of the present invention.

Embodiment

Below with reference to embodiment shown in the drawings, the present invention will be described in detail.But these embodiments are simultaneously The present invention is not limited, structure that one of ordinary skill in the art is made according to these embodiments, method or functionally Conversion is all contained in protection scope of the present invention.

In each diagram of the application, for the ease of diagram, structure or partial some sizes can be relative to other knots Structure or part are exaggerated, therefore, are only used for illustrating the basic structure of the theme of the application.

In addition, it is used herein such as " on ", " top ", " under ", the term of representation space relative position " lower section " be A unit as shown in the drawings or feature are described relative to another unit or feature for the purpose of explanation is easy to Relation.The term of relative space position can be intended to include equipment in use or work in addition to orientation shown in figure not Same orientation.If for example, by figure equipment overturn, be described as being located at other units or feature " lower section " or " under " Unit will be located at other units or feature " top ".Therefore, exemplary term " lower section " can include above and below both Orientation.Equipment can be otherwise directed（It is rotated by 90 ° or other directions）, and correspondingly explain it is used herein with it is empty Between related description language.

In the present embodiment, with reference to Fig. 1 and Fig. 2, lock pin abrasive disk 100 includes disk body 10 and some hold-down mechanisms 20.

Disk body 10 is to include the regular polygon of some sides 11, and each side 11 offers an at least lock pin groove 111.

Here, so that disk body 10 is dodecagon, each side 11 opens up two symmetrical lock pin grooves 111 as an example, Separated between two slots 111 of same side 11 by cut-off portion 113, but be not limited.

Lock pin groove 111 is the semi-enclosed cell body through side 11.

Some hold-down mechanisms 20 are corresponding with some sides 11, and each hold-down mechanism 20 includes briquetting 21 and elastic construction 22.

Here, exemplified by being corresponded by hold-down mechanism 20 and side 11, certainly, in other embodiments or One multiple side 11 of the correspondence of hold-down mechanism 20, or the multiple hold-down mechanisms 20 of the correspondence of side 11.

When the briquetting 21 is in the first position away from the side 11, lock pin（It is not shown）It can be inserted into the lock pin In groove 111；When the elastic construction 22 drives the briquetting 21 to reach the second place for abutting the side 11, the briquetting 21 surround the lock pin hole 112 of the limitation lock pin motion with the lock pin groove 111.

Here, briquetting 21 is controlled by elastic construction 22, can conveniently realize clamping and release of the briquetting 21 to lock pin, is inserted Disk/lower wall is simple to operate on core, and briquetting 21 is preferable to the clamping effect of lock pin, and lock pin is difficultly slipped off.

In the present embodiment, the hold-down mechanism 20 also includes fastener 23.

The fastener 23 interfixes with the side 11, and the briquetting 21 and the elastic construction 22 movably connect Connect the fastener 23.

When the relatively described fastener 23 of the elastic construction 22 is compressed, the briquetting 21 is in first position, works as institute When stating the fastener 23 relatively of elastic construction 22 and resetting, the elastic construction 22 drives the briquetting 21 to reach the second place.

Specifically, with reference to Fig. 2, the fastener 23 is fastening screw, fastener 23 and the phase of cut-off portion 113 on side 11 Mutually coordinate.

The briquetting 21 has pass through aperture 211, and through hole 211 is located at the middle part of briquetting 21, and the briquetting 21 passes through institute Through hole 211 is stated to be socketed on the fastener 23.

The elastic construction 22 is spring 22, and the spring 22 is socketed on the fastener 23, and the spring 22 One end abuts the fastener 23, and the other end abuts the briquetting 21, and the essence of spring 22 is connected to the intermediate region of briquetting 21.

In this way, when the hold-down mechanism 20 is in initial position, briquetting 21 abuts side in the presence of elastic construction 22 Side 11.

When disk is operated on lock pin to be carried out, briquetting 21 is stirred towards the side away from disk body 10, briquetting 21 is with dynamic elasticity knot Structure 22 is moved, and the opposing fastener inserts 23 of elastic construction 22 are compressed, and is had gap between briquetting 21 and side 11, can be inserted lock pin In lock pin groove 111.

After lock pin is inserted in lock pin groove 111, briquetting 21 is discharged, the opposing fastener inserts 23 of elastic construction 22 reset, elasticity knot Structure 22 drives briquetting 21 to be moved close to side 11, until briquetting 21 abuts side 11, now, briquetting 21 is close to the side of disk body 10 Just coordinate with lock pin groove 111 and clamp lock pin.

When lock pin lower wall to be carried out is operated, continue to stir briquetting 21 towards the side away from disk body 10, the band of briquetting 21 is moved Property structure 22 move, the opposing fastener inserts 23 of elastic construction 22 are compressed, between briquetting 21 and side 11 have gap, can be by lock pin Extract lock pin groove 111.

In the present embodiment, the cross section in the lock pin hole 112 that briquetting 21 is surrounded with lock pin groove 111 is triangular in shape.

In this way, after lock pin inserts lock pin hole 112, lock pin is not easy to rotate in lock pin hole 112.

Here, three inner surfaces for surrounding lock pin hole 112 are each perpendicular to the bottom surface of disk body 30.

In the present embodiment, with reference to Fig. 3, the region that the disk body 10 removes the lock pin groove 111 has a baseplane S, forms an angle α being not zero between the bottom surface S1 of the lock pin groove 111 and the baseplane S.

That is, the region of the bottom surface of disk body 10 correspondence lock pin groove 111 has certain inclination.

When carrying out insertion core end face grinding, it is ground along the bottom surface of disk body 10, due to the presence of angle α so that The insertion core end face come, which is ground, also has the angle that size is α, that is, grinds obtained insertion core end face and the bottom surface S1 mono- of lock pin groove 111 Cause, the transmission performance of the lock pin with angle is more preferably.

Here, the angle is 8 °, but is not limited.

In the present embodiment, the disk body 10 is alloy disk body.

The disk body being made compared to iron material in the prior art, alloy disc body weight is lighter, and hardness is larger, is difficult life Rust, in the case of identical disk body girth and lock pin groove size, can open up more lock pin grooves 111 in the periphery of disk body 10, this In, exemplified by opening up 24 lock pin grooves, but it is not limited, can also opens up the lock pin groove 111 of unnecessary 24.

In addition, now can suitably carry out being thinned for the thickness of disk body 10, the disk body thick compared to 8cm in the prior art is inserted Core inserts shallower depth and just may be such that lock pin end exposes the bottom of disk body 10 and is easy to grinding, simple to operate, lock pin fixation side Just.

In the present embodiment, the lock pin abrasive disk 100 also includes contour disk（It is not shown）, the contour disk with it is described Disk body 10 be arranged in parallel, and the contour disk is plane close to the side of the disk body 10.

Specifically, contour disk can be connected by the perforate 101 at the center of disk body 10, can when in lock pin insertion lock pin groove 111 To control lock pin to protrude out the length of the bottom of disk body 10 by contour disk, it is consistent the extension elongation of some lock pins.

With reference to Fig. 4 to Fig. 6, an embodiment of the present invention also provides a kind of cable assembly lapping device 400.

The cable assembly（It is not shown）Including optical cable（It is not shown）And the lock pin positioned at described optical cable one end.

Lapping device 400 includes the lock pin abrasive disk 100 of fixed lock pin and the optical cable fixed disk 300 of fixed optical cable.

It should be noted that lock pin abrasive disk 100 here can be lock pin abrasive disk 100 as described above or The lock pin abrasive disk of other structures, can be according to actual conditions depending on.

In the present embodiment, optical cable fixed disk 300 separates and coaxial setting with lock pin abrasive disk 100.

When cable assembly is fixed at the lapping device 400, the optical cable and straight line where the corresponding lock pin Parallel to the central shaft X of lapping device 400.

Here, the optical cable and lock pin of cable assembly are separately fixed in optical cable fixed disk 300 and lock pin abrasive disk 100, even The part optical cable for patching core is just fixed between optical cable fixed disk 300 and lock pin abrasive disk 100, when lock pin grinds stress When, cable portion will not produce to lock pin and pull power, it is to avoid the fiber section in cable assembly fractures and makes product rejection.

It should be noted that optical cable fixed disk 300 and lock pin abrasive disk 100 are the structure similar to disk, here The axis of optical cable fixed disk 300 is conllinear with the axis of lock pin abrasive disk 100, and both axis are lapping device 400 central shaft X, the cable portion between lock pin abrasive disk 100 and optical cable fixed disk 300 is in straight condition.

In the present embodiment, the lock pin abrasive disk 100 is parallel to the optical cable fixed disk 300.

When lock pin abrasive disk 100 and optical cable 300 horizontal positioned of fixed disk, it should be vertical to be fixed on cable assembly therein Directly in horizontal plane.

In the present embodiment, the lapping device 400 also includes an at least support column 401, the two of the support column 401 End connects the lock pin abrasive disk 100 and the optical cable fixed disk 300 respectively.

Specifically, by taking two symmetrical support columns 401 as an example.

The support column 401 is connected with rotation section 402.

Here, it is close to the rotation section 402 assumed diamond in shape of the side of optical cable fixed disk 300 to be arranged at lock pin abrasive disk 100 Example, two support columns 401 are separately positioned on the two ends of rhombus rotation section 402, and rotation section 402 can pass through motor control.

In a specific example, one end of support column 401 is locked on optical cable fixed disk 300 by screw, and the other end is solid Due on rotation section 402, when external equipment is rotated by motor-driven rotation portion 402, rotation section 402 passes through the support column The 401 driving lock pin abrasive disks 100 and the optical cable fixed disk 300 are relatively rotated, so, it is possible to achieve lock pin abrasive disk Contraposition between 100 and the optical cable fixed disk 300 so that the optical cable and straight line parallel where the corresponding lock pin are in grinding The central shaft X of mill apparatus 400.

In the present embodiment, the optical cable fixed disk 300 includes spider 30 and some fixed mechanisms 40.

Spider 30 is to include the polygon of some lateral margins 31, and each lateral margin 31 offers an at least cable duct 311.

Here, so that spider 30 is regular hexagon, each lateral margin 31 opens up four cable ducts 311 as an example, four cable ducts 311 liang of one group of twenty percents, and two groups be symmetrical arranged, between two groups of cable ducts 311 of same lateral margin 31 by isolation part 313 every It is disconnected, but be not limited.

That is, here with the corresponding dodecagon disk body 10 of regular hexagon spider 30, the corresponding phase in each lateral margin 31 Two adjacent sides 11 are set, and lock pin groove 111 is corresponded with cable duct 311, certainly, in other embodiments, can also The corresponding dodecagon disk body 10 of dodecagon spider 30, or according to actual conditions depending on.

Cable duct 311 is the semi-enclosed cell body through lateral margin 31.

Some fixed mechanisms 40 are corresponding with some lateral margins 31.

Here, exemplified by being corresponded by fixed mechanism 40 and lateral margin 31, certainly, in other embodiments or One multiple lateral margin 31 of the correspondence of fixed mechanism 40, or the multiple fixed mechanisms 40 of the correspondence of lateral margin 31.

When the fixed mechanism 40 is in the first position away from the cable duct 311, optical cable can be inserted into the optical cable Groove 311；When the fixed mechanism 40 is in the second place for abutting the cable duct 311, the fixed mechanism 40 limits institute State optical cable and depart from the cable duct 311.

In the present embodiment, the optical cable fixed disk 300 also includes some lugs 32, and each lug 32 is arranged at adjacent Two lateral margins 31 between, the arrangement that the setting of lug 32 in order to the operation of optical cable fixed disk 300, can also allow for optical cable is hanged Hang.

In the present embodiment, each fixed mechanism 40 includes fixed block 41 and drive division 42.

The fixed block 41 is rotatably coupled the drive division 42.

The drive division 42 is connected with the lateral margin 31.

When the fixed mechanism 40 is in first position, the fixed block 41 is away from the cable duct 311, when described solid When determining mechanism 40 and changing to the second place by first position, the relatively described drive division 42 of the fixed block 41 rotates up to described solid Determine block 41 and abut the cable duct 311.

Specifically, with reference to Fig. 7, the drive division 42 includes fix bar 421 and elastic component 422.

The fix bar 421 interfixes with the lateral margin 31, the essence of fix bar 421 and the isolation part 313 at lateral margin 31 Interfix.

The fixed block 41 and the elastic component 422 are movably connected the fix bar 421.

Fixed block 41 has a hole 411, and the fixed block 41 is socketed on the fix bar 421 by described hole 411 On.

Elastic component 422 is spring 422, and the spring 422 is socketed in the fix bar 421, and the one of the spring 422 End abuts the fix bar 421, and the other end abuts the fixed block 41, and the essence of spring 422 is connected to the middle area of fixed block 41 Domain.

In this way, when the fixed mechanism 40 is in initial position, fixed block 41 abuts side in the presence of elastic component 422 Edge 31 but cable duct 311 is not abutted, in one example, fixed block 41 is perpendicular to spider 30.

When disk is operated on optical cable to be carried out, optical cable is inserted in cable duct 311, stirred towards the side away from spider 30 Fixed block 41, the fixed block 41 drives the relatively described fix bar 421 of the elastic component 422 to compress, and the fixed block 41 can Rotated relative to the fix bar 421.

When the fixed block 41 is turned to close to the cable duct 311, preferably, until fixed block 41 is parallel to center During disk 30, fixed block 41 is discharged, the relatively described fix bar 421 of the elastic component 422 resets and drives the fixed block 41 to abut The cable duct 311, now, fixed block 41 coordinates with cable duct 311 and clamps optical cable just close to the side of spider 30.

When optical cable lower wall to be carried out is operated, continue to stir fixed block 41, fixed block 41 towards the side away from spider 30 Drive the relatively described fix bar 421 of elastic component 422 to compress, rotate fixed block 41 and make it away from cable duct 311, just optical cable can be pulled out Go out cable duct 311.

Here, when the upper disk operation of cable assembly to be carried out, first lock pin can be fixed in lock pin abrasive disk 100, then The optical cable order of connecting core insert is fixed in optical cable fixed disk 300, and stretched positioned at lock pin abrasive disk 100 and optical cable fixed disk Optical cable between 300, and the relative position of lock pin abrasive disk 100 and optical cable fixed disk 300 is adjusted, then, just it can be inserted The grinding operation of core.

It should be understood that, although the present specification is described in terms of embodiments, but not each embodiment only includes one Individual independent technical scheme, this narrating mode of specification is only that for clarity, those skilled in the art will should say Bright book is as an entirety, and the technical scheme in each embodiment may also be suitably combined to form those skilled in the art can With the other embodiment of understanding.

Those listed above is a series of to be described in detail only for feasibility embodiment of the invention specifically Bright, they simultaneously are not used to limit the scope of the invention, all equivalent implementations made without departing from skill spirit of the present invention Or change should be included in the scope of the protection.

Claims (10)

1. a kind of cable assembly lapping device, the cable assembly includes optical cable and the lock pin positioned at described optical cable one end, it is special Levy and be that the lapping device includes：

Lock pin abrasive disk, it is used to fix the lock pin；

Optical cable fixed disk, it separates and coaxial setting with the lock pin abrasive disk, and the optical cable fixed disk is used to fix the light Cable；

Wherein, when cable assembly is fixed at the lapping device, the optical cable is put down with straight line where the corresponding lock pin Row is in the central shaft of lapping device.

2. cable assembly lapping device according to claim 1, it is characterised in that the lock pin abrasive disk is parallel to described Optical cable fixed disk.

3. cable assembly lapping device according to claim 1, it is characterised in that the lapping device also includes at least one Support column, the two ends of the support column connect the lock pin abrasive disk and the optical cable fixed disk respectively.

4. cable assembly lapping device according to claim 3, it is characterised in that the support column is connected with rotation section, The rotation section drives the lock pin abrasive disk and the optical cable fixed disk to relatively rotate by the support column.

5. cable assembly lapping device according to claim 1, it is characterised in that the optical cable fixed disk includes：

Spider, it is to include the polygon of some lateral margins, and each lateral margin offers an at least cable duct；

Some fixed mechanisms, it is corresponding with some lateral margins；

Wherein, when the fixed mechanism is in the first position away from the cable duct, optical cable can be inserted into the cable duct；When When the fixed mechanism is in the second place for abutting the cable duct, the fixed mechanism limits the optical cable and departs from the light Cable groove.

6. cable assembly lapping device according to claim 5, it is characterised in that the optical cable fixed disk also includes some Lug, each lug is arranged between two adjacent lateral margins.

7. cable assembly lapping device according to claim 5, it is characterised in that the lock pin abrasive disk includes disk body, institute It is to include the regular polygon of some sides to state disk body, and each side offers an at least lock pin groove, each lateral margin correspondence phase Two adjacent sides are set, and fixed mechanism is corresponded with lateral margin, and lock pin groove is corresponded with cable duct.

8. cable assembly lapping device according to claim 5, it is characterised in that each fixed mechanism include fixed block and Drive division, the fixed block is rotatably coupled the drive division, and the drive division is connected with the lateral margin, when the fixed machine When structure is in first position, the fixed block is away from the cable duct, when the fixed mechanism by first position changes to second During position, the relatively described drive division of the fixed block rotates up to the fixed block and abuts the cable duct.

9. cable assembly lapping device according to claim 8, it is characterised in that the drive division includes fix bar and bullet Property part, the fix bar interfixes with the lateral margin, and the fixed block and the elastic component are movably connected the fixation Bar, when the fixed block drives the elastic component fix bar compression relatively, the fixed block can relatively described fix bar Rotate, when the fixed block is turned to close to the cable duct, the relatively described fix bar of the elastic component resets and drives institute State fixed block and abut the cable duct.

10. cable assembly lapping device according to claim 9, it is characterised in that the fixed block has a hole, institute State fixed block to be socketed in the fix bar by described hole, the elastic component is spring, and the spring is socketed on described solid In fixed pole, and one end of the spring abuts the fix bar, and the other end abuts the fixed block.