CN210160952U

CN210160952U - Optical fiber communication device grinds anchor clamps

Info

Publication number: CN210160952U
Application number: CN201920726798.6U
Authority: CN
Inventors: 谭军; 李鸿邑; 周笃君; 孙勇; 姜鹏
Original assignee: Sichuan Jiuzhou Optoelectronics Technology Co Ltd
Current assignee: Sichuan Jiuzhou Optoelectronics Technology Co Ltd
Priority date: 2019-05-21
Filing date: 2019-05-21
Publication date: 2020-03-20
Anticipated expiration: 2029-05-21

Abstract

A grinding clamp for an optical fiber communication device is erected on a group of sliding rails and comprises a vertical displacement mechanism, a transverse displacement mechanism and a clamp disc with an array of inserting grooves, wherein the vertical displacement mechanism comprises a sliding block, a vertical frame and a lifting oil cylinder; the transverse displacement mechanism comprises a transverse frame, a hydraulic ejector and a horizontal pushing oil cylinder; two ends of the transverse frame are in sliding fit in the vertical sliding grooves, a lifting plate connected with the end of the transverse frame is arranged on the outer side of the vertical frame, and a lifting piston of the lifting oil cylinder is connected with the lifting plate; the bottom end of a vertical push rod of the hydraulic pusher is connected with the center of the fixture disc, a pair of vertical thin plates are respectively arranged on two side surfaces of the fixture disc, and the top ends of the vertical thin plates are in sliding fit in thin plate sliding grooves in the bottom surface of the cross frame. Realize multi-directional nimble motion in order improving the practicality to structural stability is strong, can also hang after can also carrying out the constraint to the optic fibre bundle and establish again, has ensured the steadiness of device extension section, does benefit to the grinding.

Description

Optical fiber communication device grinds anchor clamps

Technical Field

The utility model relates to an optical device especially grinds anchor clamps with an optical fiber communication device and is relevant.

Background

Optical devices are important components of fiber optic communications. In order to make the optical fiber ferrule end face of the optical device meet the requirement of low loss, the face needs to be ground and polished to improve the coupling efficiency, reduce optical loss and improve the transmission efficiency and accuracy. When an existing optical fiber communication device is ground, a special fixture or chuck is generally needed to fix the device, such as fixing a joint to be ground, and then the device is matched with a grinding machine to perform operation, so that grinding is completed. However, most of the existing methods are designed by integrating the clamp and the grinding machine, which only can realize clamping and grinding with low efficiency, but have the disadvantages of low efficiency, poor flexibility of use and large improvement space.

SUMMERY OF THE UTILITY MODEL

The utility model provides an optic fibre communication device grinds anchor clamps to solve above-mentioned current problem, design anchor clamps alone, and realize multi-direction nimble motion in order to improve the practicality through track, lift cylinder, horizontal hydro-cylinder etc. and structural stability is strong, can also carry out the restraint to the optic fibre bundle and hang again and establish, ensured the steadiness of device extension section, do benefit to the grinding.

The utility model discloses a following technique:

the utility model provides an optical fiber communication device grinds anchor clamps, its characterized in that erects on a set of slide rail, has the anchor clamps dish of inserting groove including vertical displacement mechanism, horizontal displacement mechanism and array, wherein:

the vertical displacement mechanism comprises a slide block arranged on the slide rail, a vertical frame with a vertical chute arranged at the top of the slide block, and a lifting oil cylinder arranged at the top of the slide block and positioned outside the vertical frame;

the transverse displacement mechanism comprises a transverse frame with a transverse sliding chute, a top sliding block in sliding fit with the transverse sliding chute, and a horizontal push oil cylinder arranged at one end of the transverse frame and transversely connected with the top sliding block through a transverse push rod;

two ends of the transverse frame are in sliding fit in the vertical sliding grooves, a lifting plate connected with the end of the transverse frame is arranged on the outer side of the vertical frame, and a lifting piston of the lifting oil cylinder is connected with the lifting plate;

the bottom end of the vertical connecting rod of the top sliding block is connected with the center of the clamp disc, a pair of vertical thin plates are arranged on the two side faces of the clamp disc respectively, and the top ends of the vertical thin plates are in sliding fit with the thin plate sliding grooves in the bottom face of the cross frame.

And an optical fiber harness wire hanging frame is arranged on the transverse frame.

The transverse frame is provided with strip-shaped limiting lugs which are positioned on the front side and the rear side of the transverse frame and are symmetrically arranged on two sides of the transverse sliding groove.

And an optical fiber wire harness restriction hole is formed between the strip-shaped limit lug and the transverse frame.

The clamp plate is horizontally arranged.

The utility model discloses beneficial effect:

1. the optical device to be ground is inserted into the insertion groove of the clamp disc, the clamp disc can transversely move left and right along the transverse sliding groove along with the top sliding block under the action of the horizontal pushing oil cylinder, and in the aspect of providing stability, a vertical thin plate and a thin plate sliding groove matched with the vertical thin plate are preferably arranged, so that the horizontally-arranged stability of the clamp disc is improved, and the transverse movement stability of the clamp disc is improved;

2. the lifting oil cylinder acts on the lifting plate to realize the lifting of the cross frame and is used for positioning and resetting according to the grinding requirement;

3. the slide block can move on the slide rail, so that the grinding machine can be moved conveniently, or the slide block can move out of a working area of the grinding machine and move into the next clamp in the working area of the grinding machine, so that the use flexibility of the clamp is greatly improved, and the efficient development of grinding operation is facilitated;

4. if the optical device of the plug connector has an extension section, such as an optical fiber bundle, the optical device can be concentrated and gathered through the optical fiber bundle constraint hole, then the optical fiber bundle is hung through the optical fiber bundle hanging wire frame, a fixed place is provided for the extension section, and the optical fiber bundle constraint hole is used for gathering the optical fiber bundle, so that the hanging management is facilitated.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of the present invention.

Fig. 2 is a schematic view of the three-dimensional structure of the present invention.

Detailed Description

The present invention will be described with reference to the accompanying drawings. As shown in fig. 1-2, an optical fiber communication device grinding fixture is characterized in that the fixture is erected on a set of slide rails 1 and comprises a vertical displacement mechanism, a horizontal displacement mechanism and a fixture disk 8 with an array of insertion grooves 81.

The vertical displacement mechanism comprises a slide block 2 arranged on the slide rail 1, a vertical frame 3 which is arranged at the top of the slide block 2 and is provided with a vertical sliding chute 31, and a lifting oil cylinder 5 which is arranged at the top of the slide block 2 and is positioned at the outer side of the vertical frame 3;

the transverse displacement mechanism comprises a transverse frame 4 with a transverse sliding chute 42, a top sliding block 6 in sliding fit in the transverse sliding chute 42, and a horizontal push oil cylinder 7 arranged at one end of the transverse frame 4 and transversely connected with the top sliding block 6 through a transverse push rod 71;

two ends of the transverse frame 4 are in sliding fit in the vertical sliding grooves 31, the outer side of the vertical frame 3 is provided with a lifting plate 41 connected with the end of the transverse frame 4, and a lifting piston 51 of the lifting oil cylinder 5 is connected with the lifting plate 41;

the bottom end of the vertical connecting rod 61 of the top sliding block 6 is connected with the center of the clamp disc 8, a pair of vertical thin plates 82 are respectively arranged on two side surfaces of the clamp disc 8, and the top ends of the vertical thin plates 82 are in sliding fit in the thin plate sliding grooves 45 on the bottom surface of the cross frame 4.

Specifically, the cross frame 4 is provided with a fiber harness hanging rack 44.

Specifically, the transverse frame 4 is provided with strip-shaped limiting lugs 43, and the strip-shaped limiting lugs 43 are positioned on the front side and the rear side of the transverse frame 4 and are symmetrically arranged on two sides of the transverse sliding groove 42. And an optical fiber wiring harness restriction hole 9 is formed between the strip-shaped limit lug 43 and the transverse frame 4. The optical fiber harness restriction hole 9 is matched with the optical fiber harness wire hanging frame 44 for use, so that a fixing place is provided for the extending section of the optical device, for example, the optical fiber harness is hung, and the stability of the optical device arranged on the clamp disc 8 is improved.

In particular, the gripper disc 8 is arranged horizontally.

Specifically, one end of the track 1 is provided with a group of synchronous cylinders or oil cylinders which act on the slide block 2 respectively, so that the clamp can be moved in different areas conveniently.

When in work:

firstly, the clamp is moved to a working area through the sliding block 2, and then the optical device to be ground is inserted into the insertion groove 81 of the clamp disc 8;

collecting the extending sections of the optical devices, such as optical fiber bundles, through the optical fiber bundle restriction holes 9, and then hanging and fixing the extending sections through the optical fiber bundle hanging rack 44;

after the top sliding block 6 is hung and fixed, a telescopic room is left for the extension section, and the extension section is not tensioned, so that the top sliding block cannot be dragged when the top sliding block moves transversely;

after the device is installed in place, the transverse frame 4 is lifted through the lifting oil cylinder 5, and the top sliding block 6 is transversely pushed and moved horizontally through the horizontal pushing oil cylinder 7, so that the clamp disc 8 is positioned at the position matched with a grinding disc or a grinder of the grinder;

after the grinding is finished, the clamp is moved out of the working area of the grinding machine through the slide block 2, the next clamp is moved to be in place, then the transverse frame 4 is lifted, the top slide block 6 is moved transversely, and the clamp disc 8 is positioned at a position convenient for dismounting the optical device for dismounting.

Claims

1. The utility model provides an optical fiber communication device grinds anchor clamps, its characterized in that erects on a set of slide rail (1), has anchor clamps dish (8) of inserting groove (81) including vertical displacement mechanism, horizontal displacement mechanism and array, wherein:

the vertical displacement mechanism comprises a sliding block (2) arranged on the sliding rail (1), a vertical frame (3) which is arranged at the top of the sliding block (2) and provided with a vertical sliding chute (31), and a lifting oil cylinder (5) which is arranged at the top of the sliding block (2) and is positioned at the outer side of the vertical frame (3);

the transverse displacement mechanism comprises a transverse frame (4) with a transverse sliding groove (42), a top sliding block (6) in sliding fit with the transverse sliding groove (42), and a horizontal pushing oil cylinder (7) which is arranged at one end of the transverse frame (4) and is transversely connected with the top sliding block (6) through a transverse pushing rod (71);

two ends of the transverse frame (4) are in sliding fit in the vertical sliding grooves (31), the outer side of the vertical frame (3) is provided with a lifting plate (41) connected with the end of the transverse frame (4), and a lifting piston (51) of the lifting oil cylinder (5) is connected with the lifting plate (41);

the top sliding block (6) is connected with the center of the clamp disc (8) through a vertical connecting rod (61), a pair of vertical thin plates (82) are respectively arranged on two side faces of the clamp disc (8), and the top ends of the vertical thin plates (82) are in sliding fit in thin plate sliding grooves (45) in the bottom face of the cross frame (4).

2. A fiber optic telecommunications device grinding fixture according to claim 1, wherein a fiber harness hanger (44) is provided on the cross-frame (4).

3. The optical fiber communication device grinding clamp according to claim 1, wherein the cross frame (4) is provided with strip-shaped limiting lugs (43), and the strip-shaped limiting lugs (43) are positioned at the front side and the rear side of the cross frame (4) and are symmetrically arranged at the two sides of the transverse sliding groove (42).

4. The optical fiber communication device grinding fixture as claimed in claim 3, wherein the strip-shaped limiting lug (43) and the cross frame (4) form a fiber harness restriction hole (9).

5. A fiber optic telecommunications device grinding fixture according to claim 1, characterized in that the fixture plate (8) is arranged horizontally.