CN109375319B

CN109375319B - Optical fiber arrangement device and optical fiber assembly line

Info

Publication number: CN109375319B
Application number: CN201811386366.1A
Authority: CN
Inventors: 刘鹏; 张庆军; 陈丹; 羊银; 刘凯; 明涛; 白竹川
Original assignee: Chengdu University of Information Technology; Sichuan Jiuzhou Electric Group Co Ltd
Current assignee: Chengdu University of Information Technology; Sichuan Jiuzhou Electric Group Co Ltd
Priority date: 2018-11-20
Filing date: 2018-11-20
Publication date: 2023-06-06
Anticipated expiration: 2038-11-20
Also published as: CN109375319A

Abstract

The invention discloses an optical fiber finishing device and an optical fiber assembly line, wherein the optical fiber finishing device comprises a tooling plate and two grabbing mechanisms, the tooling plate is provided with a plurality of clamping blocks, each clamping block is connected with the tooling plate through a spring, the plurality of clamping blocks are arranged in two rows by two adjacent clamping blocks positioned on the same horizontal plane, the clamping blocks of the pairs are arranged in two rows on the tooling plate, each clamping block is used for abutting against each other to clamp the end part of an optical fiber, the two end parts of the optical fiber are respectively provided with a plastic sleeve, the two ends of the optical fiber are respectively sleeved with a plastic sleeve, the two ends of the optical fiber are respectively opposite to the two grabbing mechanisms, the grabbing mechanisms are used for clamping or loosening the plastic sleeve, the grabbing mechanisms are connected with vertical driving mechanisms, the vertical driving mechanisms are used for driving the grabbing mechanisms to move up and down so that the plastic sleeve clamped by the two grabbing mechanisms respectively penetrates through the two end parts of the optical fiber, and the optical fiber finishing device also comprises two jacking blocks, each jacking block is used for moving up and down to abut against the two clamping blocks paired in the clamping blocks of the row so as to prop the two clamping blocks open.

Description

Optical fiber arrangement device and optical fiber assembly line

Technical Field

The invention belongs to the technical field of optical fiber processing equipment, and particularly relates to an optical fiber finishing device and an optical fiber assembly line.

Background

The optical fiber head is a common part on an optical fiber, particularly the application of the LC optical fiber head is very wide, a plurality of optical fibers can be permanently or detachably connected together by inserting the optical fiber head into the end part of the optical fiber, the optical fiber head also has the function of protecting the optical fibers, the structure at least comprises a rubber sleeve and the optical fiber core head, a plastic sleeve is required to be sleeved on the optical fiber in the assembling process, the plastic sleeve can slide on the optical fiber, the optical fiber core head and other connector fittings are connected to the end part of the optical fiber, and finally the plastic sleeve is slid to the joint of the optical fiber core head and the rubber sleeve for thermal connection.

Because the plastic sleeve needs to slide to the deeper position of the optical fiber firstly, and modern optical fibers have the advantage of flexibility, the straightness of the optical fiber needs to be ensured when the plastic sleeve is sleeved, the plastic sleeve is difficult to sleeve through automatic assembly equipment, and the plastic sleeve can be sleeved manually only through manpower, so that the processing efficiency is low, the error frequency is high, and the processing cost is increased.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides an optical fiber finishing device and an optical fiber assembly line, which solve the problem that the sleeving of a plastic sleeve on an optical fiber is difficult to realize through automatic assembly equipment.

In order to achieve the above object, the present invention adopts the following solutions:

the invention provides an optical fiber arranging device which comprises a tooling plate and two grabbing mechanisms, wherein the tooling plate is provided with a plurality of clamping blocks, each clamping block is connected with the tooling plate through a spring, the clamping blocks are arranged in a pair by two adjacent clamping blocks positioned on the same horizontal plane, the clamping blocks of the plurality of pairs are arranged in two rows on the tooling plate, each pair of clamping blocks is used for mutually propping against each other so as to clamp the end parts of optical fibers, both end parts of the optical fibers face upwards and are respectively sleeved with a plastic sleeve, both ends of the optical fibers are respectively opposite to the two grabbing mechanisms, the grabbing mechanisms are used for clamping or loosening the plastic sleeves, the grabbing mechanisms are connected with a vertical driving mechanism, the vertical driving mechanism is used for driving the grabbing mechanisms to move up and down so that the plastic sleeves clamped by the two grabbing mechanisms respectively pass through the two end parts of the optical fibers, and each top block is used for moving up and down so as to prop the two clamping blocks paired in one row of clamping blocks against each other so as to prop open the two clamping blocks.

Further, the two top blocks are connected with the vertical driving mechanism, and the vertical driving mechanism is used for driving the top blocks to move up and down so as to prop open the two paired clamping blocks.

Further, the vertical driving mechanism is an air cylinder.

Further, each grabbing mechanism comprises a first clamping piece, a second clamping piece, a clamping cylinder and a fixing base, wherein the first clamping piece is connected with the clamping cylinder, the second clamping piece and the clamping cylinder are both fixed on the fixing base, and the clamping cylinder is used for driving the first clamping piece to be close to or far away from the second clamping piece so that the grabbing mechanism clamps or loosens the plastic sleeve.

Further, the length of each top block is smaller than the interval between two pairs of upper and lower adjacent clamping blocks in each column of clamping blocks.

Further, each clamping block comprises a first end for clamping the end of the optical fiber and a second end for abutting against the top block.

Further, the tooling plate is provided with two longitudinally arranged strip-shaped through holes in parallel, one of the two rows of clamping blocks penetrates through one of the strip-shaped through holes, the other of the two rows of clamping blocks penetrates through the other strip-shaped through hole, and the strip-shaped through holes are used for horizontally moving the clamping blocks.

Further, the top surface of each clamping block second end in each pair of clamping blocks is provided with a lower chute inclined to the other clamping block, the bottom surface of each clamping block second end is provided with an upper chute inclined to the other clamping block, and the top block is a cylinder with both top and bottom edges.

The invention also provides an optical fiber assembly line, which comprises the optical fiber finishing device and further comprises: the device comprises a frame and a conveying belt arranged along the frame, wherein the tool plate is fixed on the conveying belt, the conveying belt is used for driving the tool plate to move, and the vertical driving mechanism is fixed on the frame.

Further, a part of the tooling plate extends out of the conveying belt, a positioning cylinder is arranged at the position, opposite to the optical fiber arranging device, of the lower side of the tooling plate, and the positioning cylinder is used for extending out of the piston rod and propping against the extending part of the tooling plate.

The optical fiber sorting device has the beneficial effects that the optical fiber sorting device is moved downwards through the jacking blocks and the grabbing mechanism, when the jacking blocks sequentially prop open the paired clamping blocks to loosen the optical fibers, the grabbing mechanism slides the plastic sleeve to the corresponding position of the optical fibers, and when the sleeving of the plastic sleeve is completed, the grabbing mechanism loosens the plastic sleeve. The device can realize the automatic sleeving of the plastic sleeve under the condition that the optical fiber is kept straight, improves the assembly efficiency of the optical fiber, and avoids the optical fiber from being damaged during assembly.

Drawings

Fig. 1 is a schematic structural diagram of an optical fiber assembly line provided by the present invention.

Fig. 2 is a partial enlarged view of a dashed box a in fig. 1.

Fig. 3 is a top view of the clamping mechanism of the present invention.

FIG. 4 is a schematic structural view of the tooling plate of the present invention.

Fig. 5 is a partial enlarged view of a dashed box B in fig. 4.

In the accompanying drawings: the device comprises the following components of a 5-optical fiber, a 6-plastic sleeve, a 10-top block, a 20-vertical driving mechanism, a 30-grabbing mechanism, a 31-first clamping piece, a 32-second clamping piece, a 33-fixed seat, a 34-clamping cylinder, a 35-clamping platform, a 50-clamping mechanism, a 52-groove, a 53-spring, a 54-clamping block, a 60-tooling plate, a 61-hook, a 62-positioning ring, a 63-strip-shaped through hole, a 70-positioning cylinder, a 71-top table, a 100-frame and a 200-conveying belt.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the technical solutions in the present invention will be clearly and completely described below, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to the accompanying drawings:

as shown in fig. 1 to 3, the present invention provides an optical fiber arranging device, comprising a tooling plate 60 and two gripping mechanisms 30, wherein the tooling plate 60 is provided with a plurality of clamping blocks 54, each clamping block 54 is connected with the tooling plate 60 through a spring 53, the plurality of clamping blocks 54 are in a pair with two adjacent clamping blocks 54 positioned on the same horizontal plane, the plurality of pairs of clamping blocks 54 are arranged in two rows on the tooling plate 60, each pair of clamping blocks 54 is used for abutting against each other to clamp the end of an optical fiber 5, both ends of the optical fiber 5 face upwards and are respectively provided with a plastic sleeve 6, both ends of the optical fiber 5 are respectively opposite to the two gripping mechanisms 30, the gripping mechanisms 30 are used for clamping or loosening the plastic sleeve 6, the gripping mechanisms 30 are connected with a vertical driving mechanism 20, the vertical driving mechanism 20 is used for driving the gripping mechanisms 30 to move up and down so that the plastic sleeve 6 clamped by the two gripping mechanisms 30 respectively passes through both ends of the optical fiber 5, the optical fiber arranging device further comprises two top blocks 10, each top block 10 is used for moving up and down to abut against the two clamping blocks 54 paired in the row of clamping blocks 54 to prop open the two clamping blocks 54.

In the present embodiment, the two top blocks 10 are connected to a vertical driving mechanism 20, and the vertical driving mechanism 20 is used to drive the top blocks 10 to move up and down to spread the paired two clamping blocks 54. In this way, the two top blocks 10 can be moved synchronously with the gripping mechanism 30, and when the gripping mechanism 30 moves down with the plastic ferrule 6 therebetween, the two top blocks 10 also move down to prop open the paired clamp blocks 54, and the clamp blocks 54 release the optical fibers 5, so that the plastic ferrule 6 can move to the bottom of the optical fibers 5. However, the present invention is not limited thereto, and in other embodiments, the two top blocks 10 are connected to other driving mechanisms such that the up-and-down movements of the two top blocks 10 and the grasping mechanism 30 are driven by the different driving mechanisms, respectively.

Further, each gripping mechanism 30 includes a first clamping member 31, a second clamping member 32, a clamping cylinder 34, and a fixing base 33, the first clamping member 31 is connected to the clamping cylinder 34, the second clamping member 32 and the clamping cylinder 34 are both fixed to the fixing base 33, and the clamping cylinder 34 is used for driving the first clamping member 31 to approach or separate from the second clamping member 32 so that the gripping mechanism 30 clamps or unclamps the plastic sleeve 6.

In this embodiment, the vertical driving mechanism 20 is an air cylinder, the optical fiber arranging device further includes a clamping platform 35 horizontally arranged, two fixing seats 33 are both fixed at the top of the clamping platform 35, a piston rod of the air cylinder is also connected at the top of the clamping platform 35, and the clamping platform 35 is driven by a telescopic piston rod to move up and down so as to drive the two grabbing mechanisms 30 to move up and down synchronously. The invention is not limited thereto and in other embodiments the vertical drive mechanism 20 may be an oil cylinder, an electric screw, or the like.

In this embodiment, the clamping cylinder 34 is connected with the first clamping member 31 through the link mechanism, so that the length directions of the clamping cylinder 34 and the first clamping member 31 and the second clamping member 32 are consistent, and the occupied volume of the grabbing mechanism 30 is reduced. However, the present invention is not limited thereto, and in other embodiments, the length direction of the clamping cylinder 34 is perpendicular to the length direction of the first clamping member 31 and the second clamping member 32, so that the clamping force of the gripping mechanism 30 can be increased.

In this embodiment, the length of each top block 10 is smaller than the spacing between two pairs of upper and lower adjacent clamping blocks 54 in each column of clamping blocks 54. The top block 10 is abutted against the paired clamping blocks 54 to enable the two clamping blocks 54 to continue to move downwards after the optical fiber 5 is loosened, the two clamping blocks 54 for loosening the optical fiber 5 clamp the optical fiber 5 again under the action of the springs 53, and when the plastic sleeve 6 is moved downwards, other positions of the end part of the optical fiber 5 can be still clamped by the clamping blocks 54, so that the straightness of the optical fiber 5 when the plastic sleeve 6 is sleeved is ensured.

Specifically, each clamping block 54 comprises a first end for clamping the end of the optical fiber 5 and a second end for abutting against the top block 10.

Fig. 3 is a top view of the clamping mechanisms 50, only one of which clamping mechanism 50 is illustrated. As shown in fig. 3, the tooling plate 60 is provided with two longitudinally arranged bar-shaped through holes 63 in parallel, one of the two rows of clamping blocks 54 passes through one of the bar-shaped through holes 63, the other of the two rows of clamping blocks 54 passes through the other bar-shaped through hole 63, and the bar-shaped through holes 63 are used for horizontally moving the clamping blocks 54, so that the clamping mechanism 50 can be controlled through the second end. The two side walls of each strip-shaped through hole 63 are respectively provided with a groove 52, and the clamping blocks 54 are connected to the inner walls of the grooves 52 through the springs 53, so that the springs 53 are closer to the clamping ends of the clamping blocks 54, the clamping effect can be improved, and the grooves 52 can guide the expansion and contraction of the springs 53 and the movement of the clamping blocks 54. Specifically, as shown in fig. 4, the front surface of the tooling plate 60 is U-shaped, and two strip-shaped through holes 63 are respectively located at two head positions of the U-shape.

As shown in fig. 5, in each pair of clamping blocks 54, the top surface of the second end of each clamping block 54 is provided with a lower chute inclined to the other clamping block 54, the bottom surface of the second end of each clamping block 54 is provided with an upper chute inclined to the other clamping block 54, and the top block 10 is a cylinder with edges at the top end and the bottom end. The bottom of the top block 10 is matched with the lower chute, the top of the top block 10 is matched with the upper chute, and the lower chute and the upper chute can guide the up-and-down movement of the top block 10, so that the two paired clamping blocks 54 can be easily supported by the downward movement and the upward movement of the top block 10.

Further, the bottom of frock board 60 is equipped with couple 61, couple 61 is used for hanging and twines optic fibre 5, couple 61 top still is equipped with holding ring 62, and optic fibre 5's both ends all pass this holding ring 62, make optic fibre 5 twine in holding ring 62, and when avoiding optic fibre 5's both ends to be fixed, its whole state that is scattered in disorder.

Referring to fig. 1, this embodiment further provides an optical fiber assembly line, including an optical fiber arranging device as described above, further including: the optical fiber 5 is moved from one assembly station to the next assembly station for the next assembly process, and the hook 61 and the positioning ring 62 can also prevent the optical fiber 5 from falling when the tooling plate 60 moves.

Further, a part of the tooling plate 60 extends out of the conveying belt 200, a positioning cylinder 70 is arranged at a position below the tooling plate 60 opposite to the optical fiber core penetrating device, and the positioning cylinder 70 is used for extending out of the piston rod and propping against the extending part of the tooling plate 60. Specifically, the side of the tooling plate 60 is L-shaped, the bottom of the tooling plate is a plate-shaped structure which is transversely arranged, the top of the plate-shaped structure is provided with a top table 71, one part of the bottom of the plate-shaped structure is connected with the conveyer belt 200, and the other part of the bottom of the plate-shaped structure stretches out of the conveyer belt 200 from the U-shaped plate surface of the tooling plate 60. When the conveying belt 200 moves the tooling plate 60 to the station of the optical fiber finishing device to pass through the plastic sleeve 6, the conveying belt 200 stops moving, the piston rod of the positioning cylinder 70 stretches out to lean against the plate-shaped structure, the whole tooling plate 60 is leaned against in the direction of the top table 71, the position of the tooling plate 60 is locked, and product damage caused by deflection of the tooling plate 60 when the optical fiber 5 passes through the plastic sleeve 6 is avoided. It should be noted that the optical fiber assembly line is also provided with the positioning cylinder 70 and the top stage 71 at other assembly stations for assembling the optical fiber 5.

In this embodiment, the plastic ferrule 6 has been sleeved on the end of the optical fiber 5 at the last assembly station, and the fiber arrangement device then sleeves the plastic ferrule 6 deeper into the optical fiber 5. However, the present invention is not limited thereto, and in other embodiments, the plastic sleeve 6 may be manually and initially sleeved on the end of the optical fiber 5 after the tooling plate 60 reaches the optical fiber finishing station.

According to the optical fiber arranging device, through downward movement of the ejector blocks and the grabbing mechanisms, when the ejector blocks sequentially prop open paired clamping blocks to loosen optical fibers, the grabbing mechanisms slide the plastic sleeve to the corresponding positions of the optical fibers, and after the sleeving of the plastic sleeve is completed, the grabbing mechanisms loosen the plastic sleeve. The device can realize automatic sleeving of the plastic sleeve in a state that the optical fiber is kept straight, improve the assembly efficiency of the optical fiber and avoid the damage of the optical fiber during assembly; the optical fiber assembly line can be provided with different assembly mechanisms for carrying out different processing on the optical fiber without changing assembly equipment, so that the assembly efficiency of the optical fiber is improved, and the occupied space of the assembly equipment and staff is reduced.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims

1. An optical fiber arranging device is characterized by comprising a tooling plate (60) and two grabbing mechanisms (30), wherein the tooling plate (60) is provided with a plurality of clamping blocks (54), each clamping block (54) is connected with the tooling plate (60) through a spring (53), the plurality of clamping blocks (54) are formed by a pair of two adjacent clamping blocks (54) positioned on the same horizontal plane, the clamping blocks (54) of the plurality of pairs are arranged in two rows on the tooling plate (60), each pair of clamping blocks (54) is used for abutting against each other to clamp the end parts of optical fibers (5), two ends of the optical fibers (5) face upwards and are respectively sleeved with a plastic sleeve (6), two ends of the optical fibers (5) are respectively opposite to the two grabbing mechanisms (30), the grabbing mechanisms (30) are used for clamping or loosening the plastic sleeve (6), the grabbing mechanisms (30) are connected with vertical driving mechanisms (20), the vertical driving mechanisms (20) are used for driving the two clamping mechanisms (30) to move up and down so that the two clamping blocks (30) abut against each other to clamp the end parts of the optical fibers (5) in the two clamping blocks (10) respectively, each clamping block (5) and each clamping block (10) abuts against the top end part (54), so that the two abutted clamping blocks (54) are spread apart, while the non-abutted clamping blocks (54) still keep clamping the optical fiber (5).

2. The optical fiber arranging device according to claim 1, wherein the two top blocks (10) are connected with the vertical driving mechanism (20), and the vertical driving mechanism (20) is used for driving the top blocks (10) to move up and down so as to spread the two paired clamping blocks (54).

3. Optical fiber collating device according to either of claims 1 or 2, characterized in that the vertical drive mechanism (20) is a cylinder.

4. The optical fiber arranging device according to claim 1, wherein each gripping mechanism (30) comprises a first clamping piece (31), a second clamping piece (32), a clamping cylinder (34) and a fixing base (33), the first clamping piece (31) is connected with the clamping cylinder (34), the second clamping piece (32) and the clamping cylinder (34) are both fixed on the fixing base (33), and the clamping cylinder (34) is used for driving the first clamping piece (31) to be close to or far from the second clamping piece (32) so that the gripping mechanism (30) can clamp or unclamp the plastic sleeve (6).

5. The optical fiber arrangement device according to claim 1, wherein the length of each top block (10) is smaller than the spacing between two pairs of upper and lower adjacent clamping blocks (54) in each column of clamping blocks (54).

6. The optical fiber arrangement according to claim 1, characterized in that each clamping block (54) comprises a first end for clamping the end of the optical fiber (5) and a second end for abutting against the top block (10).

7. The optical fiber arranging device according to claim 6, wherein the tooling plate (60) is provided with two longitudinally arranged strip-shaped through holes (63) in parallel, one of the two rows of clamping blocks (54) passes through one of the strip-shaped through holes (63), the other of the two rows of clamping blocks (54) passes through the other strip-shaped through hole (63), and the strip-shaped through holes (63) are used for horizontally moving the clamping blocks (54).

8. The optical fiber arranging device according to claim 6, wherein the top surface of the second end of each clamping block (54) in each pair of clamping blocks (54) is provided with a lower chute inclined to the other clamping block (54), the bottom surface of the second end of each clamping block (54) is provided with an upper chute inclined to the other clamping block (54), and the top block (10) is a column body with both top and bottom ends being edges.

9. An optical fiber assembly line comprising the optical fiber finishing device of any one of claims 1-8, further comprising: the device comprises a frame (100) and a conveying belt (200) arranged along the frame (100), wherein the tooling plate (60) is fixed on the conveying belt (200), the conveying belt (200) is used for driving the tooling plate (60) to move, and the vertical driving mechanism (20) is fixed on the frame (100).

10. The optical fiber assembly line according to claim 9, wherein a part of the tooling plate (60) extends out of the conveyor belt (200), a positioning cylinder (70) is arranged below the tooling plate (60) opposite to the optical fiber arranging device, and the positioning cylinder (70) is used for extending out of a piston rod and abutting against the extending-out part of the tooling plate (60).