CN110282447B - Typesetting device for optical fiber panel - Google Patents

Abstract

The invention relates to a typesetting device of an optical fiber panel, belonging to the field of manufacturing of optical fiber image transmission. Comprises a workbench main body frame, typesetting dies and a compaction alignment mechanism. The typesetting die is fixed in the center of the main body frame of the workbench, and the compaction alignment mechanism is fixed on the side face of the typesetting die. The advantages are that: simple structure and high precision. The device only has four power mechanisms to control the placement of the optical fiber, is convenient to install and debug, fully considers the reliability, carries out modularized design, is convenient for maintenance and management in the future, and saves the production cost. The whole structure has novel and clear conception, simple structure, elegant appearance, convenient use and strong practicability.

Description

Typesetting device for optical fiber panel

Technical Field

The invention relates to the field of manufacturing of optical fiber image transmission, in particular to a typesetting device of an optical fiber panel.

Background

At present, the optical image transmission element is widely applied to the fields of medical treatment, science and technology, military and the like by the characteristics of small volume, light weight, high resolution, clear image transmission, high light transmission efficiency and the like. However, the typesetting process of the optical fiber at present, especially the typesetting process of the optical fiber panel is still mainly finished by manpower, the optical fiber panel is formed by stacking optical fiber filaments of one regular hexagon without gaps, and no perfect typesetting device is matched with a mechanical arm at present to realize the gapless stacking of the optical fiber filaments. And the manual operation is easy to cause abrasion, so that the light transmission effect of the optical fiber is reduced, and the internal quality of the optical fiber light transmission element is affected.

Disclosure of Invention

The invention aims to provide a typesetting device for an optical fiber panel, which solves the problems existing in the prior art. The invention has the advantages of simple structure, high precision, low cost and convenient installation and debugging.

The above object of the present invention is achieved by the following technical solutions:

the typesetting device of the optical fiber panel comprises a workbench main body frame 1, a typesetting die 3 and a compaction alignment mechanism 2, wherein the typesetting die 3 is fixed at the center of the workbench main body frame 1, and the compaction alignment mechanism 2 is fixed on the side face of the typesetting die 3.

The typesetting die 3 is: the fixed die block 302 is fixed on the working plane, grooves are respectively arranged on two sides of the fixed die block 302, are matched with the bosses of the sliding die block 301 and can slide relatively, and inverted triangle grooves are arranged on the working plane of the fixed die block 302 so as to fix the positions of the optical fiber filaments; the shaft of the sliding die block 301 is in interference fit with a sliding bearing 310, the sliding bearing 310 is fixed on a U-shaped plate 309 in an interference manner, the U-shaped plate 309 is tightly connected with an electric cylinder push plate 303, and the lower half part of the electric cylinder push plate 303 is fixed on an electric cylinder telescopic rod 308 and a cylindrical linear guide rail optical axis 306; the electric cylinder 307 and the two cylindrical linear guide rail sliding blocks 305 are respectively fixed on the side plates 304, the two cylindrical linear guide rail sliding blocks 305 are respectively positioned at two sides of the electric cylinder telescopic rod 308 and are axially parallel to the electric cylinder telescopic rod 308, and the U-shaped plate 309 slides on the cylindrical linear guide rail optical axis 306 together with the electric cylinder push plate 303 under the action of the electric cylinder 307, so that the lifting of the position is realized; the side plate 304 is tightly fixed on the working plane by bolts.

The compressing and aligning mechanism 2 is as follows: the alignment plate 201 is fixed on the upper end plate 202, the upper end plate 202 is connected with the lower end plate 203 through bolts, the cross section of the lower end plate 203 is fixed on the linear guide rail slide block 204 through bolts, the other side of the lower end plate 203 is connected with the cylindrical rod 209, the linear guide rail slide block 204 is connected with the threaded hole of the direct guide rail 205 through bolts, the linear guide rail 205 is fixed on a working plane, the external threads of the cylindrical rod 209 are connected with the threaded hole of the cylinder telescopic rod 208, the cylinder 207 is fixed on the angular aluminum 206 through bolts, the angular aluminum 206 is fixed on the working plane through bolts, and the upper end plate 202 and the lower end plate 203 drive the alignment plate 201 to slide along the linear guide rail 205 under the action of the cylinder 207; the rotary compression cylinder 210 is fixed on the working plane, and the compression rod 211 is connected to a threaded hole of the rotary compression cylinder 210 by a bolt.

The invention has the beneficial effects that: an electric cylinder is arranged in the typesetting mould to control the movement of the mould, and the typesetting mould has simple structure and high precision. The device only has four power mechanisms to control the placement of the optical fiber, is convenient to install and debug, fully considers the reliability, carries out modularized design, is convenient for maintenance and management in the future, and saves the production cost. The whole structure has novel and clear conception, simple structure, elegant appearance, convenient use and strong practicability.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate and explain the invention and together with the description serve to explain the invention.

FIG. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic structural view of a typesetting mold according to the present invention;

FIG. 3 is a schematic view of the compression alignment mechanism of the present invention;

fig. 4 is a schematic structural view and a partial enlarged view of the fixing module of the present invention.

In the figure: 1. a main body frame; 2. a compression alignment mechanism; 201. an alignment plate; 202. an upper end plate; 203. a lower end plate; 204. a linear guide rail slide block; 205. a linear guide rail; 206. aluminum horns; 207. a cylinder; 208. a cylinder telescopic rod; 209. a cylindrical rod; 210. a rotary compression cylinder; 211 a compression bar; 3. typesetting a die; 301. sliding the mold; 302. fixing a die; 303. an electric rod pushing plate; 304. a side plate; 305. a cylindrical linear guide rail slide block; 306. a cylindrical linear guide optical axis; 307. an electric cylinder; 308. an electric cylinder telescopic rod; 309. a U-shaped plate; 310. a sliding bearing.

Detailed Description

The details of the present invention and its specific embodiments are further described below with reference to the accompanying drawings.

Referring to fig. 1 to 4, the typesetting device of the optical fiber panel has the advantages of simple structure, high precision, low cost, convenient installation and debugging, and can realize automatic operation when being matched with a manipulator. The structure contains workstation main part frame 1, typesetting mould 3 and compresses tightly alignment mechanism 2, typesetting mould 3 is fixed in the central authorities of workstation main part frame 1, compresses tightly alignment mechanism 2 and is fixed in typesetting mould 3's side.

Referring to fig. 2, the typesetting mold 3 is: the fixed die block 302 is fixed on the working plane through bolts, grooves are respectively formed on two sides of the fixed die block 302 and are matched with the bosses of the sliding die block 301, and the fixed die block can slide relatively, and inverted triangle grooves are arranged on the working plane of the fixed die block 302 so as to fix the positions of the optical fiber filaments; the shaft of the sliding die block 301 is in interference fit with a sliding bearing 310, the sliding bearing 310 is fixed on a U-shaped plate 309 in an interference manner, the U-shaped plate 309 is tightly connected with an electric cylinder push plate 303 through bolts, and the lower half part of the electric cylinder push plate 303 is fixed on an electric cylinder telescopic rod 308 and a cylindrical linear guide rail optical axis 306 through bolts; the electric cylinder 307 and the two cylindrical linear guide rail sliding blocks 305 are respectively fixed on the side plates 304 through bolts, the two cylindrical linear guide rail sliding blocks 305 are respectively positioned at two sides of the electric cylinder telescopic rod 308 and are axially parallel to the electric cylinder telescopic rod 308, and the U-shaped plate 309 slides on the cylindrical linear guide rail optical axis 306 together with the electric cylinder push plate 303 under the action of the electric cylinder 307, so that the lifting of the position is realized; the side plate 304 is tightly fixed on the working plane by bolts.

Referring to fig. 3, the compressing and aligning mechanism 2 is: the alignment plate 201 is fixed on the upper end plate 202 through bolts, the upper end plate 202 is connected with the lower end plate 203 through bolts, the cross section of the lower end plate 203 is fixed on the linear guide rail sliding block 204 through bolts, the other side of the lower end plate 203 is connected with the cylindrical rod 209 through bolts, the linear guide rail sliding block 204 is connected with a threaded hole of the direct guide rail 205 through bolts, the linear guide rail 205 is fixed on a working plane through bolts, the external threads of the cylindrical rod 209 are connected with a threaded hole of the cylinder telescopic rod 208, the cylinder 207 is fixed on the angular aluminum 206 through bolts, the angular aluminum 206 is fixed on the working plane through bolts, and the upper end plate 202 and the lower end plate 203 drive the alignment plate 201 to slide along the linear guide rail 205 under the action of the cylinder 207; the rotary compression cylinder 210 is fixed on the working plane, here bolted, and the compression bar 211 is screwed into a threaded hole of the rotary compression cylinder 210.

Referring to fig. 1 to 4, the present invention operates as follows:

the platen 211 is in a relaxed state during operation and the robot places a set of fiber optic filaments in the stationary mold 302 until the fiber optic filaments fill the upper end of the stationary mold 302. Then, the electric cylinder 307 moves to drive the cylindrical linear guide optical axis 306 to move, the electric cylinder push plate 303 and the U-shaped plate 309 move upwards under the action of the cylindrical linear guide optical axis 306, and the upward movement of the U-shaped plate 309 drives the sliding die 301 to move along the groove of the fixed die 302. The height of the movement of the sliding mold 301 is exactly the diameter height of a group of optical fiber filaments. The coordination of the movement of the motorized cylinder 307 with the manipulator ensures that the height of the sliding mold 301 is level with the height of the placed fiber optic filaments. Then, the cylinder telescopic rod 208 stretches to drive the cylinder rod 209 to move forward, the lower end plate 203 and the linear guide rail slide block 204 are driven to move forward on the linear guide rail 205 by the forward movement of the cylinder rod, and the alignment plate 201 moves along with the lower end plate 203 to lightly press and align the end surfaces of the placed optical fiber yarns. Then, the rotary pressing cylinder 210 drives the pressing rod 211 to rotationally press the optical fiber filaments, and the work is completed, so that the formed optical fiber filaments are in a regular hexagonal prism shape.

The above description is only a preferred example of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. of the present invention should be included in the protection scope of the present invention.

Claims (2)

1. The utility model provides a typesetting device of optic fibre panel which characterized in that: the automatic typesetting device comprises a workbench main body frame (1), a typesetting die (3) and a compaction alignment mechanism (2), wherein the typesetting die (3) is fixed at the center of the workbench main body frame (1), and the compaction alignment mechanism (2) is fixed on the side face of the typesetting die (3);

the typesetting mould (3) is: the fixed die block (302) is fixed on the working plane, grooves are respectively formed in two sides of the fixed die block and are matched with the bosses of the sliding die block (301) and can slide relatively, and inverted triangle grooves are formed in the working plane of the fixed die block (302) so as to fix the positions of optical fiber filaments; the shaft of the sliding die block (301) is in interference fit with a sliding bearing (310), the sliding bearing (310) is fixed on a U-shaped plate (309) in an interference manner, the U-shaped plate (309) is tightly connected with an electric cylinder push plate (303), and the lower half part of the electric cylinder push plate (303) is fixed on an electric cylinder telescopic rod (308) and a cylindrical linear guide rail optical axis (306); the electric cylinder (307) and the two cylindrical linear guide rail sliding blocks (305) are respectively fixed on the side plates (304), the two cylindrical linear guide rail sliding blocks (305) are respectively positioned at two sides of the electric cylinder telescopic rod (308) and are axially parallel to the electric cylinder telescopic rod (308), and the U-shaped plate (309) slides on the cylindrical linear guide rail optical axis (306) together with the electric cylinder push plate (303) under the action of the electric cylinder (307), so that the lifting of the position is realized; the side plates (304) are tightly fixed on the working plane through bolts.

2. The fiber optic panel layout apparatus of claim 1, wherein: the compressing and aligning mechanism (2) is as follows: the alignment plate (201) is fixed on the upper end plate (202), the upper end plate (202) is connected with the lower end plate (203) through bolts, the cross section of the lower end plate (203) is fixed on the linear guide rail sliding block (204) through bolts, the other side of the lower end plate (203) is connected with the cylindrical rod (209), the linear guide rail sliding block (204) is connected with a threaded hole of the linear guide rail (205) through bolts, the linear guide rail (205) is fixed on a working plane, the external threads of the cylindrical rod (209) are connected with the threaded hole of the cylinder telescopic rod (208), the cylinder (207) is fixed on the angular aluminum (206) through bolts, the angular aluminum (206) is fixed on the working plane through bolts, and the upper end plate (202) and the lower end plate (203) drive the alignment plate (201) to slide along the linear guide rail (205) under the action of the cylinder (207); the rotary compression cylinder (210) is fixed on the working plane, and the compression rod (211) is connected with a threaded hole of the rotary compression cylinder (210) through a bolt.