CN104787615A

CN104787615A - Movable base of full-automatic optical fiber winding machine

Info

Publication number: CN104787615A
Application number: CN201510139612.3A
Authority: CN
Inventors: 马文涛; 汪畅; 杨振; 罗家童; 刘斌
Original assignee: HEFEI ZHENGYANG PHOTOELECTRIC TECHNOLOGY CO LTD
Current assignee: HEFEI ZHENGYANG PHOTOELECTRIC TECHNOLOGY CO LTD
Priority date: 2015-03-29
Filing date: 2015-03-29
Publication date: 2015-07-22

Abstract

The invention relates to a movable base of a full-automatic optical fiber winding machine. The movable base comprises a pay-off reel placing mechanism, a z-axis movable base body used for moving a pay-off reel up and down, a y-axis movable base body used for moving the pay-off reel front and back and an x-axis movable base body used for moving the pay-off reel left and right, and the pay-off reel placing mechanism, the z-axis movable base body, the y-axis movable base body and the x-axis movable base body are sequentially arranged from top to bottom. The z-axis movable base body comprises a z-axis motor, a z-axis lead screw, z-axis guide rails and a lifting base plate. The y-axis movable base body comprises a y-axis motor, a y-axis lead screw, y-axis guide rails and a base plate moving front and back. The x-axis movable base body comprises an x-axis motor, an x-axis lead screw, x-axis guide rails and a base plate moving left and right. The movable base can automatically place the pay-off reel on a rotating disc of a main shaft or an auxiliary main shaft of the optical fiber winding machine and take down the pay-off reel from the rotating disc of the main shaft or the auxiliary main shaft of the optical fiber winding machine, the winding speed of the optical fiber winding machine is greatly increased, the working efficiency of the optical fiber winding machine is greatly improved, and potential safety hazards are eliminated.

Description

A kind of Full-automatic optical fibre wire coiling machine mobile foundation

Technical field

The present invention relates to optical fiber wire coiling machine technical field, be specifically related to a kind of Full-automatic optical fibre wire coiling machine mobile foundation.

Background technology

In existing optical fiber wire coiling machine working process, the draw drum of optical fiber wire coiling machine, people is needed with the hands to embrace, manually hang on the main shaft of optical fiber wire coiling machine or the rotating disk of secondary main shaft, and then draw drum is manually taken off from the rotating disk of the main shaft of optical fiber wire coiling machine or secondary main shaft, this not only greatly reduces the threading speed of optical fiber wire coiling machine, has a strong impact on the work efficiency of optical fiber wire coiling machine, also there is great potential safety hazard.

Summary of the invention

The object of the present invention is to provide a kind of Full-automatic optical fibre wire coiling machine mobile foundation, draw drum can be automatically placed on the main shaft of optical fiber wire coiling machine or the rotating disk of secondary main shaft by this mobile foundation, and draw drum can be taken off from the main shaft of optical fiber wire coiling machine or the rotating disk of secondary main shaft, this not only substantially increases threading speed and the work efficiency of optical fiber wire coiling machine, also eliminates potential safety hazard.

For achieving the above object, present invention employs following technical scheme:

A kind of Full-automatic optical fibre wire coiling machine mobile foundation, comprise from up to down set gradually draw drum placement mechanism, for moving up and down the z-axis mobile foundation of draw drum, the y-axis mobile foundation for movable draw drum and the x-axis mobile foundation for sway draw drum.

Described z-axis mobile foundation comprises z-axis motor, z-axis leading screw, z-axis guide rail and elevation base plate; Described z-axis motor is connected with z-axis leading screw by coupler; Described elevation base plate coordinates with z-axis slide.

Described y-axis mobile foundation comprises y-axis motor, y-axis leading screw, y-axis guide rail and movable substrate; Described y-axis motor is connected with y-axis leading screw by coupler; Described movable substrate coordinates with y-axis slide.

Described x-axis mobile foundation comprises x-axis motor, x-axis leading screw, x-axis guide rail and sway substrate; Described x-axis motor is connected with x-axis leading screw by coupler; Described sway substrate coordinates with x-axis slide.

Further, described draw drum placement mechanism comprises unwrapping wire motor, unwrapping wire motor fixing plate and unwrapping wire motor support plate; Described unwrapping wire motor and unwrapping wire motor support plate are fixedly mounted on below unwrapping wire motor fixing plate respectively.

Further, described z-axis guide rails assembling is in the side of unwrapping wire motor support plate, and described z-axis guide rail is provided with the z-axis guide rail slide block coordinated with z-axis slide.The same side of described elevation base plate is connected with z-axis guide rail slide block, z-axis feed screw nut seat respectively.Under z-axis motor drives, gyroscopic movement made by z-axis leading screw, and z-axis feed screw nut seat moves linearly up and down along z-axis leading screw, and elevation base plate moves linearly up and down along z-axis guide rail under z-axis feed screw nut seat drives.

Described elevation base plate is fixedly mounted on the top of movable substrate, and described y-axis guide rail is provided with the y-axis guide rail slide block coordinated with y-axis slide.The bottom surface of described movable substrate is connected with y-axis guide rail slide block and y-axis feed screw nut seat respectively.Under y-axis motor drives, gyroscopic movement made by y-axis leading screw, and y-axis feed screw nut seat moves along y-axis leading screw as tandem, and movable substrate moves along y-axis guide rail as tandem under y-axis feed screw nut seat drives.

Described x-axis guide rails assembling is on sway substrate, and described x-axis guide rail is provided with the x-axis guide rail slide block coordinated with x-axis slide.Described sway substrate is connected with x-axis guide rail slide block and x-axis feed screw nut seat respectively.Under x-axis motor drives, gyroscopic movement made by x-axis leading screw, and x-axis feed screw nut seat does left and right rectilinear movement along x-axis leading screw, and sway substrate does left and right rectilinear movement along x-axis guide rail under x-axis feed screw nut seat drives.

From above technical scheme, draw drum can be automatically placed on the main shaft of optical fiber wire coiling machine or the rotating disk of secondary main shaft by this mobile foundation, and draw drum can be taken off from the main shaft of optical fiber wire coiling machine or the rotating disk of secondary main shaft, this not only substantially increases threading speed and the work efficiency of optical fiber wire coiling machine, also eliminates potential safety hazard.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Fig. 2 is front view of the present invention;

Fig. 3 is birds-eye view of the present invention;

Fig. 4 is lateral plan of the present invention;

Fig. 5 is the structural representation of draw drum pedestal;

Fig. 6 is the structural representation be placed on by draw drum pedestal on pedestal of the present invention;

Fig. 7 is the structural representation of rotating disk.

Wherein:

01, unwrapping wire motor fixing plate; 02, unwrapping wire motor support plate; 03, unwrapping wire motor; 11, z-axis motor; 12, z-axis coupler; 13, z-axis leading screw; 14, z-axis guide rail; 15, elevation base plate; 21, y-axis motor; 22, y-axis coupler; 23, y-axis leading screw; 24, y-axis guide rail; 25, movable substrate; 31, x-axis motor; 32, x-axis coupler; 33, x-axis leading screw; 34, x-axis guide rail; 35, sway substrate; 50, draw drum pedestal hook rack 1; 51, draw drum pedestal hook rack 2; 51a, rotating disk hook 1; 51b, rotating disk hook 2; 60: draw drum pedestal.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention will be further described:

A kind of Full-automatic optical fibre wire coiling machine mobile foundation as Figure 1-Figure 5, comprise from up to down set gradually draw drum placement mechanism, for moving up and down the z-axis mobile foundation of draw drum, the y-axis mobile foundation for movable draw drum and the x-axis mobile foundation for sway draw drum.

Described z-axis mobile foundation comprises z-axis motor 11, z-axis leading screw 13, z-axis guide rail 14 and elevation base plate 15; Described z-axis motor 11 is connected with z-axis leading screw 13 by z-axis coupler 12; Described elevation base plate 15 and z-axis guide rail 14 bearing fit.

Described y-axis mobile foundation comprises y-axis motor 21, y-axis leading screw 23, y-axis guide rail 24 and movable substrate 25; Described y-axis motor 21 is connected with y-axis leading screw 23 by y-axis coupler 22; Described movable substrate 25 and y-axis guide rail 24 bearing fit.

Described x-axis mobile foundation comprises x-axis motor 31, x-axis leading screw 33, x-axis guide rail 34 and sway substrate 35; Described x-axis motor 31 is connected with x-axis leading screw 33 by x-axis coupler 32; Described sway substrate 35 and x-axis guide rail 34 bearing fit.

Further, described draw drum placement mechanism comprises unwrapping wire motor 03, unwrapping wire motor fixing plate 01 and unwrapping wire motor support plate 02.Described unwrapping wire motor 03 and unwrapping wire motor support plate 02 are fixedly mounted on below unwrapping wire motor fixing plate 01 respectively.

Further, described z-axis guide rail 14 is arranged on the side of unwrapping wire motor support plate 02, and described z-axis guide rail 14 is provided with the z-axis guide rail slide block with z-axis guide rail 14 bearing fit.The same side of described elevation base plate 15 is connected with z-axis guide rail slide block, z-axis feed screw nut seat respectively.Under z-axis motor 11 drives, gyroscopic movement made by z-axis leading screw 13, and z-axis feed screw nut seat moves linearly along z-axis leading screw about 13, and elevation base plate 15 moves linearly along z-axis guide rail about 14 under z-axis feed screw nut seat drives.

Described elevation base plate 15 is fixedly mounted on the top of movable substrate 25, and described y-axis guide rail 24 is provided with the y-axis guide rail slide block with y-axis guide rail 24 bearing fit.The bottom surface of described movable substrate 25 is connected with y-axis guide rail slide block and y-axis feed screw nut seat respectively.Under y-axis motor 21 drives, gyroscopic movement made by y-axis leading screw 23, and y-axis feed screw nut seat moves along y-axis leading screw 23 as tandem, and movable substrate 25 moves along y-axis guide rail 24 as tandem under y-axis feed screw nut seat drives.

Described x-axis guide rail 34 is arranged on sway substrate 35, and described x-axis guide rail 34 is provided with the x-axis guide rail slide block with x-axis guide rail 34 bearing fit.Described sway substrate 35 is connected with x-axis guide rail slide block and x-axis feed screw nut seat respectively.Under x-axis motor 31 drives, gyroscopic movement made by x-axis leading screw 33, and x-axis feed screw nut seat does left and right rectilinear movement along x-axis leading screw 33, and sway substrate 35 does left and right rectilinear movement along x-axis guide rail 35 under x-axis feed screw nut seat drives.

As Figure 6-Figure 7, specific works process of the present invention is:

Preparatory process: manually draw drum pedestal 60 is placed on mobile foundation, as shown in Figure 6.

Extension dish operation: x-axis motor 31 works, makes sway substrate 35 to, and y-axis motor 21 works, make movable substrate 25 to three, z-axis motor 11 works, and makes elevation base plate 15 to, x-axis machine operation 31, makes sway substrate 35 to two, and z-axis motor 11 works, make elevation base plate 15 to four, y-axis motor 21 works, and makes movable substrate 25 to four, x-axis motor 31 works, make sway substrate 35 to four, z-axis motor 11 works, and makes elevation base plate 15 to two.By above action, unwrapping wire pedestal 60 is placed on rotating disk by mobile foundation, already hangs on 50a by draw drum pedestal hook rack 150, and draw drum pedestal hook rack 251 hangs on 51a, and then, mobile foundation gets back to original position.

Get dish operation: z-axis machine operation 11, make elevation base plate 15 to four; X-axis motor 31 works, and makes sway substrate 35 to, and y-axis motor 21 works, make movable substrate 25 to three, x-axis motor 31 works, and makes sway substrate 35 to two, z-axis motor 11 works, and makes elevation base plate 15 to, and x-axis motor 31 works, make sway substrate 35 to, y-axis motor 21 works, and makes movable substrate 25 to four, x-axis motor 31 works, make sway substrate 35 to four, z-axis motor 11 works, and makes elevation base plate 15 to four.By above action, unwrapping wire pedestal 60 takes off from rotating disk by mobile foundation, and then, mobile foundation gets back to original position.

After finding initial point, determine the position relationship of following table.Move by this position relationship, unwrapping wire pedestal can be taken off from rotating disk, or unwrapping wire pedestal is put on rotating disk.

Above-described embodiment is only be described the preferred embodiment of the present invention; not scope of the present invention is limited; under not departing from the present invention and designing the prerequisite of spirit; the various distortion that those of ordinary skill in the art make technical scheme of the present invention and improvement, all should fall in protection domain that claims of the present invention determines.

Claims

1. a Full-automatic optical fibre wire coiling machine mobile foundation, is characterized in that: comprise from up to down set gradually draw drum placement mechanism, for moving up and down the z-axis mobile foundation of draw drum, the y-axis mobile foundation for movable draw drum and the x-axis mobile foundation for sway draw drum;

Described z-axis mobile foundation comprises z-axis motor, z-axis leading screw, z-axis guide rail and elevation base plate; Described z-axis motor is connected with z-axis leading screw by coupler; Described elevation base plate coordinates with z-axis slide;

Described y-axis mobile foundation comprises y-axis motor, y-axis leading screw, y-axis guide rail and movable substrate; Described y-axis motor is connected with y-axis leading screw by coupler; Described movable substrate coordinates with y-axis slide;

2. a kind of Full-automatic optical fibre wire coiling machine mobile foundation according to claim 1, is characterized in that: described draw drum placement mechanism comprises unwrapping wire motor, unwrapping wire motor fixing plate and unwrapping wire motor support plate; Described unwrapping wire motor and unwrapping wire motor support plate are fixedly mounted on below unwrapping wire motor fixing plate respectively.

3. a kind of Full-automatic optical fibre wire coiling machine mobile foundation according to claim 1, is characterized in that: described z-axis guide rails assembling is in the side of unwrapping wire motor support plate, and described z-axis guide rail is provided with the z-axis guide rail slide block coordinated with z-axis slide; The same side of described elevation base plate is connected with z-axis guide rail slide block, z-axis feed screw nut seat respectively; Under z-axis motor drives, gyroscopic movement made by z-axis leading screw, and z-axis feed screw nut seat moves linearly up and down along z-axis leading screw, and elevation base plate moves linearly up and down along z-axis guide rail under z-axis feed screw nut seat drives;

Described elevation base plate is fixedly mounted on the top of movable substrate, and described y-axis guide rail is provided with the y-axis guide rail slide block coordinated with y-axis slide; The bottom surface of described movable substrate is connected with y-axis guide rail slide block and y-axis feed screw nut seat respectively, under y-axis motor drives, gyroscopic movement made by y-axis leading screw, y-axis feed screw nut seat moves along y-axis leading screw as tandem, and movable substrate moves along y-axis guide rail as tandem under y-axis feed screw nut seat drives;

Described x-axis guide rails assembling is on sway substrate, and described x-axis guide rail is provided with the x-axis guide rail slide block coordinated with x-axis slide; Described sway substrate is connected with x-axis guide rail slide block and x-axis feed screw nut seat respectively, under x-axis motor drives, gyroscopic movement made by x-axis leading screw, x-axis feed screw nut seat does left and right rectilinear movement along x-axis leading screw, and sway substrate does left and right rectilinear movement along x-axis guide rail under x-axis feed screw nut seat drives.