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Full-automatic optical fiber cutter cut-off machine for optical fiber coupler testing robot

A technology of optical fiber coupler and robot, which is applied in the coupling of optical waveguide, etc., can solve the problems of being susceptible to wear, affecting the conduction of rubber hose, and delaying the working process of automatic fiber optic cutter cutting machine, so as to achieve the effect of increasing the service life

Active Publication Date: 2020-06-09
叶豪
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] When the current automatic optical fiber cutter cutting machine is working, the hose is sent to the workbench, and then the transmission is controlled by the limit rod, and the guide roller is introduced under the blade for cutting. However, the outer surface of the hose is relatively smooth, and the guide roller Although the outer surface of the roller is made of plastic material, it is easy to be worn after long-term use, which will cause the rubber hose to slip, which will affect the transmission of the rubber hose and delay the working process of the automatic optical fiber cutter cutting machine

Method used

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  • Full-automatic optical fiber cutter cut-off machine for optical fiber coupler testing robot
  • Full-automatic optical fiber cutter cut-off machine for optical fiber coupler testing robot
  • Full-automatic optical fiber cutter cut-off machine for optical fiber coupler testing robot

Examples

Experimental program
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Effect test

Embodiment 1

[0031] Embodiment 1: When in use, the rotating rod 400 drives the rubber hose to enter under the pressure roller 402, and the rubber hose is guided by the pressure roller 402, and at the same time, under the auxiliary action of the spring 401, the pressure roller 402 is driven to expand and contract, thereby different diameter of the rubber hose, through the pressure roller 402 to enhance the friction with the hose, so as to prevent the situation of slipping; through the rubber hose to the bottom of the pressure roller 402, and then under the rotation of the rotating rod 400, the rubber hose and the pressure ring B are pushed Contact, so that the anti-slip strip on the pressure ring B pushes the rubber hose to guide, and enhances the friction between the pressure ring B and the rubber hose.

Embodiment 2

[0032] Embodiment 2: When the diameter of the rubber hose is small, in order to prevent the rubber hose from inclining during the conveying process, the movable shaft A on the rotating rod 400 cooperates with the moving rod B1 so that the moving rod B1 is inside the movable shaft A Squeeze, and at the same time push the spring 401 to move relatively, so that the protective plate C wants to get closer, and push the distance between the pressure rollers 402, so that the rubber hose will not run on the protective plate C, so that the friction between the rubber hose and the pressure roller 402 The force decreases, causing the rubber hose to slip, and at the same time, the lever A1 inside the movable axis A is moved by the moving lever B1, so that the collar a is stuck in the lever A1, preventing the moving lever B1 from being separated from the movable axis A, and shortening The distance between the pressure rings B is used to control the delivery of the rubber hose with a smaller...

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PUM

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Abstract

The invention discloses a full-automatic optical fiber cutter cut-off machine for an optical fiber coupler testing robot. The full-automatic optical fiber cutter cut-off machine structurally comprisesan electric box, a workbench, a knife rest and guiding and conveying supports. The workbench is provided with a discharging plate, a limiting plate and an adjusting plate. The knife rest is providedwith a blade, the guiding and conveying supports are provided with guiding and conveying rollers and a handle. The guiding and conveying rollers are arranged between the guide conveying support; the handle is connected to one side of the knife rest through bolts. The full-automatic optical fiber cutter cut-off machine has the beneficial effects that the pressing ring on the pressing wheel makes contact with the outer surface of the rubber pipe, the friction force between the rubber pipe and the pressing ring is increased through the anti-skid strips on the outer surface of the pressing ring, and thus the rubber pipe is driven to be guided and conveyed, the situation that the pressing wheel is prone to slipping after being used for a long time is prevented, and the service life of the pressing wheel is prolonged; the pushing pressing wheel drives the pressing wheel to extrude each other under the auxiliary effect of the spring through driving of the rotating rod so that rubber pipes with small diameters are guided and conveyed conveniently, the rubber pipes are pushed to be extruded and fixed through approaching of protection plates, and the rubber pipes are driven to be guided andconveyed through the pressing ring.

Description

technical field [0001] The invention relates to the field of optical fibers, in particular to a fully automatic optical fiber cutter cutting machine for an optical fiber coupler testing robot. Background technique [0002] With the rapid development of computer technology, the utilization frequency of optical fibers has also increased significantly. There are countless machines that use optical fibers for processing and production. When used for fiber optic coupler testing robots, they are generally used for fiber optic cutter cutting machines. [0003] Aiming at the current fully automatic optical fiber cutter cutting machine, a relative solution has been formulated for the following problems: [0004] When the current automatic optical fiber cutter cutting machine is working, the hose is sent to the workbench, and then the transmission is controlled by the limit rod, and the guide roller is introduced under the blade for cutting, but the outer surface of the hose is relati...

Claims

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Application Information

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IPC IPC(8): G02B6/25
CPCG02B6/25
Inventor 包玉清
Owner 叶豪