CN202083317U - Optical axis detection tool used for float glass production line - Google Patents

Abstract

The utility model discloses an optical axis detection tool used for float glass production line, comprising a sleeve and a pin, wherein the sleeve is provided with a center hole matching with an optical axis, outer wall of the sleeve is provided with a through hole matching with a pin hole on the optical axis, the pin comprises a handle, a pin shaft, the pin shaft matches with the through hole of the sleeve and can pass through and protrude from the through hole, and the through hole is radially and symmetrically distributed at the upper edge of the outer wall of the sleeve. The optical axis detection tool is simple in structure, strong in practicality, fast in detection speed for detection of external diameter dimension of a long shaft and axis hole of an optical axis, and high in precision, thereby reducing labor intensity and increasing work efficiency.

Description

A kind of optical axis testing tool that is used for floatation glass production line

Technical field:

The utility model relates to the testing tool field, relates in particular to a kind of optical axis testing tool that is used for floatation glass production line.

Background technology:

Roller-way after the floatation glass production line cutting machine begins comprises branch table, almost mostly is rubber tire-optical axis formula roller-way, is called for short wheeled roller-way (wheel conveyor).And in this roller-way, optical axis is one of critical part, and the optical axis size has φ 40h7, φ 50h7, φ 35h7 or the like.The quantity of optical axis is big to be surprising.

Be divided into two steps in the testing process: one, will measure size, tolerance and the termination pin-and-hole of optical axis and the symmetry of optical axis axis normal is the work that inspected number is huge; Two, the center line of the center line of pin-and-hole and optical axis length, the symmetry of its verticality and symmetry require in 0.015mm.These two precision directly have influence on the assembly quality and the smoothness of operation of rollgang.

Conventional method is to carry out multiple spot with screw micrometer to detect on 4 ~ 5 meters long optical axises, detects difficulty especially for the pin-and-hole symmetry on the optical axis.

The utility model content:

The purpose of this utility model provides a kind of optical axis testing tool that is used for floatation glass production line, has effectively reduced the testing amount of long optical axis outside dimension, has reduced the degree of difficulty that the pin-and-hole symmetry detects on the optical axis simultaneously.

The technical solution of the utility model is as follows:

A kind of optical axis testing tool that is used for floatation glass production line, comprise sleeve, pin, it is characterized in that: described sleeve is provided with the center pit that matches with optical axis, described sleeve outer wall is provided with the through hole that matches with pin-and-hole on the optical axis, described pin comprises handle, bearing pin, described bearing pin matches with the through hole of described sleeve, can pass through hole.

The described optical axis testing tool that is used for floatation glass production line is characterized in that: described through hole distributes in sleeve outer wall upper edge radial symmetry.

The utility model has the advantages that:

Of the present utility model simple in structure, practical, fast for the detection speed of the outside dimension of major axis, optical axis upper shaft hole, accuracy good, reduced labour intensity, improved work efficiency.

Description of drawings:

Fig. 1 is a structural representation of the present utility model.

Embodiment:

A kind of optical axis testing tool that is used for floatation glass production line, comprise sleeve 1, pin 2, sleeve 1 is provided with the center pit 4 that matches with optical axis 3, sleeve 1 outer wall is provided with the through hole 6 that matches with pin-and-hole 5 on the optical axis 3, pin 2 comprises handle 2-1, bearing pin 2-2, bearing pin 2-2 matches with the through hole 6 of described sleeve 1, can pass through hole 6, and through hole 6 distributes in sleeve 1 outer wall upper edge radial symmetry.

Specific operation process:

1. sleeve 1 is inserted in the optical axis 3, enters to the other end from optical axis 3 one ends and take out, qualified if the gap is suitable for, on the contrary then defective.If enter too tightly or too pine check with screw micrometer again.

2. when checking the pin-and-hole 6 on the optical axis 3,, and the through hole 6 on the sleeve 1 is aimed at the pin-and-hole 5 on the optical axis 3, with the bearing pin 2-2 insertion of pin 2 as long as sleeve 1 is inserted on the optical axis 3.If bearing pin 2-2 can enter the pin-and-hole 5 on the optical axis 3, and can pass from sleeve 1 other end through hole 6, then measured piece is qualified, otherwise is defective.

Claims (2)

1. optical axis testing tool that is used for floatation glass production line, comprise sleeve, pin, it is characterized in that: described sleeve is provided with the center pit that matches with optical axis, described sleeve outer wall is provided with the through hole that matches with pin-and-hole on the optical axis, described pin comprises handle, bearing pin, described bearing pin matches with the through hole of described sleeve, can pass through hole.

2. the optical axis testing tool that is used for floatation glass production line according to claim 1 is characterized in that: described through hole distributes in sleeve outer wall upper edge radial symmetry.

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