CN204043683U - A kind of optical alignment measuring system - Google Patents

Abstract

The utility model discloses a kind of optical alignment measuring system, comprise laser, microcobjective, collimation lens, reflector plate, objective table, catoptron, reference mirror, assemble imaging lens group, detecting device, data processor and computing machine, the output terminal of described laser is successively through reflector plate described in described microcobjective and described collimation lens directive, catoptron described in the light source directive of described reflector plate, described catoptron is installed on described objective table, be positioned at the side of described reflector plate, described reference mirror is positioned at described convergence imaging lens group, described detecting device is installed on the top of described convergence imaging lens group, the signal output part of described detecting device is connected with the signal input part of described data processor, the signal output part of described data processor is connected with the signal input part of described computing machine.The utility model designs the simple optical alignment measuring system of a kind of structure, and can show on result feedback to computing machine by measuring, substituted for original measurement mechanism, its performance is comparatively stable, and serviceable life is longer.

Description

A kind of optical alignment measuring system

Technical field

The utility model relates to a kind of measuring system, particularly relates to a kind of optical alignment measuring system.

Background technology

On optics basis in known increment type positioning measuring device, normally the engineer's scale with periodicity scale graduation is scanned by means of same periodic scan scale.But in this positioning measuring device, in surveying work or when installing, engineer's scale and scanning element may produce the phenomenon reversed on engineer's scale around an axes normal, this is to measuring the inconvenience that brings very.

Utility model content

The purpose of this utility model is just to provide a kind of optical alignment measuring system to solve the problem.

The utility model is achieved through the following technical solutions above-mentioned purpose:

The utility model comprises laser, microcobjective, collimation lens, reflector plate, objective table, catoptron, reference mirror, assemble imaging lens group, detecting device, data processor and computing machine, the output terminal of described laser is successively through reflector plate described in described microcobjective and described collimation lens directive, catoptron described in the light source directive of described reflector plate, described catoptron is installed on described objective table, be positioned at the side of described reflector plate, described reference mirror is positioned at described convergence imaging lens group, described detecting device is installed on the top of described convergence imaging lens group, the signal output part of described detecting device is connected with the signal input part of described data processor, the signal output part of described data processor is connected with the signal input part of described computing machine.

Further, the light source of described reflector plate injects described catoptron, and the light source of described catoptron injects described reference mirror, and the light source of described reference mirror injects convergence imaging lens group, and described light source is cross.

The beneficial effects of the utility model are:

The utility model designs the simple optical alignment measuring system of a kind of structure, and can show on result feedback to computing machine by measuring, substituted for original measurement mechanism, its performance is comparatively stable, and serviceable life is longer.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of optical alignment measuring system described in the utility model.

In figure: 1-laser, 2-microcobjective, 3-collimation lens, 4-reflector plate, 5-objective table, 6-catoptron, 7-reference mirror, 8-assemble imaging lens group, 9-detecting device.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As shown in Figure 1: the utility model comprises laser 1, microcobjective 2, collimation lens 3, reflector plate 4, objective table 5, catoptron 6, reference mirror 7, assemble imaging lens group 8, detecting device 9, data processor and computing machine, the output terminal of laser 1 is successively through microcobjective 2 and collimation lens 3 directive reflector plate 4, the light source directive catoptron 6 of reflector plate 4, catoptron 6 is installed on objective table 5, be positioned at the side of reflector plate 4, reference mirror 7 is positioned at assembles imaging lens group 8, detecting device 9 is installed on the top assembling imaging lens group 8, the signal output part of detecting device 9 is connected with the signal input part of institute's data processor, the signal output part of data processor is connected with the signal input part of computing machine, the light source of reflector plate 4 injects catoptron 6, the light source of catoptron 6 injects reference mirror 7, the light source of reference mirror 7 is injected and is assembled imaging lens group 8, light source is cross.

Those skilled in the art do not depart from essence of the present utility model and spirit, various deformation scheme can be had to realize the utility model, the foregoing is only the better feasible embodiment of the utility model, not thereby interest field of the present utility model is limited to, the equivalent structure change that all utilization the utility model instructionss and accompanying drawing content are done, is all contained within interest field of the present utility model.

Claims (2)

1. an optical alignment measuring system, it is characterized in that: comprise laser, microcobjective, collimation lens, reflector plate, objective table, catoptron, reference mirror, assemble imaging lens group, detecting device, data processor and computing machine, the output terminal of described laser is successively through reflector plate described in described microcobjective and described collimation lens directive, catoptron described in the light source directive of described reflector plate, described catoptron is installed on described objective table, be positioned at the side of described reflector plate, described reference mirror is positioned at described convergence imaging lens group, described detecting device is installed on the top of described convergence imaging lens group, the signal output part of described detecting device is connected with the signal input part of described data processor, the signal output part of described data processor is connected with the signal input part of described computing machine.

2. a kind of optical alignment measuring system according to claim 1, it is characterized in that: the light source of described reflector plate injects described catoptron, the light source of described catoptron injects described reference mirror, and the light source of described reference mirror injects convergence imaging lens group, and described light source is cross.