SU1516786A1 - Touch-up sensor - Google Patents

Abstract

This invention relates to a measurement technique. The aim of the invention is to simplify the design and increase reliability, as well as increase sensitivity. The goal is achieved by the fact that optical fibers 5 and 6 are installed in the sensor case, the wedge-shaped ends of which face each other and form an annular gap 11, and the fungus 9 has an annular support edge 10 designed to bridge the annular gap 11, which allows changing b fibers 6 and 5 when touching the probe 3, associated with the fungus 9. 1. f-ly, 3 ill.

Description

(L

ate

ABOUT)

00 O5

 AW ////// A

 / J

Fm.1

The invention relates to a measurement technique, namely, a device for touch sensors used to form a touch signal with a measurement object on CNC machines and coordinate measuring machines.

The purpose of the invention is to simplify the design and increase reliability, as well as to increase sensitivity.

FIG. 1 shows a touch sensor, a general view; in fig. 2 — node I in FIG. 1, the annular gap between the optical fibers, the liquid is not shown; in fig. 3 -, the annular gap is filled with liquid.

The pilot includes a housing 1, a fixed support surface 2 connected to it, a contact 3 and a contact probe centering unit. Inside the housing 1, the optical fibers 5 and 6 are mounted concentrically in the housing and have internal wedge 7 and 8 that face each other with narrow sides of the wedge and are adjacent to the fixed bearing surface 2. The contact probe 3 is provided with a fungus 9, having a bearing surface , made in the form of an annular support hook 10, designed to interact with a fixed support surface .. The annular support edge 10 is intended to overlap the annular gap 11 formed between the optical fibers 5 and 6, the outer The caps 12 and 13 of which are brought to the surface of the housing 1. To improve the optical communication between the inner ends 7 and 8 of the light guides, the annular gap 11 can be filled with a liquid 1 with an optical density close to the material of the optical fibers.

The touch sensor operates as follows.

In contact with the contact oiyna 3 with the object 15 measurement along any of the directions and limits

five

0

five

0

five

0

five

the front hemisphere is the separation of the annular support edge 10 of the fungus 9 from the fixed support surface 2. The sensor becomes optically permeable and the light from its sources 1b of light through the air gap 11, the light guide 5 and the air gap hits the photodetector 17.

Pre-gap 11 can be filled between the inner ends of the light guides with liquid, which increases the sensitivity of the sensor approximately two times compared with the sensor in which the gap is not filled with liquid.

Claims (2)

1. The touch sensor, comprising a housing, a contact probe with a fungus with a bearing support surface, a fixed support surface connected with a housing, an annular working gap, a centering point of the contact probe and a recorder, characterized in that, in order to simplify the design and increase reliability, the recorder is made in the form of pairs of optical fibers with wedge-shaped working ends, in the radial planes of the housing, an annular working the gap is formed by wedge-shaped working ends of the light guides facing each other, and the free ends of the light guides are brought to the face surface of the housing, the supporting surface of the fungus is made with an edge intended for Shut off the light flux in the annular gap. 2. The sensor according to claim 1, characterized in that, in order to increase the sensitivity by increasing the optical permeability, the annular working gap is filled with liquid with an optical density close to the optical density of the material of the optical fibers. FIG. 2 Fig