DE3307966A1 - Temperature sensor - Google Patents

Abstract

The simply constructed temperature sensor has a mirror, in particular a concave mirror 2, which couples the light emitted by a transmitting light guide 5 into two receiving light guides 6 and 7, and to which there is attached a bimetal strip 3 which deforms with a change in temperature and thus varies the position of the mirror 2. <IMAGE>

Description

"Temperature sensor"

The invention relates to a temperature sensor with a mirror, which transmits the light emitted by a transmitting light guide into two receiving light guides coupled.

From DE-OS 28 49 186 is an optical measuring device with a temperature sensor known, the one arranged in front of the end faces of two receiving light guides aperture having. If the temperature changes, the position of the faceplate changes the end faces of the receiving light guide and that emitted by a transmitting light guide Depending on the temperature to be recorded, light is transmitted to the two receiving light guides distributed. To determine the amount of light coupled into the receiving light guide in The diaphragm must be able to change depending on the temperature to be recorded at a small distance in front of the end faces of the receiving light guide in a precise manner Guide be movably arranged. Because the end faces of light guides are very small are, the diaphragm must be manufactured precisely and may only have small dimensional tolerances exhibit.

The object of the present invention is to provide the known temperature sensor to simplify the fact that an amount of light that is dependent on the temperature to be detected is coupled into the receiving light guide without using a screen.

According to the invention, this object is achieved in that the mirror on a deforming with the temperature change and thus the position of the mirror changing bracket is attached.

In an advantageous embodiment of the invention, the holder designed as a bimetal strip. A bimetal strip changes the position of the mirror even with small temperature changes, so that a high sensitivity of the temperature sensor is achieved.

It is advantageous to design the mirror as a concave mirror, since the Concave mirror bundles the light and thereby the light that can be coupled into the receiving light guide Amount of light increased.

One embodiment of the invention results from the fact that the concave mirror as a mirrored lens on the convex side facing away from the light guides is trained.

Lenses designed as concave mirrors can be particularly simple Way to consolidate.

A further embodiment of the invention results from the fact that between the mirror and the end faces of the transmitting and receiving light guides Focussing lens system mechanically connected to the mirror with at least a lens is arranged. One consisting e.g. of a lens and a mirror optical system can be manufactured with great precision.

Some exemplary embodiments of the invention are based on the following of the drawings. 1 shows a temperature sensor with a concave mirror, 2 shows a temperature sensor with a concave mirror designed as a lens, FIG. 3 a temperature sensor with a mirror provided with a lens.

1 shows a concave mirror incorporated into a base body 1 2 via bimetal strips 3 on the inner wall a housing 4 attached. In the housing 4 are a transmitting light guide 5 and two receiving light guides 6 and 7 introduced such that the end faces 8 of the transmitting light guide 5 and the end faces 9 and 10 of the receiving light guides 6 and 7 are opposite the concave mirror 2.

The light emitted from the end face 8 of the transmitting light guide 5 is focused by the concave mirror 2 and via the end faces 9 and 10 into the receiving light guide 6 and 7 coupled.

In the position of the concave mirror 2 shown in FIG. 1, FIG both receiving light guides 6 and 7 coupled the same amount of light. At a Change in temperature bends the bimetal strip 3 and changes its position of the concave mirror 2 such that, for example, in the receiving light guide 6 a increasing and coupled into the receiving light guide 7 a decreasing amount of light will. The difference in the amount of light coupled into the receiving light guides 6 and 7 is a measure of the temperature to be recorded.

In FIG. 2, the concave mirror is shown as one on the light guides 5, 6 and 7 facing away from the convex side 11 mirrored lens 12 formed. the The lens 12 is mechanically connected to the free end of the bimetallic strip 3 via a mount 13 tied together.

In Fig. 3 a hemispherical lens 14 is on a flat, mirrored surface 15 of a further base body 16 attached. That from the mirror and lens existing optical system can also be mirrored as one on the flat side Plano-convex lens be formed.

Claims (5)

PATENT CLAIMS: Temperature sensor with a mirror that shows that of a Transmitting light guides emitted light coupled into two receiving light guides, thereby characterized in that the mirror (2, 11, 15) at a temperature change deforming and thus the position of the mirror (2, 11, 15) changing bracket (3) is attached. 2. Temperature sensor according to claim 1, characterized in that the Bracket (3) is designed as a bimetallic strip. 3. Temperature sensor according to claim 1 or 2, characterized in that that the mirror (2, 11) is designed as a concave mirror. 4. Temperature sensor according to claim 3, characterized in that the Concave mirror as a mirrored on the convex side (11) facing away from the light guides Lens (12) is formed. 5. Temperature sensor according to claim 1 or 2, characterized in that that between the mirror (15) and the end faces of the transmitting (5) or receiving light guide (6, 7) a focusing lens system mechanically connected to the mirror (15) is arranged with at least one lens (14).