DE29614691U1 - Ultrasonic sensor - Google Patents

Description

PIL SENSORS GMBH Ultrasonic sensor 19 August 1996 Eugen-Kaiser-Str. 2
D-63486 Bruchköbel PIL-07
Hz/ep

The present innovation relates to an ultrasonic sensor according to the generic term of claim 1.

Such an ultrasonic sensor is known, for example, from DE 43 23 134 Cl.

The aim of this innovation is to provide an ultrasonic sensor based on this state of the art that can be used in an aggressive atmosphere even under increased pressure while providing good damping of the vibrations. 15

This object is achieved according to the characterizing features of claim 1. Further advantageous embodiments of the sensor according to the innovation can be found in the dependent claims.

An example of an ultrasonic sensor according to the innovation is described below using the single figure in the attached drawing. According to this single figure, the ultrasonic sensor comprises a tubular housing 15 with an annular edge 18 that projects inwards at the front end. A Teflon film 16 rests on the inside of the annular edge 18, which is pressed against the annular edge 18 by an inner sleeve 8 via an inner screw 11 screwed into the housing 15. The housing 15 and the inner sleeve 8 are made of a Teflon-like plastic that is available under the trade name Ryton ®.

A piezo ceramic oscillator 2 is concentrically surrounded by a metallic weighting ring, whereby both the ceramic oscillator 2 and the weighting ring 6 are in contact with an adapter body 1 from behind via an electrically conductive intermediate layer 17. The adapter body 1 is closed off at the front by the glued-on Teflon film 16. A foam band 7 made of elastic plastic is placed between the outer circumference of the

adapter body 1 and the weighting ring 6 and the inner surface of the inner sleeve 8 arranged.

The space behind the ceramic oscillator 2 inside the weighting ring 6 is filled by a felt cushion 3 lying on the ceramic oscillator 2 and a modeling clay 4 arranged behind it. A tin plate disk 9 lying on the weighting ring 6 closes off the space filled in this way.

A coaxial cable 14 is led through the inner screw 11 and another end screw 12 arranged behind it into the interior of the housing 15 and is electrically connected with its shielding to the tinplate disk 9 and with its inner conductor to the back of the ceramic oscillator 2. A connecting pin connects the shielding of the coaxial cable 14 to the metal weighting ring 6 and brings the potential to the other side of the ceramic oscillator 2 via the electrically conductive layer 17.

An O-ring between the screw plug 12 and the housing 15 serves to seal the housing.

Claims (7)

Protection claims: 1. Ultrasonic sensor with an ultrasonic transducer arranged in a housing, whereby the ultrasonic transducer has a plate-shaped ceramic oscillator with a front-side adaptation layer on the ceramic oscillator and a metallic weighting ring concentrically surrounding the ceramic oscillator, characterized in that the adaptation body (1) is covered on the radiation side by an adhesively bonded Teflon film (16) and that the Teflon film is prestressed against an inwardly projecting ring edge (18) of the housing (15). 2. Ultrasonic sensor according to claim 1, characterized in that a sleeve (8) is arranged which concentrically surrounds the ceramic oscillator (2) and the weighting ring (6) and presses the Teflon film projecting radially beyond the adapter body (1) against the ring edge (18) by means of an internal screw (11) acting on it and screwed into the housing (15). 3. Ultrasonic sensor according to claim 2, characterized in that the adapter body (1) and the weighting ring (6) have the same outer diameter and that a foam strip (7) is arranged between the sleeve (8) and the adapter body (1) and the weighting ring (6). 4. Ultrasonic sensor according to claim 2 or 3, characterized in that the housing (15) and the sleeve (8) consist of a Teflon-like plastic. 5. Ultrasonic sensor according to one of claims 1 to 4, characterized in that an electrically conductive film (17) is arranged between the ceramic oscillator (2) and the adapter body (1) and that the electrical connection of the ceramic oscillator (2) is made via a first electrode connected to its rear side and a second electrode connected to the weighting ring (6). 6. Ultrasonic sensor according to claim 5, characterized in that the space behind the ceramic oscillator (2) and within the weighting ring (6) is filled with a felt cushion (3) and a modeling compound (4). 7. Ultrasonic sensor according to claim 6, characterized in that a tinplate disk (9) is arranged on the weighting ring (6), which fixes the felt pad (3) and the modeling clay (4) in the space inside the weighting ring (6).