Electricity: conductors and insulators – Boxes and housings – Hermetic sealed envelope type
Patent
1992-03-16
1993-10-19
Broome, Harold
Electricity: conductors and insulators
Boxes and housings
Hermetic sealed envelope type
174 50, 174 523, 324173, H01L 2328, G01P 344, H05K 506
Patent
active
052548074
DESCRIPTION:
BRIEF SUMMARY
BACKGROUND OF THE INVENTION
The invention is based on a sensor as defined hereinafter to the main claim.
Electromagnetic measuring sensors for use as speed sensors in motor vehicles are already known (EP-A-194 213 and EP-A-278 806). The measuring sensors have a two-part housing, in one housing part of which the electrical sensor elements are essentially received. The second housing part is produced by coating the first housing part with plastic; the second housing part fits around the first housing part along the entire circumference of a contact zone between the two housing parts. Since in the region of the contact zone the first housing part has an encompassing collar-like protrusion that is enclosed by the second housing part, not only a force-locking connection but also a form-fitting bond between the two housing parts are attained. Nevertheless, this kind of bond is not moisture-proof over the long term, particularly if the housing is exposed to high alternating temperature stress, vibration, or shear forces from mistakes during assembly.
From the technical dictionary, "ABC Chemie" [ABCs of Chemistry], Verlag Harri Deutsch, Thun and Frankfurt am Main, 1979, it is known to bond like or unlike kinds of materials to one another simply with adhesive, without altering their structure. For example, a melting adhesive that is applied to the solid surface of the workpieces to be bonded must be made liquid by being heated. The setting of the adhesive is brought about by solidification of the melt. Adhesive bonding has thus far not been used in joining housing parts for sensors.
An RPM sensor is already known (German Offenlegungsschrift 34 00 870) in which the first housing part is a coil holder of plastic intended for receiving a pole core, a coil and two current rails. After the completion of the coil holder with the aforementioned electrical components, this holder is received in a second housing part. This part is produced in an injection molding process from plastic and is provided with the embedded end of a line. The housing of the RPM sensor, formed substantially by the two housing parts, also has an opening, which is closed by the insertion of a cap once the line has been connected to the current rails. An RPM sensor of this kind is exposed to severe stress, particularly from moisture, dirt, heat and jarring. The form fit with the second housing part, attained by the fitting in of the first housing part, and the fitting in of the cap still do not protect the RPM sensor reliably against the penetration of moisture, however, which can cause malfunctions or failure. Therefore the two housing parts are additionally materially joined in their contact zone, and the cap is additionally materially joined to the second housing part, by ultrasonic welding. This provision makes the RPM sensor more expensive, because it requires additional assembly steps and considerable expenditure for the apparatus.
ADVANTAGES OF THE INVENTION
The sensor according to the invention has the advantage over the prior art that the tightness of the housing is already attained once the second housing part is made, because the melting element undergoes heating past its melting point when the first housing part is coated with the molten plastic, which leads to a fused bond between the two housing parts.
Advantageous further features of and improvements to the sensor disclosed in the main claim are possible with the provisions recited in the dependent claims.
Especially if the heat transfer to the melting element in the course of the injection process is inadequate, the provision that the melting element received in the indentation is a filament, foil, tape or a viscous solidifying film is especially advantageous, because melting of the melting element and bonding of the housing parts are reliably attained as a result.
The embodiment of the sensor set forth herein has the advantage that melting element, produced from various molds for semifinished products, is received on the first housing part such that it is protected against damage
REFERENCES:
patent: 4652818 (1987-03-01), Buchschmid et al.
patent: 4680543 (1987-07-01), Kohen
patent: 5039942 (1991-08-01), Buchschmid et al.
Herderich Hans-Jurgen
Heyer Klaus
Kohler Uwe
Leo Kristian
Pfander Werner
Broome Harold
Greigg Edwin E.
Greigg Ronald E.
Robert & Bosch GmbH
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