DE2062145C3 - Proximity switch that is mounted on a U- or H-shaped support body - Google Patents

Description

The invention relates to a proximity switch, which is within an insulating mass encapsulated housing a due to an undamped magnetic field between two feedback coils having oscillating oscillator that shields when approaching a magnetic field lines Body in the feedback field emits a switching signal indicating this approach.

Proximity sensors with a feedback oscillator, in which the oscillator vibrations can be influenced with the aid of a body damping magnetic field lines and which then emit a switching signal, are known. These switches are used for non-contact and contactless switching tasks, for example for positioning tasks, as they switch bounce-free, are maintenance-free and work without mechanical wear. In particular for the joint use of several proximity sensors at a switching point for the transmission of information, but also for exchanging the proximity sensors with one another, it is important that the proximity sensors have the same response properties within set tolerance ranges. The exact setting of the feedback fields means a time-consuming adjustment in the still unpotted state. In order to achieve a precise adjustment, the proximity sensor parts have since been placed in the housing intended for potting and then the oscillation or damping properties of the oscillator had to be set there with the help of metal foils or metal plates, which also influenced the feedback field.

The invention is based on the object of creating a proximity sensor that is simple to build and in the manufacture of which the adjustment process can be considerably simplified that already in the Assembly of the feedback coils of the proximity sensor, the position of which is determined very precisely.

In an arrangement of the type mentioned at the outset, the object is achieved in that the feedback coils Have fastening means which are present on an H- or U-shaped support body Engage guide grooves and that the guide grooves for precise fixing of the position of the feedback coils serve each other. In this way it is possible to change the geometry of the feedback field between the two feedback coils through a precise adjustment during assembly in a very precisely predeterminable Establish dimensions so that the final adjustment of the proximity sensor is extremely simplified. The exact position of the feedback coils is achieved in a development of the invention in that the guide grooves taper so that the fastening means engaging therein are in their end position are clamped. This makes it possible to assemble the proximity sensor on the carrier body and to adjust and then to bring them into the housing intended for potting without the feedback coils change in their position to one another. Another embodiment of the invention provides that the feedback coils have a bobbin surrounded by a pot core, that the pot core has recesses on its outer surface through which the coil body fixed guide lugs protrude, the guide lugs in the guide grooves of the support body intervention.

Further developments and expedient configurations of the invention emerge from the subclaims in connection with the exemplary embodiments described below and shown in the drawing. It shows

1 shows the cross section through an H-shaped support body,

F i g. 2 shows the view of the support body according to FIG. 1,

F i g. 3 the bobbin in two developments, and

F i g. 4 shows the assembly of a proximity sensor with the carrier body according to the invention.

The F i g. 1 shows a cross section through an approximately H-shaped support body 10. The extensions 11 on the support body 10, which in the present example suggestively give the cross-section an approximately H-shaped appearance , are used to fasten circuit boards that are part of the oscillator and carry electronic components, as shown in FIG 4 is indicated. The support body 10 also has the guide grooves 12 tapering towards the transverse web 13. FIG. 2 shows a view of the carrier body on which the feedback coils are attached, from which it can be seen how the two guide grooves 12 run in the carrier body. With the help of the guide grooves 12, the feedback coils 15 are attached to the carrier body 10,

which have a coil core 16, a coil body 17 and guide lugs 18 attached to the coil body 17. The guide lugs 18 engage in the guide grooves 12 and press the spooky core 16 against the Carrier body. A feedback coil 19 is located on the bobbin 17. FIG. 3 shows two Views of the bobbin 17, so that it can be seen how the guide lugs 18 are formed, which engage in the guide grooves 12. The Fig.4 shows sketchy an assembled proximity body. A supply cable 26 leads into a housing 25 and there the circuit arrangement 27, which together with the feedback tracks forms the oscillator.

1 sheet of drawings

Claims (5)

Patent claims: 1. Proximity switch that has a housing encapsulated with insulating compound due to an undamped magnetism field between two feedback coils se,. ing Has oscillator, which when approaching a magnetic field lines shielding body in the feedback field emits a switching signal indicating this approach, thereby ge ίο indicates that the feedback coils (15) have fastening means which are present on an H- or U-shaped support body (10) Engage guide grooves (12) and that the guide grooves (12) for precise fixation of the position the feedback coils (15) serve to each other. 2. Proximity switch according to claim 1, characterized in that the guide grooves (12) taper so that the fastening means engaging therein are clamped in their end position. 3. Proximity switch according to claim 1, characterized in that the feedback coils (15) have a bobbin (17) surrounded by a pot core (16) that the pot core (16) has recesses on its lateral surface through which guide lugs (18) attached to the coil body (15) protrude, the guide lugs engage in the guide grooves (12) of the support body (10). 4. Proximity switch according to claim 3, characterized in that the pot core by the Engaging of the guide lugs (18) in the guide grooves (12) of the coil body on the carrier body is pressed. 5. Proximity switch according to claims 1 to 4, characterized in that the carrier body (10) extensions (U) for fastening printed circuit boards carrying the electrical circuit arrangement (27). 40