DE19516934C1 - Inductive proximity switch with oscillator coil - Google Patents

Abstract

The inductive proximity switch has an oscillator coil (1) which has a coating of electrically conductive material (8) on the face opposite the trigger object(10) and an oscillator (12) with a processing circuit. The metallic coating is comprised of a material which has constant electrical and magnetic characteristics over the temperature range and a high electrical skin depth. The oscillator is damped in the quiescent setting and becomes undamped when the metallic trigger object is brought near to the metallic coating of the active face of the coil.

Description

The invention relates to an inductive proximity switch with a coil metallic active surface according to the preamble of claim 1.

Inductive proximity switches are known which act as an active surface Use deep-drawn or machined parts made of stainless steel. This part comes with the cylindrical metallic threaded sleeve either welded or glued. This is done by conventional inductive proximity switches known principle of damping by maintain an approaching object.

The active surface made of stainless steel creates a strong one Predamping the coil of the inductive proximity switch. Since the magnetic and electrical properties of stainless steel strong sprinkle and also to a large extent from the pretreatment (Forming, machining, temperature influence) depend on Predamping of the coil cannot be reproduced.

Furthermore, due to the skin effect, there is a low oscillation frequency required, so that very small, evaluable as a distance signal Impedance changes and short switching distances for non-ferrous Metals (reduction factor) result.

Likewise, the temperature behavior of the magnetic and electrical Properties of stainless steel are usually undefined, so that the The temperature range of the switching distance is widely scattered.

DE 35 27 442 C2 is a coil, in particular an oscillator coil of an inductive proximity switch, has become known Has ferrite core, the end faces of the core at least partially covered with an electrically conductive material, the Assignment is carried out on the outer end circumference.

The invention has for its object a proximity switch to create the type mentioned, which when using a metallic face has clearly reproducible conditions  and the mechanically robust, chemically resistant and water- as well should be gastight.

The solution to the problem is that the metallic covering of the active surface of the coil from one material exists, which is constant over the temperature magnetic and has electrical properties and a high electrical skin depth and that the oscillator is damped in the rest position and when approaching of the metallic trigger object to the metallic assignment of the active Is able to dampen the surface of the coil. Preferably, the Oscillator coil equipped with a core, preferably ferrite core, wherein the active surface of the coil and / or the ferrite core completely with the electrically conductive material of the metallic coating is occupied.

The proximity switch according to the invention has the advantage that has the same absolutely reproducible conditions. There is one Material of advantage, the product of electrical conductivity and reversible permeability is as small as possible to a high depth of penetration to get the sensor field and thus large wall thicknesses enable. The proximity switch according to the invention is advantageous mechanically robust, chemically resistant and water and gas tight.

By appropriate dimensioning of the coil, the cap and the Oscillator of the inductive proximity switch can be reached that the oscillator approaches both non-ferrous and Metals is dampened by reducing total losses.

The invention provides a proximity switch with or almost with Reduction factor = 1 available; the approximation also unites switch an electrically high skin depth with constancy of magnetic and electrical properties over temperature.

The strength of the pre-attenuation by the cap and thus the behavior the proximity switch is determined by the geometry of the coil, Core and cap, the conductivity of the cap, the distance between Coil and cap as well as the oscillation frequency.  

For example, a copper-nickel alloy is used, for example Constantan. This material is not ferromagnetic and has a defined, largely temperature stable and opposite unalloyed metals low electrical conductivity.

An example of the invention is shown in the drawing and then described. Show

Fig. 1 shows an axial section through an electromagnetic coil I according to the invention of an inductive proximity switch

Fig. 2 shows an axial section through an inductive proximity switch with the coil in front cap, which is arranged flush in the proximity switch and

Fig. 3 shows an axial section through an inductive proximity switch whose cap does not protrude flush from the end wall.

According to FIG. 1, the proximity switch has a coil 1, which is preferably arranged in a core 2, which is preferably pot core as half is composed of a ferrite material 2. The shell core half 2 shown in axial section has in principle a pot shape with an outer circumferential ring wall 4 and an inner circumferential ring wall 3 , which is designed as a central pin 3 with a central bore 7 , the outer and inner ring walls 3 , 4 being integrally connected to one another as shown in FIG. 1. The shell core 2 is rotationally symmetrical to the central axis. Between the center pin 3 and the outer ring wall 4 , the actual coil body 6 is arranged with a corresponding number of wire windings and winding taps 11 , which lead in a known manner to an oscillator 12 to which an evaluation circuit 13 is connected.

On the end face of the core 2 or the coil 6 , ie on the active surface of the coil 6 and / or the ferrite core 2 , a metallic coating 8 is arranged, which consists of a material that has constant magnetic and electrical properties over the temperature and has a high electrical skin depth. The metallic coating 8 is preferably at a distance 5 from the coil 6 or the core 2 and preferably completely covers the coil and / or the core. With a specific choice of material, the metallic coating can rest directly on the spool or the core without a gap.

According to the invention, the oscillator 12 is damped in the rest position; when the metallic release object 10 approaches the metallic coating 8 of the active surface of the coil 1 and / or the ferrite core 2 , the oscillator 12 is damped.

The material of the metallic coating 8 preferably has a low electrical conductivity; the product of electrical conductivity and reversible permeability of the material is as small as possible.

In the technical version, the material of the covering 8 consists, for example, of constantan or another copper-nickel alloy. The metallic covering 8 can, for example, as shown in the figure, have a pot or cap shape with a peripheral peripheral edge 9 and is placed on the core 2 , preferably at a distance of 5 , the edge 9 from the outside of the ring wall of the core 2 partially towered over.

Fig. 2 shows an inductive proximity switch 14 with a cylindri's housing 15 , on the end face of which a metallic cap 17 is arranged, behind which there is a coil 16 of an oscillator circuit within the housing 15 . A circuit carrier 19 is arranged on the coil 16 , which carries all further electrical elements including the oscillator and which is connected to the outside with a connecting cable 18 .

Fig. 3 shows a similar inductive proximity switch 20 , which carries at the front end of its housing a cap 21 with a high circumferential edge which projects above the end face of the proximity switch 20 , the coil 16 of the oscillator circuit being arranged inside the cap 21 .

The inventive design of the proximity switch the reduction factor for non-ferrous metals one or almost one.

Claims (8)

1. Inductive proximity switch ( 14 , 20 ) with coil ( 1 , 16 ), in particular oscillator coil, the active surface of the coil ( 1 , 16 ) facing a metallic triggering object ( 10 ) at least partially with an electrically conductive material ( 8 , 17 , 21 ) is occupied, and an oscillator ( 12 ) with an evaluation circuit ( 13 ), characterized in that the metallic coating ( 8 , 17 , 21 ) of the active surface of the coil ( 1 , 16 ) consists of a material which via the Has constant magnetic and electrical properties as well as a high electrical skin depth and that the oscillator ( 12 ) is damped in the rest position and when the metallic release object ( 10 ) approaches the metallic coating ( 8 , 17 , 21 ) of the active surface of the coil ( 1 , 16 ) is able to dampen. 2. Inductive proximity switch according to claim 1, characterized in that the material of the metallic coating ( 8 , 17 , 21 ) has a low electrical conductivity and the product of electrical conductivity and reversible permeability of the material is as small as possible. 3. Inductive proximity switch according to claim 1 or 2, characterized in that the material of the metallic coating ( 8 , 17.21 ) consists of constantan. 4. Inductive proximity switch according to claim 1 or 2, characterized in that the material of the metallic coating ( 8 , 17 , 21 ) is another copper-nickel alloy different from constantan. 5. Inductive proximity switch according to one of the preceding claims, characterized in that the metallic coating has a pot or cap shape ( 8 , 17 , 21 ) with a peripheral peripheral edge ( 9 ). 6. Inductive proximity switch according to claim 5, characterized in that the cap ( 17 , 21 ) of the inductive proximity switch ( 14 , 20 ) is designed flush or non-flush with the end face of the proximity switch ( 14 , 20 ). 7. Inductive proximity switch according to one of the preceding claims, characterized, that the reduction factor for non-ferrous metals is one or almost one. 8. Inductive proximity switch according to one of the preceding claims, characterized in that the oscillator coil is equipped with a core ( 2 ), preferably ferrite core ( 2 ), and the active surface of the coil ( 1 , 16 ) and / or the ferrite core ( 2 ) is completely covered with the electrically conductive material of the metallic coating ( 8 , 17 , 21 ).