DE19604746A1 - Securing element for electronic article surveillance - Google Patents

Description

The invention relates to a securing element for electronic article surveillance, consisting of a Material with high permeability and low coercive force (soft magnetic material), which is created when an outer magnetic alternating field in an interrogation zone characteristic signal which is transmitted by means of a Detector device is recognizable.

Security elements of the type described above widely used in department stores. To achieve a high detection rate are sophisticated procedures used to effectively reduce the risk of false alarms belittle. It has become known from EP 123 586 B in addition to two query fields with the frequencies f1 and f2 in the kHz range a field with one in the Hz range frequency in the query zone. The two Query fields with the frequencies f1 and f2 stimulate in the Interrogation zone securing element for remission a characteristic signal with the intermodulations frequencies n * f1 ± m * f2 (n, m = 0, 1, 2,...). That down Frequent query field causes the fuse element in Clock of this field from saturation in one direction to Saturation is driven in the other direction. The  characteristic signal therefore occurs periodically with the Frequency of the low-frequency field.

As an alternative solution to a so-called harmonic Detection system has also become known, only one interrogation field in the kHz range to excite the Use security element, the characteristic signal of the fuse element in turn in time with a low-frequency field that softens that magnetic material between the two saturations and drives, occurs.

For the purpose of evaluation, the shape of the characteristic Then signal with a predetermined waveform compared. If the two match, this is called unauthorized stay of a secured article in the Interrogation zone interpreted; an alarm shows that Operating theft.

The hysteresis curves of fuse elements that consist of one soft magnetic material are made between the two saturation states essentially one linear course. There are also security elements become known, whose hysteresis curves a leaping Show transition between the two saturation states once they have an external magnetic field to change their Direction of saturation are forced. Materials with a discontinuous transition behavior between the two Saturation states are called "materials with high Barkhausen effect ".

For example, the properties of these materials as well as the physical basics of the Barkhausen effect extensively in US Pat. No. 4,660,025 or in EP 0 448 114 A1. In particular, is cited in the Prior art references referenced as by special physical treatment of soft magnetic material this into a material with can be transferred to a high Barkhausen effect.  

Furthermore, it has become known from the prior art that the Barkhausen effect can be increased if in the Near the material with the Barkhausen effect soft magnetic material is arranged so that the Couple stray fields of both materials. The signal of a appropriately prepared securing element is so strong that it is with relatively small dimensions of used materials reliably in the query zone of a Detection system is detected.

Draw fuse elements of the type described above but is characterized by a characteristic signal that blatant of that in a harmonic detection system discernible signal form deviates. The consequence of this is that an article that acts as a security element soft magnetic material and a material with high Barkhausen effect carries in a harmonious Detection system not recognized as a secured item becomes. Since no alarm is subsequently triggered, the Articles despite electronic security the query zone pass unhindered.

The invention is based on the object Securing element, which is made of a soft magnetic Material and a material with a high Barkhausen effect composed to modify such that it from a harmonic detection system is recognized.

The object is achieved in that in addition to soft magnetic material and the material with a high Barkhausen effect - whereby the material with the high Barkhausen effect regarding the soft magnetic material is arranged so that both over their stray fields are coupled - a semi-hard or hard magnetic Material is provided which is the material with the high Barkhausen effect premagnetized. Through the solution according to the invention becomes the characteristic signal of the material with the high Barkhausen effect suppressed.  

One with a fuse element according to the invention provided article is therefore in the surveillance zone harmonic detection system detectable. Of course, the effect is through appropriate Demagnetization of the semi-hard or hard magnetic Material reversible again, d. that is, the inventive Security elements for both harmonic detection systems as well as for detection systems for security elements Barkhausen effect are useful.

According to an advantageous development of the Securing element according to the invention is provided that it is the soft magnetic material and / or the Material with the high Barkhausen effect around one Thin film material is. Fuse elements Thin-layer materials are already from EP 0 295 028 B1 known. Of course it is too possible that the soft magnetic material and / or the Material with the high Barkhausen effect in stripes is / are formed or from a drawn wire exists / exist.

The semi-hard or hard magnetic material can a thin film material can also be used. Alternative embodiment punch a perforated film, preferably a Ni perforated foil or a ferrite layer in front.

It is particularly favorable if the arrangement of soft magnetic material and material with high Barkhausen effect is chosen so that both at least partially overlap. This embodiment is based on a simple and inexpensive way a sufficient strong interaction between the stray fields of the two Materials ensured.

According to an advantageous development of the Securing element according to the invention is provided that  the semi-hard or hard magnetic material in individual Sections is arranged. Again it turned out to be Exposed favorably if the sections as quasi third layer on the material with the high Barkhäuseneffekt are positioned, as a result of this optimal interaction of the stray field of the semi-hard or hard magnetic material with the stray field of the material is achieved with the high Barkhausen effect, while the Influencing the stray field of the soft magnetic Material is relatively low. "Individual sections" can in addition to the literal interpretation also mean that the semi-hard or hard magnetic material in selected Areas with low permeability towards the Has preferred axis of the securing element.

An advantageous embodiment provides that the semi-hard or hard magnetic material a desired Has bias in one direction. In the shape of the characteristic signal, this is expressed in such a way that the portion of the signal from the material with the Barkhausen effect arises, disappears; the signal itself is due to the premagnetization when excited by a alternating magnetic field in the direction of the positive or the negative timeline shifted.

To this time shift of the occurrence of the to prevent characteristic signal, it has proven to be proved particularly favorable that the semi-hard or hard magnetic material has selected sections, which are premagnetized in opposite directions, preferably two sections each with opposite magnetization are next to each other. This allows time shifts, as in the design with a bias in one Direction, compensate.

As soon as a customer receives the security element Goods have properly paid for the detection system  subsequently of course no longer trigger an alarm. For this is the semi-hard or hard magnetic material like this chosen that it in the saturated state characteristic signal of the soft magnetic material and the material with the high Barkhausen effect in the Interrogation zone prevented. To achieve this, the Deactivator material so a strong magnetic field exposed to being driven to saturation. By deactivating the characteristic signal moved out of the time range under consideration and can subsequently no longer registered by the detection system will.

The invention is illustrated by the following figures explained. It shows:

Fig. 1 shows the hysteresis curves of a soft magnetic material and a material with a high Barkhausen effect, the stray fields do not influence one another,

Fig. 2a shows the hysteresis curve obtained when a soft magnetic material interacts with a material with a high Barkhausen effect,

Fig. 2b the characteristic signal of a material with a high Barkhausen effect, which interacts with a soft magnetic material,

Fig. 3a shows a first embodiment of the security element according to the invention,

FIG. 3b shows the hysteresis curve of in Fig. 3a embodiment shown

FIG. 3c of the characteristic signal, in Fig. 3a shown securing element

Fig. 4a shows a further embodiment of the security element according to the invention and

Fig. 4b the hysteresis curve of the fuse element shown in Fig. 4a.

3 Fig. 1 shows the hysteresis curves of a soft magnetic material 1 and a material with a high Barkhausen effect 2, wherein both materials 1, 2 are arranged relative to each other such that their stray fields 7 do not interact with each other. From this illustration it is clearly evident that the hysteresis curve 3 of the soft magnetic material 1 has an essentially linear course between the two saturation states, while the transition in the case of the material with the high Barkhausen effect 2 takes place suddenly and therefore not continuously.

In Fig. 2a in addition to the hysteresis curves 3 of a soft magnetic material 1 and a material with a high Barkhausen effect 2 is the hysteresis curve 3 illustrates the results when the stray fields 7 of the two materials 1, 2 coupled with each other. The four boxes with the arrows each indicate the direction of magnetization of the soft magnetic material 1 and the material with the high Barkhausen effect 2 . In the two saturation states, both the soft magnetic material 1 and the material with the high Barkhausen effect 2 are magnetized in one direction. In the transition area between the two saturation states, the soft magnetic material 1 first changes its magnetization direction. The stray field 7 of the soft magnetic material 1 , which interacts with the stray field 7 of the material with the high Barkhausen effect 2, delays the sudden magnetic reversal of the material with the high Barkhausen effect 2 : the hysteresis curve 3 is partly linear, partly it shows a sudden change.

As a result of the partly continuously linear, partly abruptly changing hysteresis curve 3 of the securing element 8 , which consists of a soft magnetic material 1 and a material with a high Barkhausen effect 2 , the resulting characteristic signal 4 has the shape shown in FIG. 2b. This characteristic signal 4 differs from the characteristic signal 4 , which is emitted by a soft magnetic material 1 in response to an interrogation field (see FIG. 3c), by an asymmetrical double peak. This form of the characteristic signal 4 is not recognized in a harmonic detection system as originating from an electronically secured article.

A first embodiment of the securing element 8 according to the invention can be seen in FIG. 3a. The securing element 8 consists of a soft magnetic material 1 , a material arranged above it with a high Barkhausen effect 2 and individual sections of a semi-hard or hard magnetic material 6 . The sections of the semi-hard or hard magnetic material 6 are premagnetized in such a way that in particular the stray field 7 of the material with the high Barkhausen effect 2 , which is closer in space, is influenced. The interaction with the stray field 7 of the semi-hard or hard magnetic material 6 is dimensioned such that the material with the high Barkhausen effect 2 makes no signal contributions in the magnetic alternating field of the interrogation zone.

The hysteresis curve 3 of the embodiment of the securing element 8 according to the invention shown in FIG. 3a essentially corresponds - as can be seen from FIG. 3b - to the hysteresis curve 3 of a soft magnetic material 1 . However, the hysteresis curve 3 is shifted by an amount Hb in the direction of the positive H axis. As already mentioned above, the characteristic signal 4 now shows the desired shape, which is easily detected by a harmonic detection system and evaluated as belonging to a secured article.

If the semi-hard or hard magnetic material 6 is premagnetized only in one direction, the characteristic signal 4 , like the associated hysteresis curve 3, shows a shift in the direction of the time axis or in the direction of the H axis. However, nothing changes in the relative spacing of the peaks 5 of the characteristic signal 4 . The above-described displacement effect can be avoided if - as can be seen in FIG. 4a - the semi-hard or hard magnetic material 6 of the securing element 8 is premagnetized in both directions by the same amount.

FIG. 4b shows the resulting, extending symmetrically to the coordinate origin 3 hysteresis curve of the fuse element according to the invention, which is recorded in Fig. 4a.

Reference list

1 soft magnetic material
2 Material with a high Barkhausen effect
3 hysteresis curve
4 characteristic signal
5 peak
6 semi-hard or hard magnetic material
7 stray field
8 securing element
H magnetic field strength
B magnetic induction
VM bias

Claims (10)

1. Security element for electronic article security, consisting of a material of high permeability and low coercive force (soft magnetic material), which emits a characteristic signal when an external magnetic alternating field is applied in an interrogation zone and is recognizable by means of a detector device, characterized in that
that a material with a high Barkhausen effect ( 2 ) is provided, which is arranged with respect to the soft magnetic material ( 1 ) such that both couple with one another via their stray fields ( 7 ), and
that a semi-hard or hard magnetic material ( 6 ) is provided which is able to premagnetize the material with the high Barkhausen effect ( 2 ). 2. Securing element according to claim 1, characterized in that the soft magnetic material ( 1 ) and / or the material with the high Barkhausen effect ( 2 ) is a thin layer material. 3. securing element according to claim 1, characterized, that it is the semi-hard or hard magnetic Material around a thin film material, a perforated film or is a ferrite layer. 4. Securing element according to claim 1 or 2, characterized in that the soft magnetic material ( 1 ) and / or the material with the high Barkhausen effect ( 2 ) consists of a strip or a drawn wire. 5. Securing element according to claim 1, 2 or 3, characterized in that the soft magnetic material ( 1 ) and the material with the high Barkhausen effect ( 2 ) are at least partially overlapping. 6. Securing element according to claim 1 or 4, characterized in that the semi-hard or hard magnetic material ( 6 ) is arranged in individual sections. 7. Securing element according to claim 1 or 6, characterized in that the semi-hard or hard magnetic material ( 6 ) is arranged with respect to the other two materials (1, 2 ) that its stray field preferably with the stray field of the material with the high Barkhausen effect ( 2 ) interacts. 8. Securing element according to claim 1 or 6, characterized in that the semi-hard or hard magnetic material ( 6 ) has a desired bias (VM) in one direction. 9. Securing element according to claim 1 or 6, characterized in that the semi-hard or hard magnetic material ( 6 ) has selected sections which are premagnetized in opposite directions, preferably two sections with opposite bias (VM) lying next to each other. 10. Securing element according to claim 1, characterized in that the semi-hard or hard magnetic material ( 6 ) is such that it is both the characteristic signal ( 4 ) the soft magnetic material ( 1 ) and the material with the high Barkhausen effect in the saturated state ( 2 ) prevented in the query zone.