DE19730694A1 - Security element for electronic item alarm - Google Patents

Abstract

The security element can be detected by at least two electronic monitoring systems based on different physical principles. A resonant circuit (1) is provided which consists of at least partly a soft magnetic material (2) with high permeability and low coercive force and of a material with high Barkhausen effect. Preferably, the resonant circuit consists of two inductances (7) which at least partly overlap. A dielectric layer (4) is provided between both inductances. The resonant circuit may consists of one inductance and one capacitor (8) with at least partly overlapping capacitor surfaces (5). A dielectric layer is provided between both capacitor surfaces.

Description

The invention relates to a securing element for the electronic article surveillance designed in this way is that it's in at least two on different physical principles based electronic Monitoring systems is detected.

Electronic security elements of a certain type (Resonant circuits, soft magnetic stripe elements or Thinfilm elements, elements with a high Barkhausen effect) are often used in department stores to secure Goods used against theft.

Resonant circuits work in the mega hertz range and usually become resonant vibrations at 8.2 MHz and to send out a characteristic signal stimulates. The securing elements are often an integral part of adhesive labels or hanging labels made of cardboard attached to the items to be secured are attached. The electro African surveillance systems are typically found in the Entrance and exit area of warehouses or department stores and raise an alarm when a secured item is in illegally passes the secured zone. Has a Customer properly paid for the goods, the response will be  resonant circuit either removed from the goods or it will deactivated.

Harmonic monitoring systems are used to detect Securing elements made of soft magnetic material. For Achieving a high detection rate are sophisticated Process used, reducing the risk of false alarms is effectively reduced. From EP 123 586 B. following method for the detection of soft magnetic Strip elements or Thinfilm elements become known: in addition to two query fields with the frequencies f1 and f2 in the kHz range becomes a field with one in the Hz range frequency in the interrogation zone. The two query fields with the frequencies f1 and f2 stimulate soft magnetic located in the interrogation zone Strip element or thinfilm element for remission of 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 that previously described harmonic detection system has also become known only a query field in the kHz range To use excitation of the fuse element, the characteristic signal of the fuse element in turn Clocks of a low-frequency field that the soft magnetic material between the two saturations back and forth, occurs.

For the purpose of evaluation, the shape of the characteristic Then signal with a predetermined waveform compared. If the two agree, this will be considered unreal valid stay of a secured article in the  Interrogation zone interpreted; an alarm shows the operator personnel the 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 as soon as they are applied by applying an external magnetic field Change their direction of saturation are forced. Materials with a non-continuous transition behavior between the two saturation states are as "Materials with a high Barkhausen effect". For example, the properties of these materials as well as the physical basics of the Barkhausen effect in detail in US Pat. No. 4,660,025 or also in EP 0 448 114 A1 described. 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.

Security elements with a high Barkhausen effect are made by corresponding query fields for sending a characteristic signal excited, the form blatant from the characteristic signal of a soft magnetic Strip element or Thinfilm element deviates. The The consequence of this is that an article that is a backup element made of soft magnetic material, not in a Barkhausen surveillance system is recognized; on the other hand, an article that comes with a backup element with a high Barkhausen effect, not in recognized a harmonious monitoring system.

Because the frequency range of the query fields from resonance systems on the one hand and harmonic or Barkhausen systems on the other hand, by several orders of magnitude  apart is the detection of resonance vibration circle in harmonic or Barkhausen surveillance systems as impossible as the detection of soft magnetic securing elements or securing elements with high Barkhausen effect in resonance systems.

It has become known from EP 0 601 506 B1 that a Articles simultaneously with a soft magnetic Securing element and a resonant circuit Mistake. Such a secured article is therefore both in a resonance monitoring system as well as in one demonstrable harmonic system. The known However, solution is quite expensive since each item has two different securing elements must be provided. Furthermore, the solution described in the prior art not universally applicable; it fails from the aforementioned reasons in Barkhausen surveillance systems.

The invention has for its object a cost to propose inexpensive securing element which in any surveillance systems is detected.

The object is achieved in that a resonance oscillation circle is provided, which at least partially consists of a soft magnetic material with high permeability and low coercive force and / or from a material with high Barkhausen effect. It is preferably the soft magnetic material is Permalloy or a Thinfilm material, as described, for example, in EP 0 295 028 B1 is described. Of course, too all other materials with the required physical properties for the manufacture of the Fuse element according to the invention can be used.

According to an advantageous development of the invention According security element is provided that the Resonant circuit consists of two coils, at least partially overlap, with one between the two coils  dielectric layer is arranged. At the dielek trical layer it can be z. B. a coating or a laminate.

Alternatively, it is provided that the resonant circuit is off a coil and a capacitor with at least two partially overlapping capacitor areas exists, with a between the two capacitor surfaces dielectric layer is arranged.

According to an advantageous development of the invention according security element is a deactivation for the Resonant circuit and / or the soft magnetic material and / or the material with high Barkhausen effect see. The soft magnetic material and the material with high Barkhausen effect can be deactivated that give them sections of a semi-hard or hard magnetic Materials (low permeability, high coercive force) be assigned. Will it be semi-hard or hard magnetic? Material by applying a correspondingly strong Magnetic field driven into saturation, so it prevents subsequently a reaction of the soft magnetic Fuse element or the Barkhausen fuse element to an outer query field. Thinfilm securing elements can be - as described in EP 0 412 137 B1 Deactivate the application of a perforated nickel foil.

An advantageous embodiment of the invention Security element suggests that the deactivation of the Resonant circuit by a detuning or Destruction of the resonant circuit occurs. From the State of the art are a variety of ways Deactivation of resonant circuits has become known. An example is that described in EP 0 181 237 Solution mentioned.  

The resonant circuit is - as is generally known - ent neither by means of an etching process or Stamping process.

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

Fig. 1 is a perspective view of a first embodiment of the fuse element of the invention,

Fig. 2 is an exploded drawing of a second embodiment of the security element according to the invention,

Fig. 3 is an exploded view of a deactivating designed security element and

Fig. 4 shows the fuse element shown in Fig. 2 with a dielectric intermediate layer.

Fig. 1 is a perspective view showing a first embodiment of the securing element 9 according to the invention. The fuse element 9 is equipped with a resonant circuit 1 , which consists of a coil 7 with several turns and a capacitor 8 . The capacitor 8 has two opposite capacitor surfaces 5 , which are separated from each other by a dielectric layer (not shown). The resonant circuit 1 is arranged on a carrier layer 10 .

So that the securing element 9 can also be detected in a harmonic monitoring system and / or a Barkhausen monitoring system, at least part of the resonant circuit 1 is made of a soft magnetic material 2 and / or a material with a high Barkhausen effect 3 . In the case explicitly shown, the entire resonant circuit 1 consists of a soft magnetic material 2 .

FIG. 2 shows an exploded drawing of a second embodiment of the securing element 9 according to the invention. The resonant circuit 1 consists of two coils 7 , which are arranged at least partially overlapping on both sides of a dielectric layer / coating 4 . Part of the outer turn of the one coil 7 consists of a soft magnetic material 2 or a material with a high Barkhausen effect 3 .

Fig. 3 shows an exploded view of an inventive fuse element 9 , which is designed to be deactivated. The basic structure of the securing element 9 corresponds to the fuse element 9 shown in Fig. 2. However, the coil 7, which is made of a soft magnetic material 2 and a material with a high Barkhausen effect 3, portions are arranged a semi-hard or hard magnetic Deaktivatormaterials 6 on the part. In the saturated state, these sections 6 prevent a reaction of the soft magnetic material 2 or of the material with a high Barkhausen effect 3 to the query field in a correspondingly secured monitoring zone.

In the simplest case, the resonant circuit 1 is deactivated by applying a correspondingly high energy field. A discharge through the dielectric layer 4 occurs at any point between the two overlapping capacitor / coil regions ( 8 ; 7 ). As a result of this discharge through the dielectric layer 4 , the resonant circuit is short-circuited. In the case shown, the dielectric layer 4 consists, incidentally, of a film which is laminated onto at least one of the two coils 7 .

FIG. 4 shows the securing element 9 shown in FIG. 2 with a dielectric film 4 as an intermediate layer.

Reference list

1

Resonant circuit

2nd

soft magnetic material

3rd

Material with a high Barkhausen effect

4th

dielectric layer

5

Capacitor area

6

Section made of semi-hard or hard magnetic material

7

Kitchen sink

8th

capacitor

9

Securing element

10th

Carrier layer

Claims (9)

1. Securing element for the electronic article fuse, which is designed such that it is detected in at least two electronic monitoring systems based on different physical principles, characterized in that a resonant circuit ( 1 ) is provided which is at least partially made of a soft magnetic material ( 2nd ) with high permeability and low coercive force and / or consists of a material with a high Barkhausen effect ( 3 ). 2. Fuse element according to claim 1, characterized in that the resonant circuit ( 1 ) consists of two coils ( 7 ) which at least partially overlap, a dielectric layer ( 4 ) being arranged between the two coils ( 7 ). 3. Securing element according to claim 1, 2 or 3 characterized in that the resonant circuit consists of a coil (7) and a capacitor (8) having two at least partially overlapping formed capacitor surfaces (5), between the two capacitor surfaces (5), a dielectric Layer ( 4 ) is arranged. 4. Securing element according to claim 1, 2 or 3, characterized in that the soft magnetic material ( 2 ) is a Thinfilm material. 5. Securing element according to claim 1, characterized in that a deactivation for the resonant circuit ( 1 ) and / or the soft magnetic material ( 2 ) and or the material with a high Barkhausen effect ( 3 ) is provided. 6. Securing element according to claim 5, characterized in that the deactivation consists in detuning or destroying the resonant circuit ( 1 ). 7. Securing element according to claim 5 or 6, characterized in that with respect to the soft magnetic material ( 2 ) or the material with a high Barkhausen effect ( 3 ) Deactivation sections of a semi-hard or hard magnetic material ( 6 ) are arranged such that they are a reaction in the saturated state prevent the soft magnetic material ( 2 ) in a harmonic monitoring system or in a Barkhausen monitoring system. 8. Securing element according to claim 4, characterized in that on the soft magnetic Thinfilm material ( 2 ) as a deactivation material, a perforated film made of semi-hard or hard magnetic material, preferably made of nickel, is applied. 9. Fuse element according to claim 1, characterized in that the resonant circuit ( 1 ) is a circuit pattern produced in the etching process or in the stamping process.