DE3527873A1 - Area protection against sabotage at an intrusion signalling centre - Google Patents

Abstract

The housing (1) exhibits a so-called drilling protection on the inside walls (2), which protection, when damaged or destroyed, results in the triggering of an alarm. It is formed by three layers (3, 4, 5) which are above one another and which alternately consist of conductive, non-conductive and conductive material. The two conductive layers (3, 5) each exhibit a connection contact (7) which is monitored for current continuity. The three layers (3, 4, 5) consist of enamel and can be applied to the inside walls (2) by painting, rolling or spraying. The two conductive layers (3, 5) can also consist of a metal coating. The insulating layer (4) can be formed by a micro-encapsulated enamel and a conductive fluid can be encapsulated in the insulating layer. <IMAGE>

Description

The invention relates to surface protection against Sabotage for an intrusion control panel with a housing, the so-called drill protection on the inner walls has an alarm in the event of injury or destruction causes.

In intrusion detection technology, multi-area control centers must be protected against sabotage as soon as a Area is armed externally. So far it was usual, the monitoring of the control panel housing via a Meander that is located on the inner surface of the Ge headquarters is located. The width is the Traces and the width between the traces largely determined, because of the regulations of the Association of property insurers must drill a hole with a Diameters of 2 mm can still be recognized and become one Report sabotage. The application of a meander foil on the inside of the central cabinet is difficult and very expensive, especially in the area of the corners.

Because an inside foil with meander is so difficult is to be processed, a reporting center with a Double housing used, with the drilling protection meander on was glued to the outside of the inner case. This leads to a larger volume of the central cabinets and also at a significant increase in price. Another possibility area protection against sabotage on on Breakage control panels were achieved in that around the  Central cabinet built around either a wooden cabinet or a kind of chamber was bricked up. These had to be done specifically be monitored for sabotage. These two solutions too are very complex and expensive.

It is therefore an object of the invention to provide surface protection to create against sabotage, which is relatively easy the inner walls of a housing of a control panel can be brought and safe area monitoring guaranteed against sabotage.

This object is achieved in that the drilling protection from three superimposed layers is formed, the alternating between conductive, non-conductive and conductive Material exist, and that both conductive layers each have a connection contact and on continuity are monitored.

Such three layers can be found on the inner walls of a housing of a signaling center, if expediently the three layers consist of lacquer. The individual layers of paint can be painted, Rollers or syringes applied to the inner walls the. For a clean edge insulation of the inner lacquer layer The paint is to ensure the outer edge of the housing limit to the edge of the case at a certain distance brings. The distance between this edge insulation is according to the required hole diameter for a si Protection against drilling, for example 2 mm. This edge insulation tion is sufficient so that when the inner conductive layer on the edge no connection to outer conductive layer can arise.

In a further embodiment of the invention, the two conductive layers also from a metal coating, for example, nickel or copper.  

An advantageous development of the invention is in given a metal housing of the control panel in that the outer conductive layer from the metal housing itself forms is. The measuring current of is expedient to decouple the central voltage, since in general the metal housing is at ground potential. In this way can have no disturbing influences on the measuring current for the Monitoring of area protection occur.

Becomes an art for the housing wall of the alarm center Fabric used, the Iso can advantageously layer made of a microencapsulated lacquer be that encapsulates a conductive liquid in the Has insulating layer. This has the advantage that when Use heat to destroy the capsules burst by the vapor pressure and therefore a connection arises between the two conductive layers. At the Piercing naturally also has this effect. The Insulating layer of microencapsulated paint can also be used Metal housings are used.

The surface protection is made up of three thin layers of lacquer det, so they can possibly arise during manufacture stepping fine bridges between the two conductive Layers by applying a current accordingly Starch burned out.

In a convenient and simple manner, the An final contacts of a, for example self-adhesive, Copper foil be formed with the conductive layer is electrically connected.

The invention is briefly explained on the basis of the drawing, in which FIGS. 1 and 2 show the drilling protection according to the invention.

In Fig. 1, the drilling protection is applied in the form of three layers on the inside 2 of the housing 1 of a signaling center. The outer, directly adjacent to the housing 1 conductive layer 3 is covered by the insulating layer 4 . There is the third layer, the inner conductive layer 5 , which is at a distance a from the outer edge 6 of the housing 1 . In Fig. 1 it is also shown how the penetration of the drill 8 connects the two conductive layers 3 and 5 , so that a current I can flow, which leads to tampering as a measuring or monitoring current for surface protection. As he explained, the three layers can be made of lacquer, the conductive layers 3 and 5 can be formed from a metal coating and it can be the insulating layer 4 , in particular when using a housing 1 made of plastic, from a microencapsulated lacquer containing a conductive liquid, e.g. B. salt water, encapsulated.

In Fig. 2 a section of a housing 1 with which he inventive drilling protection is shown. The three layers 3 , 4 and 5 are shown in the manner already explained. Furthermore, the connection contacts 7 are shown, which may be made of a self-adhesive copper foil for example. The connection point 7 for the outer conductive layer 3 is applied directly to the inside of the housing 1 , then the conductive layer 3 is applied to the housing inner wall 1 with a cutout for the connection point 7 , on the outer conduct the layer 3 is the insulating one Layer 4 applied, which also ensures free access to the copper foil in the area of the connection point 7 . On the insulating layer 4 , the second connection contact 7 , for example with the self-adhesive copper foil, is introduced. The inner conductive layer 5 is applied to the insulating layer 4 and also has a recess in the region of the second connection point 7 so that the connection contacts 7 can be contacted from the outside.

Claims (8)

1. Area protection against sabotage at a burglar alarm central with a housing ( 1 ), which has a so-called drill protection on the inner walls ( 2 ), which causes an alarm in the event of injury or destruction, characterized in that the drill protection of three layers one above the other ( 3rd , 4 , 5 ) is formed, which alternately consist of conductive, non-conductive and conductive material and that both conductive layers ( 3 , 5 ) each have a connection contact ( 7 ) and are monitored for current continuity. 2. Area protection according to claim 1, characterized in that the three layers ( 3 , 4 , 5 ) consist of paint. 3. Surface protection according to claim 1, characterized in that the two conductive layers ( 3 , 5 ) consist of a metal coating. 4. Surface protection according to claim 1, characterized in that in a housing ( 1 ) made of metal, the outer conductive layer of the metal housing is formed, the measuring current (i) being decoupled from the central voltage. 5. Surface protection according to claim 1, characterized in that the insulating layer ( 4 ) is formed by a microencapsulated lacquer, a conductive liquid being encapsulated in the insulating layer. 6. surface protection according to claim 2, characterized in that the three layers of paint ( 3 , 4 , 5 ) by brushing, rolling or spraying on the inner walls ( 2 ) are applied, the inner conductive layer ( 5 ) to the outer edge ( 6th ) of the housing ( 1 ) has a certain distance (a) which corresponds to the hole diameter for a required drilling protection. 7. surface protection according to claim 6, characterized in that during the production possibly occurring fine bridges between the two lei tend layers ( 3 , 5 ) can be burned out with an applied current of high strength. 8. Surface protection according to one of the preceding claims, characterized in that the on contacts ( 7 ) are formed by a copper foil, each of which is electrically connected to the conductive layer ( 3 , 5 ).