PL20554B1 - Device for securing vaults and other rooms against burglary. - Google Patents

Description

The subject of the invention is a device consisting of a network, braided with a special cable with a braid made of insulated metal wires, incorporated into a system of a resistance bridge and used to protect vaults and other rooms from unauthorized persons from entering a secured interior. Previously known devices for securing vaults with the help of a network of wires used a single-core cable or a multi-core cable, in which the wires ran in parallel and were not mechanically connected with each other, so after removing the outer layer of insulation, it was possible to split the wire over the whole length and each vein separately pervert. The same could be done even more easily in a net made with a monocylline. Apart from the same method of constructing the network by arranging wires or cables in parallel, it was possible to pass through the network without disturbing the wires or cables of the network, because after removing the covering material layer in a suitable space, the wires could be separated and The above-mentioned disadvantages are removed by a device for securing vaults, the network of which is made of a braided wire of insulated metal wires. This cable is multi-vinyl, with a coarse -. - part of the wire forming a braid in which the other wires are located. This cable is used to intertwine a network with thick eyes, surrounding a secure vault on all sides (Fig. 1). The individual wires of the cable are connected to the resistance bridge system, forming a control and alarm device (switchboard). Getting to the facility secured by the network without cutting it is impossible, because the meshes of the network cannot be widened by that much, and bypassing the veins will trigger an alarm. In electrical devices protecting against burglary, it is necessary, in addition to the proper securing of the facility, to use such a system of connections that prevented the equipment from being rendered harmless without triggering an alarm. In order to achieve the above condition, it is necessary that all measurements, which show the resistance of individual circuits in view, be impossible or so difficult that they practically do not yield any distortions. This goal is achieved by using two or more parallel circuits for each part of the device, located outside the control unit, where the circuits belonging to one part of the device have resistances selected so that the currents flowing in these circuits have the same current. The connection of the network to the central unit is based on this principle. The network has two or more parallel circuits of equal current intensity. In order to carry out measurements of such a network, it is difficult to isolate individual circuits, because 1) the current intensity in the circuits are the same, 2) in the case of finding the beginning of one circuit, e.g. with three parallel circuits, finding the end of this circuit is difficult because there are three points of equal properties, each of which may belong as well to the circuit sought as well as to the other circuits. 1 shows the intertwined network. Fig. 2 shows the structure of a braided cable. Fig. 3 shows one way of incorporating the wires that make up the network into a resistive bridge. The individual strands of the braid are connected to the terminals marked with the letter a, while the internal conductors, which make up the core of the cable, are connected to the terminals marked with the letter c; The transmitters, connected in series with the individual strands of the braid, are marked with the letter p. The internal conductors, forming the core of the cable, are connected in series - in parallel, so that the intensity of the current flowing through them was equal to the intensity of the current flowing through the wires braid. It is not necessary for the veins of the braid to form separate branches from the core veins; it is also possible to connect the wires to individual branches at will, but in the latter case all branches must contain p relays. In the event of a short circuit between the braid wires, at least one of the p relays is short-circuited, as a result of which its anchor drops off and activates the appropriate alarm device Besides, in the event of a change in the total resistance of the network, a galvanometric relay g is activated, which, either directly or via other relays, switches on the appropriate alarm device. By switching on the beam wire, as in Fig. 3, three parallel branches are obtained, two of which contain p-relay connected in series with the wires of the braid. Such a connection of the wires of the cable into parallel circuits makes it impossible to bypass the entire network by replacing it with one equilibrium resistance, making it necessary to bypass each wire separately. When shunting each conductor separately, it is difficult to find the end of a given conductor among several ends of the veins, which have the same potential. - 2 - PL

Claims (2)

Patent claims. are included in the thrust bridge system in such a way that they form two or more equations 1., Device for securing treasury branches in which the wires and other rooms were connected against burglary, in series alternating with the transmitters containing the network, made from a multi (p) cable. venous, connected to the o-bridge system. 1, herbaceous, characterized by the fact that part of the veins is stony, that the wires forming the network, the beam form a braid, in which they are braided in a way that is visible on the rest. Fig. 1. 2. Device according to claim 1, it is significant that the individual wires are wired Boleslaw Janiszewski. t) ruk L. Boguslawski and Skir Warszawa. PL