NO123772B - - Google Patents

Description

System for checking audience boxes in banks.

The invention relates to a system for the control of particularly .. audience boxes in banks, which system is used in a notification system which, by means of a keyboard for entering box numbers and an electronic control unit, can be operated from a central location to open a box in a row of boxes and put its individual alarm device out of action, and where an alarm is given if a box is broken open or otherwise opened before the go-ahead signal has been given.

In connection with the control of safes, there are known systems with security devices that are affected by the box's mortise lock, as e.g. a switch is affected by the lock case. The purpose of the present invention, however, is to provide a system where the boxes are controlled independently of the shape of the lock and are not controlled by the function of the lock.

tion.

According to the invention, this is achieved by means of a control system which is characterized by the fact that it consists of two separate warning circuits for each box, where one circuit includes a switch device which is arranged on the lock side of the box as part of the row of boxes itself, and the second circuit includes individual contacts that are mounted on the hinge and/or lock side of each box door, and that the electronic control unit includes digit pulse generators that emit pulses corresponding to the value of the pressed key, decoders that count pulses from the digit pulse generators, logic gate circuits for each box for reception of the decoder signal, and a memory for each box, which memory, when activated by the associated gate circuit, disconnects the individual alarm transmitter(s) for the box in question.

With the system according to the invention it is not necessary

to grasp inside the lock itself, and this can therefore be of many different types and designs. furthermore, the box's mandrel is secured against unwanted unlocking and break-ins with other tools.

The invention will be described in more detail below with reference to the drawings, where fig. 1 is a block diagram of a notification system according to the invention for safe deposit boxes or the like, and fig. 2 is a sketch illustrating the plant's principle operation.

By that in fig. 1 plant shown, the bank boxes are arranged in vertical rows as shown. In this embodiment, the safety device in the one warning circuit consists of a central locking rail 1 which is mounted on the locking side of the box, but a common contact for each vertical row of boxes.

This common contact is made up of a microswitch which is mounted on the end of the rail. Movement only occurs when the breech is in the locked position, and you try to open the mandrel. The microswitch for the relevant locking rail is connected in series with corresponding switches in the other rows, and forms a continuous warning loop. On the hinge and/or lock side of each box, contacts in the form of micro switches or reed contacts 2 are mounted. These switches are controlled individually, and are mounted so that they can only be affected by the opening movement and/or locking movement of the mandrel. They can thus not be blocked from the outside.

The electronic unit for controlling the facility comprises an operating panel 3 with a small keyboard on the guard's or clerk's desk. This keyboard is used for entering the number corresponding to the box to be opened. The central unit 4 itself with control logic is completely transistorised and mounted in a flat cassette which is placed in the audience vault at the bottom of one of the boxes or separately. This results in a relatively small number of wire connections between the switchboard and the keyboard in the counter. The keyboard contains a number of keys that correspond to the number of boxes to be operated. 18 keys are thus required for 99 boxes, 27 keys for 999 boxes, etc.

In the keyboard shown in the figure, there are 18 keys which then cover 99 boxes.

Using the number keys, the numbers to be composed are coded. The number that has been composed is displayed on the Nixi-rudder and corresponds to the number of the box to be released. A key on the figure marked K must finally be pressed to effect the final release of the box.

A principle for the interconnection of the electronic units included in the system is shown in fig. 2. From the keyboard 5, connections go to digit pulse generators 6 and 7. There is one generator for ones1, one for tens, one for hundreds, etc. The generator outputs are connected to associated decoders 8 and 9, as there is one decoder for ones, one for tens, etc. Furthermore, there are logic circuits in the form of an AND gate for each box. The principle for the interconnection of the decoder outputs and the AND gates is indicated in fig. 2 and shall be explained in more detail below. The figure shows AND ports for boxes 2, 5, 25, 30, 90 and 92. Each AND port's output is connected to a memory M which in the triggered state simulates a signal corresponding to the alarm generators J for the relevant box in normal state. The memory for the relevant box provides a signal for simulating the normal state, even if the signal from the AND gate is removed. The memory is reset from the mandrel contact Dl first when the box is opened and then closed.

The cabinet row contact D2 in connection with the load rail in the relevant row is not disconnected and will always result in an alarm signal (vandalism alarm) when the contact position is changed. Finally, the control circuits comprise a so-called open button K which, when pressed, emits a signal to all the gate circuits as one always depends on this signal to open an AND gate. When the open button is released again, it provides a reset signal to the decoders.

The system's operation must be explained using a

example where the number 25 is thought to be entered on the keyboard. Down-

pressing the 20 key causes the digit pulse generator for tens to emit two pulses to the tier decoder which is thus set to position "20". Depressing the 5 key causes the ener generator to emit five pulses that set the ener decoder to position "5". The output from the tier decoder's position "20" is connected to an input on the AND gates belonging to the boxes with numbers from 20 to 29 inclusive.

The output from the ener decoder's position "5" is connected to an input

times the AND gates that belong to the boxes that have five ones in their number (5, 15, 25, 35, etc.). With this system, the AND gates then need three inputs to define a specific box up to

no. 99. In the example with box no. 25, only the AND gate which

belongs to box no. 25 have a signal" on two of the inputs and get the third when the open button K is pressed in. A signal is thus given to the corresponding memory which again functions as described above.

The Tier decoder's "0" position is connected to the one

input on ports 1 to 9, so that both inputs of these ports only receive a signal when the tier decoder is in the "0" position.

The alarm devices for the individual boxes and for the vertical ones

rows of boxes can be closing contacts or breaking contacts as desired, but the same for each system.

Claims (4)

1. System for checking special public boxes in banks, which system is used in a warning system that by means of a keyboard for entering box numbers and an electronic control unit can be operated from a central location to open a box within a box range and disable his individual alarm device, and where an alarm is given if a box is broken open or on another manner is opened before the go-ahead signal has been given, characterized by the fact that it consists of two separate warning circuits for each box, where one circuit includes a switch device which is arranged on the lock side of the box as part of the box row itself and where the other circuit includes individual contacts that are mounted on the hinge and/or lock side of each box door, and that the electronic control unit includes digit pulse generators that emit pulses corresponding to the value of the pressed key, decoders that count pulses from the digit pulse generators, logic gate circuits for each box for receiving the decoder signal and a memory for each box, which memory, when activated by the corresponding gate circuit, disconnects the individual alarm generator(s) for relevant box. 2. System according to claim 1, characterized in that the switch device in one warning circuit consists of a central locking rail which is mounted on the locking side of the box with a common contact for each vertical row of boxes. 3. System according to claim 1, characterized in that an open button is arranged which, when pressed, emits an open signal to all the gate circuits and then gives a reset pulse to the decoders. 4. System according to claim 1, characterized in that the "CT" position of the tier decoders is connected to an input on the ports belonging to the boxes with numbers 1 - 9, and that the "0" position of the 100 decoder is connected to an entrance on the gates belonging to the boxes with numbers 1G - 99, etc.