AT414178B - METHOD AND DEVICE FOR MARKING DISTANCE LIMITS - Google Patents

Description

2

AT 414 178 B

The invention relates to a method for securing valuables against theft or loss or for marking range limits by a system consisting of at least 2 spatially separated electronic components which are coupled to each other via a wireless connection, and at least one special mechanical, electrical or electronic key for activating and deactivating the components, wherein the components to maintain the connection using similar transmitters and receivers and the connection is made with a coordinated process and this transmission and reception method, a distance measurement between the components is carried out when exceeding or falling short of preset Distance limits io a signaling is triggered by each component.

Furthermore, the invention relates to a device for carrying out the method.

There are numerous known methods that similarly deal with the problem of thief-steel security or child monitoring, and which consist of two or more mutually remote assemblies that trigger alarms over the air when distances between the assemblies increase grow up. The signal transmission is often coded to avoid mutual interference. The alarm can be done in only one or even several of these units. To activate and deactivate these 20 devices or the alarms, switches or keys are used. With these keys, individual devices are switched on or off or individual alarms are turned off. An application in which the key can activate or deactivate a security system by inter-module switching, in conjunction with the fact that the key only functions for a security system, is not known. None of the known methods and devices 25 meets all requirements for a mobile security of valuables in such a simple manner as the proposed method.

The task for the described method is determined by the requirements for securing valuables against loss or theft. The following criteria must be met: 1. In the event of loss or theft, an alarm must be triggered. 2. One must be able to determine where the lost or stolen object is. 35 So a signal to locate the stolen object is necessary. 3. A thief must not be able to stop the alarm or signal to locate. 4. There must be a possibility for the owner to immediately stop the alarm upon detection of the theft. 5. The locating signal must not disappear when the alarm is turned off, it must remain activated until the stolen object is once again in the possession of the owner. 45 6. Only the owner can turn off the locating signal. As a result, a proof of ownership is possible. 7. In the case of mobile security systems, it is necessary to ensure that no part of the system that is required for such purposes as securing, activating the system and deactivating the system, the

Alarms or the locating signal is necessary, forget or lose. 8. To protect the batteries, it is advantageous to be able to switch off the safety system when it is not needed. 55 3

AT 414 178 B

The objects are achieved in that a first component is deactivated by inserting a key and a second component is activated by inserting the same key for the first component. A device for securing valuables against theft or loss or for marking distance limits results according to claim 3.

The advantages of the solution are that all listed requirements are met. This is done by applying the key. The connection of the first component with the special key deactivates this component and activates it again by removing the key. You can not disable this component with another key. The second component becomes active through the connection with the key for the first component. Therefore, when the key is connected to the second component, both components are active. 15

The electronic components, the collaborations, constitute a security system. To secure an item, the first electronic component, which is activated by removing the key, is connected to this item to be secured. This object to be secured can, for. B. be a wallet. This electronic component is also called fuse unit SE. The second electronic component, which is activated with the key for the first one, is called central unit ZE. The central unit with the key is kept in a safe place, e.g. under the clothes directly on the body. The requirement 1 and 2 is already fulfilled by the structure of the electronic components 25 (transmitter, receiver, distance measuring device, signaling device) according to the prior art. When the distance limit is exceeded and the system is activated with a key on the central unit, an alarm and a locating signal are triggered. 30 * to requirement 3. The fuse unit and the central unit can only be activated or deactivated with the key. The key is located on the central unit, which is kept in a safe place and to which the thief has no access. Therefore, he can not turn off the alarm and the signal to locate. The owner may, by removing the key from the central unit, stop the alarm immediately, the central unit will stop transmitting the signal and the detection signal will remain until the stolen object is again in the possession of the owner and he disables the backup device with the key. 40 e to requirement 6. By the special key only the owner is able to turn off the signal for locating. • Requirement 7. When the system is activated, you can not lose any of the 3 components of the fuse unit, central unit or key individually without being alerted to it by a signal. If you lose the fuse unit, alarm and locating signal arise. If you lose the central unit with key, the locating signal remains as an alarm replacement and the alarm signal as a locating signal. If you only lose the key, the backup unit sends out the location signal because the central unit is deactivated, but the security unit remains active. 50 • Requirement 8. When the key is connected to the fuse unit, the system is disabled and the batteries are spared.

The invention will be explained in more detail with reference to an embodiment. 55 4

AT 414 178 B

Fig. 1 shows the elements of which the fuse unit SE and central unit ZE are composed, and how fuse unit SE and central unit ZE cooperate

Fig. 2 shows a key activated system 5 Fig. 3 shows a system deactivated by the key

Fig. 1 shows the basic operation of a security system with 2 equal units ZE, SE, wherein the function of the key is not discussed. Each assembly ZE, SE consists of a transmitter 1, a receiver 2, a removal measuring device 3 io with a threshold value switch and a signaling device 4, which is switched on or off by a threshold value switch of 3. The transmitter 1 of unit SE emits a signal which is received by the receiver 2 of unit ZE. Likewise, the transmitter 1 of unit ZE sends out a signal which is received by receiver 2 of the unit SE. These wireless connections are indicated by the dashed lines between the two units ZE, SE. In both units ZE, SE, the relative distance is monitored by the distance measuring device 3 and the threshold switches when exceeding the preset distance threshold in both units ZE, SE, the signaling device 4 on or off, the signaling optically, mechanically, acoustically or by switching another Transmitter can be done with a longer range. 20

It is advantageous to provide the threshold value switch of FIG. 3 with a hysteresis, so that exactly at the distance limit there is no permanent switching on and off of the signaling. 25 The following transmission methods are suitable for connecting the units: ° transmission with sound, preferably ultrasound. The transmitting device is a signal generator and an ultrasonic generator, the receiving device is an ultrasonic microphone with amplifier. It is particularly advantageous if the ultrasound transmitter can also be used simultaneously as an ultramicrophone, and the two functions can be utilized alternately. ° Transmission with alternating magnetic fields. The transmitting device is a signal generator which actuates electromagnetic dipoles which generate a magnetic alternating or rotary field 35; the receiving device is a detector for alternating magnetic fields, preferably an inductive signal receiver with a subsequent amplifier. It is particularly advantageous if the electromagnetic dipoles of the transmitter can also be used simultaneously as inductive signal receivers of the receiving device, and the two functions can be utilized alternately. 40 ° transmission with radio. The transmitting device is a signal generator and a radio antenna, the receiving device is a receiving antenna and a subsequent amplifier for these radio signals. It is particularly advantageous if the radio antenna can also be used simultaneously as a receiving antenna and the two functions are used alternately.

To determine the distance with the distance measuring device 3, the following methods are suitable: Thus, a first possibility is the transit time measurement. This z. Example of a unit emitted a pulse that is received by a second unit. After the end of this pulse, the second unit immediately sends out a pulse which is received by the first unit. From the time interval between the end of the first pulse and the receipt of the pulse from the second assembly, the distance 55 of the second assembly from the first can be calculated.

Claims (3)

5 AT 414 178 B • A second possibility is to measure the received signal field strength, which decreases with the distance and makes it possible to deduce the distance if the transmission field strength is known. ® Another option is to measure the signal phase, which changes with distance. The cited methods and devices can be designed according to the state of the art. Particularly advantageous combinations are ultrasound transmission with transit time measurement (since the speed of sound is relatively small) and transmission with low-frequency magnetic field alternation with field strength measurement (since the magnetic field strength decreases very sharply with increasing distance in the near field) and radio transmissions with phase measurement. FIG. 2 illustrates a security system activated by an additional key 5. In the security unit SE, the key is removed, thereby activating it. In the central unit ZE the key 5 is inserted, thereby it is activated for the fuse unit SE. The key 5 can be realized mechanically, electrically or electronically. A mechanical key activates switches, an electrical key applies special potentials to electrical contacts and an electronic key transmits an electronic code. The use of the method for securing valuables against loss or pickpocketing is done as follows: To secure z. B. a wallet is advantageously the security unit SE in the form of a coin or a bank card, which is inserted into the wallet and where possible attached. The central unit ZE is normally worn on the body, e.g. in an inside pocket of clothes. If now the wallet is lost or stolen, both units ZE, SE emit an alarm when the preset distance limit is exceeded. The alarm of the body worn central unit ZE the owner of the wallet on the loss or theft attentive, by an audible signal of the security unit SE in the wallet, the position of the wallet can be located. Fig. 3 illustrates the case of the parked security system. The security unit SE is deactivated by the key 5 and the central unit ZE is also deactivated by the missing key 5 for the security unit SE. Claims 1. A method of securing valuables against theft or loss or for marking range limits by a system comprising at least 2 spatially separated electronic components coupled together via a wireless connection and at least one specific mechanical, electrical or electronic key for activating and deactivating the components, wherein the components to maintain the connection using similar transmitters and receivers and the connection is made with a coordinated process and this transmission and reception method, a distance measurement between the components is carried out when exceeding or falling short of preset Range limits signaling is triggered by each component, characterized in that a first component (SE) by inserting a key (5) is deactivated and a second component (ZE) is activated by stretching the same key (5) for the first component (SE). 2. The method according to claim 1, characterized in that for the connection of the components of the system 6 coded signals are used, which are specific to the system. A device for securing valuables against theft or loss or for marking distance limits according to a method according to claim 1 or 2 by a system of at least 2 spatially separated components, which are designed as units and which are coupled to each other via a wireless connection, and at least one key for activating and deactivating the units, these units each having a transmitter and a receiver and a device for distance measurement and a signaling device and the special mechanical, electrical or electronic key is also designed as a unit, characterized in that a first unit (SE) by inserting a key (5) can be deactivated and a second unit (ZE) by plugging the same key (5) for the first unit (SE) can be activated. 15 For 1 BSatt Drawings 20 25 30 35 40 45 50 55