RU2332720C2 - Object loss alarm system - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: invention can be applied by owners of various everyday objects (purses, cellular phones, bunches of keys, wallets, umbrellas etc) for the control of their presence in immediate proximity with the owner and loss alarm systems. Object of control (1) contains the first transmitter capsule (2). In safety zone (13) there is the second transmitter capsule (14) permanently provided of different working frequency. The owner (3) constantly carries the device including input amplifier (4), selective cascades (5, 7), detectors (6, 8), the shaper (9), switched reference voltage control unit (10), comparator (11) and signal-inducing device (12).

EFFECT: increased reliability of object protection and extended system functionality due to eliminated necessity of full system shutdown and automatically increased operation radius of alarm system within safe zone.

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Description

The invention relates to the field of alarm and control systems and can be used by owners of various household items (wallets, cell phones, keychains, wallets, umbrellas, etc.) to control their presence in close proximity to the owner and to signal about their loss. Similarly, the invention can be used to control the location of children, pets, bicycles, cars, etc.

There has long been a problem of preventing the loss of various objects (due, for example, to the owner's forgetfulness or theft). The owner usually wants to be constantly informed about whether the controlled object is in the vicinity of it and if it is missing for any reason. Or, if the disappearance of the object (removal from the owner) still happened, it is advisable to somehow stop its movement or make it impossible to use it by outsiders or intruders.

The most effective solutions to this problem are associated with the use of modern radio equipment. As a rule, such means include at least one transmitter and one receiver equipped with a threshold device (comparator) and a signal-actuating device, one of these devices (transmitter or receiver) being located at the site, and the other is at the owner's place. When the receiver and the transmitter are removed from each other, the amplitude of the signal received by the receiver decreases, and as soon as it becomes less than the set threshold, the signal-actuating device (which can be, for example, an audible warning device or some kind of brake or blocking device) is triggered.

Known alarm and security systems for this purpose are distinguished by their functionality, reliability and, accordingly, cost.

In the system [US Patent No. 4260982, publ. April 7, 1981], designed to prevent the loss or theft of luggage and other items, a transmitter is built into the controlled object, and the owner has a receiver whose sensitivity threshold corresponds to a certain radius of the system. As soon as the object with the transmitter moves away from the receiver outside the coverage area, the signal at the output of the receiver disappears, which triggers an alarm. To increase reliability, the system uses a pulse-code modulation of the transmitter signal with the appropriate setting for this receiver code. This system is a system solely for signaling the fact of loss, that is, it lacks the ability to continuously monitor the location of an object. Another disadvantage of the system is that when you are in a security zone (for example, in your own home), where relatively large distances between the receiver and the transmitter are acceptable, the owner can turn off the receiver to avoid a constant alarm, and there is absolutely no guarantee that he will not forget to turn it on when leaving this zone.

In another example of such systems [US Patent No. 5349329, publ. September 20, 1994] a pair of "transmitter-receiver" is used to prevent car theft. Here, unlike the previous system, the transmitter is located at the owner (driver), and the receiver with signaling and blocking devices is in the car. In the event of theft or robbery, when the driver is at a sufficiently large distance from the car, a siren and blocking devices are triggered (interrupting, for example, the operation of ignition or fuel supply systems). To ensure that the actuators of the system do not work when the distance between the driver and the car is large, but nothing threatens the car, nodes are included in the system that include actuators only if there is an additional condition, for example, opening the door. This system is also not equipped with tools to estimate the distance between the receiver and the emitter.

There are security radio systems in which the functions of signaling about exceeding a predetermined distance to the object and continuous indication of this distance are combined, which, with a slight increase in price, makes such systems much more universal.

The system closest to the proposed technical essence is the system [US Patent No. 4785291, publ. November 15, 1988], which includes a micro-transmitter attached to the monitored object, and a receiver worn by the owner of the object, with the output of which the comparator is electrically connected to the reference voltage adjuster and a signal-indicating device. The output of the receiver is connected to the information analog input of the signal-indicating device and to the first input of the comparator, the second input of which is connected to the reference voltage regulator. The output of the comparator is connected to the input enable alarm signaling-indicating device. As long as the object is inside the area limited by the threshold of the comparator, a low logic level is fed to the alarm input of the signal-indicating device. When the object is removed at a distance at which the voltage at the output of the receiver falls below a certain threshold determined by the reference voltage setter, a high logic level appears on the output of the comparator, including an alarm. In this case, the voltage coming from the receiver output to the information analog input of the signal-indicating device, which is a function of distance, is converted into various types of indicating actions: sound (a sequence of sound pulses with a repetition rate proportional to distance) and light (in the form of a linear LED matrix). Thus, this system allows not only to generate an alarm when an object is lost from the near zone, but also to approximately evaluate the dynamics of its removal, and if necessary, even search for it. However, this system, like all similar systems, is not free from the drawback indicated in the description of the first system, namely: during continuous operation of the system, when in some cases (when in a safe place) the owner turns it off to prevent unnecessary alarm operation, it is great the likelihood that the owner will forget to turn it on when leaving the safe area.

The problem solved in this invention is to increase the security of the facility and expand the functionality of the system due to a slight complication of the structure, the purpose of which is to eliminate the need to completely shut down the system and automatically increase the radius of the alarm when in the safe zone.

The problem is solved in that in a known system that includes a micro-transmitter attached to a controlled object and a receiver worn by the owner of the object, the output of which is the information analog input of the signal-indicating device and the first input of the comparator, the second input of which is connected to the reference voltage regulator, and output - with an alarm enable input of a signal-indicating device, in contrast to the prototype system, a second micro-transmitter located in a safe zone with operating frequency different from the frequency of the first, and the receiver contains an input amplifier, the output of which is connected to the first selective cascade and the first detector in series, as well as to the second selective stage, the second detector and driver, the output of the first detector is connected to the first input of the comparator and information analog input of the signal-indicating device, the reference voltage regulator is made in the form of a source with two switchable reference voltages, and the control input q setter connected to the output of the shaper.

The proposed system is depicted in figure 1. The first micro-transmitter 2 is located at the monitoring object 1. The owner 3 constantly carries with him a device including an input amplifier 4, the output of which is connected to the first selective cascade 5 and the first detector 6, as well as the second selective cascade 7, the second detector 8 and driver 9. The output of the first detector 6 is connected to the first input of the comparator 11 and the information analog input of the signal-indicating device 12. The reference voltage regulator 10 is made in the form of a source with two switchable reference voltages U ₁ and U ₂ (U ₁ > U ₂ ), its control input is connected to the output of the driver 9, and the output to the second input of the comparator 11. The output of the comparator 11 is connected to the alarm input of the signal-indicating device 12 . In the security zone 13 is permanently located the second micro-transmitter 14.

The first and second micro-transmitters 2 and 14 have different operating frequencies. Accordingly, selective cascades 5 and 7 are tuned to these frequencies.

The system operates as follows.

Micro transmitter 2 emits radio waves at a specific frequency. If the object 1 is located next to the owner 3, then the amplitude of the high-frequency signals received by the input amplifier 4 is large enough, they pass through the selective frequency filter of the cascade 5 and are detected by the detector 6, resulting in a constant signal, the level of which is a function of the distance between the object 1 and the owner 3. This signal is applied to the first input of the comparator 11. If the owner 3 with the object 1 are outside safe zone 13, that is, far from the micro-transmitter 14, then the received by amplifier 4 are weak (or practical Ski missing) signals of the transmitter, the last stage selective detector 7 and 8, do not cause the output of digital signal shaper 9 occurrence of logical units, so the switching voltage setting unit 10 generates a voltage U ₁ (U _1> U _2). Thus, a reference voltage U _{1 is} applied to the second input of the comparator 11, and a constant signal from the detector 6 is applied to the first. The comparator 11 is constructed so that if the voltage at the first input is higher than at the second, then a logical zero is generated at the output. It is such a logical zero that is applied to the alarm enable input of the signal-indicating device 12. Therefore, the latter does not generate any alarm signals. At the same time, a constant signal from the detector 6, which is a function of the distance between the object 1 and the owner 3, is fed to the analog information input of the signal-indicating device 12 and affects the parameters of the visual (and, optionally, sound) indication of the distance to the object.

If object 1 moves away from owner 3, then at a certain moment, when the specified distance (by setting U ₁ ) is reached, the voltage at the output of detector 6 will drop below U ₁ , and at the output of comparator 11 a logical unit will be set up that will trigger an alarming sound and visual signal generated device 12. The sound signal is a sequence of sound pulses with a repetition rate proportional to the distance to the object. Therefore, with further removal of the object, the frequency increases, which can be used not only for monitoring, but also for searching for the object.

If the owner 3 is in the safe zone 13, where the micro-transmitter 14 is installed, the signals of the latter cause a logical unit to appear at the output of the former 9, which switches the reference voltage from U ₁ to U ₂ . This lowers the threshold of the comparator 11, and therefore increases the critical distance between the object and the owner, corresponding to the alarm, which allows you to more freely place the object, without worrying about the possible alarm. At the same time, the system continues to work, and if the owner 3 leaves zone 13, forgetting object 1, then at a certain distance the signal of transmitter 14 will weaken, voltage U ₁ will again become a reference, the alarm will sound, reminding about the object.

Thus, by eliminating the need to completely turn off the system and automatically increase the radius of the alarm when in the safe zone, higher system reliability and expansion of its functionality are achieved. At the same time, the complexity of the structure of the system and its cost increase slightly.

The system is implemented on the basis of well-known, cheap and affordable electronic components. The authors proceeded from the fact that its value should not exceed the value of controlled objects.

Transmitters 2, 14 and many receiver nodes (4-8) can be implemented on the basis of ready-made micromodules mass produced by industry in many countries of the world. Example: Telecontrolli (Italy) manufactures micropower radio transmitting modules and corresponding receiving modules with dimensions of the order of 10 × 30 mm, designed to operate in the allowed bands 315, 418, 433, 868 MHz [Information in Russian is available on the website www.gaw .ru / telecontrolli]. Shaper 9 is easily implemented, for example, on the basis of Schmitt trigger - a specialized chip K561TL1. The switchable reference voltage switch 10 can be implemented on the basis of a stabilized voltage source and a resistive divider, in which one of the arms consists of two resistors that are switched in parallel using an electronic switch. One or two resistors of this divider can be trimmed so that it is possible to adjust the reference voltages (comparator response levels) and thereby configure critical distances to the object. The comparator 11 can be implemented on the basis of a specialized integrated circuit or an operational amplifier [Aleksenko AG, Kolombet EA, Starodub G.I. The use of precision analog microcircuits. - ed. 2nd. - M .: Radio and communications, 1985. - S.150].

The signal-indicating device 12 can also be made on the basis of components and elements well known in electronics. An example implementation is shown in figure 2. The numbers on the diagram indicate: 15 - resistor, 16 - capacitor, 17 - electronic key, 18 - comparator, 19 - short-pulse shaper (single-shot), 20 - sound frequency pulse generator, 21 - logical I circuit, 22 - sound emitter, 23 - low-pass filter (low-pass filter), 24 - visual indicator.

The meaning of the functioning of this device is that, if there is a logical unit at the input #, it generates sound pulses with a repetition rate proportional to the voltage at the input Λ. This voltage through the resistor 15 charges the capacitor 16, and the charge to the level of the threshold voltage U ₀ goes the faster, the higher the input voltage. As soon as the voltage across the capacitor is equal to the voltage U ₀ set at the second input of the comparator 18, a transfer to the state of the logical unit will occur at the output of the comparator. This front starts a single vibrator 19, generating pulses of standard duration (of the order of 0.5 s), which are fed to circuit I 21 and close the key 17, which leads to a fast discharge of the capacitor 16, and the process repeats. Thus, the pulse repetition rate at the output will be the higher, the higher the input voltage Λ. At the output of the And 21 circuit, packs of sound frequency pulses are formed only if there is a logical unit at input #. The pulse sequence from the output of the single-shot 19 in any case also goes to the low-pass filter 23, which emits a constant component of the signal, and then to the visual indicator 24, for which, for example, a microammeter can be used.

The inventive system has the following advantages:

- higher reliability (by eliminating the need to completely shut down the system even within the safe zone) and enhanced functionality, namely: automatically increasing the radius of the alarm when in the safe zone;

- low cost;

- low power consumption;

- small weight and dimensions;

- the relative simplicity of manufacturing and debugging;

- the system allows not only to generate an alarm when an object is lost from the near zone, but also to approximately evaluate the dynamics of its removal, and if necessary, to search for it, focusing on the sound and visual information of the signal-indicating device.

Claims (1)

An object loss alarm system, which includes a micro-transmitter attached to the controlled object and a receiver worn by the object owner, the output of which is the information analog input of the signal-indicating device and the first input of the comparator, the second input of which is connected to the reference voltage regulator, and the output is connected to an alarm enable input of a signal-indicating device, characterized in that a second micro-transmitter operating in a safe zone is additionally introduced into the system whose frequency is different from the frequency of the first one, and the receiver contains an input amplifier, the output of which is connected to the first selective stage and the first detector in series, as well as to the second selective stage, the second detector and driver, the output of the first detector is connected to the first input of the comparator and information analog input of the signal-indicating device, the reference voltage regulator is made in the form of a source with two switchable reference voltages, and the control input for The sensors connected to the output driver.

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