EP3023731A1 - Irritation device for administration of optical and acoustic irritation signals in the form of short-term light and sound pulses - Google Patents

Abstract

Irritation device for administering optical and acoustic irritation signals in the form of short-term light and sound pulses, comprising a plurality of signaling devices (1), each of which at least one light source (5) and at least one sound generator (21), a transmitting and receiving device (19, 20) for wireless communication, as well as a programmable control device (16) controlling the operation of the signaling device (1), wherein the control devices (16) communicate with each other and / or with at least one higher-level control device via the respective transmitting and receiving devices (18, 19, 20) to synchronize the operation of the signaling devices (1).

Description

The invention relates to an irritation device for the administration of optical and acoustic irritation signals in the form of short-term light and sound pulses.

For the irritation of persons so-called shock or stun grenades are sometimes used, which lead by acoustic or optical pulses of high intensity to a brief irritation. A shock grenade, which is usually spent by hand, so thrown, generated via a corresponding sound generator an extremely loud tone, which leads to a temporary deafness of the person to be irritated. Flashbangs create an extremely bright, intense flash of light on a pyrotechnic basis, which leads to a temporary glare of the person. The intensity of the emitted sound or light pulses is very high to ensure that the irritation begins in a sufficient area around the shock or stun grenade. If the person is now at a relatively short distance from the shock or stun grenade, then the intensity of the given sound or light pulse sometimes exceeds the pain threshold, the maximum tolerable exposure value can be exceeded, so that this can lead to lasting health impairments. This is by no means desirable, but the aim of an irritation is always only the short-term impairment of the person's ability to act.

The invention is therefore based on the problem of creating a possibility of irritation, which is improved in contrast.

To solve this problem according to the invention an irritation device for the administration of optical and acoustic irritation signals in the form of short-term light and sound pulses provided, comprising a plurality of signaling devices, each of which comprises at least one light source and at least one sound generator, a transmitting and receiving device for wireless communication, and a programmable control device controlling the operation of the signaling device, wherein the control devices with each other and / or at least one higher-level control device communicate via the respective transmitting and receiving devices for synchronizing the operation of the signaling devices.

The communication device according to the invention comprises a plurality of separate signaling devices which each serve for the administration of an acoustic and an optical irritation pulse. This makes it possible to combine both types of irritation pulse, thus irritating a person acoustically as well as visually. The combination of these two types of irritation results in a combined stimulation of different sensory areas, namely optically and acoustically, whereby the resulting irritation effect is intensified or even made possible in a comprehensive manner. In particular, the required exposure levels of the individual irritants can be reduced by this combination, that is to say that the light pulse and the sound pulse can each be slightly lower in terms of intensity, but nevertheless produce the desired irritation in combination. By reducing the intensity, it is thus possible to reduce or avoid as far as possible an unintended health hazard to the exposed person. Also, this can sometimes increase the effective range of the overall system, since the perceptibility of a light pulse is sometimes different than that of a sound pulse. While a light pulse may be impaired in its irritating effect, for example because the person stands behind a covering obstacle, the sound pulse is heard. It is also not possible with unprotected exposure to protect against both irritation effects. Because either an attempt is made to avoid glare by covering the eyes, or an attempt is made to manually cover the ears. However, one of the two sensory organs to be irritated is always accessible, so that the irritation can occur.

According to the invention, the irritation device comprises a plurality of such signaling devices which communicate with each other via a corresponding communication device with a transmitting or receiving device or with a superordinate control device, that is to say a type of remote control device. This communication is used to synchronize the operation of the Signaling devices. This means that the light and sound source can be positioned on the one hand spatially distributed, on the other hand they are tuned to each other during operation by the synchronization. As a result, the optical or acoustic signal generators, that is to say the luminous means or sound generators, can produce a pulse pattern which is coordinated in direction, phase and amplitude and which specifically acts against a certain spatial area in which the one or more persons irritate themselves are, stop. The generated pulse or signal pattern can be defined in advance, that is, the individual pulses of the individual signaling devices are given in a defined time sequence, or in a defined distribution, etc. It is also conceivable, if necessary, to react situationally or after a optional, ie statistical or random-based activation patterns.

A further advantage is that they are electronically controlled signaling devices which, unlike, in particular, stun grenades, are ultimately reusable and, in particular, are capable of delivering a plurality of corresponding pulses, in this case, in particular, a plurality of light pulses. Moreover, the operation of the signaling devices does not produce any waste, respectively, resulting from a pyrotechnic effect, sometimes harmful reaction products, etc.

As the signaling devices synchronize with each other or can coordinate with each other, it is equally possible to control the operation via an external control device in the manner of a remote control respectively to program, so controlled from an appropriate distance, taking into account and analyze the given situation, the optimal, coordinated signaling can be.

The signaling devices are mainly spent by hand, so thrown or interpreted. In principle, it is also conceivable to throw them off, be it from a vehicle, be it from the air, or to shoot. Even installation on a mobile or flying platform (e.g., vehicle, UAV, etc.) or fixed installation of the signaling devices e.g. B. to protect facilities and buildings or camps is possible.

Overall, the irritation device according to the invention is characterized by the fact that they non-lethal, fully electronically controlled signaling devices respectively

Contains irritant. Due to the electronic control and the temporal synchronization of the lamps and sound generators with each other and each other in mutual interaction, the effect or the intensity of the individual components or the entire system can be readily adapted to the given threat scenario. A health impairment of persons can thus be largely excluded. The pulse generators can be targeted in time, remotely or autonomously or even self-organizing and used over a longer period repeatedly. A deployment is spatially limited as well as large-scale and allows in addition to the control and influence of individuals and a use against groups of people.

The transmitting and receiving devices communicate preferably optically or by radio, in each case so wirelessly, so that they can be easily deployed by throwing, shooting, etc., however, communication is possible.

Preferably, each signaling device has a device for determining its own spatial position, wherein the determined position data can be transmitted via the transmitting and receiving device in the context of the communication. This means that the individual device determines its position, for example by means of a GPS receiver, and communicates either to the other signaling devices or to the higher-level control device. The control operation of the overall system can then take place as a function of the determined position data, since it is known where the respective signaling device is positioned in relation to the other.

As part of the communication principle, of course, the respective operating state of the signaling device is communicated. If, for example, it is determined within the framework of an internal functional test that a light source or the sound generator is defective, this can be communicated, so that it then reacts within the self-organization or on the part of the higher-level control device and the control mode of the entire facility can be adjusted.

A central feature of the irritation device according to the invention is the synchronized operation of the signaling devices or of the lighting means / sound generators. These can be operated simultaneously, that is, all signaling devices simultaneously the light pulse or the sound pulse emit. They can be controlled in groups, that is, only parts of the signaling devices emit the respective pulse while the others are not driven. Finally, the individual signaling devices can also be controlled individually. If no simultaneous operation is given, the signaling devices can be controlled in temporally and spatially resolved variable sequence. This means that within the signaling devices, for example, a plurality of groups are defined, which are controlled one after the other in a defined time frame. It is also conceivable to assign spatial resolution to this temporal raster, that is, to define the sequence as a function of the detected position of the signaling devices. In the case of a single control, a time scheme, in addition, if necessary, spatially resolved, can also be used. In addition, the signaling devices can also be operated variably in terms of the power or the intensity of the pulses generated within the entirety of the driven devices or within the group, again optionally in dependence on the position.

A corresponding variable sequence, both temporally, spatially resolved and, if appropriate, intensity-related, is particularly useful if it is known where a person to be irritated falls within the space that can be assigned via the signaling devices. In order to detect this, each signaling device can have an environment sensor system communicating with the control device, by means of which the operation of the signaling device and, via this, also the operation of the further signaling device can be activated upon detection of a sensor detection signal. Consequently, the distance to an obstacle or the movement of a person can be determined via this sensor. If it is detected that a person is in the active circuit, then the respective signaling device can be activated, it comes to communication and possibly synchronization with the other, whereupon the corresponding generation of the irritation pulses is made. The surroundings sensor can be, for example, an acoustic or seismic sensor, a light or laser barrier, an IR motion detector, a radar movement detector, a magnetic field sensor, but also a mechanically actuated sensor, for example a pressure plate, a tripwire or a tentacle, although this enumeration is not exhaustive , The combination of several sensors is possible.

As already described, the signaling devices are electronically controlled. This offers the particular advantage, the gift of light and / or sound pulses in to repeat given or variable time sequence. This means that irritation can be repeated in quick succession, so that a person who was not or was not completely irritated by the first exposure can be irritated during a second or third exposure.

Furthermore, the brightness of the luminous means and / or the volume of the sound generator can be varied via the respective control device, as already described. On the one hand, this offers the advantage, if appropriate in conjunction with a distance measurement to a person to be irritated, of reducing the intensity of the individual different pulses of a signaling device via the environment sensor, in order to avoid health impairments, but nevertheless to achieve complete irritation by means of the pulse combination. As already described, there is the possibility that the control devices of the signaling devices virtually organize and synchronize themselves. In the context of this, it may be expedient to use a control device as a kind of master and the other control devices as a slave, that is, one control device controls the others all together. This is expedient, in particular in the case of quasi-arbitrary movement without a fixed laying pattern, which is usually the case with hand transport or dropping off. The definition of a master control can either be made prior to shipment by appropriately programming the selected control device or signaling device. It is also conceivable, however, within the self-organizing system, for example, to select that one as the master who is the first to actively report or the like.

Each signaling device has an integrated, preferably rechargeable energy storage. This may be a simple battery, but preferably an accumulator is used. This can be charged, for example, contactlessly by inductive means. Alternatively, each signaling device may also have a connection means to an external power supply for charging, as this of course, however, the operation is possible when a signaling device with sufficient flow can be laid.

LEDs or LED arrays are preferably used as the light source, it being understood that the "light source" may comprise a large number of individual LEDs or LED arrays. Alternatively, a laser or laser array may be used, as well as a flash tube or a flash tube array. Each bulb includes, respectively associated with it, of course, the corresponding electronics, in the case of LEDs or LED arrays respectively of the laser or the laser array, a corresponding driver module, in the case of a flash tube, a corresponding capacitor and ignition device etc.

As a sound generator, for example, a pressure chamber transducer or piezoelectric transducer can be used. Like the list of bulbs, the list of sound generators is not exhaustive.

Fig. 1

eine Prinzipdarstellung einer Signalgabevorrichtung, hier exemplarisch in kubischer Form,

Fig. 2

eine vergrößerte Prinzipdarstellung zur Erläuterung der im Vorrichtungsinneren verbauten Betriebselektronik nebst einiger Leuchtmittel und Signalerzeuger, und

Fig. 3

eine Prinzipdarstellung einer erfindungsgemäßen Irritationseinrichtung umfassend mehrere solcher Signalgabevorrichtungen.

Further advantages, features and details of the invention will become apparent from the embodiment described below and with reference to the drawings. Showing:

Fig. 1

a schematic diagram of a signaling device, here by way of example in cubic form,

Fig. 2

an enlarged schematic diagram for explaining the built-in device interior operating electronics along with some lamps and signal generators, and

Fig. 3

a schematic diagram of an irritation device according to the invention comprising a plurality of such signaling devices.

Fig. 1 shows a signaling device 1, which is part of an irritation device according to the invention. The signaling device 1 is used to emit a short-time light pulse and a short-term sound pulse. It comprises a housing 2, consisting of two half-shells 3, 4, each preferably made of plastic. In the example shown, the housing 2 is cubic, but it could equally be spherical, that is, the half-shells 3, 4 are then virtually dome-shaped. On the housing 2 and each half-shell 3, 4, a plurality of individual light-emitting means 5 are arranged, which emit their light generated in each case to the outside. The illuminant 5 are, as will be discussed below, preferably realized in the form of LED arrays and arranged in corresponding reflectors, so that there are manageable units that can be easily installed according to the housing side. On the housing 2 and the half-shells 3, 4 corresponding recesses respectively recordings may be provided, in each of which a light source is used together with reflector, so that the Halbschalenbestückung is accordingly easily possible. A corresponding housing design is readily possible in the production of plastic.

In the interior of the housing 2, a corresponding cavity is defined by the half-shells 3, 4, in which the entire operating electronics, which will be described in more detail below, and at least one sound generator is housed. On the outside of the housing, a switch 6 is provided in the illustrated embodiment, which may also be a keypad, via which the operation of the signaling device 1 can be activated manually if necessary and via which, if necessary, an access code to prevent abuse. Furthermore, a charging connection 7 is shown by way of example in order to be able to charge a rechargeable energy store located inside the housing without having to open the housing 2.

Fig. 2 shows in the form of a schematic diagram of a signaling device 1, wherein here the illuminants 5 are shown in a circular arrangement by way of example. Instead of a rectangular case, as in Fig. 1 As shown, an annular or spherical housing is also conceivable, connected to a corresponding geometric arrangement of the lighting means 5.

Each light source 5 consists of a high-power LED array 8, which is arranged by way of example on a corresponding carrier 9. The LED array is located in a reflector 10, which is cup-like and the upper side via an optical element 11, here a lens 12, is completed. The lens 12 is thus located directly on the LED array 8 and influences the light pulse emitted by the LED array 8. Instead of a lens, it is also possible to use other optical elements, such as prisms, mirrors, etc., which serve to influence the pulse or to shape it. They can serve for beam expansion, beam focusing and the like. Via the reflector, the emitted light is completely reflected towards the lens 12 and can thus be completely decoupled.

The supply lines 13 of several or all of a corresponding half-shell 3, 4 built-bulbs are merged, for example, in a connector 14 so that they are not to be connected individually. The connector 14 is connected to an LED driver 15, which in turn is connected to a controller 16 which controls the entire operation of the Signaling device 1 controls. The controller 16 has a timer 17 to define a delay as needed, which delay may either be pre-set and selected as part of the activation of the controller 1. Alternatively, the delay can also be programmed as desired, for example by remote control.

Furthermore, a communication device 18 is provided, comprising a receiving device 19 and a transmitting device 20. The communication device 18 communicates with the control device 16. Via the receiving device 19, the signaling device 1 from a higher-level control device, ie a remote control unit, which acts as a kind of master, corresponding control - or programming commands received, which are then processed by the controller 16. In the control device 16, for example, a plurality of work programs are stored in a suitable memory, with which different, virtually any operating or control patterns for the individual lighting means are stored. By way of this, the lighting means 5 can all be controlled selectively synchronously, in a chronologically defined sequence, in groups having different intensity or direction, so that ultimately the emitted light pulse can be quasi arbitrarily shaped or formed. Also, corresponding repetition rates can be defined via the respective device program or transmitted via the external control device.

Via the transmitting device 20, there is the possibility that the control device 16 communicates bidirectionally either with the higher-level remote control device, or else with other signaling devices 1 located in the vicinity and identically designed, respectively their control devices. In this way, the various signaling devices 1 can be synchronized in their operation, so that, purely electronically controlled, the various signaling devices 1 integrated in the system can be controlled as a function of the situation.

Furthermore, at least one sound generator 21 is provided, which is likewise controlled via the control device 16. Via it it is possible, as a second irritation signal, which in addition to the light pulse or alternatively can be added to generate a sound signal that serves the acoustic irritation of a person. The signal generator, for example a piezoelectric transducer, is connected to one of the Half shells 3, 4 arranged so that it can emit the sound signal to the outside. Of course, individual sound generators 21 can be installed at different housing positions, so that radiation in different directions is possible. In the context of the described synchronization of the individual, integrated in the irritation device signaling devices 1 and the remote control via the external remote control device of course, the operation of the signal generator 21 is synchronized. This means that they too can be controlled in a time-variable or direction-selective manner, in groups or with different volumes. Like the light pulse, the sound signal generated via the individual signaling device as well as the entire overall sound signal generated by the totality of the signaling devices 1 by means of corresponding signal superimposition can be formed virtually as desired.

The power is supplied via an energy storage 22, which is preferably a rechargeable accumulator, which can be charged as described via the charging port 7. The controller 16 is the switch 6 assigns, via which the signaling device 1 can be activated or the access code can be entered when it is the switch 6 is a keypad or the like.

Furthermore, at least one environment sensor 23 is provided, for example, a distance sensor, it being understood that several such environmental sensors or distance sensors can be installed in different positions on the housing 2. About this environment sensor after moving the signaling device 1 is detected a distance to a nearby object. In particular, an approximation of a person can be detected here. The control device 16 receives the corresponding measured distance signal of the sensor 23. If the person is at a defined minimum distance to the control device 1, the control device 16 can activate the signaling device 1 on the one hand, and activate the other signaling devices 1 integrated in the system on the other hand Initiate synchronization. Then, the corresponding irritation signal, however configured, can be generated very quickly. By detecting in particular the distance can be ensured that the person to be irritated in a sufficient minimum distance to the signaling device 1 and consequently the optimal irritation effect is achieved. In addition, by knowing the distance but also to determine how the intensity of the generated light pulse and the sound pulse should be, so that the Single pulses are not too intense and a health risk is excluded. The irritation is caused by the interaction of the different signal types. Due to the knowledge of the direction of approach, it is also possible to control, for example, a defined group of light sources 5, which emit the light pulse exactly in the direction of approach, as well as possibly an aligned in this direction sound generator.

Furthermore, a GPS sensor 24 is provided, via which the spatial position of the spent signaling device 1 can be determined. This GPS position data can be distributed via the communication device 18 within the system, so that it is known on the part of the intelligence of the individual signaling devices 1 where the individual other signaling devices 1 are located. This in turn can be used to determine the pulse or signal pattern obtained across the entire system.

Finally, a means 25 for self-destruction is provided, which can be controlled by radio, for example via an external higher-level remote control device. If a signaling device 1 is irretrievably lost, can be ensured by triggering the self-destruct device 25, which includes, for example, a small detonator detonated that the signaling device 1 is completely inactive and can not be used against you.

The communication via the communication device 18 takes place either optically or by radio, but in any case wirelessly, for which the receiving and transmitting devices 19, 20 are designed accordingly respectively are installed at the appropriate position in the housing.

Fig. 3 shows a basic example of an irritation device according to the invention. This irritation device 26 comprises a plurality of separate signaling devices 1, for example in the form, such as Fig. 2 described, are constructed. In any case, they each include a light source 5 on the one hand and a sound generator 21 on the other to be able to generate both the light pulse and the sound pulse.

The total of six signaling devices 1 shown are distributed in space, they were applied for example by hand. For example, it has been detected that a person or group to be irritated in a target area located in the center Z is. The irritation device 26 now has the task of generating and emitting optical and acoustic irritation signals which act on the target zone Z.

All signaling devices 1 are activated. This can be done, for example, by detecting a proximity of a person via a distance sensor 23 of a signaling device 1, via which a corresponding activation signal was given to all other signaling devices 1 via the communication device 18. From the knowledge of the position of the target area Z and from the knowledge of the relative position of all signaling devices 1 with each other, it is now possible to generate a specific generation sequence, ie a pulse pattern, with which the light and sound pulses are given.

Of the plurality of signaling devices 1, a signaling device 1 is defined as a master M, for example, this is the signaling device 1, the distance sensor 23 has struck first. The master signaling device M now synchronized by appropriate communication the entire signaling device group, which is represented by the synchronization arrows S. This defines the individual pulse generation times, both with regard to the light pulse and the tone pulse, as well as the corresponding pulse intensity. In the present case, it is assumed that the luminous means 5 of the individual signal generating devices are actuated successively only in a short time and in chronological succession, so that a circulating light pulse L results, as indicated by the arrow. As a result, a "traveling pulse" circulating around the target zone Z results as a result of the individual light pulses of each individual signaling device 1.

In a corresponding manner, the respective tone signal generator 21 of each individual signaling device 1 is controlled, so that a circumferential tone pulse T results, as indicated by the arrow. This sound pulse T runs in the opposite direction to the light pulse L. He also is composed of the short-term single-tone pulses of the individual signaling devices 1, so that the target area Z is thus "encircled" with two opposing pulses, namely a light pulse L and a tone pulse T quasi. Consequently, the person or group to be irritated is irritated from every direction by a light pulse and a sound pulse. The individual light and sound pulses can circulate several times, since the individual signaling devices 1 are electronically controlled and consequently both the individual light and the individual tone pulse can be generated several times in succession, as long as the integrated energy storage is still powerful enough.

Of course, the master could also control or request other pulse patterns. For example, all light sources 5 could emit a light pulse simultaneously, so that all sides are blinded at the same time. Also, all the sound generator 21 could be controlled simultaneously, so that there is a corresponding, given from all sides sound signal. Also, only some of the signal generating means 1 could be controlled, so groups are formed, for. B. in the form that always alternately the one signaling device 1 a light pulse and the next one emits a sound pulse and the like.

Furthermore, instead of an integrated within the system master signaling device M, an external signaling device may be provided, which in turn then represents the master and communicates with all, located near the target area Z signaling devices 1 and controls. In this case, again, a bidirectional communication between the individual signaling devices 1 and the external master M takes place. Also in the illustrated embodiment according to Fig. 3 is a bidirectional communication between the signaling devices 1 and the master M given, even if the respective synchronization arrow S runs in one direction only. Also, if necessary, the signaling devices 1 communicate with each other and not only with the master M, so that they can also exchange each other if necessary or can distribute control information.

LIST OF REFERENCE NUMBERS

1

Signaling device

2

casing

3

half shell

4

half shell

5

Lamp

6

switch

7

charging port

8th

LED array

9

carrier

10

reflector

11

optical element

12

lens

13

supply line

14

Connectors

15

LED driver

16

control device

17

timer

18

communicator

19

receiver

20

transmitting device

21

sound generator

22

energy storage

23

ambient sensor

24

GPS sensor

25

Self-destruction facility

26

irritation facility

Claims (15)

Irritation device for administering optical and acoustic irritation signals in the form of short-term light and sound pulses, comprising a plurality of signaling devices (1), each of which at least one light source (5) and at least one sound generator (21), a transmitting and receiving device (19, 20) for wireless communication, as well as a programmable control device (16) controlling the operation of the signaling device (1), wherein the control devices (16) communicate with each other and / or with at least one higher-level control device via the respective transmitting and receiving devices (18, 19, 20) to synchronize the operation of the signaling devices (1). Irritation device according to claim 1,
characterized,
in that the transmitting and receiving devices (19, 20) communicate optically or by radio. Irritation device according to claim 1 or 2,
characterized,
in that each signaling device (1) has a device (24) for determining its own spatial position, wherein the determined position data can be transmitted via the transmitting and receiving device (19, 20) as part of the communication. Irritation device according to one of the preceding claims,
characterized,
in that the lighting means (5) and / or the sound generators (21) can be controlled simultaneously, in groups or individually in a variable temporal and / or spatially resolved sequence via the control devices (16). Irritation device according to one of the preceding claims,
characterized,
in that each signaling device (1) has an environment sensor (23) which communicates with the control device (16), by means of which the operation of the signaling device (1) can be activated upon detection of a sensor detection signal and if necessary also the operation of the further signaling devices (1) , Irritation device according to one of the preceding claims,
characterized,
that the delivery of the light and / or sound pulses (L, T) is repeated in a predetermined or variable time sequence. Irritation device according to one of the preceding claims,
characterized,
that on the respective control device (16) the brightness of the luminous means (5) and / or the volume of the sound generator (21) is variable. Irritation device according to one of the preceding claims,
characterized,
in that within the control devices (16) of the signaling devices (1) a control device (16) acts as a master (M) and the other control devices (16) as a slave. Irritation device according to one of the preceding claims,
characterized,
in that each signaling device (1) has an integrated, preferably rechargeable energy store (22). Irritation device according to one of the preceding claims,
characterized,
in that each signaling device (1) has a connection means (7) to an external power supply. Irritation device according to one of the preceding claims,
characterized,
in that each signaling device (1) is provided with a device (25) which can be controlled via the control device (16) for self-destruction, in particular by destruction of the control device (16). Irritation device according to one of the preceding claims,
characterized,
that an operation of a signal reproducing apparatus (1) is free switching, the operator side operated switch (6). Irritation device according to one of the preceding claims,
characterized,
in that each signaling device (1) has a housing (2) made of two spherical shells (3, 4) enclosing a cavity and enclosing the bulbs (5), in particular the arrays (8) and the sound generator (21 ), wherein the shell-side lighting means (5), in particular the arrays (8) and the sound generator (21) via a respective common plug connection (14) with the control device (16) or a driver (15) are connectable. Irritation device according to one of the preceding claims,
characterized,
in that an LED or an LED array, a laser or a laser array, or a flash tube or a flash tube array is provided as the light source (5). Irritation device according to one of the preceding claims,
characterized,
in that a pressure chamber sound transducer or a piezoelectric sound transducer is provided as sound generator (21).

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