EP3426513A1 - Security system having a transparent pane device - Google Patents

Abstract

The invention relates to a security system (1) having a transparent pane device (2). The transparent pane device (2) is designed, for example, as a window of a room of a building or as a window of a transportation means. The security system (1) has a liquid crystal film (3) with an adjustable transparency, wherein the liquid crystal film (3) is arranged on the transparent pane device (2) and/or at a distance to the transparent pane device (2). A sensor unit (4, 5, 7A to 7E) is designed to emit a sensor signal. The sensor unit (4, 5, 7A to 7E) is arranged on the transparent pane device (2). In addition, a control device (8) is provided for adjusting the transparency of the liquid crystal film (3) in accordance with the sensor signal.

Description

 Securing system with a transparent disc device

description

The invention relates to a security system with a transparent disc device. The transparent disc device is designed, for example, as a window of a room of a building or as a window of a means of locomotion. The means of locomotion is designed in particular as a motor vehicle, as an aircraft, as a ship or as a rail vehicle.

From the prior art, a laminated safety glass (VSG) is known, which is designed such that it withstands large forces and / or is destroyed in such a large force that safety measures are initiated. For example, a security system with a transparent pane device, which is formed from laminated safety glass, is known from the prior art. The laminated safety glass has an intermediate layer which is arranged between a first glass pane, which is formed, for example, from toughened safety glass, and a second glass pane, which is likewise formed, for example, from toughened safety glass. In the intermediate layer, a thin wire is embedded in the form of an electrical conductor loop. The electrical conductor loop is often referred to as an alarm spider, since the formation of the electrical conductor loop resembles the shape of a spider web. The electrical conductor loop is traversed by a current. If the transparent disc device is destroyed by the action of force on the transparent disc device, then the first glass pane and / or the second glass pane will shatter / break, thereby destroying the electrical conductor loop and interrupting the circuit. As a result, an intruder alarm system provided on the security system is activated and an alarm is triggered.

Furthermore, a security system with a laminated safety glass is known from the prior art, wherein the security system is used in particular in personal security. The laminated safety glass of this known is designed such that the laminated safety glass impact by impact, by shelling and / or by blowing up withstand. For example, this is achieved by the thickness of the glass panes and / or by a special shape of the intermediate layer between two glass panes, which will be explained in more detail below. For example, this known security system is used for securing shop windows, vehicles and / or offices.

In addition, a liquid crystal film with liquid crystals is known from the prior art. The use of liquid crystals has meanwhile also found its way into glass element technology. Thus, a glass element is known from the prior art, which is provided with a liquid crystal film. For example, the liquid crystal film is arranged between a first glass pane and a second glass pane. By applying a voltage to the liquid crystal film, poles of liquid crystals align with the liquid crystal film, so that the liquid crystal film becomes transparent. In other words, when the voltage is applied, the liquid crystal film becomes clear. When the voltage is not applied, the liquid crystals are randomly oriented. In the liquid crystal film incident light is therefore strongly scattered. The liquid crystal film becomes opaque (thus "milky") and is therefore opaque, ie not transparent It is thus possible to make transparent a glass element provided with the liquid crystal film (for example a glass window or a glass door) by applying a transparent voltage or by switching off the voltage The invention is based on the object of improving a safety system of the prior art in such a way that, in the event of danger or imminent danger, an object to be protected and / or a person to be protected can be better protected the

Characteristics of claim 1 or 14 solved. An inventive method, in which the security system according to the invention is used, is given by the features of claim 15. Further features of the invention will become apparent from the following description, the appended claims and / or the accompanying drawings. The security system according to the invention has at least one transparent pane device. For example, the transparent disc device is designed as a glass element. The glass element is designed, for example, as a glass window or as a glass door. The transparent pane device is designed to be fireproof, impact-proof and / or explosion-proof. For this purpose, the transparent disc device in one embodiment of the invention, for example, a thickness of several centimeters, for example, from 3 cm to 20 cm. This thickness is achieved, for example, by gluing several glass panes together. In a further exemplary embodiment, it is additionally or alternatively provided to arrange a film made of a thermoplastic between two glass panes, which is offered, for example, under the trademark SENTRYGLAS by Dupont. This is much stronger and stiffer than other films (for example, polyvinyl butyral or ethylene vinyl acetate). By using this film, it is therefore possible to use in comparison to other embodiments thinner and thus lighter glass panes for the transparent disc device, but which still make the transparent disc direction sufficiently bulletproof, puncture proof and / or blast resistant.

However, it is explicitly pointed out that the invention is not limited to the use of glass elements. Rather, the invention is suitable for the use of any transparent element, for example a transparent plastic element, in particular a Plexiglas element.

In addition, the security system according to the invention has at least one liquid crystal film with an adjustable transparency. For example, the liquid crystal film may assume a first state of transparency and a second state of transparency. In the first state of transparency, the liquid crystal film is transparent or almost transparent, for example. In the second

Transparency state, the liquid crystal film, for example, opaque. The liquid crystal film is arranged on the transparent disk device and / or spaced from the transparent disk device. For example, it is provided in one embodiment of the security system according to the invention, to apply the liquid crystal film directly on the transparent disc device. In yet another embodiment of the invention In accordance with a security system, it is additionally or alternatively provided to arrange the liquid crystal film at a distance from the transparent pane device. For example, the distance of the liquid crystal film to the transparent disk device is a few millimeters, for example up to 15 mm. In yet another embodiment of the invention, the distance of the liquid crystal film to the transparent disk device is a few centimeters, for example up to 15 cm, up to 30 cm or up to 50 cm. The invention is not limited to the aforementioned distances. Rather, any suitable distance between the transparent disk device and the liquid crystal film is usable.

Light rays incident on the transparent disk device are transmitted through the transparent disk device and through the liquid crystal film. In other words, the transparent disk device and the liquid crystal film are arranged to each other so that the transparent

Disc means to transmit incident light rays through the transparent disc means and through the liquid crystal film. In other words, the transparent disk device and then the liquid crystal film are arranged along the light incidence direction first. When the security system is used to secure a space, in the case that the liquid crystal film is transparent or at least partially transparent, light passes through the transparent disk device and through the liquid crystal film into the space located behind the liquid crystal film. Furthermore, the securing system according to the invention has at least one sensor unit for emitting a sensor signal, wherein the sensor unit is arranged on the transparent pane device. Above and below, the sensor unit is understood to be a unit which can detect physical properties, chemical properties and / or a material quality of the environment of the sensor unit qualitatively or quantitatively as a measured variable. Depending on the detected measured variable, the sensor unit generates and outputs the sensor signal. In one embodiment of the security system according to the invention, it is provided that the sensor unit is arranged directly on the transparent disc device. In other words, in this embodiment, the sensor unit is physically connected to the transparent disk device. In addition, the security system according to the invention has at least one control device for adjusting the transparency of the liquid-crystal film

Dependence of the sensor signal on. The control device is provided in particular for supplying the liquid-crystal film with a supply voltage which is used to align the liquid crystals. Accordingly, the sensor signal of the sensor unit of the control device is supplied. Depending on the sensor signal, the control device then selects the transparency of the liquid crystal film to be adjusted and accordingly controls the liquid crystal film.

For example, the control device switches the liquid crystal film such that the liquid crystal film assumes the second transparency state. For example, in the second transparency state, the liquid crystal film is opaque.

The security system according to the invention has the advantage that when a danger or an imminent danger is detected by the sensor unit, a sensor signal can be delivered to the control device such that the control device activates the liquid crystal film in such a way that the liquid crystal film becomes opaque. In all these cases, it is for example intended to switch off a control voltage (that is to say the supply voltage) of the liquid-crystal foil so that it becomes opaque. Thus, the viewing through the liquid crystal film is blocked in a space arranged behind the liquid crystal film and / or on an object located behind it. Accordingly, third parties are then prevented from viewing the object arranged behind the transparent pane device or the space arranged behind the transparent pane device. This increases the safety of, for example, people who are in the room. The invention is particularly suitable for the protection of persons and objects by bombardment or effects of blasting, especially splintering effects. Once a bombardment and / or an impact of splinters by the sensor unit is / are detected, the control device will drive the liquid crystal film in such a way that the liquid crystal film becomes opaque. The liquid crystal film is switched to an opaque state, for example, even when the sensor unit detects a failure of the general supply of the liquid crystal film with voltage. Thus, in the invention - for example - in a general power failure, the circuit of the liquid crystal film in a security mode, namely in the second transparency state in which the Liquid crystal film is opaque.

In one embodiment of the security system according to the invention, it is additionally or alternatively provided that the transparency of the liquid-crystal film can be brought into a desired state by operation of the control device, for example in the abovementioned first transparency state or in the abovementioned second transparency state. In other words, the control device has an input device with which a desired transparency state of the liquid crystal film can be adjusted. This is particularly advantageous when a user wants to be undisturbed and / or refuse from the outset the view into a room.

The sensor unit may comprise any type of sensor. Hereinafter, some kinds of sensors which can be used in the invention will be explained.

Thus, it is additionally or alternatively provided in a further embodiment of the security system according to the invention that the sensor unit comprises at least one electrical conductor loop. For example, the electrical conductor loop is designed as a thin wire. In yet another embodiment, it is provided that the electrical conductor loop has the shape of a spider web. The electrical conductor loop is traversed by a current. If the transparent disc device is destroyed by the action of force on the transparent disc device, then the electrical conductor loop is destroyed and the circuit is interrupted. As a result, the sensor signal is triggered and the liquid crystal film is driven by the control device such that it becomes opaque, for example. In addition, it is provided that an alarm system provided on the security system is activated and an alarm is triggered.

In a further embodiment of the security system according to the invention, it is additionally or alternatively provided that the sensor unit comprises at least one light sensor. For example, it is envisaged that the

Light sensor is designed as a CCD sensor, as a photo diode, as a photo-transistor or as a photo resistor. This embodiment is particularly advantageous if a bombardment of the transparent disc device is to take place and a target detection and / or a distance measurement by means of a light beam, in particular a laser beam is detected. As soon as such a light beam is detected by the sensor unit, the sensor signal is output by the light sensor to the control device. The control device controls the liquid crystal film immediately such that it becomes opaque, for example. In addition, it is provided in a further embodiment of the security system according to the invention that an alarm system provided on the security system is activated and an alarm is triggered. In yet another embodiment of the security system according to the invention, it is additionally or alternatively provided that the sensor unit comprises at least one vibration sensor. For example, the vibration sensor is designed as an acceleration sensor. This exemplary embodiment has the advantage that upon the application of force to the transparent pane device, for example due to a bullet being shot and / or due to splinters of a blast, the sensor unit can detect it and emit the corresponding sensor signal to the control device. The control device in turn controls the liquid crystal film in such a way that the liquid crystal film, for example, becomes opaque. In addition, it is also provided in this embodiment of the security system according to the invention that an alarm system provided on the security system is activated and an alarm is triggered.

In one exemplary embodiment of the security system according to the invention, it is additionally or alternatively provided that the transparent pane device is formed partly from glass or completely from glass. In yet another embodiment of the security system according to the invention, it is provided that the transparent disc device is partially made of plastic or completely made of plastic.

In one exemplary embodiment of the security system according to the invention, it is provided that the transparent pane device has a laminated safety glass which comprises a first glass pane and a second glass pane, at least one polyvinyl butyral and / or ionoplastic film unit being arranged between the first glass pane and the second glass pane. lonoplast is an ionomer which is formed from ethylene and methacrylic acid is. For example, the film unit is formed of sheet material sold under the trademark SENTRYGLAS by the company Dupont. The advantages of using this film material have already been explained above. However, it is explicitly pointed out that the invention is not restricted to this embodiment of the film unit. Rather, the invention provides for the use of any film unit which is suitable for the invention. For example, it is also possible to use film units made from ethylene vinyl acetate. In yet another embodiment of the security system according to the invention, the transparent pane device has a laminated safety glass device. The laminated safety glass device has at least one first glass pane, at least one second glass pane and at least one third glass pane. At least one first film unit of polyvinyl butyral and / or ionoplast is arranged between the first glass pane and the second glass pane. Furthermore, at least one second film unit of polyvinyl butyral and / or ionoplast is arranged between the second glass pane and the third glass pane. For example, the first film unit and / or the second film unit is / are formed from film material which is under the mark

SENTRYGLAS is distributed by the company Dupont. The advantages of using this film material have already been explained above. In yet another embodiment of the security system according to the invention, it is provided that the second film unit comprises at least two films arranged parallel to one another. In yet another embodiment, the second film unit comprises at least four or at least six films arranged parallel to one another. The invention is not limited to the aforementioned number of mutually parallel foils. Rather, any number of mutually parallel foils can be provided for the invention, which is suitable for the invention.

In a further embodiment of the security system according to the invention, it is additionally or alternatively provided that the control device has a first switching state and a second switching state. At a switching output of the sensor unit, the sensor unit has a first sensor signal for the first switching state or a second sensor signal for the second switching state. The liquid crystal film is in the second switching state formed opaque. Accordingly, with the second switching state, the second transparency state is achieved.

The invention also relates to a further securing system, which may have, for example, at least one of the features mentioned above or below or a combination of at least two of the features mentioned above or below. The further securing system has at least one transparent pane device. For example, the transparent disc device is designed as a glass element. The glass element is designed, for example, as a glass window or as a glass door. However, it is explicitly pointed out that the invention is not limited to the use of glass elements. Rather, the invention is suitable for the use of any transparent element, for example a transparent plastic element, in particular a Plexiglas element. In addition, the inventive further security system has at least one liquid crystal film with an adjustable transparency. For example, the liquid crystal film may assume a first state of transparency and a second state of transparency. In the first state of transparency, the liquid-crystal film is, for example, transparent or almost transparent. For example, in the second transparency state, the liquid crystal film is opaque. The liquid crystal film is arranged on the transparent disk device and / or spaced from the transparent disk device. Light rays incident on the transparent disk device are transmitted through the transparent disk device and through the liquid crystal film. Furthermore, the further securing system has at least one sensor unit for emitting a sensor signal, wherein the sensor unit is arranged on the transparent pane device. In addition, the further security system has at least one control device for adjusting the transparency of the liquid-crystal film as a function of the sensor signal. The control device is provided in particular for supplying the liquid-crystal film with a supply voltage, which is used for

Alignment of the liquid crystals is used. Accordingly, the sensor signal of the sensor unit of the control device is supplied. Depending on the sensor signal, the control device then selects the transparency of the liquid crystal film to be adjusted and accordingly controls the liquid crystal film. For example, the control device switches the liquid crystal film such that the liquid crystal film assumes the second transparency state. In the second transparency condition, the liquid crystal film, for example, is opaque.

The invention also relates to a method for securing a room using a security system having one of the features mentioned above or below or a combination of at least two of the features mentioned above or below. The room is, for example, an interior of a building or a vehicle. The inventive method provides that a property is detected by the sensor unit. This is / are, for example, a vibration, a destruction of the transparent disc device and / or a light incidence by a laser measuring device or a laser target device. When this property is detected, a sensor signal is generated. The sensor signal is fed to the control device. The control device adjusts the transparency of the liquid-crystal film as a function of the sensor signal. In particular, it is provided that the adjustment of the transparency takes place in such a way that the liquid-crystal film becomes opaque.

The invention will be described in more detail below with reference to exemplary embodiments. Show

Fig. 1 is a schematic representation of a first embodiment of a

 Security system according to the invention;

Fig. 2 is a schematic representation of a second embodiment of a

 Security system according to the invention; a schematic representation in the form of a sectional view of part of a third embodiment of a security system according to the invention; and a schematic representation of a sequence of an embodiment of the method according to the invention.

FIG. 1 shows a schematic representation of a first embodiment of the security system 1 according to the invention, which has an outer area 100 of FIG an interior 200 separates. The interior 200 is, for example, a room of a building or a vehicle. The means of locomotion is designed in particular as a motor vehicle, as an aircraft or as a ship.

The security system 1 has a transparent pane device 2, which is formed, for example, from glass. In the embodiment shown in Figure 1, the transparent disc device is designed as a single-pane glass. Alternatively or additionally, the transparent Scheibenein- device 2 may also be formed of plastic, such as Plexiglas.

The transparent disc device 2 may be formed in a further embodiment bulletproof, puncture proof and / or blast resistant. For this purpose, the transparent disc device 2, for example, a thickness of several centimeters, for example, from 3 cm to 30 cm. This thickness is achieved, for example, by gluing several glass panes together.

The transparent disc device 2 has two sides. A first page is directed to the outdoor area 100. A second side of the transparent disc device 2 is directed to the interior 200. On the second side, on the one hand, a liquid crystal film 3 is arranged. On the other hand, a sensor unit is arranged on the second side, which has, for example, an electrical conductor loop 4 and / or a vibration sensor 5. The electrical conductor loop 4 is connected via a first connecting line 9 to a control device 8. The vibration sensor 5 is connected to the control device 8 via a second connecting line 10. In addition, the liquid crystal film 3 is connected to the control device 8 via a third connecting line 11. The control device 8 is provided for supplying the liquid crystal film 3 with a supply voltage, the supply voltage being used for aligning the liquid crystals.

On the first side of the transparent disc device 2 is a film 6 of polyvinyl butyrate! (PVB) applied, are arranged in the additional or alternative to the above-mentioned sensors light sensors 7A to 7E, namely a first light sensor 7A, a second light sensor 7B, a third light sensor 7C, a fourth light sensor 7D and a fifth light sensor 7E.

The Flussigkristallfolie 3 is in the embodiment shown here of the

Security system 1 is arranged directly on the transparent disc device 2. In further embodiments, a further film unit is arranged between the transparent pane device 2 and the liquid crystal film 3, for example a film unit made of PVB. This will be discussed in more detail below.

Light beams incident on the transparent disk device 2 transmit through the transparent disk device 2 and through the liquid crystal film 3. In other words, along a light incident direction E, the transparent disk device 2 and then the liquid crystal film 3 are arranged first.

The Flussigkristallfolie 3 has an adjustable transparency. For example, the liquid crystal film 3 may assume a first state of transparency and a second state of transparency. In the first state of transparency, for example, the liquid crystal film 3 is transparent or nearly transparent. In the second state of transparency, the liquid-crystal film 3 is, for example, opaque. The control of the transparency states takes place via the control device 8. By applying a voltage to the liquid crystal film 3, poles of liquid crystals of the liquid crystal film 3 align, so that the liquid crystal film 3 becomes transparent and thus assumes the first state of transparency. When the voltage is not applied, the liquid crystals are randomly oriented. Light incident into the liquid crystal film 3 is therefore strongly scattered. The liquid crystal film 3 then becomes opaque. It is therefore opaque, not transparent. This is the second transparency state.

The electrical conductor loop 4 is formed as a thin wire. It has the shape of a spider web. The electrical conductor loop 4 is traversed by a current. If the transparent disc device 2 is destroyed by force acting on the transparent disc device 2 (for example, by bombardment and / or by splinters of a blast), then the electrical conductor loop 4 is destroyed and the circuit is interrupted. The interruption of the circuit is performed by the control device 8 via the first connection line 9. The controller 8 then controls the liquid crystal film 3 such that the liquid crystal film 3 becomes opaque. Thus, the voltage applied to the liquid crystal film 3 is cut off. In addition, it is provided in this embodiment that an alarm system provided on the security system 1 (not shown) is activated and an alarm is triggered.

As already mentioned above, it is additionally or alternatively provided to arrange a vibration sensor 5 on the security system 1. The vibration sensor 5 is formed for example as an acceleration sensor. Upon the application of force to the transparent pane device 2, for example as a result of bombardment and / or fragmentation of a blast, the vibration sensor 5 detects this action and generates a corresponding sensor signal which it forwards to the control device 8 via the second connection line 10 , The control device 8 in turn controls the liquid crystal film 3 such that the liquid crystal film 3 becomes opaque. Accordingly, the voltage for supplying the liquid crystal film 3 is turned off. In addition, it is provided in this embodiment that an alarm system provided on the security system 1 (not shown) is activated and an alarm is triggered.

The light sensors 7A to 7E are designed, for example, as a CCD sensor, as a photo diode, as a photo transistor or as a photo resistor. If a target detection and / or a distance measurement by means of a light beam, in particular a laser beam, done / done, then this is detected with at least one of the light sensors 7A to 7E. As soon as such a light beam is detected by at least one of the light sensors 7A to 7E, a sensor signal is generated by at least one of the light sensors 7A to 7E and forwarded to the control device 8 via a connecting line, which is not shown in FIG. The control device 8 controls the liquid crystal film 3 immediately such that it becomes opaque. Accordingly, the supply voltage to the liquid crystal film 3 is turned off. In addition, it is also provided here that the security alarm system (not shown) provided on the security system 1 is activated and an alarm is triggered.

The circuit of the liquid crystal film 3 is in an opaque state for example, even if, for example, at the control device 8, a failure of the general supply of the liquid crystal film 3 is detected with tension. Thus, for example, in a general power failure, the circuit of the liquid crystal film 3 in a security mode, namely the second transparency state in which the liquid crystal film 3 is opaque.

In an embodiment of the security system 1, it is additionally or alternatively provided that by operation of the control device 8, the transparency of the liquid crystal film 3 can be brought into a desired state, for example in the above-mentioned first transparency state or in the above-mentioned second transparency state. In other words, the control device 8 has an input device with which a desired transparency state of the liquid crystal film 3 can be set. This is particularly advantageous when a user wants to be undisturbed and / or refuse from the outset the view into a room.

FIG. 2 shows a schematic representation of a second embodiment of the security system 1 according to the invention. The security system 1 according to FIG. 2 separates an outer area 100 from an inner space 200. The inner space 200 is, for example, a room of a building or a means of locomotion. The means of locomotion is designed in particular as a motor vehicle, as an aircraft or as a ship.

The security system 1 has a first laminated glass device 20 which has a first glass pane 21 and a second glass pane 22. The first glass sheet 21 and the second glass sheet 22 are formed of glass. Alternatively or additionally, the first glass pane 21 and / or the second glass pane 22 may be formed from plastic, for example as Plexiglas. Between the first glass pane 21 and the second glass pane 22, a film unit 24 is arranged. The film unit 24 is formed, for example, from PVB and / or from lonoplast. However, it is explicitly pointed out that the invention is not limited to these embodiments of the film unit 24. Rather, the invention provides for the use of any film unit which is suitable for the invention. For example, the film unit 24 may also be formed from ethylene vinyl acetate. In a further form of the embodiment of Figure 2, it is additionally or alternatively provided to form the film unit 24 as a film of a thermoplastic material, for example in the form of lonoplast between the first glass sheet 21 and the second glass sheet 22, wherein the film, for example, under the mark SENTRYGLAS offered by the company Dupont. This is much stronger and stiffer than other films (for example, polyvinyl butyral or ethylene vinyl acetate). By using this film, it is therefore possible to use thinner and thus lighter glass panes for the laminated glass device 20 in comparison to other embodiments, but still make the laminated glass device 20 sufficiently bulletproof, impact resistant and / or blast resistant.

At the film unit 24, a sensor unit, for example in the form of an electrical conductor loop 4 and / or a vibration sensor 5 is arranged. The electrical conductor loop 4 is connected via a first connecting line 9 to a control device 8. The vibration sensor 5 is connected to the control device 8 via a second connecting line 10.

The security system 1 also includes a second laminated glass device 25 which is spaced apart from the first laminated glass device 20 by a gap 23. The gap 23 is bounded by at least one spacer 37. The gap 23 may be filled, for example, with a gas for heat insulation. The second laminated glass device 25 has a first glass element 26 and a second glass element 27. Both the first glass element 26 and the second glass element 27 are each formed as a single-pane glass. Alternatively or additionally, the first glass element 26 and / or the second glass element 27 may be made of plastic, for example Plexiglas.

Between the first glass element 26 and the second glass element 27, a liquid crystal film 3 is arranged. In the embodiment of the security system 1 shown here, the liquid-crystal film 3 is arranged both directly on the first glass element 26 and directly on the second glass element 27. In further embodiments, a first film unit is arranged between the first glass element 26 and the liquid-crystal film 3. In addition, in this further embodiment between the second glass element 27 and the liquid sigkristallfolie 3 arranged a second film unit. The first film unit and / or the second film unit is / are formed from PVB, for example. The liquid crystal film 3 is connected to the control device 8 via a third connecting line 11. The control device 8 is provided for supplying the liquid crystal film 3 with a supply voltage, the supply voltage being used for aligning the liquid crystals.

Light beams incident on the first laminated glass device 20 are transmitted through the first laminated glass device 20 and through the liquid crystal film 3. In other words, first the first laminated glass device 20 and then the second laminated glass device 25 with the liquid crystal film 3 are arranged along a light input direction E.

The liquid-crystal film 3 also has an adjustable transparency in the case of the embodiment of the security system 1 shown in FIG. For example, the liquid crystal film 3 may assume a first state of transparency and a second state of transparency. In the first state of transparency, for example, the liquid crystal film 3 is transparent or nearly transparent. In the second state of transparency, the liquid-crystal film 3 is, for example, opaque.

By applying a voltage to the liquid crystal film 3, poles of liquid crystals align themselves with the liquid crystal film 3, so that the liquid crystal film 3 becomes transparent and thus the first one Assumes a transparent state. When the voltage is not applied, the liquid crystals are randomly oriented. In the liquid crystal film 3 incident light is therefore strongly scattered. The liquid crystal film 3 then becomes opaque. It is therefore opaque, not transparent. This is the second transparency state.

2, the electrical conductor loop 4 is formed as a thin wire. It has the shape of a spider web. The electrical conductor loop 4 is traversed by a current. When by force acting on the first laminated glass device 20 (for example on the first glass pane 21), the first glass pane 21 and / or the second glass pane 22 of the first composite glass pane 20 Seinrichtung 20 are destroyed / is (for example, by shelling and / or by splinters of a blast), then the electrical conductor loop 4 is destroyed and the circuit interrupted. The interruption of the circuit is detected by the control device 8 via the first connection line 9. The control device 8 controls the liquid crystal film 3 such that the liquid crystal film 3 becomes opaque. Thus, the voltage applied to the liquid crystal film 3 is cut off. In addition, it is provided in this embodiment that an alarm system provided on the security system 1 (not shown) is activated and an alarm is triggered.

As mentioned above, the embodiment of FIG. 2 may additionally or alternatively comprise the vibration sensor 5. The vibration sensor 5 is formed for example as an acceleration sensor. Upon application of force to the first laminated glass device 20, in particular to the first glass pane 21 (for example, due to a bullet and / or due to splinters of a blast), the vibration sensor 5 detects this action and generates a corresponding sensor signal, which he second connecting line 10 forwards the control device 8. The control device 8 in turn controls the liquid crystal film 3 such that the liquid crystal film 3 becomes opaque. Accordingly, the voltage for supplying the liquid crystal film 3 is turned off. In addition, it is provided in this embodiment that an alarm system provided on the security system 1 (not shown) is activated and an alarm is triggered. The circuit of the liquid crystal film 3 in an opaque state, for example, even if, for example, at the control device 8, a failure of the general supply of the liquid crystal film 3 is detected with tension. Thus, for example, in a general power failure, the circuit of the liquid crystal film 3 in a security mode, namely the second transparency state in which the liquid crystal film 3 is opaque. In a further embodiment of the security system 1, it is additionally or alternatively provided that by operation of the control device 8, the transparency of the liquid crystal film 3 can be brought into a desired state, for example in the above-mentioned first transparency state or in the above-mentioned second transparency state. In other words, the control device 8 has an input device with which a desired transparency state of the liquid crystal film 3 is adjustable. This is particularly advantageous when a user wants to be undisturbed and / or refuse from the outset the view into a room.

Figure 3 shows a schematic representation in the form of a sectional view of part of a third embodiment of the security system according to the invention 1. The security system 1 according to the figure 3 separates an outdoor area 100 from an interior 200. The interior 200 is for example a room of a building or a means of locomotion. The means of locomotion is designed in particular as a motor vehicle, as an aircraft or as a ship.

The security system 1 has a first laminated glass device 20 which has a first glass pane 21, a second glass pane 22 and a third glass pane 28. The first glass sheet 21, the second glass sheet 22 and the third glass sheet 28 are formed of glass. Alternatively or additionally, the first glass pane 21, the second glass pane 22 and / or the third glass pane 28 may be formed from plastic, for example from Plexiglas.

Between the first glass pane 21 and the second glass pane 22, a first film unit 29 is arranged. The first film unit 29 is formed, for example, from PVB and / or from lonoplast. However, it is explicitly pointed out that the invention is not limited to this design of the first film unit 29. Rather, the invention provides for the use of any film unit which is suitable for the invention. For example, the first film unit 29 may also be formed from ethylene vinyl acetate.

Between the second glass pane 22 and the third glass pane 28, a second film unit 30 is arranged. The second film unit 30 has a total of four films, namely a first film 31, a second film 32, a third film 33 and a fourth film 34. At least one of the films 31 to 34 is formed from PVB and / or ionoplast. Again, it is explicitly pointed out that the invention is not limited to this embodiment of the films 31 to 34. Rather, the invention provides for the use of any films 31 to 34 which is suitable for the invention. For example, the films 31 to 34 may also be formed from ethylene vinyl acetate. The first glass pane 21 and the second glass pane 22 may be formed, for example, from toughened safety glass. The third glass pane 28 may be formed of float glass, for example. In a further form of the embodiment of FIG Ur 3, it is additionally or alternatively provided, the first film unit 29 and / or the second film unit 30 (more precisely, at least one or all of the films 31 to 34) of a thermoplastic material, for example in the form of The first film unit 29 and / or the second film unit 30 (that is to say the films 31 to 34) is / are offered, for example, under the trademark SENTRYGLAS by Dupont. Such film units are much stronger and stiffer than other films (for example made of polyvinyl butyral or ethylene vinyl acetate). By using these film units, it is therefore possible to use thinner and thus also lighter glass panes for the laminated glass device 20 in comparison to other embodiments, but which nevertheless make the laminated glass device 20 sufficiently bullet-proof, impact-proof and / or blast-resistant.

At the first film unit 29, a sensor unit, for example in the form of an electrical conductor loop 4 and / or a vibration sensor 5 is arranged. The electrical conductor loop 4 is connected via a first connecting line 9 to a control device 8. The vibration sensor 5 is connected to the control device 8 via a second connecting line 10. The security system 1 also includes a second laminated glass device 25 which is spaced apart from the first laminated glass device 20 by a gap 23. The intermediate space 23 is delimited by at least one spacer and separates the third glass pane 28 of the first laminated glass device 20 from a first glass element 26 of the second composite glass device 25. The intermediate space 23 is filled, for example, with a gas for heat insulation. The second laminated glass device 25 furthermore has a second glass element 27. Both the first glass element 26 and the second glass element 27 of the second laminated glass device 25 are each formed as a single-pane glass. Alternatively or additionally, the first glass element 26 and / or the second glass element 27 may be formed from plastic, for example from Plexiglas. Between the first glass element 26 and the second glass element 27, a liquid crystal film 3 is arranged. More specifically, a first film member 35 is disposed between the first glass member 26 and the liquid crystal film 3. In addition, a second film element 36 is disposed between the second glass element 27 and the liquid crystal film 3. The first film element 35 and / or the second film element 36 is / are formed from PVB, for example. The liquid crystal film 3 is connected to the control device 8 via a third connecting line 11. The control device 8 is provided for supplying the liquid crystal film 3 with a supply voltage, wherein the supply voltage is used to align the liquid crystals.

Light rays incident on the first laminated glass device 20 are transmitted through the first laminated glass device 20 and through the liquid crystal film 3. In other words, along a light incident direction E, first the first laminated glass device 20 and then the second laminated glass device 25 with the liquid crystal film 3 are arranged.

The liquid crystal film 3 also has an adjustable transparency in the embodiment of the security system 1 shown in FIG. For example, the liquid crystal film 3 may assume a first state of transparency and a second state of transparency. In the first state of transparency, for example, the liquid crystal film 3 is transparent or nearly transparent. In the second state of transparency, the liquid-crystal film 3 is, for example, opaque.

By applying a voltage to the liquid crystal film 3, poles of liquid crystals of the liquid crystal film 3 align themselves so that the liquid crystal film 3 becomes transparent and thus the first one Assumes a transparent state. When the voltage is not applied, the liquid crystals are randomly oriented. In the liquid crystal film 3 incident light is therefore strongly scattered. The liquid crystal film 3 then becomes opaque. It is therefore opaque, not transparent. This is the second transparency state.

Also in the embodiment of the present invention shown in FIG. Secure system 1, the electrical conductor loop 4 is formed as a thin wire. It has the shape of a spider web. The electrical conductor loop 4 is traversed by a current. When the first glass pane 21 and / or the second glass pane 22 of the first laminated glass device 20 are destroyed by force acting on the first laminated glass device 20 (for example on the first glass pane 21) (eg by bombardment and / or splinters of a blast), then destroyed the electrical conductor loop 4 and the circuit interrupted. The interruption of the circuit is detected by the control device 8 via the first connection line 9. The controller 8 controls the liquid crystal film 3 so that the liquid crystal film 3 becomes opaque. Thus, the voltage applied to the liquid crystal film 3 is cut off. In addition, it is provided in this embodiment that a provided on the security system 1 Alamnmeldeanlage (not shown) is activated and an alarm is triggered.

As already mentioned above, it is additionally or alternatively provided in the embodiment of FIG. 3 to use the vibration sensor 5. The vibration sensor 5 is formed for example as an acceleration sensor. Upon application of force to the first laminated glass device 20, in particular to the first glass pane 21 (for example, due to a bullet and / or due to splinters of a blast), the vibration sensor 5 detects this action and generates a corresponding sensor signal, which he second connecting line 10 forwards the control device 8. The control device 8 in turn controls the liquid crystal film 3 such that the liquid crystal film 3 becomes opaque. Accordingly, the voltage for supplying the liquid crystal film 3 is turned off. In addition, it is provided in this embodiment that an alarm system provided on the security system 1 (not shown) is activated and an alarm is triggered.

3, the circuit of the liquid crystal film 3 in an opaque state, for example, also take place when, for example, at the control device 8, a failure of the general supply of the liquid crystal film 3 is detected with tension. Thus, for example, in the case of a general power failure, the circuit of the liquid crystal film 3 is switched to a safety mode, namely the second transparent circuit. state in which the liquid crystal film 3 is opaque.

In a further embodiment of the security system 1, it is additionally or alternatively provided that by operation of the control device 8, the transparency of the liquid crystal film 3 can be brought into a desired state, for example in the above-mentioned first transparency state or in the above-mentioned second transparency state. In other words, the control device 8 has an input device with which a desired transparency state of the liquid crystal film 3 can be set. This is particularly advantageous when a user wants to be undisturbed and / or refuse from the outset the view into a room.

FIG. 4 shows a flow diagram of a method according to the invention. The inventive method provides in a method step S1 that a property is detected by the sensor unit. Embodiments of the

Sensor unit have been explained in detail above. The detected property is, for example, vibration, destruction of the transparent pane device 2, destruction of the glass panes 21, 22 and / or 28 first laminated glass device 20, and / or incidence of light on the transparent pane device 2 or the first laminated glass device 20 Laser measuring device or a laser aiming device. If this property is detected, a sensor signal is generated in a method step S2. The sensor signal is fed to the control device 8 in a method step S3. The control device 8 adjusts the transparency of the liquid-crystal film 3 as a function of the sensor signal in a method step S4. In other words, the controller 8 sets the transparency state of the liquid crystal film 3. In particular, it is provided that the adjustment of the transparency takes place in such a way that the liquid-crystal film 3 becomes opaque. All embodiments of the security system 1 according to the invention have the advantage that upon detection of a danger or imminent danger by one of the above-described sensor units, a sensor signal can be delivered to the control device 8 such that the control device 8 controls the liquid crystal film 3 such that the liquid crystal film 3 becomes opaque. Thus, the review by the liquid crystal film 3 in a space arranged behind the liquid crystal film 3 space (ie, for example, the Interior 200) and / or locked on an object located behind the liquid crystal 3 object. Accordingly, third parties are denied access to the object or the interior 200. As a result, the safety of, for example, people who are located in the interior 200, increased. The invention is particularly suitable for the protection of persons and objects by bombardment or effects of blasting, in particular splinter action.

The features of the invention disclosed in the present description, in the drawings and in the claims may be essential both individually and in any desired combinations for the realization of the invention in its various embodiments. The invention is not limited to the described embodiments. It can be varied within the scope of the claims and taking into account the knowledge of the person skilled in the art.

LIST OF REFERENCE NUMBERS

1 security system

 2 transparent disc device 3 liquid crystal foil

 4 electrical conductor loop

 5 vibration sensor

 6 foil

 7A first light sensor

7B second light sensor

 7C third light sensor

 7D fourth light sensor

 7E fifth light sensor

 8 control device

9 first connection line

10 second connection line

1 1 third connection line

20 first laminated glass device 21 first glass pane

 22 second glass pane

 23 space

 24 film unit

 25 second laminated glass device 26 first glass element

 27 second glass element

 28 third glass pane

 29 first film unit

 30 second film unit

 31 first slide

 32 second film

 33 third slide

 34 fourth slide

 35 first film element

 36 second film element

37 spacers 100 outdoor area

200 interior

E light direction of incidence

S1 to S4 process steps

Claims

claims

1 . Security system (1), with

at least one transparent pane device (2, 20, 25), wherein the transparent pane device (2, 20) is bullet-proof, impact-proof and / or explosive-resistant,

- At least one liquid crystal film (3) having an adjustable transparency, wherein the liquid crystal film (3) on the transparent disc means (2, 20, 25) and / or spaced from the transparent disc means (2, 20, 25) is arranged, wherein the transparent Disc means (2, 20, 25) transmit incident light rays through the transparent disc means (2, 20, 25) and through the liquid crystal foil (3),

- At least one sensor unit (4, 5, 7A to 7E) for emitting a sensor signal, wherein the sensor unit (4, 5, 7A to 7E) on the transparent disc means (2, 20) is arranged, and with

- At least one control device (8) for adjusting the transparency of the liquid crystal film (3) in dependence of the sensor signal.

2. A security system (1) according to claim 1, wherein the sensor unit (4, 5, 7A to 7E) comprises at least one electrical conductor loop.

3. security system (1) according to claim 1 or 2, wherein the sensor unit (4, 5, 7A to 7E) comprises at least one light sensor.

4. fuse system (1) according to claim 3, wherein the light sensor (7A to 7E) is designed as a CCD sensor, as a photo diode, as a phototransistor or as a photoresistor.

Safety system (1) according to one of the preceding claims, wherein the sensor unit (4, 5, 7A to 7E) comprises at least one vibration sensor (5).

Safety system (1) according to claim 5, wherein the vibration sensor (5) is designed as an acceleration sensor.

A security system (1) according to any one of the preceding claims, wherein the security system (1) has one of the following features:

(i) the transparent disc means (2, 20, 25) is partially formed of glass;

 (ii) the transparent disc means (2, 20, 25) is formed entirely of glass;

 (iii) the transparent disc means (2, 20, 25) is partly made of plastic;

 (iv) the transparent disc means (2, 20, 25) is formed entirely of plastic.

The fuse system (1) according to one of the preceding claims, wherein the transparent pane means (20, 25) comprises a laminated safety glass comprising a first glass pane (21, 26) and a second glass pane (22, 27), between the first glass pane (21, 26) and the second glass pane (22, 27) at least one film unit (24) made of Polyvi- nylbutyral and / or lonoplast is arranged.

A security system (1) according to claim 8, wherein the film unit (24) between the first glass sheet (21, 26) and the second glass sheet (22, 27) comprises at least one SENTRYGLAS brand liner.

10. security system (1) according to one of claims 1 to 7, wherein the transparent pane device (20, 25) has a laminated safety glass device (25),

 the laminated safety glass device (20) comprises at least a first glass pane (21), at least one second glass pane (22) and at least one third glass pane (28),

 - between the first glass pane (21) and the second glass pane (22) at least a first film unit (29) made of polyvinyl butyral and / or ionoplast is arranged, and wherein

 - Between the second glass pane (22) and the third glass pane (28) at least a second film unit (30) made of polyvinyl butyral and / or ionoplast is arranged.

1 1. The security system (1) according to claim 10, wherein the first film unit (29) and / or the second film unit (30) comprises at least one intermediate layer of the trademark SENTRYGLAS.

12. A security system (1) according to claim 10 or 11, wherein the second film unit (30) has one of the following features:

 (i) the second film unit (30) comprises at least two films (31 to 34) arranged parallel to one another;

 (ii) the second film unit (30) comprises at least four films (31 to 34) arranged parallel to one another;

 (iii) the second film unit (30) comprises at least six films (31 to 34) arranged parallel to one another.

13. Security system (1) according to one of the preceding claims, wherein

the control device (8) has a first switching state and a second switching state,

the sensor unit (4, 5, 7A to 7E) at a switching output of the sensor unit (4, 5, 7A to 7E) a first sensor signal for the first switching state or a second sensor signal for the second switching state, and wherein

 - The liquid crystal film (3) is formed opaque in the second switching state.

14. Security system (1), with

 at least one transparent pane device (2, 20, 25),

- At least one liquid crystal film (3) having an adjustable transparency, wherein the liquid crystal film (3) on the transparent disc means (2, 20, 25) and / or spaced from the transparent disc means (2, 20, 25) is arranged, wherein the transparent Disc means (2, 20, 25) transmit incident light rays through the transparent disc means (2, 20, 25) and through the liquid crystal foil (3),

- At least one sensor unit (4, 5, 7A to 7E) for emitting a sensor signal, wherein the sensor unit (4, 5, 7A to 7E) on the transparent disc means (2, 20) is arranged, and at least one control device (8) for adjusting the transparency of the liquid-crystal film (3) as a function of the sensor signal.

15. A method for securing a room (200) using a security system (1) according to one of the preceding claims, the method comprising the following steps:

Detecting a property by the sensor unit (4, 5, 7A to 7E);

 Generating a sensor signal;

 Supplying the sensor signal to the control device (8); such as

Adjusting the transparency of the liquid crystal film (3) by the control device (8) as a function of the sensor signal.

16. The method according to claim 15, wherein the adjustment of the transparency is such that the liquid crystal film (3) is opaque.

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