DE19534564A1 - Passive infrared alarm system for protection of indoor valuables - Google Patents

Abstract

The alarm device (1) with its integrated movement detectors (2-5) is placed centrally on the ceiling of the room (6). One detector (3) oriented towards a door (7), and another detector (4) towards an internal wall (8) are set to inhibit the alarm. The other detectors (2,5) are directed at a window (9) and a balcony door (10) and set to trigger the alarm. The system is operable from a distance by a radio transmission capsule. An evaluation circuit assigns priority to the first switching command from the detectors, and triggers or inhibits the alarm for an adjustable time. Power is taken from e.g. an existing ceiling or wall lamp.

Description

The invention relates to a passive infrared alarm system for the Object protection, suitable for interior protection and in particular suitable for securing the outer skin of windows, for example and doors when people or Pets in the buildings, the alarm system preferably in given electrical installations can be used and the Energy is preferably supplied from the network and that Alarm system, using buttons from any switch manufacturer, can be operated remotely and the alarm system one or more times can be operated in a network and the alarm system can be decentralized is arranged and the alarm is decentralized in certain or in takes place in all rooms and / or takes place centrally and the alarm origin is displayed on all alarm devices involved becomes.

State of the art

It is known to use indoor surveillance in property protection Passive infrared detectors. The outer skin protection is by means of contacts or light barriers or the like Sensors made on window frames, panes or doors. At  wireless systems, the alarm message is sent to the radio Alarm center, the energy supply of the sensors each is guaranteed by a battery.

Special measures are taken to operate the alarm systems Devices such as code cards, electronic Combination locks, cylinder locks, radio transmitters in the form of Handheld devices or key fobs, transponders or also simply hidden switches necessary. With everybody The alarm system must be consciously armed when leaving the property to take advantage of the protective effect of the system. The Alarm centers are located in specially reserved locations and require a mains connection or a battery supply. in the In the case of smaller systems, an alarm is triggered at the location of the break-in Piezo sound transducer or loudspeaker switched on, for larger ones The system transmits the alarm message via wire or radio an alarm box, which on an outer wall of the object is attached and generates acoustic or optical signals. Of the The origin of the alarm is, for example, in the form of light bulbs or LEDs are displayed on the control panel.  

disadvantage

The disadvantage of passive infrared interior surveillance is in the fact that no people or Pets are allowed in the object. Burglaries in households where for example, the residents in the bedroom at the same time spent, and the system was therefore switched off already occurred. When it comes to securing the outer skin, everyone has to involved windows and doors of the object individually appropriate sensors. The alarm message takes place by wire to the alarm center. This Installation effort is often an insurmountable hurdle for the Operator.

In other alarm systems, all sensors are with a radio transmitter equipped, which is in contact with the head office. Due to the limited transmitter power and therefore limited range can be used for multi-storey objects or reinforced concrete structures significant problems regarding secure data transmission occur.

Furthermore, all radio sensors are expensive and Environmentally polluting lithium batteries, all about must be replaced two years.  

Those necessary for remote control of the alarm systems, for example Keys, code cards or transmitter devices must all be authorized Person are available, can always be carried and allowed do not get lost.

When leaving the property, the system can be sharpened be forgotten, and any protective effect is thereby canceled.

When installing the alarm centers, you must have your own Mains connection are provided, which additional Installation effort means. An alternative to using the head office To supply batteries is subject to regular maintenance, means environmental pollution and high operating costs.

For mounting the control panel on the wall, for example in a Hallway or a stairwell, space is lost and the system looks striking.

The control center must be consulted to determine the origin of the alarm will.

The alarm in the interior of an object can be triggered spontaneously Intervention of the perpetrator with, for example, a jacket or a blanket or covered with a rag as far as possible and thereby dampened, that the alarm signal loses its effect.

An alarm device attached to the outside of the house wall can be sabotaged or be foamed.  

The radio telegrams that the dialogue or monologue between the individual alarm components can be triggered with a Scan receiver can be scanned and copied. whereby a there is an additional possibility of sabotage.

Object of the invention

The object of the invention is to provide an alarm system which for both the interior and exterior skin protection by passive infrared monitoring is suitable. It has to be in every Install the installation without additional cables and can also be expanded and should be used as an energy source use only the network. The only exception to that Supply via secondary energy sources means total Power failure. The alarm system must of course be complete remain functional. Furthermore, the system is supposed to commercially available buttons can be operated remotely. These buttons can come from an already installed switch range. Of the Data exchange between several devices involved should be wireless via radio done in the bucket chain process, so that the range of the Channel remains irrelevant. The whole system should save space, tamper-proof and inconspicuous. The If desired, alarm signals should be present in all rooms at the same time  and act externally to ensure a high level of security against sabotage to achieve a high psychological deterrent effect. At Large systems with many individual devices must have the origin of the alarm be traceable to every device. In normal mode the system should automatically turn on when the last person leaves sharpen from the object. They should also smoke, fire or gas Plant can trigger.

solution

To achieve these tasks, the design features according to the invention are named in detail below. For example, four passive infrared motion detectors, which are independent of one another in terms of their inclination, are housed in a common housing with their Fresnel collecting lenses, sensors, amplifiers, gain regulators and Schmitt triggers, which are also independent of one another. This housing is designed for mounting on a wall or ceiling outlet and is referred to below as an alarm device. The four motion detectors are placed in the alarm device so that they detect the preferred directions at the front, rear, left and right. Each individual motion detector is pre-set either as an alarm-sending or alarm-blocking device before it is put into operation for the first time. The motion detectors that point in the direction of windows, balcony doors or outside walls after installing the alarm device, for example under a ceiling, are preset to alarm status, the motion detectors that point in the direction of interior walls or room doors are preset to alarm blocking status. If a person enters the room through the door as usual, they are first detected by an alarm-blocking detector. This alarm-blocking message is passed on to an evaluation circuit in the alarm device. The evaluation circuit starts an adjustable alarm blocking time and prevents an alarm from being triggered. Every minimal movement of the person, regardless of whether it takes place in an alarm-blocking or in an alarm-triggering detection area, starts the alarm blocking time again. If the person leaves the room, no more movement is detected and the alarm blocking time expires. After the alarm blocking time has expired, the alarm device is automatically armed again and the room is protected. If an unauthorized person enters the protected room from outside through a window or a balcony door, it is first detected by an alarm. The result is an alarm. If every room of an object is equipped with an alarm device, there is a closed protection of the outer skin, whereby legal persons can move freely in all rooms at any time. Furthermore, interior security can be carried out, for example, in certain rooms where no people are allowed to enter. To do this, all detectors in the alarm device are simply preset to the alarm-giving status. Of course, it is also conceivable, for example, to integrate fire, smoke or gas detectors into the alarm device. Ultimately, these detectors have the same effect as the passive infrared motion detectors on the evaluation circuit and do not need to be described further. If the entrance and exit area of an object, such as a front door, a foyer or a vestibule is to be secured with the alarm device according to the invention, the detector which points to the outer door is preset to the alarm-giving status, all other detectors are preset to the alarm-blocking status . When leaving the object, the alarm device will arm itself after the alarm blocking time has elapsed. However, if a person enters through the door, the alarming detector would first detect and thus trigger the alarm. In order for this to happen in the case of illegitimate persons and to remain absent in the case of legitimate persons, the alarm device with a remote control option described below must be defused for the time of entry by a manually activated alarm blocking time. However, in this case too, the alarm device will arm itself after the alarm blocking time has elapsed. In situations where, for example, ventilation is to take place with the window open or where people or pets occasionally change from the garden through the patio door into the building, the corresponding alarm device or all of them can Alarm devices can be disarmed permanently using the remote control option. Another basic requirement is the integration of the alarm system into an existing installation. For this purpose, the alarm device is placed, for example, in the immediate vicinity of a wall or ceiling outlet of the lighting network. Here, together with an existing luminaire, it can draw energy from the grid. However, if the lamp is switched off, there is no longer any power supply from the network. In order to guarantee an energy supply in this case as well, the following measure according to the invention is used. The relevant light switch in terms of installation is briefly removed. In parallel to the two normally open contacts, an X2 capacitor is connected to the light switch as a capacitive series resistor. The necessary capacitor is small enough to find space in the flush-mounted switch box together with the light switch. In the case of dimmers intended for installation, the X2 capacitor is connected to the two connections of the corresponding ones. This measure prevents the X2 capacitor from influencing each other with the interference suppressor contained in the dimmer. The line conductor L1, which is now always live via the X2 capacitor, is routed in the alarm device via a further capacitor or resistance to zero. The resulting voltage divider circuit generates a voltage that is available to the alarm device after rectification, screening and regulation. So that the voltage potential of the line conductor L1 is not pulled too far towards zero due to the shared use with a low-resistance lamp, the evaluation circuit in the alarm device galvanically disconnects the lamp from the mains during operation via the capacitor. Phase-cut voltages from commercially available dimmers can supply the lamp and the alarm device together up to the minimum operating voltage of 30 V, limited by the diac ignition voltage of the dimmer. Phase cut dimmers can also be used. A voltage source in the alarm device, such as a gold capacitor, a lithium battery, a nickel-metal-hydride battery or a nickel-cadmium battery, is used for exclusive emergency supply if the network fails completely. The useful life of the secondary voltage sources mentioned is so short that the service life of the alarm device is achieved without additional maintenance. An additional battery replacement shaft, which could limit the design of the alarm device, is also omitted. The alarm system is used either individually or in combination. Each alarm device, with its sensors, the evaluation circuit, the power supply circuit, the emergency supply, the sound generator, the digital display, as well as the radio transmitter and receiver, can be operated alone, decentrally and independently in one housing. A central office is not necessary. Overall protection of the property consisting of several alarm devices is of course more effective. The alarm devices are given an individual device address that can be set beforehand using coding switches. The addresses are assigned one increment to the nearest alarm device. The alarm device with the highest address in the object must find alarm device no. 1 again as the next partner. The addresses are assigned in a ring by the object. In the event of an alarm, device no. 6, for example, sends the alarm message to the closest device no. 7. The triggering alarm device then listens via radio receiver to determine whether device no. 7 confirms this alarm message and also passes it on to the next larger addressed alarm device. If this is the case, the alarm message is passed on from the alarm device to the alarm device using the bucket chain method without carrier overlap on the transmitter frequency. If the triggering alarm device is not confirmed, it repeats the alarm message. If there is still no confirmation in this case, the triggering alarm device alerts the next but one alarm device. With this method, data radio transmission is possible, which works very reliably and tamper-proof due to the relatively short distances. The size of the object and the quality, for example made of reinforced concrete, do not affect the range of use of the alarm system. Only the distance between two alarm devices limits the range of use. To ensure that the origin of the alarm remains traceable, the alarm device that triggers the alarm supplements the radio telegram with its device address. After an alarm, the address of the alarm device triggering the alarm can be read in any alarm device via a digital display until further notice. In the event of an alarm, a powerful, deafening signal that reaches the pain threshold is emitted. This is done by a piezo acoustic transducer integrated in the alarm device. The alarm time is adjustable. However, during a break-in, a panicked perpetrator can attack the alarm device with his jacket or a cloth or a tablecloth, for example, and dampen the sound emission to such an extent that the alarm signal loses its effectiveness. To rule out this possibility of sabotage, all alarm devices belonging to the property participate by activating their own piezo sound transducers. The additional alarm sound generated in each room is so powerful and psychologically dissuasive that the perpetrators can be expected to flee immediately. In the event that an operator does not agree with this type of signaling, each piezo acoustic transducer can be switched off individually per alarm device by means of presetting. This means that sections of the property, such as bedrooms or children's rooms, can be excluded from the acoustic alarm. Furthermore, all piezo acoustic transducers can be switched off together to enable a silent alarm. The potential-free relay output in every alarm device is used for this, which electrically closes or opens in the event of an alarm. Excluded components such as telephone dialers or external wall-mounted devices with acoustic and visual messages therefore participate in the alarm. A radio transmitter capsule is used to remote control the alarm system. This capsule has a mains connection and further connections for a commercially available double button from any switch range. For example, the capsule is round and very flat. It is installed in a flush-mounted switch terminal box together with the double button. The installation location is the usual socket under the light switch in the area of the door frame. For this purpose, the socket is removed in order to achieve free installation space. The line conductor LT and zero are directly available for energy supply. If the depth of the switch box is not sufficient, the masonry can be reworked with a tile chisel. The socket can also be retained. For this, of course, another hole for receiving a switch junction box must be punched into the brickwork. In cases where there is only one light switch and no socket, the neutral conductor may be missing. In order to be able to use the radio transmitter capsule in this area, the power pack of the capsule has an extremely wide voltage range from about 30 V to 264 V. In addition, the existing light switch must be replaced by a commercially available dimmer. The dimmers are naturally equipped with a diac, which has an ignition voltage of 30 V. This means that in the course of a sinus half-wave, the dimmer can ignite at the earliest at a current value of the mains voltage of 30 V. In operation, there is at least 30 V as a voltage drop between the input and output terminals of the dimmer in each half-wave of the sine voltage. This voltage is sufficient to supply the radio transmitter capsule with sufficient energy. For total power failure, the radio transmitter capsule is equipped with a secondary voltage source such as a gold capacitor, a battery or a rechargeable battery. The life expectancy of the emergency supply is the same over the entire life of the radio transmitter capsule. There is no need for maintenance. A radio frequency transmitter, for example, is located inside the radio transmitter capsule. A modulator for network carrier frequency applications would also be conceivable. An integrated logic also carries out a code comparison. For this purpose, a key sequence of, for example, five different key strokes is set on the radio transmitter capsule before installation by means of coding switches. The double button used has a left and a right rocker. By actuating the rockers in a certain order, there are 32 different possibilities, for example with five strokes. For example, the code could be "left""left""right""right""left". From these five strokes, a serial data word is created, which forms the key to the alarm system. This type of code pattern is easy to remember and all authorized persons such as residents, visitors, caretakers or security guards are able to disarm the alarm system for their own entry without annoying keys, code cards, number combinations or radio transmitters. The alarm delay time is selected so that legal persons have enough time to enter the room and to operate the double button. On the other hand, the alarm delay time is short enough that unlawful persons cannot try out the 32 combinations, for example, without being surprised by an alarm beforehand. In the normal operating mode, the alarm device is always sharp. The display shows "PP" (partly protected). When entering the object, the "PP" display flashes for the alarm delay time. Shortly before this time expires and the alarm is triggered, the piezo acoustic transducer also sounds quietly. By entering the key code, an expiry of the alarm blocking time can be initiated. The display shows "PP". For example, the object is entered legally. Entering the key code and then simultaneously pressing both keys simultaneously disarms the alarm device. The display shows "PU" (partly unprotected / partly unprotected). By entering the key code in the permanently disarmed state, the alarm device is returned to its normal operating mode. The display shows "PP". Entering the key code and then immediately pressing the two buttons simultaneously simultaneously disarms all alarm devices involved in the long term. The display shows "AU" (all unprotected). The following arming of a single alarm device is acknowledged by the display "PP". For all other alarm devices, the display changes "AU" to "PU". Entering the key code and then immediately pressing both buttons three times simultaneously sharpens all alarm devices involved. The display shows "AP" (all protected). The following disarming of an individual alarm device is acknowledged by the display "PU". For all other alarm devices, the display changes from "AP" to "PP". After an alarm, the device address of the alarm device triggering the alarm is shown in the displays of all alarm devices involved until a new alarm with a different device address overwrites the old address, or until the entire system is permanently disarmed with a key code and then double-pressing both buttons. Every time the alarm system is operated remotely, unauthorized persons in the vicinity could scan the radio frequency and record the key code radio telegram. To rule out this possibility of sabotage, the radio transmitter capsule works with a roll code. This code changes with each transmission according to a pattern agreed with the recipient.

Further advantageous design features of the invention

The alarm system is very inconspicuous because of the remote control used radio transmitter capsules inside the switch junction boxes to sit. Furthermore, they are from the same switch range double pushbuttons do not come from normal light switches differentiate. Optically unattractive boxes, surface-mounted devices or Input devices that could interfere on the wall and not for Furnishing design fit, are therefore eliminated. Because the whole Alarm system extremely easy to install and without additional Lines to be installed, it can be done both by a specialist and can be installed by the handyman in a very short time. This Installation can take place both in old buildings and in new buildings take place on an equal footing. Even tenants can use this system use without asking the landlord because no big ones Reconstruction campaigns with mortising work are necessary. The tenant moves out, he can quickly get the installation to its origin reset and the alarm system in the new apartment with take over. The high flexibility of the alarm system comes finally objects such as exhibition stands or Allotment houses, garages, mobile homes or caravans and Ships benefit.

Embodiment

An embodiment of the invention is in the Drawing shown and will be described in more detail below described.

Show it:

Fig. 1 alarm device used centrally in a normal living room

Fig. 2 block diagram of the power supply via ceiling outlet

Fig. 3 block diagram of an alarm device

Fig. 4 address distribution with several alarm devices

Fig. 5 radio transmitter capsule with double button in a flush-mounted switch junction box

Fig. 6 At least voltage applied to a commercially available dimmer.

Fig. 1 shows the alarm device ( 1 ) with its integrated motion detectors ( 2 ), ( 3 ), ( 4 ), ( 5 ), arranged centrally at the middle of the ceiling of the room ( 6 ). Detector ( 3 ) is directed to a room door ( 7 ) and set to block the alarm. The detector ( 4 ) is aligned with an inner wall ( 8 ) and set to block the alarm. Detectors ( 2 ) and ( 5 ) are aligned with the window ( 9 ) and patio door ( 10 ) and set to trigger the alarm.

Fig. 2 shows the common power supply of the ceiling light ( 1 ) and the alarm device ( 2 ) via the light switch ( 3 ) and the capacitor ( 4 ) connected in parallel to the light switch. During operation via the capacitor ( 4 ), the alarm device ( 2 ) switches off the low-resistance lamp ( 1 ) with a relay ( 5 ) so that the voltage potential ( 6 ) does not shift towards zero.

Fig. 3 shows the evaluation circuit ( 1 ), with the sensors ( 2 ), the digital display unit ( 3 ), the power supply ( 4 ) and the emergency supply ( 5 ). The radio transmitter ( 6 ) and radio receiver ( 7 ) are required for dialogue with other system devices. During operation via the capacitor on the light switch, relay ( 8 ) electrically isolates a lamp that is connected at the same time from the mains. In the event of an alarm, a high-pitched alarm tone sounds via sound generator ( 9 ). At the same time relay ( 10 ) is actuated for the connection of non-system components.

Fig. 4 shows the address assignment to the alarm devices ( 1 ) to ( 8 ). The arrows ( 9 ) indicate the ring-shaped address assignment. After this address distribution, the routes from one alarm device to the next are the shortest and always preferable. The last device ( 8 ) reaches the next device ( 1 ).

Fig. 5 shows the radio transmitter capsule ( 1 ) together with the double button ( 2 ) installed in the switch junction box ( 3 ).

Fig. 6 shows an oscillogram of the at least 30 volts ( 1 ) applied to a commercially available dimmer. This voltage is sufficient to supply a connected radio transmitter capsule with energy without a neutral conductor. The mains voltage ( 2 ) is shown in broken lines.

Claims (18)

1. Passive infrared alarm system for object protection, suitable for interior protection and particularly suitable for securing the outer skin, for example of windows and doors while people or pets are staying in the buildings at the same time, the alarm system can preferably be used in given electrical installations and the energy supply is preferred from the network and the alarm system can be operated remotely using buttons from any switch manufacturer and the alarm system can be operated individually or several times in a network and the alarm system is decentralized and the alarm occurs decentrally in certain or in all rooms and / or centrally outside and the origin of the alarm is displayed on all alarm devices involved, characterized in that the alarm device which can be remotely controlled with a radio transmitter capsule contains, for example, four independent passive infrared motion detectors, and the example se four motion detectors in the alarm device are preferably arranged in four directions front, rear, left, right, and for example four motion detectors in the alarm device can each be preset to alarm-giving or alarm-blocking status, and an evaluation circuit located in the alarm device always the first incoming switching command, for example four motion detectors assigns a priority "one", and the evaluation circuit for an alarm-giving switching command with priority "one" triggers an alarm for an adjustable time, and the evaluation circuit for alarm-locking switching command with priority "one" for an adjustable alarm locking time does not trigger an alarm and the alarm locking time during its sequence renewed with each alarm-giving or with each alarm-blocking switching command, and the alarm device draws its energy, for example, simultaneously with an existing lamp by means of connection to the ceiling or wall outlet of the lighting network, and in The radio transmitter located on the alarm device repeats the alarm message from another alarm device depending on its own preset device address, so that all alarm devices communicate with one another without overlap on the transmitter frequency without range restriction using the bucket chain method and, for example, trigger an alarm together, and the radio transmitter capsule provided for remote control of the alarm device, for example, for installation in one Flush switch terminal box is designed, and the radio transmitter capsule contains a connection, for example, for a conventional double button from the house installation technology. 2. Alarm system according to claim 1, characterized in that the alarm device for assembly, for example, under the ceiling or on the wall. 3. Alarm system according to claim 1, characterized in that the power supply to the example ceiling or Wall outlets even when switched off Light switch or dimmer using a capacitor parallel to the existing installation Light switch or dimmer is ensured and the Capacitor acts as a series resistor.   4. Alarm system according to claim 1, characterized in that the circuit located in the alarm device low-resistance lamp connected at the same time during the supply via the capacitor as Series resistor to protect the minimum necessary Operating voltage switches off. 5. Alarm system according to claim 1, characterized in that the alarm device has a built-in Voltage buffers such as one Gold capacitor or a low battery Self-discharge or a battery for bridging only a total power failure. 6. Alarm system according to claim 1, characterized in that the form of the supply voltage from the network any such as sinusoidal, phase cut, phase cut or can be uniform. 7. Alarm system according to claim 1, characterized in that the alarm device, for example, its alarm state using a high-performance piezo transducer directly  reports at the relevant location and simultaneously with a radio transmitter on board the alarm message other alarm devices and / or for example to one optical and acoustic installed on the outside of the building Reporting unit passes on. 8. Alarm system according to claim 1, characterized in that each alarm device a previously adjustable Receives device address. 9. Alarm system according to claim 1, characterized in that the alarm device triggering the alarm has its device address to determine the origin of the alarm in the sent Radio telegram integrated. 10. Alarm system according to claim 1, characterized in that every alarm device for communication, for example with other alarm devices and / or one Radio transmitter capsule equipped with a radio receiver is.   11. Alarm system according to claim 1, characterized in that the radio transmitter capsule, for example Contains radio transmitter or modulator. 12. Alarm system according to claim 1, characterized in that the radio transmitter capsule prefers its energy relates to the network. 13. Alarm system according to claim 1, characterized in that the radio transmitter capsule only to bridge a total power failure with a voltage buffer like for example a gold capacitor or one Battery is equipped with low self-discharge. 14. Alarm system according to claim 1, characterized in that with the two buttons for remote control of the Alarm device any previously freely adjustable Code can be entered. 15. Alarm system according to claim 1, characterized in that by pressing the two in different combinations Buttons creates a serial data word which  The key to the alarm device and the system can defuse, for example. 16. Alarm system according to claim 1, characterized in that for example a smoke alarm and / or Fire alarm and / or gas alarm in the alarm device is integrated and the protective effect of the alarm system expanded. 17. Alarm system according to claim 1, characterized in that the alarm origin as the device address for a certain time digitally at all involved Alarm devices is displayed. 18. Alarm system according to claim 1, characterized in that the power supply of the radio transmitter capsule has an extreme wide voltage range from about 30 volts to 264 volts has to be operated directly in parallel on a dimmer to be able to.