(19) |
|
|
(11) |
EP 0 194 248 B1 |
(12) |
EUROPEAN PATENT SPECIFICATION |
(45) |
Mention of the grant of the patent: |
|
06.11.1991 Bulletin 1991/45 |
(22) |
Date of filing: 03.03.1986 |
|
|
(54) |
Device for preventing unintentional unlocking of burglary alarm protected doors
Unabsichtliche Öffnungsverhütungsvorrichtung für gegen Einbruch gesicherte Türen
Dispositif de prévention d'ouverture non intentionnelle de portes protégées contre
le cambriolage avec un dispositif d'alarme
|
(84) |
Designated Contracting States: |
|
AT CH DE FR GB IT LI SE |
(30) |
Priority: |
04.03.1985 SE 8501040
|
(43) |
Date of publication of application: |
|
10.09.1986 Bulletin 1986/37 |
(73) |
Proprietors: |
|
- ERIKSSON, Berndt
S-146 00 Tullinge (SE)
- Karlsson, Karl-Göran
S-146 00 Tullinge (SE)
|
|
(72) |
Inventors: |
|
- ERIKSSON, Berndt
S-146 00 Tullinge (SE)
- Karlsson, Karl-Göran
S-146 00 Tullinge (SE)
|
(74) |
Representative: Norén, Per Bo Arne |
|
SWEDPATENT AB
P.O. Box 186 746 24 Balsta 746 24 Balsta (SE) |
(56) |
References cited: :
WO-A-80/01617 SE-A- 419 879 US-A- 3 688 531
|
DE-B- 1 252 100 US-A- 28 321 US-A- 3 696 374
|
|
|
|
|
|
|
|
|
Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
|
[0001] The present invention relates to a device for burglary alarm protected doors, intended
to prevent unintentional false alarm indication.
[0002] A device for this purpose is previously disclosed in SE, A, 419 879, and includes
a movable slide member located by the outside door plane, in a first position located
extending across a key hole for a lock mechanism arranged in the door, being manually
movable to a second position, in which the key hole is uninterruped and free. An electromagnet,
connected to the alarm circuit, locks the slide member in the position extending across
the key hole when the alarm system is switched on, thereby preventing unintentional
unlocking of the door when the alarm system has not been disconnected. This previously
known device has been proved very efficient in practical use, and the number of false
alarms caused by unintentional influence have been considerably reduced. However,
a disadvantage with this previously known device is that the electromagnet in locked
position receives its voltage supply from the alarm circuit, and an alarm circuit
must be operable for a long period of time after an interruption of the mains voltage
supply, during which time period voltage is supplied from electric accumulators. As
a result, existing standby power must be dimensioned considering the power consumption
of the electromagnet, which results in a larger number of electric accumulators being
required, and thus also an increased cost for standby power, and same also requires
an increased space. With regard to the previously known device, there have therefore
been proposed examples of embodiments, in which the electromagnet causes a locking
action when no voltage is supplied, releasing the slide member from locked position
when a voltage is supplied. However, such an embodiment involves voltage feed from
an independent supply circuit, and this supply circuit must be switched via the alarm
circuit, which involves additional wiring, separate voltage source, and special switching
equipment for switching a relay on/off.
[0003] The object of the present invention is to overcome the disadvantages associated with
the previously known device. An installation with voltage supply from the alarm circuit
is also advantageous, both with regard to simplified installation and lower cost,
but has not previously always been possible, due to existing regulations relating
to standby power in case of mains supply interruption. According to the present invention,
it is now possible to obtain such a simplified installation, without increasing the
power consumption of the alarm installation.
[0004] The device according to the present invention includes a displacably arranged slide
at the outer plane of the door, arranged to be secured in a position extending across
the key hole of the lock mechanism by means of influence from an electromagnet when
the alarm circuit is switched on, and is mainly characterised in that the slide is
arranged to influence an electrical switch means when in a position extending across
the key hole, and thereby interrupt a voltage supply from the alarm circuit to the
electromagnet, and that a first displacement movement of the slide in direction from
the key hole is arranged to make the switching means close the voltage supply to the
electromagnet from the alarm circuit, thereby causing the electromagnet to lock the
slide against further displacement movement intended to open the key hole. As a further
characteristic feature can be stated, that the slide is arranged to return from a
position locked by the electromagnet to a position influencing the electrical switching
means under influence of a return spring member or similar, thereby interrupting the
voltage feed from the alarm circuit to the electromagnet.
[0005] A basic embodiment of a device according to the present invention is more fully described
below with reference to the accompanying drawings, in which:-
Fig. 1 shows a plan view of an embodiment of a device according to the present invention,
with an associated protective housing removed, and with the device shown in a first
uninfluenced position.
Fig. 2 shows a longitudinal sectional view along line II-II in Fig. 1.
Fig. 3 shows a cross-sectional view along line III-III in Fig. 1.
Fig. 4 shows a plan view corresponding to Fig. 1 with the device influenced into a
second position facilitating insertion of a key into a key hole located behind the
device.
Fig. 5 shows a plan view corresponding to Fig. 1 during an attempt to move the protecting
slide while an associated alarm system is switched on.
Fig. 6 shows an electrical circuit diagram with included components shown in a position
corresponding to Fig. 1.
[0006] The device shown in Figs. 1 - 5 includes a base part 1, intended to be attached against
an outer door surface by means of screws or similar. With regard to the portion of
the base plate 1 having a larger width, same is intended to be covered by a protective
housing in use, but in order to simplify the disclosure, said housing is not shown.
The narrow portion of the base plate 1 is arranged with a through slot 2, which when
attached is located over the key hole to be protected (indicated by broken lines in
Fig. 4). A longitudinally extending slide member 3 is displacably arranged in relation
to the base plate 1, partly covered by a supporting plate member 4 attached against
the wider portion of the base plate 1. The supporting plate member 4, which advantageously
may comprise of a circuit board arranged to support and electrically interconnect
utilized components, is arranged with a through slot 5, extending in the direction
of movement for the slide 3. An abutment means 6 extends upwards from the slide 3
through the slot 5, preferably having the free end portion enlarged by means of a
folded portion, as shown in Fig. 3. The plate member 4 supports a relay 7, but also
an electrical switch means 8, e.g. a micro-switch. The armature of the relay 7 is
designed as a longitudinally extending member 9, pivotably attached against an edge
portion of the relay 7, and arranged having a substantially U-shaped locking member
10 attached to the free end portion. Furthermore, a not shown return spring member
is also arranged, acting on the slide 3 in such a manner, that same takes up the position
shown in Fig. 1 when the slide 3 is not manually operated.
[0007] With reference to the position shown in Fig. 1, the not shown return spring member
applies a pressure moving the slide 3 towards the end portion of the narrow part of
the base plate 1, said movement being restricted by contact between the abutment means
6 against an end portion of the slot 5. In this position, the abutment means 6 also
takes up contact against a contact lever extending from the switch means 8, thereby
influencing same into a non-closed position. This position is also illustrated as
a circuit diagram in Fig. 6, and results in no voltage feed to the coil of the relay
7. Accordingly, if the circuit shown in Fig. 6 is connected for voltage supply from
an operative alarm circuit, no voltage is supplied in this position to the coil of
the relay 7, and the device is thus not causing any power drain from the alarm circuit.
[0008] Should the alarm circuit be disconnected, a voltage can obviously not be supplied
to the coil of the relay 7, even if the switch means 8 is closed, i.e. if the abutment
means 8 is moved towards the other end portion of the slot 5, and thus no longer maintains
contact with the contact lever of the switch means 8. Such a movement is facilitated
past the locking member 10, since its U-shape does not prevent a movement of the abutment
means 6, as shown more in detail in Fig. 3. When the alarm circuit is disconnected,
the slide 3 can thus be moved into the position shown in Fig. 4, by means of manual
application of force by means of a finger applied against the outer portion of the
slide 3. Hereby the slot 2 is located above the key hole, and a key can be inserted
to unlock the door against which the device is attached. When the key has been removed,
the slide 3 returns into the position shown in Fig. 1 by means of influence from the
previously mentioned return spring member.
[0009] Should an attempt be made to move the slide 3 from the position shown in Fig. 1 to
the position of Fig. 4, while the alarm circuit is operative, a first and minor displacement
movement of the slide 3 results in that the abutment means 6 no longer maintains the
switch means 8 in open position, and when same is closed, the coil of the relay 7
receives a voltage supply from the alarm circuit, whereby the the relay armature takes
the position shown in Fig. 5, i.e. with the locking member 10 extending across the
slot 5, thereby preventing movement of the abutment means 6 past the locking member
10. Thereby is also a movement of the slide 3 past the slot 2 prevented, and the key
hole located below is not made available. As soon as the the manually applied force
against the slide 3 for causing a displacement movement is no longer maintained, the
slide 3 is moved back to the position shown in Fig. 1 by influence from the return
spring member, thereby operating the switch means 8 again, and interrupting the voltage
supplied to the coil of the relay 7.
[0010] By utilizing a micro-switch as a switch means 8, a rapid and distinct switching operation
id obtained, thereby securing that the relay 7 can lock the slide 3 by moving the
locking member 10 to a contact position against the abutment means 6. The portion
of the locking member 10 that contacts the abutment means 6 is preferably when uninfluenced,
as illustrated in Fig. 1, arranged located adjacently in a sideway relationship to
the slot 5, and at a small distance from the adjacent portion of the abutment means
6, in order to secure that the locking member 10 takes up intended position within
the time period necessary for moving the slide 3 to the position in which same is
locked.
[0011] The described and shown embodiment thus facilitates a locking action only when the
alarm circuit from which voltage is supplied is switched on, and results in no power
consumption when the slide 3 is not manually influenced. In difference to previously
known type, a locking action does not occur when the alarm system is switched on,
but only when the slide 3 is manually influenced, in order to open the key hole protected
by the device.
[0012] It should be emphasized, that the shown and described embodiment is only intended
to serve as an example of an embodiment within the scope of the inventive thought
and the following claims, since obviously many modifications can be made with regard
to the design of included components. The method in which the relay 7 is arranged
to cause a locking action can thus obviously be further modified, as well as associated
components used to accomplish locking action. Furthermore, it is obviously also possible
to include an optical indication device, e.g. a light emitting diode, connected to
the alarm circuit and indicating whether or not the alarm circuit is operative or
disconnected. By using a light emitting diode or similar for this purpose, the resulting
power drain will be extremely low, thereby not noticably affecting the standby power
system for the alarm system, whereby actions for increasing the standby power system
will not be required. Such an optical indication can also be arranged between the
switch means 8 and the relay 7, thus resulting in optical indication only when the
slide 3 is influenced, i.e. as further indication to the person trying to open the
key hole that the alarm system is switched on. In this latter case, an acoustic signal
source, e.g. a buzzer, can obviously also be used.
1. Device for burglary alarm protected doors intended to prevent unintentional unlocking
of the lock mechanism of a door when the alarm circuit is operative, including a displacably
arranged slide (3) at the outer plane of the door, arranged to be secured in a position
extending across the key hole of the lock mechanism by means of influence from an
electromagnet (7) as long as the alarm circuit is switched on, characterised in
that the slide (3) is arranged to influence an electrical switch means (8) when in
a position extending across the key hole, and thereby interrupt a voltage supply from
the alarm circuit to the electromagnet (7), and that a first displacement movement
of the slide (3) in direction from the key hole is arranged to make the switching
means (8) close the voltage supply to the electromagnet (7) from the alarm circuit,
thereby causing the electromagnet (7) to lock the slide (3) against further displacement
movement intended to open the key hole as long as the alarm circuit is switched on.
2. Device according to claim 1, characterised in that the slide (3) is arranged to return
from a position locked by the electromagnet (7) to a position influencing the electrical
switching means (8) under influence of a return spring member or similar, thereby
interrupting the voltage supplied from the alarm circuit to the electromagnet (7).
3. Device according to claims 1 and 2, characterised in that the slide (3) is arranged
with an abutment means (6), arranged to influence the electrical switching means (8)
in a first restricting position for displacement of the slide (3), and in combination
with an associated means (5) serve as a displacement restricting member during a displacement
movement of the slide (3) towards a second restricting position.
4. Device according to claim 3, characterised in that the abutment means (6) is arranged
to serve as a co-acting member to a locking member (10) operable by means of the electromagnet
(7), in order to facilitate locking of the slide (3) against further displacement
movement when the slide (3) has been moved a shorter distance from a position extending
across the key hole of the lock mechanism.
5. Device according to any of claims 1 - 4, characterised in that it includes an optical
signalling device, for example a light emitting diode, connected to cause optical
indication when a voltage is supplied to the electromagnet (7).
6. Device according to any of claims 1 - 5, characterised in that it includes an acoustical
signalling device, for example a buzzer, connected to cause an acoustical indication
when a voltage is supplied to the electromagnet (7).
7. Device according to any of claims 1 - 6, characterised in that it includes an optical
signalling device, for example a light emitting diode, connected to cause optical
indication when the alarm circuit is switched on, independently of whether or not
a voltage is supplied to the eiectromagnet (7).
1. Dispositif de prévention d'ouverture non intentionnelle de portes protégées contre
le cambriolage par un dispositif d'alarme en service incluant un volet mobile (3)
sur la surface extérieure de la porte, arrangé pour être verrouillé dans une position
obturant le trou de serrure de mécanisme de verrouillage sous l'influence d'un électro-aimant
(7) aussi longtemps que le circuit d'alarme est en service, caractérisé en ce que
le volet (3) est agencé pour agir sur des moyens d'interruption électrique (8) lorsqu'il
est au dessus du trou de serrure, et par là interrompre l'alimentation en tension
électrique provenant du circuit d'alarme de l'électro-aimant (7)
et en ce que un premier mouvement de déplacement de volet (3), à partir du trou de
serrure provoque la fermeture des moyens d'interruption (8) de l'alimentation en tension
électrique de l'électro-aimant (7) à partir du circuit d'alarme provoquant par là
le verrouillage par l'électro-aimant (7) du volet (3) contre tout déplacement ultérieur
destiné à ouvrir le trou de serrure aussi longtemps que le circuit d'alarme est en
service.
2. Dispositif selon la revendication 1, caractérisé en ce que le volet (3) est agencé
pour retourner d'une position verrouillée par l'électro-aimant (7) à une position
influançant les moyens d'interruption sous l'action d'un ressort de rappel ou analogue,
interrompant par là l'alimentation en tension électrique délivrée par le circuit d'alarme
à l'électro-aimant (7).
3. Dispositif selon l'une des revendications 1 ou 2, caractérisé en ce que le volet (3)
est muni d'une butée (6) disposé pour agir sur les moyens d'interruption électrique
(8) dans une première position limité pour le déplacement du curseur (3) et en combinaison
avec des moyens associés (5) sert comme limiteur de déplacement durant un mouvement
de déplacement du volet (3) vers une seconde position limite.
4. Dispositif selon la revendication 3, caractérisé en ce que les moyens de butée (6)
sont disposés de manière à servir d'organe coopérant avec un organe de verrouillage
(10) actionnable au moyen d'électro-aimant (7) en vue de faciliter le verrouillage
du volet (3) lorsque celui-ci a été déplacé sur une petite distance à partir de la
position dans laquelle il obture le trou de la serrure du mécanisme de verrouillage.
5. Dispositif selon l'une des revendications 1 à 4, caractérisé en ce qu'il inclût un
dispositif de signalisation optique, par exemple une diode émettrice de lumière, branchée
pour créer un signal optique lorsqu'une tension est appliquée sur l'électro-aimant
(7).
6. Dispositif selon l'une des revendications 1 à 5, caractérisé en ce qu'il inclût un
dispositif de signalisation acoustique, par exemple un vibreur branché pour émettre
un signal acoustique lorsqu'une tension est appliquée sur l'électro-aimant (7).
7. Dispositif selon l'une des revendications 1 à 6, caractérisé en ce qu'il inclût un
dispositif de signalisation optique, par exemple une diode émettrice de lumière, branchée
pour délivrer un signal optique lorsque le circuit d'alarme est en service, indépendamment
du fait qu'une tension soit appliquée ou non sur l'électro-aimant.
1. Vorrichtung für durch eine Einbruchsicherung geschützte Türen, die dazu vorgesehen
ist, eine ungewünschte Entriegelung des Verriegelungsmechanismus einer Tür zu verhindern,
wenn der Alarmschaltkreis wirksam ist, mit einem verschiebbar angeordneten Schlitten
(3) auf einer äußeren Fläche der Tür, der in einer Position sicherbar ist, in der
er sich über das Schlüsselloch des Verriegelungsmechanismus durch den Einfluß eines
Elektromagneten (7) solange erstreckt, wie der Alarmschaltkreis angeschaltet ist,
dadurch gekennzeichnet, daß der Schlitten (3) dazu vorgesehen ist, eine elektrische
Schaltereinrichtung (8) zu beeinflussen, wenn er sich in einer Position befindet,
in der er sich über das Schlüsselloch erstreckt, und wodurch eine Spannungszufuhr
vom Alarmschaltkreis zum Elektromagneten (7) unterbrochen wird, und daß eine erste
Verschiebebewegung des Schlittens (3) in Richtung vom Schlüsselloch dazu dient, daß
die Schaltereinrichtung (8) die Spannungszufuhr zum Elektromagneten (7) vom Alarmschaltkreis
schließt, wodurch der Elektromagnet (7) dazu veranlaßt wird, den Schlitten (3) gegen
eine weitere Verschiebebewegung zu verriegeln, die dazu führen würde, das Schlüsselloch
zu öffnen, solange der Alarmschaltkreis angeschaltet ist.
2. Vorrichtung nach Anspruch 1, dadurch gekennzeichnet, daß der Schlitten (3) von einer
durch den Elektromagneten (7) verriegelten Stellung in eine Stellung zurückführbar
ist, in der die elektrische Schaltereinrichtung (8) unter dem Einfluß eines Rückführfederteiles
oder ähnlichem steht, wodurch die Spannungszufuhr vom Alarmschaltkreis zum Elektromagneten
(7) unterbrochen wird.
3. Vorrichtung nach Anspruch 1 und 2, dadurch gekennzeichnet, daß der Schlitten (3) mit
einer Anschlageinrichtung (6) versehen ist, die dazu vorgesehen ist, die elektrische
Schaltereinrichtung (8) in eine erste Beschränkungsstellung für die Verschiebung des
Schlittens (3) zu beeinflußen, und die in Kombination mit einer zugeordneten Einrichtung
(5) als ein Verschiebebeschränkungsteil während einer Verschiebebewegung des Schlittens
(3) in eine zweite Beschränkungsstellung dient.
4. Vorrichtung nach Anspruch 3, dadurch gekennzeichnet, daß die Anschlageinrichtung (6)
dazu vorgesehen ist, als ein Teil zu dienen, das mit einem Riegelteil (10) zusammenwirkt,
das mittels des Elektromagneten (7) betätigbar ist, um die Verriegelung des Schlittens
(3) gegen eine weitere Verschiebebewegung zu erleichtern, wenn der Schlitten (3) eine
kleinere Strecke von einer Position aus bewegt worden ist, in der er sich über das
Schlüsselloch des Riegelmechanismus erstreckt.
5. Vorrichtung nach einem der Ansprüche 1 bis 4, dadurch gekennzeichnet, daß sie weiterhin
eine optische Signalvorrichtung umfaßt, beispielsweise eine Licht aussendende Diode,
die angeschlossen ist, um eine optische Anzeige auszugeben, wenn eine Spannung zum
Elektromagneten (7) geleitet wird.
6. Vorrichtung nach einem der Ansprüche 1 bis 5, dadurch gekennzeichnet, daß sie eine
akkustische Signalvorrichtung umfaßt, beispielsweise einen Summer, die angeschlossen
ist, um eine akkustische Anzeige auszulösen, wenn eine Spannung an den Elektromagneten
(7) angelegt wird.
7. Vorrichtung nach einem der Ansprüche 1 bis 6, dadurch gekennzeichnet, daß sie eine
optische Signalvorrichtung aufweist, beispielsweise eine Licht aussendende Diode,
die angeschlossen ist, um eine optische Anzeige auszulösen, wenn der Alarmschaltkreis
angeschaltet ist, unabhängig davon, ob eine Spannung an den Elektromagneten (7) angelegt
wird oder nicht.