Patent Grant
9196137
The present invention relates to two-way wireless communication enabled intrusion detectors and intrusion detector assemblies.
Intrusion detectors typically employed in door or window intrusion detector assemblies are typically prone to be visible to potential intruders. It is therefore advantageous to provide intrusion detectors which are small and easy to conceal.
Additionally, it is advantageous to provide intrusion detectors which communicate with a central alarm system via wireless communication, thereby eliminating the need for installation of communication wiring.
It is further advantageous to provide intrusion detectors which communicate wirelessly via a two-way communication system, thereby facilitating for more reliable communication that is less prone to interference or blocking.
The present invention therefore seeks to provide an intrusion detector assembly having a narrow physical profile, while providing intrusion detection capabilities and two-way wireless communication functionality for communicating with an alarm system.
The present invention seeks to provide improved two-way wireless communication enabled intrusion detectors and intrusion detector assemblies.
There is thus provided in accordance with a preferred embodiment of the present invention a wireless door intrusion detection assembly including a magnet component installed on a door, and a fixed magnetic contact wireless transceiver component installed on a door frame corresponding to the door, opposite the magnet component, the fixed magnetic contact wireless transceiver component including a two-way transceiver element operable for two-way wireless communication between the fixed magnetic contact wireless transceiver component and an intrusion alarm system, an antenna facilitating the two-way wireless communication between the fixed magnetic contact wireless transceiver component and the intrusion alarm system, and an antenna ground reference plane, opposite the antenna.
Preferably, the antenna includes a flat elongate portion, first and second downward folded end portions extending downwardly from corresponding first and second ends of the flat elongate portion, a folded side portion extending outwardly from a side edge of the flat elongate portion, and an extended folded side portion extending outwardly from the side edge of the flat elongate portion.
Preferably, the antenna ground reference plane includes a flat elongate portion, first and second downward folded end portions extending downwardly from corresponding first and second ends of the flat elongate portion, and an elongate folded side portion extending from a side edge of the flat elongate portion.
Preferably, the flat elongate portion has a volume of 10.08 cubic millimeters. Additionally, the flat elongate portion has a length of 25.2 millimeters, a width of 2.0 millimeters and a thickness of 0.2 millimeters, each of the first and second downward folded end portions has a width of 2.0 millimeters and a thickness of 0.2 millimeters, and extends downwardly 1.1 millimeters from the corresponding first and second ends of the flat elongate portion, the folded side portion extends outwardly 0.4 millimeters and downwardly 0.9 millimeters from the side edge of the flat elongate portion, the distance between a far end of the second downward folded end portion and an opposite far end of the folded side portion being 13.6 millimeters, and the extended folded side portion extends outwardly 1.8 millimeters and downwardly 1.1 millimeters from the side edge of the flat elongate portion, the distance between the far end of the second folded end portion and the opposite far end of the folded side portion being 5.8 millimeters.
Preferably, the first downward folded end portion is connected via a capacitor to ground. Preferably, the second downward folded end portion is grounded. Preferably, the extended folded side portion serves as an input\output port of the antenna.
Preferably, the flat elongate portion has a volume of 15.972 cubic millimeters. Additionally, the flat elongate portion has a length of 24.2 millimeters, a width of 3.3 millimeters and a thickness of 0.2 millimeters, each of the first and second downward folded end portions has a width of 3.3 millimeters and a thickness of 0.2 millimeters, and extends downwardly 1.1 millimeters from the corresponding first and second ends of the flat elongate portion, and the elongate folded side portion extends outwardly 0.5 millimeters and downwardly 1.1 millimeters from the side edge of the flat elongate portion.
Preferably, the wireless door intrusion detection assembly also includes a REED switch operable for sensing changes in a magnetic field induced by the magnet component, the changes being potentially indicative of an intrusion, and communicating indications of the changes to the alarm system via the two-way transceiver component.
Preferably, the magnet component includes a contact component installation marker for alignment thereof with a corresponding transceiver component installation marker included on the fixed magnetic contact wireless transceiver component, upon installation of the magnet component and the fixed magnetic contact wireless transceiver component in the door assembly.
Preferably, the fixed magnetic contact wireless transceiver component also includes top and bottom housing elements. Preferably, the fixed magnetic contact wireless transceiver component also includes a recess which facilitates removal of the bottom housing element from the fixed magnetic contact wireless transceiver component.
Preferably, the top housing element includes at least one of at least one snap-in element and at least one retaining element integrally formed therein, for tightly retaining the two-way transceiver element within the top and bottom housing elements. Additionally, the top housing element includes a battery housing element for housing a battery, and at least one of at least one snap-in element and at least one retaining element operable for retaining the battery within the battery housing. Preferably, the battery housing element includes at least one battery engaging element and at least one battery circuit engaging element, and the two-way transceiver element includes at least one transceiver circuit engaging element, the battery engaging element being operable for galvanically connecting a negative contact of the battery with the at least one battery circuit engaging element, the at least one battery circuit engaging element being operable for galvanic engagement with the at least one transceiver circuit engaging element of the two-way transceiver element upon enclosing the two-way transceiver element within the housing elements.
Preferably, apertures for receiving the at least one of at least one snap-in element and at least one retaining element are formed in the bottom housing element. Additionally or alternatively, apertures for facilitating fastening of the fixed magnetic contact wireless transceiver component to the door frame are formed in the bottom housing element.
Preferably, the fixed magnetic contact wireless transceiver component also includes a tamper switch, wherein an attempt to tamper with the fixed magnetic contact wireless transceiver component upon being fastened to the door frame results in toggling of the tamper switch. Preferably, the fixed magnetic contact wireless transceiver component also includes an operator button operable for initiating, by an operator of the alarm system, communication of the fixed magnetic contact wireless transceiver component with the alarm system upon at least one of installation of the fixed magnetic contact wireless transceiver component and maintenance thereof.
Preferably, the two-way transceiver element includes a battery engaging element operable for engaging a positive contact of the battery.
Preferably, the antenna is configured for high frequency communication with the alarm system, the high frequency being one of 868 MHz and 915 MHz. Preferably, the antenna ground reference plane opposite the antenna is operative to improve the gain of the antenna and to diminish interfering effects of materials disposed in a vicinity of the fixed magnetic contact wireless transceiver component. Preferably, the materials include metals, and the interfering effects include at least one of mistuning of the antenna, degradation of performance of the antenna and degradation of a range of the antenna.
Preferably, the fixed magnetic contact wireless transceiver component also includes a LED indicator operative to provide visual indications of a status of the fixed magnetic contact wireless transceiver component to an operator of the fixed magnetic contact wireless transceiver component. Preferably, the visual indications include an indication of communication signal strength of the fixed magnetic contact wireless transceiver component. Preferably, the LED indicator is operable to provide the visual indications in a multiplicity of colors.
There is also provided in accordance with another preferred embodiment of the present invention a wireless door intrusion detection assembly including a magnet component installed on a door and a fixed magnetic contact wireless transceiver component installed on a door frame corresponding to the door, opposite the magnet component, the fixed magnetic contact wireless transceiver component including a two-way transceiver component operable for two-way wireless communication between the fixed magnetic contact wireless transceiver component and an intrusion alarm system, and an L-shaped antenna facilitating the two-way wireless communication between the fixed magnetic contact wireless transceiver component and the intrusion alarm system.
Preferably, the L-shaped antenna includes a long flat elongate portion and a short flat elongate portion perpendicular to the long flat elongate portion, the long flat elongate portion and the short flat elongate portion having a combined volume of 19.8 cubic millimeters. Additionally, the long flat elongate portion has a length of 33.3 millimeters, a width of 2.0 millimeters and a thickness of 0.2 millimeters, and the short flat elongate portion has a length of 18.2 millimeters, a width of 2.0 millimeters and a thickness of 0.2 millimeters.
Preferably, the L-shaped antenna also includes a first downward folded end portion extending downwardly from an end of the long flat elongate portion, a first folded side portion extending outwardly and downwardly from a side edge of the long flat elongate portion, a second downward folded end portion extending downwardly from an end of the short flat elongate portion, and a second folded side portion extending outwardly and downwardly from a side edge of the short flat elongate portion.
Additionally, the first downward folded end portion has a width of 2.0 millimeters and a thickness of 0.2 millimeters, and extends downwardly 1.1 millimeters from the end of the long flat elongate portion, the first folded side portion extends outwardly 0.4 millimeters and downwardly 1.1 millimeters from the side edge of the long flat elongate portion, the distance between a far end of the first folded end portion and a near end of the first folded side portion being 24.3 millimeters, the second downward folded end portion has a width of 2.0 millimeters and a thickness of 0.2 millimeters, and extends downwardly 1.1 millimeters from the end of the short flat elongate portion, and the second folded side portion extends outwardly 0.4 millimeters and downwardly 1.1 millimeters from the side edge of the short flat elongate portion, the distance between a far end of the second folded end portion and a near end of the second folded side portion being 3.5 millimeters.
Preferably, the first downward folded end portion is connected via a capacitor to ground. Preferably, the second downward folded end portion is grounded. Preferably, the second folded side portion serves as an input\output port of the antenna.
Preferably, the wireless door intrusion detection assembly also includes a REED switch operable for sensing changes in a magnetic field induced by the magnet component, the changes being potentially indicative of an intrusion, and communicating indications of the changes to the alarm system via the two-way transceiver component.
Preferably, the magnet component includes a contact component installation marker for alignment thereof with a corresponding transceiver component installation marker included on the fixed magnetic contact wireless transceiver component, upon installation of the magnet component and the fixed magnetic contact wireless transceiver component in the door assembly.
Preferably, the fixed magnetic contact wireless transceiver component also includes top and bottom housing elements. Preferably, the fixed magnetic contact wireless transceiver component also includes a recess which facilitates removal of the bottom housing element from the fixed magnetic contact wireless transceiver component.
Preferably, the top housing element includes at least one of at least one snap-in element and at least one retaining element integrally formed therein, for tightly retaining the two-way transceiver element within the top and bottom housing elements. Additionally, the top housing element includes a battery housing element for housing a battery, and at least one of at least one snap-in element and at least one retaining element operable for retaining the battery within the battery housing. Preferably, the battery housing element includes at least one battery engaging element and at least one battery circuit engaging element, and the two-way transceiver element includes at least one transceiver circuit engaging element, the battery engaging element being operable for galvanically connecting a negative contact of the battery with the at least one battery circuit engaging element, the at least one battery circuit engaging element being operable for galvanic engagement with the at least one transceiver circuit engaging element of the two-way transceiver element upon enclosing the two-way transceiver element within the housing elements.
Preferably, apertures for receiving the at least one of at least one snap-in element and at least one retaining element are formed in the bottom housing element. Additionally or alternatively, apertures for facilitating fastening of the fixed magnetic contact wireless transceiver component to the door frame are formed in the bottom housing element.
Preferably, the fixed magnetic contact wireless transceiver component also includes a tamper switch, wherein an attempt to tamper with the fixed magnetic contact wireless transceiver component upon being fastened to the door frame results in toggling of the tamper switch. Preferably, the fixed magnetic contact wireless transceiver component also includes an operator button operable for initiating, by an operator of the alarm system, communication of the fixed magnetic contact wireless transceiver component with the alarm system upon at least one of installation of the fixed magnetic contact wireless transceiver component and maintenance thereof.
Preferably, the two-way transceiver element includes a battery engaging element operable for engaging a positive contact of the battery.
Preferably, the antenna is configured for low frequency communication with the alarm system, the low frequency being 433 MHz. Preferably, the antenna ground reference plane opposite the antenna is operative to improve the gain of the antenna and to diminish interfering effects of materials disposed in a vicinity of the fixed magnetic contact wireless transceiver component. Preferably, the materials include metals, and the interfering effects include at least one of mistuning of the antenna, degradation of performance of the antenna and degradation of a range of the antenna.
Preferably, the fixed magnetic contact wireless transceiver component also includes a LED indicator operative to provide visual indications of a status of the fixed magnetic contact wireless transceiver component to an operator of the fixed magnetic contact wireless transceiver component. Preferably, the visual indications include an indication of communication signal strength of the fixed magnetic contact wireless transceiver component. Preferably, the LED indicator is operable to provide the visual indications in a multiplicity of colors.
The present invention will be understood and appreciated more fully from the following detailed description taken in conjunction with the drawings in which:
Reference is now made to
As shown in
It is appreciated that magnet component 104 and fixed magnetic contact wireless transceiver component 106 are of a narrow physical profile, thereby facilitating concealment of magnet component 104 and fixed magnetic contact wireless transceiver component 106 from potential intruders.
A contact component installation marker 109 is preferably provided on magnet component 104 for alignment with a corresponding transceiver component installation marker 110 provided on wireless transceiver component 106 upon installation of magnet component 104 and wireless transceiver component 106 in door assembly 100.
Fixed magnetic contact wireless transceiver component 106 preferably includes Top and bottom housing elements 112 and 114. A recess 115 facilitates removal of bottom housing element 114 from fixed magnetic contact wireless transceiver component 106.
Turning now to
Top housing element 112 preferably includes a battery housing element 130 for housing a battery 132, which is preferably retained within battery housing 130 by a pair of snap-in elements 134 and a pair of retaining elements 135. Apertures 136 are formed in bottom housing element 114 for receiving snap-in elements 134 and apertures 137 are formed in bottom housing element 114 for receiving retaining elements 135.
Battery engaging elements 138 are preferably formed in battery housing element 130 for galvanically connecting a negative contact of battery 132 with battery circuit engaging elements 140. Circuit engaging elements 140 are preferably configured for galvanic engagement with transceiver circuit engaging elements of two-way transceiver element 116 upon enclosing two-way transceiver element 116 within housing elements 112 and 114.
Reference is now made to
In the embodiment of
Reference is now made to
As shown in particular in
As described hereinabove with reference to
An operator button 204 is preferably provided on two-way transceiver element 116 for initiating, by an operator of alarm system 108 of
A battery engaging element 206 is provided for engaging a positive contact of battery 132 housed in housing element 130 of top housing element 112 (
An antenna 210 is provided on a top surface 212 of two-way transceiver element 116 for two-way communication between wireless transceiver component 106 and alarm system 108, and an antenna ground reference plane 214 is preferably provided on a bottom surface 216 of two-way transceiver element 116, generally opposite antenna 210. Antenna 210 is preferably a high frequency antenna operative for communicating, for example, at 868 or at 915 MHz. It is appreciated that the configuration of antenna ground reference plane 214 opposite antenna 210 is operative to improve the gain of antenna 210 and to diminish interfering effects of various materials, such as metals, disposed in the vicinity of wireless transceiver component 106. Such interfering effects may, for example, cause mistuning of antenna 210 or degradation of performance and range of antenna 210.
Apertures 218 and 219 are preferably formed in two-way transceiver element 116 for facilitating handling of two-way transceiver element 116 while in production thereof.
Turning now to
As further shown in
Reference is now made to
A folded side portion 236 extends outwardly 0.4 millimeters and downwardly 0.9 millimeters from a side edge 237 of flat elongate portion 230. The distance between the far end of folded end portion 234 and an opposite far end of folded side portion 236 is 13.6 millimeters.
An extended folded side portion 238 extends outwardly 1.8 millimeters and downwardly 1.1 millimeters from side edge 237 of flat elongate portion 230. The distance between the far end of folded end portion 234 and an opposite far end of folded side portion 236 is 5.8 millimeters. Extended folded side portion 238 preferably serves as an input\output port of antenna 210.
Reference is now made to
An elongate folded side portion 246 extends outwardly 0.5 millimeters and downwardly 1.1 millimeters from a side edge of flat elongate portion 240.
Reference is now made to
As shown in particular in
As described hereinabove with reference to
An operator button 304 is preferably provided on two-way transceiver element 116 for initiating, by an operator of alarm system 108 of
A battery engaging element 306 is provided for engaging a positive contact of battery 132 housed in housing element 130 of top housing element 112 (
Turning now to
Apertures 318 and 319 are preferably formed in two-way transceiver element 116 for facilitating handling of two-way transceiver element 116 while in production thereof.
A LED indicator 320 is provided on top surface 312 of two-way transceiver element 116. LED indicator 320 is preferably operative to provide visual indications of the status of wireless transceiver component 106 to an operator via an aperture in top housing element 112. The visual indications may include, for example, an indication of communication signal strength of wireless transceiver component 106. LED indicator 320 is preferably operable to provide visual indications of various colors and may comprise, for example, three LED chips of different colors, such as red, yellow and green.
As further shown in
Reference is now made to
Longer flat elongate portion 330 includes a downward folded end portion 334 having a width of 2.0 millimeters and a thickness of 0.2 millimeters, which extends downwardly 1.1 millimeters from an end of flat elongate portion 330. Downward folded end portion 334 is preferably connected via a capacitor to ground.
A folded side portion 336 extends outwardly 0.4 millimeters and downwardly 1.1 millimeters from an edge of flat elongate portion 330. The distance between the far end of folded end portion 334 and a near end of folded side portion 336 is 24.3 millimeters.
Shorter flat elongate portion 332 includes a downward folded end portion 338 having a width of 2.0 millimeters and a thickness of 0.2 millimeters, which extends downwardly 1.1 millimeters from an end of flat elongate portion 332. Downward folded end portion 338 is preferably grounded.
A folded side portion 340 extends outwardly 0.4 millimeters and downwardly 1.1 millimeters from an edge of flat elongate portion 332. The distance between the far end of folded end portion 338 and a near end of folded side portion 340 is 3.5 millimeters. Folded side portion 340 preferably serves as an input\output port of antenna 210.
It will be appreciated by persons skilled in the art that the present invention is not limited by what has been particularly shown and described hereinabove. Rather the scope of the present invention includes both combinations and subcombinations of the various features described hereinabove as well as modifications thereof which would occur to persons skilled in the art upon reading the foregoing description and which are not in the prior art.
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| Number | Date | Country | |
|---|---|---|---|
| 20150199888 A1 | Jul 2015 | US |
