A wireless obstacle detection system includes a wireless obstacle sensor and a communication module designed to provide a retrofit solution for easily adding obstacle detection capabilities to a previously installed barrier operator system. To facilitate ease of installation, the communication module can communicate with a large variety of barrier operators including using at least two different protocols for communication with obstacle detectors. Such communication may be wireless or wired, depending on the barrier operator and communication protocol implemented by a particular previously installed barrier operator. Once configured to be able to communicate with a previously installed barrier operator, the communication module receives communications from the wireless obstacle detector about the presence or absence of an obstacle at or near the barrier and transmits a corresponding communication to the barrier operator using the correct protocol.
An apparatus having a controller will initiate an obstacle detector alignment mode. An annunciation system of the apparatus effects a first annunciation mode in response to a receiving component of an obstacle detection system receiving a signal transmitted from a transmitting component of the obstacle detection system. The annunciation system effects a second annunciation mode in response to the receiving component of the obstacle detection system not receiving the signal transmitted from the transmitting component of the obstacle detection system.
E05F 15/73 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique sensible au déplacement ou à la présence de personnes ou d’objets
A movable barrier operator mounts to a ceiling or a wall of a garage. The movable barrier operator includes an operator housing with a motor configured to open and close a movable barrier. The movable barrier operator also includes an LED light source mounted to the housing, a light cover, and a light distributing element. The light cover has several side surfaces that surround or covers the light source. The light distributing element mounts relative to the light source and is configured to scatter light projected by the LED light source so that some of the scattered light is directed toward one or more of the side surfaces of the light cover.
F21K 9/60 - Agencements optiques intégrés dans la source lumineuse, p.ex. pour améliorer l’indice de rendu des couleurs ou l’extraction de lumière
E05F 15/668 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants à coulissement vertical pour battants s’ouvrant de haut en bas
F21K 9/66 - Agencements optiques intégrés dans la source lumineuse, p.ex. pour améliorer l’indice de rendu des couleurs ou l’extraction de lumière - Détails des globes ou des couvercles faisant partie de la source lumineuse
F21K 9/68 - Agencements optiques intégrés dans la source lumineuse, p.ex. pour améliorer l’indice de rendu des couleurs ou l’extraction de lumière - Détails des réflecteurs faisant partie de la source lumineuse
A barrier operator that controls operation of a camera includes a controller, a communication module, and control circuitry. The controller moves a barrier between open and closed positions. The communication module receives open/close commands from a peripheral device. The control circuitry is in communication with the controller, the communication module, and a camera. The control circuitry of the barrier operator automatically activates the camera to capture at least one visual image in response to receiving an open/close command and/or a determination to move the barrier.
E05F 15/668 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants à coulissement vertical pour battants s’ouvrant de haut en bas
G08B 13/08 - Déclenchement mécanique par ouverture, p.ex. de portes, de fenêtres, de tiroirs, de contrevents, de rideaux ou de stores
G08B 13/196 - Déclenchement influencé par la chaleur, la lumière, ou les radiations de longueur d'onde plus courte; Déclenchement par introduction de sources de chaleur, de lumière, ou de radiations de longueur d'onde plus courte utilisant des systèmes détecteurs de radiations passifs utilisant des systèmes de balayage et de comparaison d'image utilisant des caméras de télévision
G08B 25/00 - Systèmes d'alarme dans lesquels l'emplacement du lieu où existe la condition déclenchant l'alarme est signalé à une station centrale, p.ex. systèmes télégraphiques d'incendie ou de police
Controlling movable barrier movement with respect to selectively overriding a safety system includes determining whether a safety system is in an operation failure or misalignment state, the safety system being configured to detect obstruction in a path of movement of a movable barrier, receiving a state change request for the movable barrier while the safety system is in the operation failure or misalignment state, determining whether a safety override condition exists, and overriding the safety system and actuating the movable barrier if the safety system is in the operation failure or misalignment state and the safety override condition exists.
E05F 15/73 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique sensible au déplacement ou à la présence de personnes ou d’objets
A barrier sensor device and associated control device monitor operation of a barrier operator system. The barrier sensor device monitors operation of barrier operators for undesirable amounts of strain without barrier operator force as an input. The barrier sensor device instead detects both motion and tilt of a barrier. By monitoring these two aspects of barrier operation, the barrier sensor device compiles data that can be analyzed by the control device and compared to un-strained or previously compiled barrier operator data to determine whether the barrier operator system is under strain and requires service.
E05F 15/41 - Détection par contrôle de la force ou du couple transmis; Accouplements de sécurité avec activation en fonction du couple ou de la force, p.ex. accouplements glissants
E05F 15/40 - Dispositifs de sécurité, p.ex. détection d’obstacles ou de fin de course
7.
AUTOMATED CREDENTIALING OF DEVICE NEWLY ADDED TO A NETWORK
A device newly introduced to a network is automatically credentialed to be able to communicate over a network before the device first communicates with the network. For example, at a point of purchase, a user can provide network identification information to a merchant computing device that effects transfer of that information to the new device such that the new device can communicate directly with the network without initial credentialing directly between the unique device and the local network. In another example, the merchant computing device communicates with the local network to register a newly purchased device with the local network before the newly purchased device is introduced to the network. Accordingly, the network is configured to begin communications with the unique device without initial credentialing directly between the unique device and the local network.
A barrier operator feature enhancement device is designed to provide one or more features found in modern barrier operator devices and to incorporate those features into a previously installed barrier operator system. To facilitate ease of use, the barrier operator feature enhancement device can communicate with a large variety of barrier operators. Such communication may be wireless or wired, depending on the communication protocol implemented by a particular previously installed barrier operator. To facilitate the ease of installation, the device is designed to configure itself to operate with the communication protocol of the previously installed barrier operator. Once configured to be able to communicate with the previously installed barrier operator, the feature enhancement device works with the barrier operator to provide one or more additional features to enhance the capabilities of the previously installed barrier operator.
E05F 15/70 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique
G08C 17/02 - Dispositions pour transmettre des signaux caractérisées par l'utilisation d'une voie électrique sans fil utilisant une voie radio
G08C 19/00 - Systèmes de transmission de signaux électriques
H04B 7/26 - Systèmes de transmission radio, c. à d. utilisant un champ de rayonnement pour communication entre plusieurs postes dont au moins un est mobile
A fluid-based spring counterbalance mechanism comprising an elastic flexible fluid-based spring disposed between two surfaces is used to support some or all of the weight of a movable barrier. A linkage mechanism comprising at least one rotating rotatable shaft is configured to receive rotational motion from a jackshaft associated with the movable barrier. A translational mechanism coupled to the at least one rotating shaft and coupled to at least one of the two surfaces is configured to compress the flexible fluid-based spring between the two surfaces in response to rotation of the rotatable shaft. By compressing the fluid-based spring, the counterbalance mechanism provides a force that partially or fully supports the weight of the movable barrier.
E05F 3/00 - Appareils de fermeture ou d'ouverture à dispositif de freinage, p.ex. ralentisseurs; Structure des dispositifs de freinage pneumatique ou à liquide
A chassis for a barrier operator is provided. The barrier operator includes a motor and a transmission configured to cooperate with a rail system to move a barrier. The chassis includes a unibody frame having a first portion, a second portion, and a third portion. The first portion is configured to receive and secure the motor to the unibody frame. The second portion is configured to receive and secure the transmission to the unibody frame. The third portion is configured to receive and secure at least a portion of the rail system to the unibody frame. The first, second, and third portions are formed as a single, integral component.
The present invention relates to a chassis for a barrier operator. The chassis has a first flange that defines a motor flange formed to receive and mount a motor, the first flange housing at least a part of a transmission configured to receive rotational power from the motor and provide the rotational power to a drive gear. A second flange is integral with the first flange and defines a pair of arms that define a slot that is configured to receive a first portion of a rail. The second flange and the pair of arms define an aperture for receiving a second portion of the rail. The second flange defines a C- shaped portion that, with the pair of arms, defines an aperture for receiving the first rail portion and receiving a rail portion from another rail system with an end thereof approximately aligned with the drive gear.
An access controller apparatus and method for controlling physical access to an area are provided to determine a current priority level setting of the access controller and to ignore a received command in response to a comparison of the priority level of the received command to the current priority level setting of the access controller. Thus, a prioritized response to commands is provided such that commands of certain priority levels can be acted upon in certain situations. This helps allow for proper responses to multiple conflicting commands and for prioritized responses to commands of greater importance or of universal impact.
G05B 19/042 - Commande à programme autre que la commande numérique, c.à d. dans des automatismes à séquence ou dans des automates à logique utilisant des processeurs numériques
A hydraulic brake apparatus, a movable barrier apparatus, a hydraulic brake kit, a method of stopping movement of a movable barrier, and a method installing a hydraulic brake assembly are described herein. A selectively operable piston mechanism converts rotation of a drive shaft of a movable barrier into hydraulic pressure used to operate a brake configured to stop movement of the drive shaft.
An end-user device can aggregate information as pertains to a variety of appliances that otherwise utilize incompatible communication protocols to present a shared opportunity to accommodate current information regarding those appliances. This information can include status information regarding such appliances as well as, or in lieu of, instructions to be acted upon by those appliances. Gateways can serve to provide a communications interface between such appliances and, for example, an internet. By one approach one or more middleware platform intermediaries can interface between one or more of those gateways and the end-user device.
H02J 13/00 - Circuits pour pourvoir à l'indication à distance des conditions d'un réseau, p.ex. un enregistrement instantané des conditions d'ouverture ou de fermeture de chaque sectionneur du réseau; Circuits pour pourvoir à la commande à distance des moyens de commutation dans un réseau de distribution d'énergie, p.ex. mise en ou hors circuit de consommateurs de courant par l'utilisation de signaux d'impulsion codés transmis par le réseau
15.
APPARATUS AND METHOD PERTAINING TO THE USE OF WIRELESS SIGNALS TO CONTROL AN APPLIANCE
An appliance wirelessly receives any of a plurality of different signals that comprise control instructions from a transmitter for a second appliance other than the appliance and of a different class of appliance. The appliance then provides, in the absence of learning, any of a plurality of different control instructions to be used by the appliance as a function of that received signal. By one approach those wirelessly-received control instructions relate to controllable functions for the second appliance. Pursuant to these teachings, the receiving appliance effectively converts a received control instruction that relates to one kind of functionality for a given kind of appliance into a control instruction that relates to a different kind of functionality and that is usable by a different kind of appliance.
A motor is configured to operate in one of at least two modes in response to determining that a power provided by a power supply for the motor crosses certain thresholds. For example, first and second windings apply a rotating force to a rotating armature of a single motor. The first and second windings are electrically coupled to first and second commutators, respectively, which transmit power to the first and second windings from a first and second power source, respectively. In other aspects, different power sources power the motor, and the motor operates at different speeds depending on the power source applied. For example, the change in power sources is effected in response to detecting a change in applied power past a threshold, thus effecting the motor's operation in a second, different speed. So configured, a single motor can reduce deployment of bulky and expensive add-on equipment.
H02K 13/00 - Association structurelle de collecteurs de courant et de moteurs ou de génératrices, p.ex. plaques de montage des balais ou connexions avec les enroulements; Agencement des collecteurs de courant dans les moteurs ou les génératrices; Dispositions pour améliorer la commutation
E05F 15/603 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs
E05F 15/608 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants à tambour
H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries
H02K 3/28 - Schémas d'enroulements ou de connexions entre enroulements
H02P 25/22 - Enroulements multiples; Enroulements pour plus de trois phases
17.
ENCRYPTED COMMUNICATIONS FOR A MOVABLE BARRIER ENVIRONMENT
An at least partially secure communication environment is provided in which accessory devices can be communicated with and controlled in the context of a movable barrier operator system. In one example approach, a gateway device can be configured to coordinate and control such communications in a secure manner. Three example approaches to such a communication environment include: a gateway device's receiving an accessory device control signal and sending a rolling code based accessory command signal to a target accessory device; receiving a rolling code based accessory device control signal and sending a command signal to an accessory device; and receiving a rolling code based accessory device control signal and sending a rolling code based accessory command signal to a target accessory device. Combinations are possible. An integrated system provides for automatic functioning of one device in response to status changes of one or more other devices.
An at least partially secure communication environment is provided in which accessory devices can be communicated with and controlled in the context of a movable barrier operator system. In one example, an apparatus comprises a gateway device having at least one of an antenna configured to communicate wirelessly with at least one of a plurality of accessory devices associated with a movable barrier operator configured to be operatively connected to a movable barrier to move the movable barrier between an open position and a closed position, or a port configured to communicate with at least one of the plurality of accessory devices via a wired connection. A processing device is configured to control communications with the accessory devices by receiving an accessory device control signal designed to implement a function of one of the accessory devices, triggering sending a rolling code based accessory command signal to the accessory device.
E05F 15/60 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques
E05F 15/77 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique utilisant une commande sans fil
G08C 17/02 - Dispositions pour transmettre des signaux caractérisées par l'utilisation d'une voie électrique sans fil utilisant une voie radio
19.
METHOD AND APPARATUS TO ACCOMMODATE BOTH A LEARN MODE OF OPERATION AND A PAIRING MODE OF OPERATION DURING A RELATIONSHIP-ESTABLISHMENT MODE OF OPERATION
A control circuit initiates a relationship-establishment mode of operation and operates in both a learn mode of operation and a pairing mode of operation. When the control circuit completes one of these modes of operation (for example, the learn mode of operation, the pairing mode of operation, or either) the relationship-establishment mode of operation can switch to only using the remaining mode of operation during a remainder of the relationship- establishment mode of operation. One can also disable a previously-established relationship for each of a first category of remote platforms (such as remote platforms that became authorized through a learn mode of operation) when the user presses a button. Upon then detecting a second end-user assertion of the end-user interface, the control circuit can further disable a previously-established relationship with each of a second category of remote platforms (such as remote platforms that became authorized through a pairing mode of operation).
G08C 17/02 - Dispositions pour transmettre des signaux caractérisées par l'utilisation d'une voie électrique sans fil utilisant une voie radio
E05F 15/77 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique utilisant une commande sans fil
H04B 7/26 - Systèmes de transmission radio, c. à d. utilisant un champ de rayonnement pour communication entre plusieurs postes dont au moins un est mobile
In one aspect, a method of operating a movable barrier operator includes engaging a flexible driven member with a drive of the movable barrier operator. The method includes moving the flexible driven member in a first direction to move a movable barrier connected to the driven member and monitoring the position of the movable barrier. In response to the movable barrier reaching a given position, the driven member is moved in a second direction without moving the movable barrier to remove slack from the driven member. In another aspect, a movable barrier apparatus includes a movable barrier controller operatively coupled to a movable barrier operator. The movable barrier controller is configured to cause the movable barrier operator to reverse direction of a flexible driven member a distance after stopping movement of a movable barrier toward a limit position and without moving the movable barrier.
E05F 15/603 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs
E05F 15/608 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants à tambour
E05F 15/00 - Mécanismes pour battants mus par une force motrice
21.
METHOD AND APPARATUS PERTAINING TO BARRIER MOVEMENT CONTROLLERS AND EMPLOYING A CAMERA AND A WIRELESS TRANSMITTER
A control circuit, upon detecting a condition of interest, automatically forwards information regarding a recently-captured image to a predetermined recipient. Upon then later receiving an instruction (which instruction was prompted at least on behalf of the predetermined recipient), the control circuit then wirelessly transmits a movable barrier remote control signal to a corresponding barrier movement controller.
One or more repeaters enable the conveyance of both asynchronous and synchronous transmissions. This can comprise receiving, via a first carrier, a transmission from a message source that is asynchronous with respect to a time slot partitioning of the communication protocol and then, when the asynchronous transmission is received during an asynchronous source transmission portion, buffering a corresponding message until a next available synchronous time slot opportunity during the asynchronous source transmission portion and then transmitting the message via the first carrier to at least attempt to forward the message.
A pool of identifiers are individually used by corresponding particular ones of a repeaters. A communications protocol as used by the repeaters provides time slots to be used by these repeaters when making their transmissions. Each of the time slots is associated with individual corresponding ones of the identifiers, though the time slots are allocated unequally amongst the identifiers such that at least one of the identifiers has more time slots allocated to that identifier, over a given beacon cycle, than others of the identifiers.
H04B 7/212 - Accès multiple par répartition dans le temps
H04J 3/16 - Systèmes multiplex à division de temps dans lesquels le temps attribué à chacun des canaux au cours d'un cycle de transmission est variable, p.ex. pour tenir compte de la complexité variable des signaux, pour adapter le nombre de canaux transmis
A system and method for training a learning transceiver to a movable barrier system includes a learning transceiver that is configured for being trained to the movable barrier system. To provide ease of use to consumers, a user is able to train the learning transceiver to the movable barrier system without needing to push a button on a movable barrier operator or use a pretrained transmitter. To this end, a movable barrier operator is configured to transmit a transmission signal to the learning transceiver including a rolling access code, which is used to train the learning transceiver. To maintain the security of the movable barrier system and to restrict unauthorized users from accessing the movable barrier system, the movable barrier operator waits to transmit the transmission signal, including the rolling access code, to the learning transceiver until it has received an indication that a predetermined event occurred.
25.
METHOD AND SYSTEM OF CONDITIONALLY OPERATING A MOVABLE BARRIER
A method and system provides conditional allowance of access by operating a movable barrier such that access is not granted unless another condition is met. In one illustrative approach, a fist signal is received and, if a second signal is received within a set time frame relative to receipt of the second signal, a movable barrier operator is then activated. By one approach, one of the signals is a long-range transmission, and the other signal is a visual-range transmission.
A movable barrier operator controls access to a secured area which houses vehicles. The movable barrier operator is operable to move a movable barrier from an open to a closed position. A sensor controls the operation of a service-providing device through the controller of a movable barrier operator or by direct communication to a controller for the service-providing device. The sensing device senses whether a vehicle is present in the secured area. The sensor is operatively connected to the moveable barrier operator and is used to control the operation of at least one service-providing device without necessarily effecting movement of a barrier by the movable barrier operator. Operation of the service-providing device is effected upon sensing whether a vehicle is present in the secured area to effect an operation of the service-providing device.
E05F 15/73 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique sensible au déplacement ou à la présence de personnes ou d’objets
E05F 15/70 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique
27.
MOVABLE BARRIER OPERATOR AND TRANSMITTER WITH IMMINENT BARRIER MOVING NOTIFICATION
A movable barrier system with a moving-barrier imminent motion notification includes a movable barrier and a movable barrier operator connected to control movement of the movable barrier between a first position and a second position. To reduce user dissatisfaction with the moving-barrier imminent motion notification, communications to the movable barrier operator include information to assist the operator in determining whether to operate the moving-barrier imminent motion notification in combination with moving the door or to specifically command that the moving-barrier imminent motion notification operate or not. The communication may include a signal or input separate from and in addition to a typical command signal or input to the operator. By other approaches, the method of communication can provide information to the operator with respect to operation of the moving-barrier imminent motion notification, or a transmitter identifier can provide information with respect to operation of the moving-barrier imminent motion notification.
A movable barrier system allows for varying the linear actuator speed to account for speed variances caused by the physical configuration of the system. An example system includes a processor configured to variably control operation speed of the linear actuator when it moves a movable barrier between a first position of the movable barrier and a second position of the movable barrier as a function of location of the movable barrier pivot connection relative to the linear actuator pivot connection. The function may be a function of a ratio of a distance from the linear actuator pivot connection to a fixed point and a distance from the movable barrier pivot connection to the fixed point. The function may be calculated by the processor or accessed by the processor according to information about the physical configuration of the system.
E05F 15/611 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants pivotants
G05B 19/042 - Commande à programme autre que la commande numérique, c.à d. dans des automatismes à séquence ou dans des automates à logique utilisant des processeurs numériques
29.
APPARATUS AND METHOD PERTAINING TO A PIVOTING BARRIER
An apparatus for use with a post (602) and a corresponding pivoting barrier (601) comprises a post-mountable bracket (300) and a pivoting barrier-mountable bracket (500). The former comprises a frame (301)configured to be affixed to the post, a barrier pivot (305) that is affixed to the frame, and a linear actuator arm mounting bracket (307) that is also affixed to the frame. The pivoting barrier-mountable bracket can comprise a frame (501) configured to be affixed to the pivoting barrier, a post pivot (505) that is affixed to the frame and that is configured to pivotally mate with the barrier pivot, and a linear actuator arm mounting bracket (507).
E01F 13/04 - Dispositions pour interdire ou limiter la circulation, p.ex. portes, barrières pouvant être déplacées pour permettre ou empêcher le passage
E01F 13/00 - Dispositions pour interdire ou limiter la circulation, p.ex. portes, barrières
30.
APPARATUS AND METHOD PERTAINING TO A PRE-CONFIGURED POST FOR USE WITH AN AUTOMATICALLY-MOVABLE BARRIER
A post (200) for use with an automatically-movable barrier (1203) and a motive actuator (1204) is configured to interact with the barrier to thereby facilitate movement of the barrier with respect to the post. This post can have at least one cavity (201, 801) formed axially therein and a mains-power-bearing pathway (202) disposed within this at least one cavity to convey mains electrical power to moveable barrier control circuitry (1202) as well as the motive actuator. Such a post can further comprise one or more integral pivot points (1001) that are configured to pivotally engage the automatically-movable barrier such that the automatically-movable barrier can selectively pivot about the integral pivot point. By another approach, such a post can further comprise one or more rollers (1101) that are configured to engage the automatically-movable barrier such that the latter can selectively move in a lateral direction through engagement with the roller(s).
E05F 15/60 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques
E01F 13/08 - Dispositions pour interdire ou limiter la circulation, p.ex. portes, barrières pouvant être déplacées pour permettre ou empêcher le passage par pivotement vers la position fermée autour d'un axe transversal situé dans la surface de la route, p.ex. portions de la surface de la route pouvant être basculées, poteaux de parcage pouvant être basculés
A system includes a translator device that is configured to receive, using a pre-programmed native mode of operation, a first barrier actuation code transmitted by a transmitter according to a first code format. The translator device then analyzes the first barrier actuation code and verifies that it is a valid code. When a valid code, the translator device saves the information contained in the code, and creates a second barrier actuation code at least in part from information contained in the first actuation code and transmits the second barrier actuation code according to the second code format, which is different from the first code format. A barrier operator is coupled to the translator device and a barrier. The barrier operator has a receiver apparatus and the receiver apparatus receives the second barrier actuation code. The barrier operator determines whether the second barrier actuation code is valid, and when the barrier actuation code is determined to be valid, actuates the barrier.
A system for controlling operation of a plurality of movable barrier operators includes a controller configured to communicate with a plurality of movable barrier operators. The controller is programmed to receive a command to operate the plurality of movable barrier operators and to send a signal to start operation of a first movable barrier operator of the plurality of movable barrier operators in response to receiving the command. The controller is also programmed to send a signal to start a second movable barrier operator of the plurality of movable barrier operators at a time after sending the signal to start the operation of the first movable barrier operator. An arbitration of confirmation signals from the plurality of movable barrier operators may be used to determine the order of operation of the movable barrier operators.
A wireless radio frequency transmitter (400), upon detecting (101) an end user assertion of an end user interface and in automatic response thereto, uses a first rolling carrier frequency to transmit (102) a message. Upon then determining (104) that the end user is continuing to assert this end user interface, this transmitter then re- transmits (105) that message using a predetermined fixed carrier frequency. By one approach, the first rolling carrier frequency is selected from amongst a pool of candidate carrier frequencies using a carrier frequency calculation formula. By another approach, this carrier frequency is selected from one or more tables that comprise a plurality of different carrier frequencies.
The barrier operator system, method and kit described herein contemplate the use of a rack and pinion drive mechanism which is mounted on tracks of the operator system such that the pinion is positioned to ideally engage the rack which is coupled to the barrier to move the barrier along the tracks in both the upstream and downstream direction. Pre- positioning the pinion relative to the rack and using the rack and pinion drive as described herein permits coupling the rack and motor at any variety of points along the barrier to move it. Further when the barrier is an over head door, such as a garage door, the door is connected to the rack through a coupling assembly which connects the door to the rack without making the latter connection through the motor driving the pinion.
E05F 15/665 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants à coulissement vertical
F16H 19/04 - Transmissions comportant essentiellement et uniquement des engrenages ou des organes de friction et qui ne peuvent transmettre un mouvement rotatif indéfini pour convertir un mouvement rotatif en mouvement alternatif et vice versa comportant une crémaillère et pignon
A movable barrier that is at least partially counterbalanced by a spring is moved from a first position to a second position while substantially simultaneously monitoring at least one characteristic associated with moving the movable barrier to provide at least one monitored characteristic. The at least one monitored characteristic is compared to a predetermined criterion. When the at least one monitored characteristic does not meet the predetermined criterion, an alarm condition is set to indicate a failure of the spring.
A first moveable barrier operator is actuated to move a first moveable barrier and a light beam is encoded with operational information regarding the first movable barrier operator. The encoded light beam is transmitted from an emitter associated with the first moveable barrier operator to a first detector associated with the second moveable barrier operator. The second moveable barrier operator may be subsequently operated at least in part according to the operational information encoded in the light beam.
E05F 15/78 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique utilisant une commande sans fil utilisant des faisceaux lumineux
E05F 15/77 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique utilisant une commande sans fil
E01F 13/00 - Dispositions pour interdire ou limiter la circulation, p.ex. portes, barrières
37.
MOVABLE BARRIER OPERATOR SYNCHRONIZATION SYSTEM AND METHOD
A first movable barrier operator is actuated in order to move a first movable barrier to a first predetermined position via a first movement and according to a first operating characteristic. A second operating characteristic is selected for moving a second movable barrier to a second predetermined position via a second movement. The second operating characteristic is chosen so that the second movement of the second movable barrier to the second predetermined position does not interfere with the first movement of the first movable barrier to the first predetermined position. A second movable barrier operator is actuated to move the second movable barrier to the second predetermined position via the second movement according to the second operating characteristic.
E05F 15/00 - Mécanismes pour battants mus par une force motrice
E01F 13/04 - Dispositions pour interdire ou limiter la circulation, p.ex. portes, barrières pouvant être déplacées pour permettre ou empêcher le passage
38.
METHOD AND APPARATUS TO FACILITATE AUTOMATED CONTROL OF LOCAL LIGHTING AT A REMOTE CONTROL
Upon detecting (101) (via an animate object detector (506)) an animate object, these teachings provide for automatically and responsively transmitting (102) a remote light control signal and also selectively controlling (103) local lighting (505). This can comprise temporarily switching the local lighting to a higher power mode of operation (such as a fully--on mode of operation) from a lower power mode of operation (such as a fully-off mode of operation). These teachings will further accommodate determining (301) a relatively closeness of the animate object to the remote control. When the detected animate object is more than predetermined distance from the remote control, the local lighting can remain in the lower power mode of operation. When the detected animate object, however, is within that predetermined distance from the remote control, then the aforementioned step of switching the local lighting to the higher power mode of operation can be undertaken as described.
H05B 47/115 - Commande de la source lumineuse en réponse à des paramètres détectés en détectant la présence ou le mouvement d'objets ou d'êtres vivants
E05F 15/73 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique sensible au déplacement ou à la présence de personnes ou d’objets
G08C 17/02 - Dispositions pour transmettre des signaux caractérisées par l'utilisation d'une voie électrique sans fil utilisant une voie radio
39.
METHOD AND APPARATUS TO FACILITATE CONTROLLING THE CONNECTION OF A MAINS TO A MOVABLE BARRIER OPERATOR POWER SUPPLY
A movable barrier operator having control circuitry (206) to selectively cause movement of a corresponding movable barrier (203) and a power supply that is operably coupled to a mains (201) and is operably coupled to provide electrical motive power to components of the operator can be configurable to selectively disconnect a portion, but not all, of the power supply from the mains when full power availability for the components is not required. This power supply can comprise a less efficient first power supply (204) and a more efficient second power supply (205). In such a case, these teachings can provide for disconnecting (105) the first power supply from the mains when a higher level of power is not presently required. Meanwhile, the second power supply can continue to provide operating power to, for example, the aforementioned control circuitry to ensure ongoing functionality of the movable barrier operator.
A barrier movement operator controls movement of a moveable barrier. The barrier movement operator includes a head unit, including a chassis, for commanding the moveable barrier to perform moveable barrier functions. A plurality of closely mounted light emitting elements are fixedly mounted onto the head unit. A heat sink is in thermal communication with the set of light emitting elements and with the chassis of the barrier movement operator to dissipate thermal energy from the set of light emitting elements. A controller is utilized for controlling the head unit to provide power to the set of light emitting elements.
F21V 29/70 - Dispositions de refroidissement caractérisées par des éléments passifs de dissipation de chaleur, p.ex. puits thermiques
H05B 45/40 - Circuits pour faire fonctionner des diodes électroluminescentes [LED] - Détails des circuits de charge à LED
E05F 15/00 - Mécanismes pour battants mus par une force motrice
F21S 8/00 - Dispositifs d'éclairage destinés à des installations fixes
F21V 11/00 - CARACTÉRISTIQUES FONCTIONNELLES OU DÉTAILS FONCTIONNELS DES DISPOSITIFS OU SYSTÈMES D'ÉCLAIRAGE; COMBINAISONS STRUCTURALES DE DISPOSITIFS D'ÉCLAIRAGE AVEC D'AUTRES OBJETS, NON PRÉVUES AILLEURS Écrans non couverts par les groupes , , ou
F21V 33/00 - Combinaisons structurales de dispositifs d'éclairage avec d'autres objets, non prévues ailleurs
A first value of an operational center frequency of a signal to transmit is determined according to received user input. The operational center frequency is centered within a first band of frequencies and the first band of frequencies has a first bandwidth. A single loop antenna is tuned to match the first value of the center frequency and the single loop antenna is arranged and configured to operate across a second band of frequencies having a second bandwidth. The first bandwidth is less than the second bandwidth. The signal is transmitted from the single loop antenna according to the first value of the operational center frequency to provide a transmitted signal.
At a moveable barrier operator, parameters are adjusted. At a first time, the moveable barrier operator is configured with at least one parameter and adjustment of the at least one parameter is disabled until a predetermined identification signal is received. At a second time, the predetermined identification signal is received and the at least one parameter is responsively adjusted.
E05F 15/00 - Mécanismes pour battants mus par une force motrice
E01F 13/04 - Dispositions pour interdire ou limiter la circulation, p.ex. portes, barrières pouvant être déplacées pour permettre ou empêcher le passage
G08C 17/02 - Dispositions pour transmettre des signaux caractérisées par l'utilisation d'une voie électrique sans fil utilisant une voie radio
43.
METHOD AND APPARATUS FOR CODING IDENTIFICATION INFORMATION INTO A SECURITY TRANSMISSION AND METHOD AND APPARATUS FOR AUTOMATIC LEARNING OF REPLACEMENT SECURITY CODES
A method for use in relation to a security system includes receiving one or more items of information that each identify things or users associated with the security system, and forming a fixed portion of a security code using the one or more items of information. The fixed portion of the security code is stored in an apparatus that is configured to transmit the security code. A method and apparatus involving the receipt of such a security code are also disclosed. A method for use in relation to a security system includes generating a fixed portion of a security code, and setting a value of the fixed portion of the security code to a value that has a relationship to a fixed portion of a previously learned security code. The relationship indicates that the fixed portion of the security code is a replacement for the fixed portion of the previously learned security code. The fixed portion of the security code is stored in an apparatus that is configured to transmit the security code. A method and apparatus involving the receipt of such a security code are also disclosed.
A user interface device provides secure access to equipment. An audio reception device is adapted to receive an audio input comprising background noise and to receive an audio user code from a user. A user input device receives a manual input comprising a manual user code from the user. A control unit stores one or more target user codes and receives an audio input and determines a noise level of the background noise. An instruction message is generated to inform the user to enter the manual user code in response to the noise level of the background noise exceeding a predetermined threshold level. An output device provides the instruction message to the user. A control unit provides secure access to the equipment in response to at least one of the audio user code and the manual user code.
G07C 9/10 - Barrières mobiles avec moyens d’enregistrement
G07C 9/33 - Enregistrement de l’entrée ou de la sortie d'une entité isolée ne comportant pas l’utilisation d’un laissez-passer combiné à une vérification d’identité au moyen d’un mot de passe
45.
METHOD AND APPARATUS REGARDING A MOVABLE BARRIER OPERATOR REMOTE CONTROL TRANSMITTER KIT
A movable barrier operator remote control transmitter kit comprises a transmitter (200) and, if desired, a user discernable listing (402) of a plurality of different remote control signal instruction protocols. This transmitter can be configured and arranged to automatically incrementally configure the transmitter using a series of protocols with each assertion of a user input (203) and also to cause the test configured transmitter to transmit a test transmission (701) to permit the user to ascertain whether a corresponding movable barrier operator responds positively. This listing can present the protocols in an order that matches a sequential order (401) by which the transmitter controller (201) will incrementally configure and test the transmitter. User discernable instructions (601) can provide advice to a user with respect to using the list (402) to quickly advance through the listing (401 to begin the compatibly testing with a particular selected candidate protocol.
Operating power (207 and/or 209) is wirelessly transmitted (101) within a movable barrier operator system (200) to at least one remote peripheral device (204) to thereby provide at least a portion of the remote peripheral device's instantaneous power consumption requirements. By these teachings, this remote peripheral device and the movable barrier operator for the movable barrier operator system are able to transmit information there between separate and apart from such wireless transmission of operating power. Such an exchange might comprise, for example, one or more separate wireless transmissions that are distinct and separate from the wireless power transmissions.
H02J 50/80 - Circuits ou systèmes pour l'alimentation ou la distribution sans fil d'énergie électrique mettant en œuvre l’échange de données, concernant l’alimentation ou la distribution d’énergie électrique, entre les dispositifs de transmission et les dispositifs de réception
E05F 15/73 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique sensible au déplacement ou à la présence de personnes ou d’objets
G08C 17/02 - Dispositions pour transmettre des signaux caractérisées par l'utilisation d'une voie électrique sans fil utilisant une voie radio
A security code transmitter is provided to transmit a control signal to a barrier movement operator to controlling movement of a movable barrier. The barrier movement operator is proximate to a wireless communication network having a network ID. A receiver of the security code transmitter receives a transmitted network signal comprising the network ID from the wireless communication network. A memory of the security code transmitter stores a predetermined ID. A processor of the security code transmitter determines whether the wireless network ID of the transmitted network signal matches the predetermined wireless network ID. When a match is determined, the security code transmitter is controlled to transmit the control signal to the barrier movement operator.
An access control system is provided for a movable barrier. A main communication unit grants access to a movable barrier operator. The movable barrier operator controls movement of the movable barrier. A remote communication unit has an input device to receive an access request and to transmit a corresponding access signal to the main communication unit and to transmit a status indication to the main communication unit in response to detecting a predetermined event.
E05F 15/70 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique
E01F 13/04 - Dispositions pour interdire ou limiter la circulation, p.ex. portes, barrières pouvant être déplacées pour permettre ou empêcher le passage
G08C 17/02 - Dispositions pour transmettre des signaux caractérisées par l'utilisation d'une voie électrique sans fil utilisant une voie radio
G08C 19/00 - Systèmes de transmission de signaux électriques
G08C 23/00 - Systèmes de transmission de signaux non électriques, p.ex. systèmes optiques
H04Q 9/00 - Dispositions dans les systèmes de commande à distance ou de télémétrie pour appeler sélectivement une sous-station à partir d'une station principale, sous-station dans laquelle un appareil recherché est choisi pour appliquer un signal de commande ou
49.
METHOD AND APPARATUS TO FACILITATE TRANSMISSION OF AN ENCRYPTED ROLLING CODE
An encrypted rolling code (11), a plurality of differing data bit order patterns (13), and a plurality of differing data inversion patterns 14) are provided. One then selects (15) a particular one of each of these patterns and uses those selected patterns as transmission characteristics when transmitting (16) at least part of the encrypted rolling code.
H04L 9/28 - Dispositions pour les communications secrètes ou protégées; Protocoles réseaux de sécurité utilisant un algorithme de chiffrement particulier
E05F 15/77 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique utilisant une commande sans fil
E05F 15/00 - Mécanismes pour battants mus par une force motrice
G08C 17/02 - Dispositions pour transmettre des signaux caractérisées par l'utilisation d'une voie électrique sans fil utilisant une voie radio
H04L 9/32 - Dispositions pour les communications secrètes ou protégées; Protocoles réseaux de sécurité comprenant des moyens pour vérifier l'identité ou l'autorisation d'un utilisateur du système
50.
METHOD AND APPARATUS TO FACILITATE TRANSMISSION OF AN ENCRYPTED ROLLING CODE
An encrypted rolling code (11), a plurality of differing data bit order patterns (13), and a plurality of differing data inversion patterns 14) are provided. One then selects (15) a particular one of each of these patterns and uses those selected patterns as transmission characteristics when transmitting (16) at least part of the encrypted rolling code.
A barrier movement operator controls the movement of a moveable barrier. The barrier movement operator includes a movable utility light. A head unit is communication with the movable utility light to command the moveable barrier to perform moveable barrier functions. The head unit provides power to the movable utility light in response to performance of the moveable barrier functions and also in response to movement of the movable utility light from a first position disposed at the head unit.
F21V 33/00 - Combinaisons structurales de dispositifs d'éclairage avec d'autres objets, non prévues ailleurs
E05F 15/70 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique
E05F 15/71 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique sensible à des variations de température, à la pluie, au vent ou au bruit
E05F 15/72 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique sensible à des conditions d’urgence, p.ex. incendie
H05B 47/105 - Commande de la source lumineuse en réponse à des paramètres détectés
F21L 14/02 - Dispositifs d'éclairage électriques sans source de courant incorporée, p.ex. pour connexion au réseau susceptibles d'être tenus à la main lors de leur utilisation, p.ex. baladeuses
52.
SYSTEM AND METHOD FOR USING OPERATOR AS A REPEATER
A moveable barrier operator that is used as a repeater includes a receiver device having an input, a transmitter device having an output, an apparatus responsive to predetermined signals received by the receiver for controlling the position of a barrier; and a controller. The controller is coupled to the receiver device and the transmitter device and controller is programmed to receive a signal from a signaling actuation device at the input of the receiver device. The controller is programmed to responsively re-transmit the signal to at least one other moveable barrier operator from the output of the transmitter device when indicated by the signal.
Upon providing (101) message content (such as a remote control instruction) to be transmitted, and in conjunction with provision (102) of a plurality of different transmission characteristics (as correspond, for example, to different types of transmission) and a corresponding plurality of correlated recovery identifiers (103), a particular transmission characteristic is selected (104) and used to transmit (105) a joint message. n particular, in a preferred approach, the selected transmission characteristic (106) is used when transmitting at least a portion of the message content portion of the joint message while another part of the joint message carries the recovery identifier to thereby facilitate selection of an appropriate reception technique by a receiver when receiving the joint message.
An apparatus and a method for quick mounting of a barrier operator on a ground surface is disclosed. The apparatus includes a mounting frame positioned on the ground and mounting structure extending into the ground surface. Concrete may then be poured into the mounting frame to form an operator support on which the barrier operator is mounted. The mounting structure may be a mounting post received in an excavated portion of the ground, and the mounting post and excavated portion may then be filled with concrete. The concrete in the frame, mounting post, and mounting frame may communicate as to form a unitary mass with the mounting frame and mounting post. The mounting structure may be mounting rods secured directly with the ground. The mounting rods have a spiral flute for driving into and securing with the ground.
E01F 13/04 - Dispositions pour interdire ou limiter la circulation, p.ex. portes, barrières pouvant être déplacées pour permettre ou empêcher le passage
E05F 15/63 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants pivotants manœuvrés par bras pivotants
55.
SYSTEM AND METHOD FOR PRIORITIZING SENSORS IN A BARRIER OPERATOR SYSTEM
In a barrier movement operator comprising a controller hard-wire connected to a first safety sensor, it is determined whether a second safety sensor has been wirelessly connected to the controller. When it is determined that the second safety sensor has been wirelessly connected to the controller, the operator is operated according to a first predetermined procedure. On the other hand, when it is determined that the second safety sensor has not been wirelessly connected to the controller, the operator is operated according to a second predetermined procedure.
E05F 15/70 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique
E01F 13/04 - Dispositions pour interdire ou limiter la circulation, p.ex. portes, barrières pouvant être déplacées pour permettre ou empêcher le passage
56.
SYSTEM AND METHOD FOR PROVIDING A MACRO FOR A BARRIER OPERATOR
A recording of a macro is initiated. A first of a plurality of actions performable by the moveable barrier operator is selected and the first action is associated with the macro. At least a second of the plurality of actions available is selected at the moveable barrier operator and the second action is associated with the macro. A functional sequence of the first and second actions is recorded. The functional sequence specifies the order of performance of the first and second action. The recording of the macro is terminated. Subsequent to the terminating, actions recorded by the macro are performed at the moveable barrier operator in accordance with the functional sequence.
G05B 19/042 - Commande à programme autre que la commande numérique, c.à d. dans des automatismes à séquence ou dans des automates à logique utilisant des processeurs numériques
E05F 15/668 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants à coulissement vertical pour battants s’ouvrant de haut en bas
E05F 15/70 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique
57.
DRIVE MOTOR REVERSAL FOR A BARRIER OPERATOR OR THE LIKE
Methods and apparatus for reversing a drive motor for a barrier movement operator are disclosed. The operator senses the nature of a request for reversal and based on the nature of the sensed request performs one of a plurality of processes to reverse the motor.
E05F 15/603 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs
E05F 15/665 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants à coulissement vertical
H02P 8/20 - Dispositions pour commander la vitesse ou la vitesse et le couple caractérisées par un fonctionnement bidirectionnel
58.
SYSTEM AND METHOD FOR PERFORMING TRANSMITTER FUNCTION MAPPING
A moveable barrier operator is operated in response to a code transmitted from a code transmitter. A learning entering mode is entered at a moveable barrier operator. One of a plurality of functions is selected to be performed at the moveable barrier operator. A transmitter is actuated and a code is received from the transmitter at the operator. A data structure is formed that associates the received code with the selected one of the plurality of functions.
A moveable barrier operator actuates an actuator thereby causing a message to be formed. The message indicates that the user at the moveable barrier operator requires assistance. A communication channel is established between the moveable barrier operator and an assistance center. The message is transmitted to the assistance center over the communication channel. An assistance action is performed to provide assistance to the user at the moveable barrier operator.
A secure communication link (24) is provided between a movable barrier operator (23) and a peripheral alarm system (20). Information conveyed via this link is used by one, the other, or both such elements to further inform or direct their respective actions.
Ternary data as corresponds to a movable barrier operator is provided (21) and converted (22) into corresponding binary information. In a preferred approach this comprises converting each ternary trit into a corresponding binary pair. Pursuant to a preferred approach binary bits as correspond to, for example, fixed and/or non-fixed information (32 and 33) are provided (31) and then converted (34) into the aforementioned ternary data.
A pause profile is stored in a memory. An ambient condition is determined. The pause profile is accessed in the memory and a pause time is determined based upon the measured ambient condition. A moveable barrier is caused to remain in an open position for the pause time that is obtained from the memory.
A first moveable barrier is actuated by using a first moveable barrier operator. Responsive to the receipt of a signal initiating actuation of the first moveable barrier, a wireless signal is transmitted from the first moveable barrier to a second moveable barrier operator. The signal is received at the second moveable barrier operator and the second moveable barrier operator is controlled in response to receiving the signal.
An access control mechanism such as a movable barrier operator (70) has a first time window unit (72) that is responsive to one or more triggers (71) (such as a delayed-closure button). An event detector (73) then monitors for one or more events of interest during a corresponding first time window. For example, the event detector can monitor for evidence that a vehicle is moving towards a garage exit or has effected an exit from the garage. A second time window unit (74) responsive at least to the event detector and optionally as well to the first time window unit then responds with a second time window. Upon conclusion of the second time window, a movable barrier closer (75) initiates movement of the corresponding movable barrier towards a closed position (or other position of interest).
Operating parameters as were previously learned by a first movable barrier operator (18) are transferred to a second movable barrier operator (10) such as, for example, to a replacement movable barrier operator. Pursuant to a preferred approach, such information transfer occurs via a receiver interface (13) that ordinarily serves to couple the movable barrier operator (10) to one or more remote user interfaces (11). Pursuant to one approach this transfer occurs during a learning mode of operation.
A barrier movement operator moves a barrier between open and closed positions. The operator receives a first request to move the barrier. The actual force required to move the barrier is measured. An obstruction to barrier movement is determined by comparing the measured actual force to a first predetermined force threshold. Responsive to the detection of an obstruction, the direction of travel of the barrier is reversed. The operation of the barrier movement operator is modified, by permitting the use of a higher force threshold in future measurements. A second request to move the barrier is received. The actual force required to move the barrier is measured a second time. An obstruction to barrier movement is detected by comparing the measured actual force with the new, higher force threshold.
E05F 15/00 - Mécanismes pour battants mus par une force motrice
E05F 15/70 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique
E05F 15/73 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique sensible au déplacement ou à la présence de personnes ou d’objets
67.
ACCESS CONTROL SYSTEM WIRELESS TRANSMISSION LINK TEST METHOD
A wireless host access control unit (11) and one or more corresponding wireless remote user interfaces (14) are configured and arranged to participate in a test mode of operation. Pursuant to the test mode of operation, these two system components participate in one or more test transmissions that exercise a wireless transmission link to thereby assess the viability of that link. A corresponding user-discernable test indicator is then provided at the wireless remote user interface. So configured, an installer can test any number of candidate locations for a wireless remote user interface prior to permanently installing that interface, thereby more likely ensuring that the latter will be able to successfully interface with the wireless host access control unit following installation.
A barrier movement operator having an integrated mains voltage connection with a selective connection of power to an accessory such as a light is disclosed.
A movable barrier operator system operational component includes an integral display comprising at least one of a numeric display, an alphanumeric display, and a graphics display. The display can comprise an active display or an active interactive display and can further operate in conjunction with adjacent user-input interface opportunities. So configured, numerous user interface events can be highly leveraged to contribute to ease of installation and ease and reliability of use.
An automated movable barrier control system component (11) as comprises a part of a movable barrier control system (10) has an audible speech output device (21) operably coupled thereto. These elements can share a common housing (22). The audible speech output device (21) can audiblize one or more items of stored speech content relating to one or more aspects of the component itself, other components within the system, and/or the system itself.
A movable barrier operator system (10) having a movable barrier operator (11) and a wireless remote control (13) also has an automatic image recognizer (14) operably coupled to at least one of the preceding elements. In a preferred embodiment this automatic image recognizer comprises one or more image capture device (15). So configured, automated operational control decisions can be predicated, at least in part, on image- based information regarding a likely relative position of the wireless remote control with respect to the movable barrier operator.
In a movable object system (10) that makes use of both a maintained count (31) that corresponds to movement of a given object and passpoint events (32) as generated by a corresponding passpoint signal generator (15), count zones (34, 37, 36A, 36B) can be defined for at least one of the passpoint events. Such count zones can be used to aid in determining when significant recalibration of the passpoint event/count value relationships should be undertaken. In a preferred embodiment, such count zones include no more than a single passpoint event.
E05F 15/00 - Mécanismes pour battants mus par une force motrice
E05F 15/603 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs
E05F 15/70 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique
G05B 19/42 - Systèmes d'enregistrement et de reproduction, c. à d. dans lesquels le programme est enregistré à partir d'un cycle d'opérations, p.ex. le cycle d'opérations étant commandé à la main, après quoi cet enregistrement est reproduit sur la même machine
A wireless transmit-only apparatus (20) can be comprised of a controller (21) that selectively controls which of a plurality of resonant devices (24 and 25) are utilized to influence the transmission carrier frequency of a transmitter (26). In a preferred embodiment at least one of the resonant devices comprises a mechanically resonant device (24) such as a surface acoustic wave device, a crystal resonator, or a ceramic resonator. In a preferred embodiment, a user interface (22) includes a plurality of independently assertable inputs. The controller responds to assertion of one of this inputs by selecting a particular set of characterizing transmission parameters (as are stored, for example, in a memory (23) and using those characterizing transmission parameters to transmit a message using a transmission carrier frequency as corresponds to use of a co-selected resonant device.
A wireless transmit-only apparatus (20) has a controller (21) that responds to a user interface 25 by correlating specific user input with a corresponding characterizing transmission parameter(s) as is stored in a memory (35) and by selecting a corresponding resonant device (31 and 32). The latter devices serve to drive the PLL control input of a phase locked loop (23) to thereby influence the transmission carrier frequency of a wireless transmitter (22). In a preferred embodiment, at least one of the resonant devices comprises a mechanically resonant device such as a surface acoustic wave device, a crystal resonator, or a ceramic resonator.
H04B 7/00 - Systèmes de transmission radio, c. à d. utilisant un champ de rayonnement
H03L 7/06 - Commande automatique de fréquence ou de phase; Synchronisation utilisant un signal de référence qui est appliqué à une boucle verrouillée en fréquence ou en phase
75.
BARRIER MOVEMENT OPERATOR HUMAN INTERFACE METHOD AND APPARATUS
A programmable transmitter that verbally questions a user with audible questions to determine a type of a transmitter being emulated. The transmitter receives indicia of the type the transmitter and determines the type of the necessary transmission parameters based upon the received indicia. For operator system types that utilize DIP switch programming, the transmitter provides a voice menu of possible DIP switch settings and the user responds to the voice menu. The transmitter receives responses from the user via buttons and/or the user's voice commands.
Methods and apparatus for controlling the speed of an A.C. induction motor are disclosed and shown in operation for controlling the movement of a barrier. Included are voltage configuration circuits which selectively gate portions of the half-cycles of AC mains voltage to the induction motor. When the motor is started increasing amounts of mains AC voltage is applied to the motor and decreasing portions of the mains AC are applied to the motor during a stopping routine. The motor can also be energized with less than full mains AC to permit differences in barrier movement speed dependent on operating parameters.
An apparatus comprising a movable barrier operator for controlling the movable barrier; and a network interface electronically connected to the movable barrier operator for connecting the movable barrier to a network; wherein the network board sends a status of the movable barrier over the network to a requesting device.
A movable barrier operator (11) transmits status signals from time to time to reflect its own operational states. A corresponding wireless remote control apparatus (14) receives such status signals and used the informational content of such status signals to effect a variety of automatic and/or user-facilitated control strategies. In one embodiment, the wireless remote control apparatus can use the status signal to determine a distance (or at least an approximate distance) between the movable barrier operator and the wireless remote control apparatus. This distance information, in turn, can also be used to inform and enrich the control strategies and possibilities of the wireless remote control apparatus.
A movable barrier operator can use (11) a first technique to prevent an excess application of force during controlled movement of a movable barrier (43) and at least a second technique (12) to similarly prevent an excess application of force during such movement. Both techniques can then be utilized to determine (13) when an application of excess force may nevertheless occur and not be reasonably avoided. In one embodiment, two techniques (21 and 22) can be used to detect force as applied during movement of the movable barrier and such information can be used to determine (23) whether applied force is being reliably indicated. In another embodiment, travel limit information (51), travel information (52) and travel history information (53) are utilized to assess whether normal operation of the movable barrier operator should be over-ridden (54) due to a possibly expression of undue force.
E01F 13/00 - Dispositions pour interdire ou limiter la circulation, p.ex. portes, barrières
E05F 15/70 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique
E06B 9/68 - Dispositifs ou mécanismes de manœuvre, p.ex. à entraînement électrique
H02H 7/085 - Circuits de protection de sécurité spécialement adaptés pour des machines ou appareils électriques de types particuliers ou pour la protection sectionnelle de systèmes de câble ou ligne, et effectuant une commutation automatique dans le cas d'un chan pour moteurs dynamo-électriques contre une charge excessive
80.
MOVABLE BARRIER OPERATOR STATUS CONDITION TRANSCEPTION APPARATUS AND METHOD
A movable barrier operator (10) has a wireless status condition data transmitter (15) that wirelessly transmits status condition messages to one or more remote peripherals (20). The latter can in turn use this status information to effect their own functionality and supported features.
Methods and apparatus for controlling a barrier movement operator having a timer-to-close feature are disclosed. The methods and apparatus include arrangements for conveniently inhibiting and re-activating the timer-to-close feature and for providing a mid-stop position during movement toward the closed position. Additionally, the embodiments include methods and apparatus for reversing barrier operation.
E05F 15/70 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique
E05F 15/668 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants à coulissement vertical pour battants s’ouvrant de haut en bas
E06B 3/48 - Battants reliés par leurs bords, p.ex. battants repliables
E06B 3/50 - Aménagements des battants caractérisés par le genre de mouvement; Aménagements des battants modèles dans les ouvertures; Caractéristiques des battants ou châssis ayant trait uniquement au genre de mouvement du battant pour plusieurs genres de mouvement
E06B 9/68 - Dispositifs ou mécanismes de manœuvre, p.ex. à entraînement électrique
82.
BARRIER MOVEMENT OPERATOR HUMAN INTERFACE METHOD AND APPARATUS
Improvements in human interaction with barrier movement operators are disclosed. A controller of the barrier movement operator is capable of a number of learning modes in which the controller cooperates with a user to learn operating parameters. The controller guides and corrects the necessary actions by the user. The barrier movement operator also includes an input/output unit remote from the main controller of the operator. Human interaction with the remote input/output unit enables diagnosis of operator faults remotely.
E05F 15/70 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique
E05F 15/665 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants à coulissement vertical
E05F 15/668 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants à coulissement vertical pour battants s’ouvrant de haut en bas
E06B 9/68 - Dispositifs ou mécanismes de manœuvre, p.ex. à entraînement électrique
83.
BARRIER MOVEMENT OPERATOR INCLUDING TIMER TO CLOSE FEATURE
Methods and apparatus for controlling a barrier movement operator having a timer-to-close feature are disclosed. The methods and apparatus include arrangements for conveniently inhibiting and re-activating the timer-to-close feature and for providing a mid-stop position during movement toward the closed position. Additionally, the embodiments include methods and apparatus for reversing barrier operation.
E05F 15/70 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique
E05F 15/665 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants à coulissement vertical
E06B 3/48 - Battants reliés par leurs bords, p.ex. battants repliables
E06B 3/50 - Aménagements des battants caractérisés par le genre de mouvement; Aménagements des battants modèles dans les ouvertures; Caractéristiques des battants ou châssis ayant trait uniquement au genre de mouvement du battant pour plusieurs genres de mouvement
E06B 9/68 - Dispositifs ou mécanismes de manœuvre, p.ex. à entraînement électrique
84.
BARRIER MOVEMENT OPERATOR INCLUDING TIMER TO CLOSE FEATURE
Methods and apparatus for controlling a barrier movement operator having a timer-to-close feature are disclosed. The methods and apparatus include arrangements for conveniently inhibiting and re-activating the timer-to-close feature and for providing a mid-stop position during movement toward the closed position. Additionally, the embodiments include methods and apparatus for reversing barrier operation.
E05F 15/70 - Mécanismes pour battants mus par une force motrice avec déclenchement automatique
E05F 15/665 - Mécanismes pour battants mus par une force motrice utilisant des actionneurs électriques utilisant des électromoteurs rotatifs pour battants à coulissement vertical
E06B 3/48 - Battants reliés par leurs bords, p.ex. battants repliables
E06B 3/50 - Aménagements des battants caractérisés par le genre de mouvement; Aménagements des battants modèles dans les ouvertures; Caractéristiques des battants ou châssis ayant trait uniquement au genre de mouvement du battant pour plusieurs genres de mouvement
E06B 9/68 - Dispositifs ou mécanismes de manœuvre, p.ex. à entraînement électrique
H01H 43/00 - Interrupteurs horaires ou à programme horaire présentant un choix d'intervalles de temps pour exécuter une ou plusieurs opérations de commutation et mettre automatiquement un terme à leur fonctionnement une fois que le programme a été exécuté
85.
BARRIER MOVEMENT OPERATOR INCLUDING TIMER TO CLOSE FEATURE
Methods and apparatus for controlling a barrier movement operator having a timer-to-close feature are disclosed. The methods and apparatus include arrangements for conveniently inhibiting and re-activating the timer-to-close feature and for providing a mid-stop position during movement toward the closed position. Additionally, the embodiments include methods and apparatus for reversing barrier operation.
A system and method is disclosed to the elimination of cross talk between inductive loop detector units in a security system. The system includes appropriate devices for assigning different operational frequencies of each look detector circuit to avoid cross talk. In a further aspect it provides a system and method for determining actual operational frequencies of various loop detector circuits in a security system and for changing the resonant frequencies to eliminate cross talk.
G01V 3/08 - Prospection ou détection électrique ou magnétique; Mesure des caractéristiques du champ magnétique de la terre, p.ex. de la déclinaison ou de la déviation fonctionnant au moyen de champs magnétiques ou électriques produits ou modifiés par les objets ou les structures géologiques, ou par les dispositifs de détection
G08C 25/00 - Dispositions pour prévenir ou corriger les erreurs; Dispositions de contrôle
H04B 5/00 - Systèmes de transmission à induction directe, p.ex. du type à boucle inductive
An access requesting remote control device (10) includes an agile radio frequency transmitter (13) that will accommodate a variety of communication channels and modulation types. Programmable logic (11) controls the operation of the transmitter depending upon its programming. Such programming can be selectively varied as desired. In one embodiment, any of a plurality of pre- existing application programs can be selected in response to reception of a corresponding selection command via an external communication interface (14). In another embodiment, a relevant application program can be downloaded to the programmable logic via the external communication interface. In yet another embodiment, both options are available.