A latch has a displaceable latching element in a housing for engagement with a separate striker arm to be latched behind an engagement shoulder of the latching element. The housing mounts a cylinder lock to receive a key from the front. A rotor is mounted on the rear of cylinder lock and rotation of
A latch has a displaceable latching element in a housing for engagement with a separate striker arm to be latched behind an engagement shoulder of the latching element. The housing mounts a cylinder lock to receive a key from the front. A rotor is mounted on the rear of cylinder lock and rotation of the key rotation the rotor to drive a locking element to engage and lock the latching element. The rotor may also be axial displaceable against spring biasing responsive to a rear unit pushing element whereby unlocking from a rear cylinder lock may rotate the rotor to unlock and pushing causes the latching element to be displaced against its biasing to release the striker arm. Embodiments include a gravity biased and manually opened latch and a spring biased self-locking embodiment.
대표청구항▼
1. A latch assembly for holding closed a gate or door wherein the latch assembly is adapted to co-operate with a striker arm, the latch assembly comprising: a latch mountable to the gate or a gate post; anda rear actuating unit mountable on an opposite of the gate or gate post to the latch;the latch
1. A latch assembly for holding closed a gate or door wherein the latch assembly is adapted to co-operate with a striker arm, the latch assembly comprising: a latch mountable to the gate or a gate post; anda rear actuating unit mountable on an opposite of the gate or gate post to the latch;the latch comprising;(a) a housing in which(b) a displaceable latching element is mounted to be displaceable from a latching position towards an open position in which the striker arm is released for gate opening, and(c) the latching element having a latching shoulder to retain the striker arm when engaged behind the latching shoulder and having an engagement surface adapted to be engaged by the striker arm when the gate is moved towards a closed position to displace the latching element and for permitting relative movement of the striker arm to adopt a position behind the latching shoulder,(d) a key-operated lock mounted in the housing and having a key operation for unlocking the latch;(e) a locking element for locking the latching element and adapted to be displaced upon actuation of the key-operated lock between a locking position, in which movement of the latching element is restrained from moving, and a displaced position in which the latching element is free to be moved,(f) the locking element being in the form of a rotor rotatably mounted in the housing, and the rotor is axially displaceable when in the displaced position, and the rotor being connectable to a rear actuating unit for remotely operating the latch via the rotor, and wherein the rear actuating unit comprises a second key-operated lock that connects and transmits rotation to the rotor, whereby the housing key-operated lock or the second key-operated lock can be used to displace the locking element between the locking position and the displaced position. 2. A latch assembly as defined in claim 1, wherein when the locking element is in the displaced position to permit opening of the gate at least one of the key-operated locks is able to be axially displaced to move the latching element from the latching position toward the open position to release the striker arm for moving out of engagement as the gate opens. 3. A latch assembly as defined in claim 1, wherein the rear actuating unit further comprises an axially displacable element which engages with and displaces the rotor against a spring biasing means to allow remote actuation of the latching element to the latch. 4. A latch assembly as defined in claim 1, wherein the rotor is rotatably mounted about a lock axis. 5. A latch assembly as defined in claim 4, wherein the rotor, the housing key-operated lock and the second key-operated lock rotate around a single axis. 6. A latch assembly as defined in claim 4, further comprising a connector that interconnects the rotor and the rear actuating unit and is operable to displace the rotor remotely. 7. A latch assembly as defined in claim 6, wherein the connector engages with and displaces the rotor against a spring biasing. 8. A latch assembly as defined in claim 1, wherein a rear portion of the rotor remote from the housing lock is connectable to the rear actuating unit. 9. A latch assembly as defined in claim 1, wherein the latching element is partially enshrouded in a casing with a protruding portion extending out of a face slot so as to facilitate manual lifting of the latching element when the key-operated lock has been unlocked. 10. A latch assembly as defined in claim 1, wherein the latch is configured as a gravity latch and the latching element is pivotal and is biased by gravity to the latching position. 11. A latch assembly as defined in claim 1, wherein the housing key-operated lock and the second key-operated lock are rotary cylinder locks and wherein when the latch is locked, turning of either key-operated lock rotates the rotor to move the locking element from the locking position to the displaced position to release the latching element. 12. A latch assembly for holding closed a gate or door wherein the latch assembly is adapted to co-operate with a striker arm, the latch assembly comprising: a latch mountable to the gate or a gate post; anda rear actuating unit mountable on an opposite side of the gate or gate post to the latch;the latch comprising;(a) a housing in which(b) a displaceable latching element is mounted to be displaceable from a latching position towards an open position in which the striker arm is released for gate opening, and(c) the latching element having a latching shoulder to retain the striker arm when engaged behind the latching shoulder and having an engagement surface adapted to be engaged by the striker arm when the gate is moved towards a closed position to displace the latching element and for permitting relative movement of the striker arm to adopt a position behind the latching shoulder,(d) a key-operated lock mounted in the housing and having a key operation for unlocking the latch,(e) a locking element for locking the latching element and adapted to be displaced upon actuation of the key-operated lock between a locking position, in which movement of the latching element is restrained from moving, and a displaced position in which the latching element is free to be moved,(f) the locking element being in the form of a rotor rotatably mounted in the housing, and the rotor is axially displaceable when in the displaced position; and(g) the rotor being connectable to the rear actuating unit for remotely operating the latch via the rotor, and wherein the rear actuating unit comprises a second key-operated lock that connects and transmit rotation to the rotor, whereby the housing key-operated lock or the second key-operated lock can be used to displace the locking element between the locking position and the displaced position, whereby the rotor, the housing key-operated lock and the second key-operated lock rotates around a single axis. 13. A latch assembly as claimed in claim 12, wherein when the locking element is in the displaced position to permit opening of the gate, at least one of the key-operated locks is able to be axially displaced to move the latching element from the latching position toward the open position to release the striker arm for moving out of engagement as the gate opens.
Weger ; Jr. Kenneth F. (Cary IL) Koenig Richard A. (Crystal Lake IL) Draffkorn ; Jr. Gerald A. (Crystal Lake IL) Rogman Steven J. (Crystal Lake IL) Rodriquez Jose R. (Marengo IL), Push-button lock system.
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