TH55617B - Locking mechanism - Google Patents

Abstract

DC60 (06/12/56) This invention involves an electrically controlled lock assembly 1 with housing 10 and retainer 6 mounted on the housing for movement to that section between the open and closed positions. in relation to each other The lock assembly also has a locking path 12, as well as a detent 21, which when in the active position stops. Retainer from moving relative to the housing The lock assembly also has a 14 type electric actuator which can make The containment path is in a locked or unlocked state. This invention involves an electrically controlled lock assembly 1 with housing part 10 and retainer 6 mounted on the housing for moving to that part between the respective open and closed positions. The lock assembly also has 12 locking paths as well as a detent 21 which when in the active position stops. Barrier from sliding relative to the housing The lock assembly also has 14 electric actuators which can make The retaining mechanism accepts a locked or disengaged condition.

Claims (2)

Disclaimer (all) which will not appear on the advertisement page: EDIT 5/1/16 1. Electric impact assembly for release latch lock including keeper housing when Work is done with the bolt. The retainer is mounted on the housing and Movable in relation to the housing from closed position. A locking path, which includes a detent, which works with the detent so that when the detent is Detained in an active position The retainer is stopped from moving from its closed position in order to The catcher holds the latch when used. The locking path also includes a containment path which, when in the locked state, will hold the detent in the active position. And when it is in the release state, it releases the detent for movement from the active position. The detent trajectory includes a movable element that is positioned first when the detent is in the active position and moved to a second position when the detent is moved from the active position. The entrapment path also includes a stop that prevents the movement of the moving part to the Two, when the trajectory is in a locked state Electric actuators, including solenoids with a plunger, can be connected to Adjustable stop to make the locking trajectories work in the anti-crash mod. When there is Provides energy to the stimulant, it will keep the trajectory in a locked state. Or after adjustment Connect the stopper with the plumper to work in a fault-safe mod. When given The energy to the stimulant leads the entrapped pathway in a liberated state. Where when the trajectory is in a locked state Excitation of the retainer in relation to the housing. Will stimulate the entrapment route to stay in a state of release In case of the entrapment in a state of release The detent can be moved from an active position by movement of the detent in relation to the The housing from the closed position when the bolt is released. 2. The electric impact assembly according to claim 1, where the moving part rotates around the first axis when It moves between the first and second positions. 3. Electric impact assembly according to any of the above claims. Where the moving parts include The driven arm holding the stop when the moving part moves to a second position and the trajectory is trapped in a locked state. 4. Electric impact assembly according to claim 3, where the driven arm includes Free end clamping Stop when the moving part moves to a second position and the trajectory is in a locked state. 5. An electric impact assembly according to one of the above claims. Where the stopper revolves around the second axis Which is parallel to the first axis The drive arm, when holding the stopper, supplies force to the stop, which Significant to the second axis 6. Electrical impact assembly according to claim 5, where the entrapment route, including the gripping drive parts Detent and is connected to the moving part to allow the movement of the detent from the yoke position. Thief creates a moment around the first axis. Where the moment has the arm moment, which increases as the detent moves from Active position 7. Electric impact assembly according to claim 6, where the drive parts are coupled to the One end is connected to the moving part and the other end is connected to the housing. For turning around the second axis. 8. Electric impact assembly according to one of the previous claims. Where Plunker is connected to Adjustable stop to allow adjustment of the stopper position in relation to the free end of the affected arm. Driven to adjust the actuator modulation between the interruption protection module and the safe design. From failure 9. The assembly of the electric shock type according to one of the previous claims Where the retainer includes the compartment The detent is recognized when the detent is in the active position 1.0. Electrical impact assembly according to claim 9, where the recess includes the angled side walls that are clamped. By the detent when the detent is in the active position The angle of the side wall is used to excite the body. Detent leaves the cavity when the retainer is moved out of closed position 1 1. Electric impact assembly according to one of the preceding claims. Where the catcher is biased to the closed position 1 2. an electric impact assembly according to one of the preceding claims. Where the stopper was suddenly connected to The length adjustable connecting arm is used to adjust the working mode of the locking path. The location of the screw in relation to the connecting arm 1 4. Locking path for use in electrically controlled lock assemblies with housing and housing. It is mounted in the housing and can be moved relative to the housing from the locked position to the release position. Lock paths that include Detent, which, when held in the active position The catcher is stopped from moving from its locked position, the locking path also includes the entrapment path, which when in the locked state holds the detent in the active position and when in the release state, it releases well. Tents for movement from an active position where when the trajectory is in a locked state. Stimulating the catcher in relation to the housing will Encourage the detention route to try to stay liberated. In case of the entrapment in a state of release The detent can be moved from active position by movement of the detent relative to the case. From closed position Where the entrapment, including the moving part, is positioned first when the detent is in position. Active and moved to the second position when the detent is moved from the active position. The containment path also includes a stop, which prevents the movement of the moving part to a second position when The trajectory was in a locked state. Electric actuators act on a locked path that can act to make the path entrapped in Locked state or release state Electric actuators, including solenoids with a plunger, can be connected to an adjustable stop to allow the locking path to operate in the Anti-interruption mod where energizing the actuator will keep the trapped path in a locked state. Or after adjusting the connection of the stopper with the plunger to operate in a failure-safe mode, where the actuator is energized, the entrapment path is in the discharge state. Claim 14 where Dua is a latch 1 6. Way of locking according to claim 15, where the detainer is holding 1 7. Locking path according to claim 14 or 16, either Where the catcher is connected to the placer by the connecting arm, which can be lengthened to adjust the operating modulation of the locking path. 1 8. Electric impact assembly according to claim 17, where the adjustment of the connecting arm Cause adjustment The position of the screw is relative to the connecting arm. -------------------------------------------------- ---- 1.Electric impact assembly for securing the release thread including the housing, the retaining ring, when in use it interacts with the bolts. The ring cover is installed on the housing. And can be moved relative to the housing from the closed position of the keeper when working until it acts on the latch The retainer is mounted on the housing and The movement is obtained in relation to the housing from the closed position. The locking path, which includes the dedent, which works with the holder so that when the detent is Detained in an active position The catcher is stopped from moving from its closed position to allow the catcher to Holds the lock latch when in use The locking trajectory also includes a trap pathway which, when locked in a locked state, holds the detent in an active position. The detent method includes a movable target that is positioned first when the detent is in an active position and moves to a second position when the detent is moved from the yoke position. Thief The containment path also includes a stop, which prevents the movement of the moving part to the Two, when the trajectory is in a locked state Electric actuators, including solenoids with a plunger, can be connected to Adjustable stopper keeps the trajectory in a locked state. Or after adjustment Connect the stopper with the plumper to work in a fault-safe mod. When given The energy to the stimulant leads the entrapped pathway in a liberated state. Where when the trajectory is in a locked state Excitation of the retainer in relation to the housing. Will stimulate the entrapment route to stay in a state of release In the case of detention pathways in relation to oneself The housing from the closed position when the lock is released, the latch is released. 2. The body hits according to claim 1, where the mechanism for fixing includes the sliding part, which Use the first position when the mechanism for polishing and release is in a stationary position. And move to the second position When the mechanism for curl and release is shifted from the active position The mechanism for fastening also includes a mechanism for The stop, which interrupts the movement of the sliding part to a second position when the retention mechanism is in a locked state. 3. The electric impact of the claim 2, where the sliding part rotates around the first axis when sliding Between the first and second positions. 4. Electric impactors pursuant to claim 2 or 3, where the movable part includes the driven arm which Overlap the mechanism for stopping when the slider moves to a second position. And a mechanism for fixing it in Locked state 5. Electric impact limiter according to claim 4 where the driven arm has an independent tip. Which overlaps the mechanism for stopping when the sliding part moves to a second position, and the mechanism for holding it in Locked condition 6. Explosion-proof assembly according to claim 4 or 5, where the mechanism for stopping rotation around the second axis, the thrusters arm overlapping the mechanism for stopping the force feed to the focusing stop mechanism. Go like The second axis is sufficient. 7. The electric impact assembly in accordance with claim 6, where the mechanism for fastening includes a section for Thrusters where they overlap with a mechanism for grinding and attaching to the sliding part. To allow the movement of the mechanism For exfoliation and release from routine, creating moments around the first axis. Where Moments have arms The moment, which is increased due to the interrupting trigger and the slide release from the stationary position. 8. Electric impact assembly according to claim 7, where the interrupting part is articulated with One end connected to the sliding part and the other end to the second rotating housing. 9. Electric impact assembly according to claim 8, including electric actuators which interact with the machine. Locking trigger which can be used for the mounting trigger to accept a locked or release condition 1 0. The electric impact assembly according to claim 9, where the actuator interacts with the mechanism for Lock to enable the locking trigger to be operated in a crash protection mode. When the power is given The actuation of the propellant allows the mechanism to accept the locked state and operate in a safe manner. The danger of failure When the excitation energy is applied to the exciter, the mechanism for holding the yot undergoes the release state 1 1. The electric impact assembly according to claim 9 or 10, where the exciter, including the solute A solenoid with a piston that reverses against the performance of the counterweight when the actuator is energized. 1 2. Electric impact assembly according to claim 11. The piston is connected to the mechanism for stopping. It is adjustable to allow the position of the stop mechanism in relation to the free end of the arm being Driven to adjust the actuator's operating mode between a crash-proof and one that is safe from interruption 1 3. Electric impact assembly according to one of the preceding claims. Where the casing protects the ring The release includes a recess that supports the mechanism for polishing and releasing when the mechanism for and release is in active position. 1 4. Electric impact assembly according to claim 13, where the concave cavity includes the side walls that are Angle which is overlapped by a mechanism for polishing and releasing When the polishing mechanism is released in a fixed position, the angle of the side wall is triggered, the mechanism for and the release of the concave cavity when the retaining ring is dropped. Move away from closed position 1 5. Electrically controlled impact assembly, in which one of the preceding claims, where the retaining sleeve is slid into the closed position, 1 6. Electrically controlled lock assembly. Including the bolt housing that is mounted in the housing and can be moved in relation to the housing from the locked position at Protruding into the position of the discharge that was drawn in Locking mechanism, which has a mechanical part for polishing and releasing, which, when maintained in position The bolt will be stopped from sliding from its protruding locking position. Mechanism for locking also There is a part of the fastening mechanism which is cool in the release condition, the polishing mechanism and the stand for the machine from Active position Electric actuators, which interact with the locking mechanism, can be used to make the fastening mechanism accept Locked or Discharged Condition 1 7. Electrically Controlled Lock Assembly in accordance with Claim 16, where the fastening mechanism including the Moveable, which is positioned when the mechanism for polishing and release is in active position. And scroll to Second position when the mechanism for scrubbing and release is shifted from the active position Mechanisms for fastening include A stop mechanism that prevents the movement of the sliding part to a second position when the retaining mechanism is in place. In the locked state 1 8. The lock assembly is electrically controlled according to claim 17, where the sliding part rotates around its axis. First, when moving between the first and second positions 1 9. Electrically controlled lock assembly in accordance with claim 18, where the sliding part includes the part that It is a driven arm that overlaps the mechanism for stopping when the slider moves into a second position and The retention mechanism is in a locked state 2 0. Lock assembly, electrically controlled in accordance with claim 19, where the mechanism for stopping rotation around the second axis thrust arm when the mechanism for stopping the force feed is applied to the stop mechanism. Which focuses on 2 1. Electrically controlled lock assembly in accordance with claim 20, where the fastening mechanism, including the section For thrusters overlapping the mechanism for grinding and release. And connected to the movable part to allow mechanical movement Trigger for exfoliation and release from routine position to create moment around the first axis. This moment has an arm of The moment increases when the mechanism for polishing and releasing the slide from stationary position 2 2. Electrically controlled lock assembly in accordance with claim 21, where the thrusters are connected as A joint with one end connected to the sliding part, and the other end connected to the second-axis rotating housing 2 3. The lock assembly is electrically controlled in accordance with claim 16. To any of the 22 where the electric actuator interacts with the locking mechanism to enable the locking mechanism to be operated in a failure-proof mode where the actuator operation allows the locking mechanism to accept Locked state and operating in Safe mode from failure By the action of the actuator, the mounting mechanism accepts the release condition 2 4. One of the electrically controlled locking assemblies in accordance with Claim 16 to 24, where the electric actuator, including the solenoid, is A solenoid with a piston which reverses the action of a counterbalance mechanism when power is applied. Actuation work in actuator 2 5. Electrically controlled lock assembly in accordance with claim 24, which is pumped to the mechanism for Adjustable stop to allow adjustment of the position of the stop mechanism relative to the free end. Of the driven arm to adjust the actuator operating mode between crash protection and Safe from failure 2 6. One of the electrically controlled lock assemblies in accordance with Claim 16 to 25, where the bolt has a recessed part to support the mechanism for interrupting and releasing when the mechanism is interrupted and released. Is in Active position 2 7. Electrically controlled lock assembly in accordance with Claims 16 to 24. Which contains It is a hand-operated actuator that can be used to draw bolts from an extended locking position. Actuator Controlled by hand, there is a part of the recess to support the polishing mechanism and release when the polishing mechanism and Release in active position 2. 8. Electrically controlled lock assembly in accordance with claim 26 or 27, where the recess has an integral part. The angled side wall is controlled by a mechanism for polishing and release when the polishing and release mechanism is in Active position The side wall angles are used to activate the polishing mechanism and release the recess when The retaining sleeve is moved away from the closed position 2. 9. One of the electrically controlled lock assemblies in accordance with Claim 16 to 28, where the screw is weighted into the closed position 3. 0. Lock assembly Electrically controlled according to claims 16 to 29, where, when the trigger is held in a locked state in which the actuation of the bolt is moved by associating the housing to position. Release will trigger mechanism for seizing to attempt to accept the release state. When the mechanism for holding in the Release mechanism for sanding and sliding from stationary position by movement of bolt. Relative to the housing from the extended lock position 3 1. Lock mechanism for use in electrically controlled lock assemblies with housing and housing. The bulkhead is installed in the housing and is shifted relative to the housing from the locking position to the release position. The mechanism for locking has a section. Mechanisms for polishing and releasing, which, when maintained in a fixed position, the separator is stopped from being Slid from its locked position. Mechanisms for the wheels also have a mechanical part that holds them in the locked state. It maintains a mechanical condition for a mechanism for polishing and releasing in a stationary position. And when in the discharge state Release the polishing mechanism and release for movement from the stationary position, where when the retaining mechanism is in the locked state, the actuation of the stopper to slide relative to the housing. Activate the seizure mechanism to attempt to accept the release state in case the seizure mechanism is in the disengaged state. Releasing mechanism for grinding and releasing can be moved from stationary position by sliding the movement of the relative stopper. With the housing from closed position Electric actuators, which interact with the locking mechanism that can also cause the mounting trigger to accept the condition 3 2. Mechanism for locking according to claim 31, where the stopper is bolted 3 3. Mechanism for locking according to claim 32, where the stopper is a retaining ring. Claim 33, where the retention mechanism has a movable part that is used First position when the mechanism for scrubbing and releasing is in the active position and shifted to the second position when The mechanism for polishing and releasing is moved from the active position. The attachment mechanism also has a mechanical part for Stop, which interferes with the movement of the section to a second position when the retention mechanism is in a locked state 3 5. locking mechanism according to claim 34 where the sliding part rotates around the first axis when sliding Between the first and second positions 3 6. Mechanism for locking according to claim 35, where the sliding part has a driven arm that Overlaps the mechanism for stopping when the sliding part moves into a second position and the mechanism for holding it in Locked condition 3 7. Lock mechanism according to claim 36, where the mechanism to stop rotating around the second axis, the thrust arm, when overlapping the force-feed stop mechanism, provides sufficient force to the stop mechanism which is double-oriented. 3 8. Mechanism for locking according to claim 37, where the retraction mechanism includes the periodic thrust part. Is involved in the polishing and releasing mechanism and is attached to the sliding part to allow the movement of the polishing and release mechanism Release from the fixed position to create moments around the first axis. Where this moment has the arm of the moment which will increase 3 9. Mechanism for locking in accordance with claim 38, where the thrusters are articulated with one end. Which is connected to the sliding part and the other end to the case for turning around the second axis 4 0. Lock mechanism according to claim 31 to 39, either of which Electric actuators interact with mechanical Lock trigger to keep the locking mechanism in a locked state and perform safe from Interruption by the actuator operation caused the mechanism for additional seizure to accept the release 4. 1. Mechanism for locking in accordance with any claim 31 to 40 where the electric actuator, including the solenoid Pediatric neids, reversed against the performance of the counterbalance mechanism. When stimulating energy is applied to the stimulant 4 2. Mechanism for locking according to claim 41, where the piston is attached to the stop mechanism, adjustable to Allows for adjustment of the position of the stop mechanism relative to the free end of the driven arm. Move to adjust the actuator operating mode between crash-proof and crash-safe.