The invention relates to an electric lock with electric and manual unlock mode, especially the one that uses a same unlock crank to push the latch bolt shaft to unlock.
U.S. Patent No. US20160273243A1 disclosed an electric lock with electric and manual unlock mode, it uses a motor to drive the clevis moving through a threaded lead screw for driving a second retraction lever to rotate, and by the rotation of the second retraction lever, it can against the biasing force that latch bolt spring applied to the latch bolt, so as to retract the latch bolt to unlock; moreover, when the user wants to restore the latch bolt to the locked state, stop the power supply to the motor, use the spring installed on the screw to reset the clevis, and use the latch bolt spring to reset the latch bolt; Furthermore, a key can also be used to rotate a key cylinder to drive a bolt lever to rotate, and then through the rotation of the bolt lever, the biasing force exerted by the latch bolt spring on the latch bolt can be resisted, make the latch bolt be retracted to unlock, and when the key is reset, the latch bolt is simultaneously reset by the latch bolt spring.
However, the prior art above mentioned can use a motor to unlock the lock electrically or manually with a key, and the motor uses the second retraction lever to retract the latch bolt to unlock, and the key uses the bolt lever to retract the lock bolt to unlock, so that the prior art above mentioned must be simultaneously installed with the second retraction lever and the bolt lever, the assembly procedure and the number of components are relatively complicated. In addition, the spring installed on the screw to reset the clevis should be a compression spring to resist the self-locking force of the motor. Since the restoring force of the compression spring must be adjusted through the combination of the diameter and length of the spring, the restoring force of the compression spring is difficult to adjust to an appropriate value. When the restoring force of the compression spring for resetting the clevis is too large, the resistance of the motor during electric unlocking will be too large, and the time required to complete the electric unlocking will be prolonged (even the lock cannot be unlocked). On the contrary, if the restoring force of the compression spring for resetting the clevis is too small, the restoring force of the latch bolt spring must be used to resist the self-locking force of the motor, so that the bolt may not be able to return to the locked state normally; Therefore, if the spring is only a linear compression spring, because the longer the distance of the compression spring is when the elastic force is released, the elastic force will decrease significantly, so there is a problem that the spring restoring force against the self-locking force of the motor will be difficult to adjust.
U.S. Pat. No. 5,953,942 disclosed a door lock comprises a driver hub connected to a door lever, a driven hub, a latch lever movable by the driven hub for retracting the lock's bolt to open the lock, and a catch mechanism for selectively connecting the driver hub to the driven hub. The catch mechanism includes an idle position in which the driver hub moves without moving the driven hub and an engaged position in which the driver hub moves the driven hub and thus the lever and the bolt. A state selection mechanism is provided to displace the catch mechanism between its idle and engaged positions. An actuating mechanism, e.g. a solenoid, selectively positions the state selection mechanism such that the latter causes the catch mechanism, when driven by the driver hub, to adopt one of its idle and engaged positions such that the catch mechanism respectively drives, or not, the driven hub. The actuating mechanism thus allows the state selection mechanism to mechanically cause the catch mechanism to selectively connect or disconnect the driver hub from the driven hub and thus to respectively unlock or maintain locked the door lock. The actuating mechanism typically allows the state selection mechanism to position the catch mechanism in its engaged position, i.e. in its door unlocking position, when activated by a current which results from a valid entry having been recorded in an electronic access control system, or the like. However, this patent is using the actuator mechanism to achieve access control effect, and it has to keep energized to achieve unlocking from outside.
It is a primary objective of the present invention to solve the problems of the prior art that the assembly process and the number of components are relatively complex, and has the effect of simplifying the assembly process and the number of components.
It is another objective of the present invention to has the effect of using a torsion spring to make it easier to adjust the spring restoring force that resists the self-locking force of the motor.
In order to achieve the above objectives, the present invention comprise: a case combining with a side plate and a case cover; a latch bolt, a latch bolt shaft and a latch bolt spring are arranged inside the case, the front end of the latch bolt shaft is combined with a blocking member, and the blocking member uses the elastic force of the latch bolt spring to stick out of the side plate to lock, when the external force applied to the latch bolt shaft is sufficient to resist the elastic force of the latch bolt spring, the blocking member will retract into the side plate to unlock; a unlock crank pivoted inside the case, having an electric push member, and a push member relative to the latch bolt shaft; and a linear actuator is arranged inside the case and has an actuating arm, the front end of the actuating arm is combined with a push block relative to the electric push member, and a push block return spring is set relative to the push block.
Also, the unlock crank further include a manual push member, a lock cylinder arranged inside the case, and an actuating cam wheel relative to the manual push member.
Also, the push block return spring is a torsion spring, the torsion spring is set on the case or the case cover by using a first shoulder bolt, the first rotating arm of the torsion spring is positioned on the case or the case cover, the outer end of a second rotating arm of the torsion spring is against the front edge of the push block; wherein the first rotating arm of the torsion spring is positioned on the case or the case cover by a second shoulder bolt or a positioning hole. The linear actuator is a linear stepping motor. The latch bolt shaft and the latch bolt spring are set inside the case by using a latch bolt bracket.
Whereby, whether the push block is pushed forward by the actuating arm of the linear actuator, the unlock crank is pushed and rotated through the electric push member, and the latch bolt shaft is pushed by the push member, so that the blocking member is retracted into the side plate and the lock is electrically unlocked; Or use the key to insert the lock cylinder to rotate the actuating cam wheel, push the unlock crank through the manual push member, and the latch bolt shaft is pushed by the push member, so that the blocking member is retracted into the side plate and the lock is manually unlocked, both of two are all using the same the unlock crank pushes the latch bolt shaft to unlock.
Referring to
With the feature disclosed above, as
In addition, when the linear actuator 40 is powered off and returning to the locked state from the electric unlocking state, the torsion spring 43 set relatively to the push block 42 can provide a restoring elastic force against the self-locking force of the linear actuator 40 for rest the push block 42, the blocking member 24 uses the elastic force of the latch bolt spring 22 to stick out of the side plate 11 to lock; since the spring restoring force of the torsion spring 43 is easier to adjust to an appropriate value (compared to the linear compression spring), the present invention also has the effect of using the torsion spring to make the spring restoring force resisting the self-locking force of the motor easier to adjust.
Although particular embodiments of the invention have been described in detail for purposes of illustration, various modifications and enhancements may be made without departing from the spirit and scope of the invention. Accordingly, the invention is not to be limited except as by the appended claims.
Number | Date | Country | Kind |
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110206328 | Jun 2021 | TW | national |
This patent application is a continuation-in-part of Ser. No. 17/804,325 filed on May, 27, 2022.
Number | Date | Country | |
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Parent | 17804325 | May 2022 | US |
Child | 18528046 | US |