CN201581714U - Mechanical-electrical integration-type remote anti-theft lock - Google Patents

Abstract

A mechanical-electrical integration-type remote anti-theft lock comprises a lock cylinder linkage deflector rod, an up-down moving tooth plate, a left-right moving tooth plate and stop iron, wherein the stop iron is connected with an electric control remote device through a rotating shaft; a datum plane A and a clamping groove are formed on the stop iron; a steering clamping rod is mounted in a lock casing through a torsion spring; and one end of the steering clamping rod extends out of the stop iron, and the end part is matched with the clamping groove. When the lock is under a locked state, the plane A of the stop iron and the up-down moving tooth plate are inclined, and the plane A occupies the moving position of the up-down moving tooth plate; when the lock is under an open state, the plane A of the stop iron is parallel to the up-down moving tooth plate, and the end part of the steering clamping rod is inserted into the clamping groove; a stop iron return spring is connected on the stop iron; and the other end of the stop iron return spring is fixed on the lock casing. The anti-theft lock has the advantages that the structure of the lock body is simplified, the installation and the use are convenient, and no great electrodynamic power is required.

Description

Electromechanically integrated Remote controlled anti-theft lock

Technical field

The utility model relates to lock technology field, especially a kind of Electromechanically integrated Remote controlled anti-theft lock.

Background technology

Present mechanical lock is by lock body, be contained in the lock body lock core interlock driving lever and by lock core interlock driving lever stir move up and down castellated plates and the move left and right castellated plates constitutes, use key rotation lock core when opening the door, lock core interlock driving lever is stirred and is moved up and down castellated plates and move downward, make lock core interlock driving lever forward the flank of tooth position of move left and right castellated plates to, stir the move left and right castellated plates and make it drive dead bolt to move and unblank.The mechanical lock of this structure since its be not equipped with other burglar-proof mechanism, as long as so the robber can use the instrument rotational lock core, be easy to just lock to be opened, lose safety guarantee.Defective at mechanical lock, locksets such as electronic lock miscellaneous, induction lock, Fingerprint Lock, infra-red remote control lock, electronic password lock arise at the historic moment, but they are all generally at complex structure, having parts to expose is easily destroyed, and power consumption is big, needs excessive dc battery jar or the power supply of configuration to be inserted in the problem that charging could be used on the 220V alternating current for a long time.In order to address the above problem, in Chinese patent application number is to disclose a kind of Electromechanically integrated Remote controlled anti-theft lock in 2008203014576, though having solved, this lock need excessive dc battery jar or the power supply of configuration to be inserted in the problem that charging could be used on the 220V alternating current for a long time, but almost all exposing with outer dress, locks outside the lock body its automatically controlled insurance movable machinery, and have one group of reduction gearing, mechanism is excessive, and the moving parts complexity has increased the profile and the assembling and setting difficulty of lock body.

The utility model content

The purpose of this utility model just provides and a kind ofly needs neither to dispose that big electric power drives and automatically controlled insurance movable machinery can all be accommodated in the lock housing Electromechanically integrated Remote controlled anti-theft lock simple in structure.

Solution of the present utility model is such: include the lock core interlock driving lever that is contained in the lock housing, move up and down castellated plates and move left and right castellated plates by what this lock core interlock driving lever was stirred, be installed in the buting iron of the direction of motion that moves up and down castellated plates, described buting iron is connected with automatically controlled remote control by rotating shaft, on described buting iron, be provided with a datum A face with draw-in groove, in described lock housing, be equipped with and turn to kelly by torsion spring, this turns to kelly one end to stretch out to described buting iron, the end of external part and described draw-in groove adapt, when door lock is in closed condition, the A face of described buting iron and the described castellated plates that moves up and down are skewed and occupy the described castellated plates shift position that moves up and down, when but door lock is in opening, the A face of described buting iron is parallel with the described castellated plates that moves up and down, and insert in the described draw-in groove the described end of kelly that turns to; Also be connected with the buting iron back-moving spring on described buting iron, the other end of this buting iron back-moving spring is fixed on the described lock housing.

In such scheme, described automatically controlled remote control can be the DC micromotor that is fixed in the described lock housing, and described buting iron can be to be connected with the rotating shaft of this DC micromotor; Can be provided with the cantilever arm that stretches out downwards at the described other end of kelly that turns to, on described move left and right castellated plates, can be hinged with unidirectional rotation and bump iron, the upper end of bumping iron in this unidirectional rotation is provided with the cantilever arm that protrudes upward, the upper end of this cantilever arm is higher than the described lower end that turns to the kelly cantilever arm, the lower end that iron is bumped in described unidirectional rotation with bump the iron back-moving spring and be connected, this other end that bumps the iron back-moving spring is fixed on the described move left and right castellated plates, and the left side of bumping iron in described unidirectional rotation is provided with spacing card.

The utility model has the advantages that: the mode that DC micromotor drives buting iron is installed in lock housing replaces original outer a series of huge moving parts mechanisms such as reduction gearing that adorn by adopting, realized automatically controlled insurance movable machinery can all be accommodated in the lock housing, simplify lock body structure, installation, easy to use, and do not need to be equipped with big electric power.

Description of drawings

Accompanying drawing is embodiment of the present utility model.

Accompanying drawing 1 is a structural representation of the present utility model.

Accompanying drawing 2 is A-A views of accompanying drawing 1.

Accompanying drawing 3 is B-B views of accompanying drawing 1.

Accompanying drawing 4 is that each parts is in the schematic diagram that lock can opening in the accompanying drawing 3.

Accompanying drawing 5 is structural representations of buting iron of the present utility model.

The specific embodiment

Embodiment of the present utility model includes that lock core 1, lock core interlock are dialled iron 2, move left and right castellated plates 3, moved up and down castellated plates 4, spacing lock 5, chute locating shaft 6, rotate that kelly 7, buting iron 8, buting iron installing rack 9, buting iron back-moving spring 10, motor embrace that folder 11, DC micromotor 12, torsion spring 13, torsion spring left arm axis 14, unidirectional rotation bump iron 15, bump iron back-moving spring 16, lock housing 17, draw-in groove 18.

The utility model has the lock core interlock driving lever 2 in lock housing of being contained in 17, move up and down castellated plates 4 and move left and right castellated plates 3 by what this lock core interlock driving lever 2 was stirred, be installed in the buting iron 8 of the direction of motion that moves up and down castellated plates 4, described buting iron 8 is connected with automatically controlled remote control by rotating shaft, on described buting iron 8, be provided with a datum A face with draw-in groove 18, in described lock housing 17, be equipped with and turn to kelly 7 by torsion spring, this turns to kelly 7 one ends to stretch out to described buting iron 8, the end of external part and described draw-in groove 18 adapt, when door lock is in closed condition, the A face of described buting iron 8 and the described castellated plates 4 that moves up and down are skewed and occupy described castellated plates 4 shift positions that move up and down, when but door lock is in opening, the A face of described buting iron 8 is parallel with the described castellated plates 4 that moves up and down, and insert in the described draw-in groove 18 the described end of kelly 7 that turns to; Also be connected with buting iron back-moving spring 10 on described buting iron 8, the other end of this buting iron back-moving spring 10 is fixed on the described lock housing 17.

Described automatically controlled remote control is the DC micromotor 12 that is fixed in the described lock housing 17, and described buting iron 8 is to be connected with the rotating shaft of this DC micromotor 12.

Be provided with the cantilever arm that stretches out downwards at the described other end of kelly 7 that turns to, on described move left and right castellated plates 3, be hinged with unidirectional rotation and bump iron 15, the upper end of bumping iron 15 in this unidirectional rotation is provided with the cantilever arm that protrudes upward, the upper end of this cantilever arm is higher than the described lower end that turns to kelly 7 cantilever arms, the lower end that iron 15 is bumped in described unidirectional rotation with bump iron back-moving spring 16 and be connected, this other end that bumps iron back-moving spring 16 is fixed on the described move left and right castellated plates 3, and the left side of bumping iron 15 in described unidirectional rotation is provided with spacing card.

In Fig. 1, Fig. 2, structure shown in Figure 3, lock core interlock driving lever 2 is installed in lock housing 17 and moves up and down castellated plates 4 and move left and right castellated plates 3 by what this lock core interlock driving lever 2 was stirred.Be provided with buting iron 8 last in the direction of motion that moves up and down castellated plates 4, this piece buting iron 8 is connected with a rotating shaft as the DC micromotor 12 of automatically controlled remote control in being installed in lock housing 17 by buting iron installing rack 9.On buting iron 8, be provided with a datum A face with draw-in groove 18.In lock housing 17, be equipped with and turn to kelly 7 by torsion spring, this turns to kelly 7 one ends to stretch out to buting iron 8, the end of external part and draw-in groove 18 adapt, when door lock is in closed condition, the A face of buting iron 8 with move up and down castellated plates 4 and be skewed and occupy and move up and down castellated plates 4 shift positions, when but door lock is in opening, the A face of buting iron 8 turns to the end of kelly 7 to insert in the described draw-in groove 18 with to move up and down castellated plates 4 parallel; Also be connected with buting iron back-moving spring 10 on buting iron 8, the other end of this root buting iron back-moving spring 10 is fixed on the lock housing 17.Also be provided with the cantilever arm that stretches out downwards at the other end that turns to kelly 8, on move left and right castellated plates 3, be hinged with unidirectional rotation and bump iron 15, the upper end of bumping iron 15 in this unidirectional rotation is provided with the cantilever arm that protrudes upward, the upper end of this cantilever arm is higher than the lower end that turns to kelly 8 cantilever arms, the lower end that iron 15 is bumped in unidirectional rotation with bump iron back-moving spring 16 and be connected, the other end that this root bumps iron back-moving spring 16 is fixed on the move left and right castellated plates 3, and the left side of bumping iron 15 in unidirectional rotation is provided with spacing card.

The utility model is in use as Fig. 1, Fig. 2, door lock shown in Figure 3 is in the state of locking a door, under this state, buting iron 8 lifts under the elastic force effect of buting iron back-moving spring 10, its datum A face with move up and down castellated plates 4 and be the skewed shift position that moves up and down castellated plates 4 that occupied, using this moment the key of being joined or any master key rotational lock core interlock to dial iron 2 unblanks also not open, because buting iron 8 has blocked the termination that moves up and down castellated plates 4, it can not be moved up, and the lock core interlock is dialled profile of tooth position that iron 2 just can not arrive move left and right castellated plates 3 and is stirred lock and move right and unblank.So, before unblanking, must press the remote controller that is disposed earlier, be installed in the door in a receiver receive signal after, starting DC micromotor 12 is rotated counterclockwise, the buting iron 8 that is connected with DC micromotor 12 rotating shafts is rotation thereupon also, make datum A face and to move up and down castellated plates 4 parallel, abdicate the shift position that moves up and down castellated plates 4, and turn to kelly 7 under the effect of torsion spring 13, to insert to block in the draw-in groove 18 buting iron 8 make its can not be under the effect of back-moving spring 10 return, motor outage this moment, the promptly available key that disposes is normally unblanked, as shown in Figure 4.After ending lock, buting iron 8 is in this state always under the effect that turns to kelly 7.Go out when locking when next time, move left and right castellated plates 3 is under the effect of lock core interlock driving lever 2, be moved to the left, centre position when last tooth that moves to right, be that lock will be will be locked into the time, being installed in unidirectional rotation on the left and right sides castellated plates 3 bumps the cantilever arm of iron 15 upper ends and bumps the cantilever arm that spins to kelly 7, and the torsion that presses down that overcomes torsion spring 13 makes the draw-in groove 18 that turns to kelly 7 to clockwise rotate to break away from buting iron 8, releasing is spacing to buting iron 8, buting iron 8 is clockwise return under the effect of buting iron back-moving spring 10, once more with move up and down castellated plates 4 and be skewed, occupying the shift position that moves up and down castellated plates 4 locks door, do not having under the situation of remote-control unlocking, any key can not be opened.Lock and remote control to control, only moment use before opening the door of remote controller.Unidirectional rotation is bumped iron 15 and is being unblanked when moving right, and its cantilever arm also will bump the cantilever arm that spins to kelly 7, but turns to kelly 7 other ends to insert in the draw-in groove of buting iron 8, therefore turns to kelly 7 not rotate to make way for unidirectional rotation to bump iron 15.And bump iron 15 this moment in the motion of lock core manual force, overcome the pulling force that bumps iron back-moving spring 16 that is hooked in its lower end, be rotated counterclockwise, and in the process that the move left and right castellated plates continues to move, smoothly by turning to the cantilever arm of kelly 7, and do not influence the previous status that turns to kelly 7.By after, under the effect of bumping iron back-moving spring 16, reset.Unidirectional rotation is bumped iron 15 under the restriction of the spacing card that is positioned at its left side when locking, can not clockwise rotate, bump and to clockwise rotate when beating its cantilever arm, in draw-in groove 18, withdraw from and turn to kelly 7 to bump iron 15 in unidirectional rotation, allow buting iron 8 returns, and allow the unidirectional iron 15 that bumps pass through.

Claims (3)

1. Electromechanically integrated Remote controlled anti-theft lock, include the lock core interlock driving lever (2) that is contained in the lock housing (17), move up and down castellated plates (4) and move left and right castellated plates (3) by what this lock core interlock driving lever (2) was stirred, be installed in the buting iron (8) of the direction of motion that moves up and down castellated plates (4), it is characterized in that: described buting iron (8) is connected with automatically controlled remote control by rotating shaft, on described buting iron (8), be provided with a datum A face with draw-in groove (18), in described lock housing (17), be equipped with and turn to kelly (7) by torsion spring, this turns to kelly (7) one ends to stretch out to described buting iron (8), the end of external part and described draw-in groove (18) adapt, when door lock is in closed condition, the A face of described buting iron (8) and the described castellated plates (4) that moves up and down are skewed and occupy described castellated plates (4) shift position that moves up and down, when but door lock is in opening, the A face of described buting iron (8) is parallel with the described castellated plates (4) that moves up and down, and insert in the described draw-in groove (18) the described end of kelly (7) that turns to; Also be connected with buting iron back-moving spring (10) on described buting iron (8), the other end of this buting iron back-moving spring (10) is fixed on the described lock housing (17).

2. Electromechanically integrated Remote controlled anti-theft lock according to claim 1, it is characterized in that: described automatically controlled remote control is the DC micromotor (12) that is fixed in the described lock housing (17), and described buting iron (8) is to be connected with the rotating shaft of this DC micromotor (12).

3. Electromechanically integrated Remote controlled anti-theft lock according to claim 1 and 2, it is characterized in that: be provided with the cantilever arm that stretches out downwards at the described other end of kelly (7) that turns to, on described move left and right castellated plates (3), be hinged with unidirectional rotation and bump iron (15), the upper end of bumping iron (15) in this unidirectional rotation is provided with the cantilever arm that protrudes upward, the upper end of this cantilever arm is higher than the described lower end that turns to kelly (7) cantilever arm, the lower end that iron (15) is bumped in described unidirectional rotation with bump iron back-moving spring (16) and be connected, this other end that bumps iron back-moving spring (16) is fixed on the described move left and right castellated plates (3), and the left side of bumping iron (15) in described unidirectional rotation is provided with spacing card.

Images