CN106088837B - Electric motor clutch handle - Google Patents
Electric motor clutch handle Download PDFInfo
- Publication number
- CN106088837B CN106088837B CN201610429271.8A CN201610429271A CN106088837B CN 106088837 B CN106088837 B CN 106088837B CN 201610429271 A CN201610429271 A CN 201610429271A CN 106088837 B CN106088837 B CN 106088837B
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- CN
- China
- Prior art keywords
- clutch
- rotor
- pin
- spring
- push
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Classifications
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/0001—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof
- E05B47/0012—Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof with rotary electromotors
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B15/00—Other details of locks; Parts for engagement by bolts of fastening devices
-
- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B47/00—Operating or controlling locks or other fastening devices by electric or magnetic means
- E05B47/06—Controlling mechanically-operated bolts by electro-magnetically-operated detents
- E05B47/0676—Controlling mechanically-operated bolts by electro-magnetically-operated detents by disconnecting the handle
- E05B47/0684—Controlling mechanically-operated bolts by electro-magnetically-operated detents by disconnecting the handle radially
- E05B47/0692—Controlling mechanically-operated bolts by electro-magnetically-operated detents by disconnecting the handle radially with a rectilinearly moveable coupling element
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- Lock And Its Accessories (AREA)
Abstract
The present invention relates to a kind of electric motor clutch handles, it is characterised in that:It include shell;Rotor, rotation are set in shell;Torsional spring in shell and acts on rotor so that rotor resets;Clutch block, in the cavity in rotor and energy relative rotor rotates, the center of clutch block has square hole, the periphery of clutch block has the first clutch notch of indent, constraint has can move radially first to drive pin in rotor, first drives the outer end of pin to keep the trend for exposing rotor outer periphery face under the effect of the first spring, and first drives the inner end of pin to coordinate with the first clutch notch;First push jack, constraint can simultaneously slide inside the shell, and the sliding of the first push jack, which can push in the first drive pin, to move to be inserted into the first clutch notch;Motor-driven structure, in shell to drive the first push jack slide.It is a kind of electric motor clutch handle that the handle under not door opening state can dally, this handle can be combined with common lock body, realizes intelligent lock function, substantially reduces the cost of the entire lockset of door.
Description
Technical field
The present invention relates to a kind of door handle more particularly to a kind of electric motor clutch handles, which is suitble to and guest
The smart lock of shop door is used cooperatively.
Background technology
Antitheft door smart lock includes mainly door handle, lock tongue and switch controlling device, wherein door handle is rotatable, packet
An outside door handle and an inside door handle are included, outside door handle and inside door handle are used to control the switch of door, lock tongue
Wedge-shaped lock tongue including several non-automatic flexible lock tongues and an automatically retractable, switch controlling device includes driving device and biography
Dynamic device, the torsional moment that driving device generates drive lock tongue to pop up or inside contract after transmission device, reach and lock a door or open the door
Purpose.The driving device of switch controlling device includes the input terminal and direct current of the receiver of remote-control sytem controlled by remote control transmitter
The positive and negative anodes in pond connect, and the output end of receiver of remote-control sytem is connect with the output end of miniature DC motor respectively, lock a door close to switch
Circuit input end and the anode of dc-battery connect, the locking door relay anode of the output end of circuit and receiver of remote-control sytem connects
It connects, the switch locked a door close to switch is connect with the inner end of outside door handle and inside door handle respectively, is opened the door close to the electricity of switch
The anode of road input terminal and dc-battery connects, and the enabling relay anode of circuit output end and receiver of remote-control sytem connects, and opens the door
It is connect close to switch with the inner end of inside door handle.
Such as application No. is the Chinese invention patents of CN201410030701.X (Publication No. CN103726713A)《It is a kind of double
Drive intelligent electronic handle》Similar electronic clutch handle structure is disclosed, including the handle and lock core being arranged in door body,
Clutch is provided at the shaft of hand, clutch includes clutch seat and square shaft seat, and driving motor is arranged in clutch seat, drives
The motor shaft of dynamic motor connects with turntable, and turntable connects with screw rod, and trip(ping) lever is arranged on screw rod, and square shaft seat is located at clutch seat
Lower section is provided with the jack being inserted into for trip(ping) lever on square shaft seat, and one end of square shaft is inserted into square shaft seat, and the other end of square shaft is inserted
Enter lock core.It is provided with spring between square shaft and square shaft seat, which is crimped between square shaft and square shaft seat.Trip(ping) lever includes spiral shell
One end of mother, stiff spring, guide rod and intermediate connector, stiff spring connects with nut, and the other end of stiff spring passes through
Intermediate connector connects with guide rod, and guide rod is inserted into jack;Nut is connect with screw flight, and intermediate connector empty set is in screw rod
On.
The clutch lever that conventional motors drive has as a drawback that:Common electric motor clutch handle is that can control handle
It is rotated, the dynamic energy that handle turns opens the door, and turns motionless and does not just open door.But when handle turns motionless, although not opening door,
But it is firmly big at this time handle to be removed to a certain extent disconnected, there is the risk being damaged violently, and this door is only by tiltedly locking
Tongue locks, and safety is poor.Also there is the smart lock that handle dallies in the market, but its clutch structure and motor are arranged in lock construction
In, this electronic lock motor and clutch structure are arranged in smart lock, cause the spring lock internal structure with clutch function complicated,
And it is at high price.
Invention content
One kind is provided the technical problem to be solved by the present invention is to present situation for the above-mentioned prior art in not door opening state
The electric motor clutch handle that lower handle can dally, this handle can be combined with common lock body, realized intelligent lock function, substantially reduced room
The cost of the entire lockset of door.
Technical solution is used by the present invention solves above-mentioned technical problem:A kind of electric motor clutch handle, it is characterised in that:
It include shell;Rotor, rotation are set in shell, and rotor has the square shaft to be connect with outer handle;Torsional spring is set in shell
And rotor is acted on so that rotor resets;Clutch block, is set in the cavity in rotor and energy relative rotor rotates, in clutch block
The heart has a square hole, and the periphery of clutch block has the first clutch notch of indent, in the rotor constraint have can move radially the
One drives pin, and first drives the outer end of pin to keep the trend for exposing rotor outer periphery face under the effect of the first spring, and first drives pin
Inner end to the first clutch notch coordinate;First push jack, constraint can simultaneously slide inside the shell, the sliding of the first push jack
Described first can be pushed to drive pin that the first spring force diameter is overcome inwardly to move to be inserted into the first clutch notch;Motor-driven structure,
In shell to drive the first push jack slide.
Further to improve, the periphery of above-mentioned clutch block has the second clutch notch of indent, and being constrained in the rotor has
Can move radially second drives pin, and second drives the outer end of pin to keep exposing becoming for rotor outer periphery face under second spring effect
Gesture, second drives the inner end of pin to coordinate with the second clutch notch;Constraint has can slide second to push away in the shell
Piece, the sliding of the second push jack can push described second to drive pin that second spring elastic force diameter is overcome inwardly to move and be lacked with being inserted into the second clutch
Mouthful;Key lock set is additionally provided in the shell, the driver blade of key lock set is connect with the second push jack to drive the second push jack
Sliding.Second clutch is set and plays emergencing action, under motor-driven structure fault condition, is driven by key lock set
Second drives pin to be inserted into the second clutch notch so that rotor rotation can drive clutch block to rotate, and open the door.Because this clutch lever has
Individually machinery opens part, is not influenced by lock body lock core position, so practicability is stronger.
It advanced optimizes, above-mentioned first push jack is arc-shaped, and the intrados of the first push jack sells cooperation to be driven with first.Cause
First push jack is arc-shaped, therefore turns an angle in rotor and also can guarantee that the sliding of the first push jack can drive in the second drive pin
It moves, the action of inner clutch structure is more stable.
Similarly, above-mentioned second push jack is arc-shaped, and the intrados of the second push jack sells cooperation to be driven with second.
Pin and spring are driven for ease of installation, the first sheath and the second sheath, the first band are embedded in above-mentioned rotor
Dynamic pin and the first spring are arranged in the first sheath, and described second drives pin and second spring to be arranged in the second sheath.It drives
Pin and spring can be pre-installed in sheath, and sheath is integrally then packed into rotor, and installation is more convenient, while being also conducive to letter
Change rotor structure, is conducive to rotor molding manufacture.
Above-mentioned motor-driven structure includes motor rack, motor, and motor is mounted in motor rack, and the outer end of the first push jack has
The linkage portion in motor rack is stretched into, is connected so that linkage can be driven by drive mechanism between the output shaft of motor and the linkage portion
Portion slides.Each component can be pre-installed in motor rack, then the motor rack after installation is directly assembled in shell,
Modularization installation is formed, faster convenience is installed.
Preferably, above-mentioned drive mechanism includes the worm screw being mounted in motor rack, worm screw passes through driving gear set and electricity
The output shaft of machine is connected and can be rotated around own axes, and push the spring, the wrom tooth phase of push the spring and worm screw are arranged on worm screw
It matches so that the rotation of worm screw drives push the spring to be moved axially along worm screw, there are two the tools end to end of push the spring and the linkage
The connected free end in portion.It is few that this drive mechanism is related to component, and stable drive, wherein spring are equivalent to the effect of threaded hole, snail
The wrom tooth of bar is equivalent to the effect of threaded post, according to screw-driven principle, by the positive and negative rotation of worm screw, realizes that push the spring is opposite
Worm screw moves left and right, and final realize drives linkage portion to move left and right.
Strip-shaped hole is provided in above-mentioned linkage portion, the free end of the push the spring is stretched into the strip-shaped hole, respectively with bar shaped
Inner hole wall on hole length direction coordinates to drive linkage portion to slide.This structure push the spring is connect simply with linkage portion, is easy to
Free end need to be only inserted into strip-shaped hole when assembling by assembling.
It further improves, the periphery also third clutch notch with indent of above-mentioned clutch block, constraint in the rotor
Have can radial traversing third drive pin, third drive the inner end of pin keep exposing under the effect of third spring rotor inner peripheral surface with
It is inserted into the trend of third clutch notch, a side wall of the third clutch notch is the first contact plane, third clutch notch
Bottom and another side wall formed from bottom gradually to the first cambered surface of clutch block peripheral surface direction rounding off, the third
It is the second contact plane coordinate with the first contact plane to drive a side of pin, third drive the bottom surface sold for and the first arc
Second cambered surface of face cooperation;When rotor deflects in one direction, energy is coordinated by the first contact plane and the second contact plane
It drives clutch block to deflect together, when rotor deflects to another way, can be pushed by the first cambered surface and the cooperation of the second cambered surface
Third drives pin to inside contract, and clutch block is not with rotor deflection.
The structure ensures, in the state that first and second to drive pin be to be inserted into the first and second clutch notch, i.e. clutch block
With rotor be in from state, can also make rotor some direction (clockwise or counterclockwise) rotation also clutch block can be driven inclined
Turn, complete locking, after this just realizes shutdown, lifting or pushing door handle realizes the further locking of door, and door is avoided to only have
Oblique lock tongue is locked, and safety is stronger;Meanwhile third drives pin to can also be achieved the effect of clutch block auxiliary reset, is opening the door
After, rotor resets under the effect of torsion spring, resets although clutch block can be driven under the action of lock construction by square rod, ties again
Closing third drives pin under the effect of third spring, by the effect that mutually compresses of the first cambered surface and the second cambered surface, assists making clutch
Block reset.
Third sheath is embedded in above-mentioned rotor, the third drives pin and third spring to be arranged in third sheath.Band
Dynamic pin and spring can be pre-installed in sheath, sheath is integrally then packed into rotor, installation is more convenient, while being also conducive to
Simplify rotor structure, is conducive to rotor molding manufacture.
Compared with the prior art, the advantages of the present invention are as follows:This electric motor clutch handle by motor-driven structure obtain it is electric with
It is no, first push jack of control or so sliding;It is electric, motor-driven structure drives the first push jack to push the towards close to rotor direction sliding
One drives pin that the first spring force diameter is overcome inwardly to move to be inserted into the first clutch notch, and at this moment rotor is combined with clutch block, rotor
Rotational energy drive clutch block rotate with, realize open the door;Dead electricity, the first push jack slide towards far from rotor direction, and first drives
Pin is moved outwards under the effect of the first spring force to leave the first clutch notch, and at this moment rotor is separated from each other with clutch block, is turned
The rotation of son, which cannot drive, drives clutch block to rotate with, i.e., rotor dallies under external force, thus will not be because of handle
Do not move, and it is firmly excessive cause handle to be damaged, malicious damage can be prevented.This handle can be combined with common lock body, realize intelligence
Energy lock function, substantially reduces the cost of the entire lockset of door.
Description of the drawings
Fig. 1 is the dimensional structure diagram of the embodiment of the present invention;
Fig. 2 is that the embodiment of the present invention removes the dimensional structure diagram after a half-shells;
Fig. 3 is that the embodiment of the present invention removes the dimensional structure diagram after a half-shells and sheath;
Fig. 4 is the dimensional structure diagram that motor-driven structure of the embodiment of the present invention is connect with the first push jack;
Fig. 5 is the dimensional structure diagram that key of embodiment of the present invention lock set is connect with the second push jack;
Fig. 6 is the dimensional structure diagram of clutch block in the embodiment of the present invention;
Fig. 7 is the dimensional structure diagram that third drives pin in the embodiment of the present invention;
Fig. 8 is the stereogram exploded view of the embodiment of the present invention.
Specific implementation mode
Below in conjunction with attached drawing embodiment, present invention is further described in detail.
It is a preferred embodiment of the present invention as shown in Fig. 1~8.
A kind of electric motor clutch handle includes
Shell 1, shell 1 are formed by bottom plate and cover combination.
Rotor 2, rotation are set in shell 1, and there is rotor 2 square shaft 21 to be connect with outer handle, square shaft 21 to be pierced by outer
Shell 1 is just connect with outer handle.
Torsional spring 4 in shell 1 and acts on rotor 2 so that rotor 2 resets.
Clutch block 3, is set in the cavity in rotor 2 and energy relative rotor 2 rotates, and the center of clutch block 3 has square hole 31,
The periphery of clutch block 3 has the first clutch notch 5a of indent, and being constrained in rotor 2 has can move radially first to drive pin 6a,
First drives the outer end of pin 6a to keep the trend for exposing 2 peripheral surface of rotor under the first spring 7a effects, and first drives pin 6a's
Inner end to the first clutch notch 5a coordinate;The periphery of clutch block 3 has the second clutch notch 5b of indent, rotor 2
Interior constraint has can move radially second to drive pin 6b, and second drives the outer end of pin 6b to keep exposing under second spring 7b effects
The trend of 2 peripheral surface of rotor, second drives the inner end of pin 6b to coordinate with the second clutch notch 5b.
First push jack 8a is constrained in shell 1 and can be slid, and the sliding of the first push jack 8a can push the first 6a grams of drive pin
It takes the first spring 7a elastic force diameter inwardly to move to be inserted into the first clutch notch 5a, the first push jack 8a is arc-shaped, and the first push jack 8a's is interior
Cambered surface sells 6a cooperations to be driven with first.Constraint has the second push jack 8b that can be slid, the sliding energy of the second push jack 8b in shell 1
Described second is pushed to drive pin 6b that second spring 7b elastic force diameter is overcome inwardly to move to be inserted into the second clutch notch 5b, the second push jack 8b
Arc-shaped, the intrados of the second push jack 8b sells 6b cooperations to be driven with second.Key lock set 9, key are additionally provided in shell 1
The driver blade 91 of lock set 9 is connect with the second push jack 8b to drive the second push jack 8b slidings.The first sheath is embedded in rotor 2
10a and the second sheath 10b, first drives pin 6a and the first spring 7a to be arranged in the first sheath 10a, and second drives pin 6b and the
Two spring 7b are arranged in the second sheath 10b.
Motor-driven structure, driving the first push jack 8a slidings in the shell 1.
Motor-driven structure includes motor rack 11, motor 12, and motor 12 is mounted in motor rack 11, and the first push jack 8a's is outer
The linkage portion 81 for having and stretching into motor rack 11 is held, passes through drive mechanism phase between the output shaft of motor 12 and the linkage portion 81
Lian Yineng drives linkage portion 81 to slide.Drive mechanism includes the worm screw 13 being mounted in motor rack 11, and worm screw 13 passes through driving cog
Wheel group 14 is connected with the output shaft of motor 12 and can be rotated around own axes, and push the spring 15 is arranged on worm screw 13, pushes bullet
Spring 15 and the wrom tooth 131 of worm screw 13 match so that the rotation drive push the spring 15 of worm screw 13 is pushed away along the axial movement of worm screw 13
Moving, there are two the free ends 151 that are connected with linkage portion 81 for the tool end to end of spring 15.Strip-shaped hole 811 is provided in linkage portion 81, it is described
The free end 151 of push the spring 15 is stretched into the strip-shaped hole 811, is coordinated respectively with the inner hole wall on 811 length direction of strip-shaped hole
To drive linkage portion 81 to slide.
The periphery of the clutch block 3 also third clutch notch 5c with indent, the interior constraint of rotor 2 has can radial traversing third
Drive pin 6c, third drive the inner end of pin 6c to keep exposing 2 inner peripheral surface of rotor under third spring 7c effect be inserted into third from
The trend of notch 5c is closed, a side wall of third clutch notch 5c is the first contact plane 51, the bottom of third clutch notch 5c
It is formed from bottom gradually to the first cambered surface 52 of 3 peripheral surface direction rounding off of clutch block, the third band with another side wall
A side of dynamic pin 6c be the second contact plane 61 coordinate with the first contact plane 51, third drive sell the bottom surface of 6c for
Second cambered surface 62 of the first cambered surface 52 cooperation;When rotor 2 deflects in one direction, when rotor 2 deflects to another way,
It can push third that pin 6c is driven to inside contract by the first cambered surface 52 and the cooperation of the second cambered surface 62, clutch block 3 is not with rotor deflection.Rotor
Third sheath 10c is embedded in 2, third drives pin 6c and third spring 7c to be arranged in third sheath 10c.
This electric motor clutch handle can connect a line and swipe the card circuit, and when swiping the card correct, motor 12 works, rotor 2 and clutch block 3
In conjunction with, outer grip hand-motion rotor Unscrew lock body can be pushed, otherwise outer handle can only drive rotor 2 dally
The operation principle and process of this electronic clutch handle is as follows:
Reset state:Rotor 2 is in reset state, the torsional spring effect on the meeting Internal handle of clutch block 3 under the action of torsional spring 4
Under be also at reset state, while first drives pin 6a, second to drive pin 6b and third that pin 6c is driven to be respectively aligned to the first clutch
Notch 5a, the second clutch notch 5b and third clutch notch 5c, first drives pin 6a, second that pin 6b is driven to be not inserted into first
Clutch notch 5a and the second clutch notch 5b, rotor 2 and clutch block 3 be in from state, third drive pin 6c then in third bullet
Spring 7c effect is lower to be located in third clutch notch 5c, rotates rotor, general outer grip subordinate press operation, passes through the first cambered surface 52 and the
The cooperation of two cambered surfaces 62 can push third that pin 6c is driven to inside contract, and for clutch block 3 not with rotor deflection, the outer handle being connected with rotor 2 is empty
Turn, prevents malicious damage.
Locking process:General above to carry outer handle, rotor 2 is passing through the first contact plane 51 and the cooperation of the second contact plane 61
Clutch block 3 can be driven to deflect together, clutch block 3 can also be driven to deflect, complete locking.
Releasing process:Can by swiping the card or other means, allow motor 12 it is electric, swipe the card primary general that the electric time can set
6 seconds fixed, during this 6 seconds, motor 12 drives worm screw 13 to rotate, real by the rotation of worm screw 13 according to screw-driven principle
The axial movement of 15 opposite worm screw 13 of existing push the spring, push the spring 15 drive the first push jack 8a to be moved towards close to 2 direction of rotor,
First push jack 8a pushes first to drive pin 6a that the first spring 7a elastic force diameter is overcome inwardly to move to be inserted into the first clutch notch 5a, because from
It closes block 3 and rotor 2 combines, rotation outer grip hand-motion rotor 2 and clutch block 3 are rotated towards unlocking direction together, realize unlock;Setting
After time, motor drives worm screw to reversely rotate, and the first push jack 8a is similarly driven to reset, and first drives pin 6a in the first spring
Lower reset of 7a effects leaves the first clutch notch 5a, and because clutch block 3 and rotor 2 are in discrete state, outer handle and rotor 2 are being turned round
The effect of spring 4 is lower to be resetted, and each component is in reset state.
Although the preferred embodiment of the present invention described in detail above, it is to be clearly understood that for this field
Technical staff for, the invention may be variously modified and varied.Appoint made by all within the spirits and principles of the present invention
What modification, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.
Claims (9)
1. a kind of electric motor clutch handle, it is characterised in that:Include
Shell (1);
Rotor (2), rotation are set in shell (1), and rotor (2) has the square shaft (21) to be connect with outer handle;
Torsional spring (4) is set in shell (1) and acts on rotor (2) so that rotor (2) resets;
Clutch block (3), is set in the cavity in rotor (2) and energy relative rotor (2) rotates, and the center of clutch block (3) has side
Hole (31), the periphery of clutch block (3) have the first clutch notch (5a) of indent, and being constrained in the rotor (2) has and can radially move
Dynamic first drives pin (6a), and first drives the outer end of pin (6a) to keep exposing rotor (2) outside under the first spring (7a) effect
The trend of circumferential surface, first drives the inner end of pin (6a) to coordinate with the first clutch notch (5a);
First push jack (8a) is constrained in shell (1) and can be slid, and the sliding of the first push jack (8a) can push described first to drive
Pin (6a) overcomes the first spring (7a) elastic force diameter inwardly to move to be inserted into the first clutch notch (5a);
Motor-driven structure is set in shell (1) to drive the first push jack (8a) to slide;
The periphery of the clutch block (3) the also third clutch notch (5c) with indent, the interior constraint of the rotor (2) has can be radial
Traversing third drives pin (6c), third that the inner end of pin (6c) is driven to keep exposing rotor (2) under third spring (7c) effect
For inner peripheral surface to be inserted into the trend of third clutch notch (5c), a side wall of the third clutch notch (5c) is that the first contact is flat
Face (51), bottom and another side wall of third clutch notch (5c) are formed from bottom gradually to clutch block (3) peripheral surface direction
The first cambered surface (52) of rounding off, it is to coordinate with the first contact plane (51) that the third, which drives a side of pin (6c),
Second contact plane (61), it is the second cambered surface (62) coordinated with the first cambered surface (52) that third, which drives the bottom surface of pin (6c),;Turning
When sub (2) deflect in one direction, clutch block can be driven by the first contact plane (51) and the second contact plane (61) cooperation
(3) it deflects together, when rotor (2) deflects to another way, energy is coordinated by the first cambered surface (52) and the second cambered surface (62)
Push third that pin (6c) is driven to inside contract, clutch block (3) is not with rotor deflection.
2. electric motor clutch handle according to claim 1, it is characterised in that:The periphery of the clutch block (3) has indent
The second clutch notch (5b), in the rotor (2) constraint there is can move radially second to drive pin (6b), second drives pin
The outer end of (6b) keeps the trend for exposing rotor (2) peripheral surface under second spring (7b) effect, and second drives the interior of pin (6b)
It holds to coordinate with the second clutch notch (5b);Being constrained in the shell (1) has the second push jack (8b) that can be slid, and second
The sliding of push jack (8b) can push described second to drive pin (6b) that second spring (7b) elastic force diameter is overcome inwardly to move to be inserted into second
Clutch notch (5b);It is additionally provided with key lock set (9), the driver blade (91) and second of key lock set (9) in the shell (1)
Push jack (8b) connection is to drive the second push jack (8b) to slide.
3. electric motor clutch handle according to claim 1, it is characterised in that:First push jack (8a) is arc-shaped, and first
The intrados of push jack (8a) sells (6a) cooperation to be driven with first.
4. electric motor clutch handle according to claim 2, it is characterised in that:Second push jack (8b) is arc-shaped, and second
The intrados of push jack (8b) sells (6b) cooperation to be driven with second.
5. electric motor clutch handle according to claim 2, it is characterised in that:It is embedded with the first sheath in the rotor (2)
(10a) and the second sheath (10b), described first drives pin (6a) and the first spring (7a) setting in the first sheath (10a), institute
The second drive pin (6b) and second spring (7b) setting are stated in the second sheath (10b).
6. electric motor clutch handle according to claim 1, it is characterised in that:The motor-driven structure includes motor rack
(11), motor (12), motor (12) are mounted in motor rack (11), and the outer end of the first push jack (8a), which has, stretches into motor rack (11)
Interior linkage portion (81) is connected by drive mechanism can drive connection between the output shaft and the linkage portion (81) of motor (12)
Dynamic portion (81) sliding.
7. electric motor clutch handle according to claim 6, it is characterised in that:The drive mechanism includes being mounted on motor rack
(11) worm screw (13) in, worm screw (13) by driving gear set (14) is connected with the output shaft of motor (12) can be around itself axis
Line rotates, and is arranged with push the spring (15) on worm screw (13), the wrom tooth (131) of push the spring (15) and worm screw (13) match with
Make the rotation of worm screw (13) that push the spring (15) be driven to be moved axially along worm screw (13), there are two the tools end to end of push the spring (15)
The free end (151) being connected with the linkage portion (81).
8. electric motor clutch handle according to claim 7, it is characterised in that:It is provided with strip-shaped hole on the linkage portion (81)
(811), the free end (151) of the push the spring (15) is stretched into the strip-shaped hole (811), respectively with strip-shaped hole (811) length
Inner hole wall on direction coordinates to drive linkage portion (81) to slide.
9. electric motor clutch handle according to claim 1, it is characterised in that:It is embedded with third sheath in the rotor (2)
(10c), the third drive pin (6c) and third spring (7c) setting in third sheath (10c).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610429271.8A CN106088837B (en) | 2016-06-15 | 2016-06-15 | Electric motor clutch handle |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610429271.8A CN106088837B (en) | 2016-06-15 | 2016-06-15 | Electric motor clutch handle |
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Publication Number | Publication Date |
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CN106088837A CN106088837A (en) | 2016-11-09 |
CN106088837B true CN106088837B (en) | 2018-08-07 |
Family
ID=57235280
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201610429271.8A Expired - Fee Related CN106088837B (en) | 2016-06-15 | 2016-06-15 | Electric motor clutch handle |
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CN107747431A (en) * | 2017-11-10 | 2018-03-02 | 北京果加智能科技有限公司 | A kind of electronic lock clutch module |
CN107747432B (en) * | 2017-11-10 | 2023-02-03 | 北京果加智能科技有限公司 | Electronic lock unlocking module |
CN108343324A (en) * | 2018-04-18 | 2018-07-31 | 李祥龙 | A kind of moment of couple pattern clutch and its lock core component for smart lock |
CN109629908A (en) * | 2019-02-11 | 2019-04-16 | 陈小仁 | A kind of driving control structure of lock body |
CN110159075B (en) * | 2019-06-13 | 2024-04-09 | 温州市塞纳科技有限公司 | Intelligent lock clutch anti-theft structure |
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Publication number | Priority date | Publication date | Assignee | Title |
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AUPP400798A0 (en) * | 1998-06-11 | 1998-07-02 | Lockwood Security Products Pty Limited | Electrically controlled lock |
CN201850846U (en) * | 2010-11-15 | 2011-06-01 | 夏思炎 | Clutch mechanism for electronic lock |
CN203475983U (en) * | 2013-09-06 | 2014-03-12 | 童晓敏 | Universal electric control lock cylinder |
CN203835060U (en) * | 2014-05-13 | 2014-09-17 | 邓勇强 | Clutch device for double-motor electronic lock |
CN205840546U (en) * | 2016-06-15 | 2016-12-28 | 宁波永发智能安防科技有限公司 | Electric motor clutch handle |
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