CN101555744A - Electric lock structure - Google Patents

Abstract

The invention relates to an electric lock structure, which comprises a shell, an electric control mechanism and a hand control piece. The shell is provided with a base and a containing groove, the electric control mechanism is arranged in the containing groove of the shell and comprises a clutch gear, a yielding component, a rotating component and a motor capable of driving the clutch gear, the clutch gear is provided with a first side facing the rotating component, a second side opposite to the first side and at least one pushing block arranged on the first side, the yielding component is abutted against the second side of the clutch gear, the rotating component is provided with at least one pushed block corresponding to the pushing block, the pushing block of the clutch gear is a pushed block capable of pushing the rotating component, the hand control component is provided with a knob and a rotating rod connected to the knob, the rotating rod penetrates through the base of the shell, and one end of the rotating rod is connected to the rotating component of the electric control mechanism. The linkage between the clutch gear, the rotating part and the abdicating component has excellent coordination, so that the smoothness of electric control and manual control operation can be greatly improved.

Description

Electric-control lock structure

Technical field

The present invention relates to a kind of lockset, particularly relate to a kind of can be automatically controlled and manual the electric-control lock structure of switching lock.

Background technology

General electric lock is in order to open and close lock with automatically controlled and manual method simultaneously, mostly be to utilize clutch to separate or be connected automatically controlled and manual power on its structure design, announce " electric lock " that patent is disclosed for No. 479725 as China, but the design of the clutch structure of above-mentioned electric lock is not good, easily on automatically controlled and manual mode operation, occur interfering mutually or operating the situation that has some setbacks, cause the very big inconvenience of user.

This shows that above-mentioned existing electric lock obviously still has inconvenience and defective, and demands urgently further being improved in structure and use.In order to solve the problem of above-mentioned existence, relevant manufacturer there's no one who doesn't or isn't seeks solution painstakingly, but do not see always that for a long time suitable design finished by development, and common product does not have appropriate structure to address the above problem, this obviously is the problem that the anxious desire of relevant dealer solves.Therefore how to found a kind of electric lock of new structure, just becoming the current industry utmost point needs improved target.

Because the defective that above-mentioned existing electric lock exists, the inventor is based on being engaged in this type of product design manufacturing abundant for many years practical experience and professional knowledge, and the utilization of cooperation scientific principle, actively studied innovation, in the hope of founding a kind of novel electric-control lock structure, can improve general existing electric lock, make it have more practicality.Through constantly research, design, and, create the present invention who has practical value finally through after studying sample and improvement repeatedly.

Summary of the invention

Main purpose of the present invention is, overcome the defective that existing electric lock exists, and provide a kind of novel electric-control lock structure, technical problem to be solved is to make its clutch gear and tumbler and the interlock of stepping down between the assembly has splendid harmony, significantly improve the smoothness on automatically controlled and the manual mode operation, thereby be suitable for practicality more.

The object of the invention to solve the technical problems realizes by the following technical solutions.

A kind of electric-control lock structure according to the present invention's proposition, it is to comprise a housing, one electrical control mechanism and a handling means, this housing is to have a base and a storage tank, this electrical control mechanism is this storage tank that is arranged at this housing, and this electrical control mechanism is to include a clutch gear, one assembly of stepping down, one tumbler and one can drive the motor of this clutch gear, this clutch gear is to have first side towards this tumbler, one second side and at least one pushing block of being located at this first side with respect to this first side, this second side that this assembly of stepping down is this clutch gear of butt, this tumbler is to have the pushing block that is subjected to that at least one pair of should pushing block, and this pushing block of this clutch gear is that this that can promote this tumbler is subjected to pushing block, this handling means is to have the bull stick that a knob and is connected in this knob, and this bull stick is to run through this base of this housing and this tumbler that an end is connected in this electrical control mechanism.

The object of the invention to solve the technical problems also adopts following technical measures further to realize.

Aforesaid electric-control lock structure, this of wherein said this clutch gear first side are to be concaved with a groove, and this pushing block is to be located in this groove.

Aforesaid electric-control lock structure, wherein said this groove are to have a bottom surface, and this pushing block is this bottom surface that is convexly set in this groove.

Aforesaid electric-control lock structure, wherein said this clutch gear are to have a plate, and this junction plate is to be arranged in this groove, and this pushing block is to be formed on this junction plate.

Aforesaid electric-control lock structure, wherein said this groove are to have a bottom surface and an at least one caulking groove that is arranged with in this bottom surface, and this junction plate is to have at least onely to be the projection that is oppositely arranged with this pushing block, and this projection of this junction plate is to be sticked in this caulking groove.

Aforesaid electric-control lock structure, wherein said this assembly of stepping down is to include a portable plate and at least one elastic component, this portable plate is to have one first sidepiece and second sidepiece with respect to this first sidepiece, this of this portable plate first sidepiece is this second side of this clutch gear of butt, and this elastic component is this second sidepiece of this portable plate of butt.

Aforesaid electric-control lock structure, this base of wherein said this housing are to convex with at least one reference column, and this elastic component is to be sheathed on this reference column.

Aforesaid electric-control lock structure is characterized in that wherein said this portable plate is to have at least one perforation, and this reference column one end of this base is this perforation that is arranged in this portable plate.

Aforesaid electric-control lock structure, wherein said this tumbler are to have a first surface and the second surface with respect to this first surface towards this clutch gear, and this is subjected to pushing block is to be convexly set in this first surface.

Aforesaid electric-control lock structure, wherein said this electrical control mechanism includes one first gauge tap and one second gauge tap in addition, this tumbler is to have at least one first projecting block and at least one second projecting block that is convexly set in this second surface that is convexly set in this second surface, this first projecting block is to should first gauge tap, and this second projecting block is to should second gauge tap.

The object of the invention to solve the technical problems also realizes in addition by the following technical solutions.

A kind of electric-control lock structure according to the present invention proposes is characterized in that it comprises: a housing, and it is to have a base and a storage tank; One electrical control mechanism, it is this storage tank that is arranged at this housing, it includes the motor that a clutch gear, a tumbler and can drive this clutch gear, this clutch gear be have first side towards this tumbler, second side, with respect to this first side is arranged with in the groove of this first side and at least one pushing block of being located in this groove, this tumbler is to have the pushing block that is subjected to that at least one pair of should pushing block, and this pushing block of this clutch gear is that this that can promote this tumbler is subjected to pushing block; And a handling means, it is to have the bull stick that a knob and is connected in this knob, this bull stick is to run through this base of this housing and this tumbler that an end is connected in this electrical control mechanism.

The object of the invention to solve the technical problems also adopts following technical measures further to realize.

Aforesaid electric-control lock structure, wherein said this groove are to have a bottom surface, and this pushing block is this bottom surface that is convexly set in this groove.

Aforesaid electric-control lock structure, wherein said this clutch gear are to have a plate, and this junction plate is to be arranged in this groove, and this pushing block is to be formed on this junction plate.

The present invention compared with prior art has tangible advantage and beneficial effect.

By technique scheme, electric-control lock structure of the present invention has following advantage at least: the present invention can significantly improve the smoothness on automatically controlled and the manual mode operation.

In sum, clutch gear of the present invention and tumbler and the interlock of stepping down between the assembly have splendid harmony, therefore, can significantly improve the smoothness on automatically controlled and the manual mode operation.The present invention has above-mentioned plurality of advantages and practical value, no matter it all has bigger improvement on product structure or function, obvious improvement is arranged technically, and produced handy and practical effect, and more existing electric lock has the multinomial effect of enhancement, thereby being suitable for practicality more, and having the extensive value of industry, really is a new and innovative, progressive, practical new design.

Above-mentioned explanation only is the general introduction of technical solution of the present invention, for can clearer understanding technological means of the present invention, and can be implemented according to the content of manual, and for above-mentioned and other purposes, feature and advantage of the present invention can be become apparent, below especially exemplified by preferred embodiment, and conjunction with figs., be described in detail as follows.

Description of drawings

Fig. 1 is according to first preferred embodiment of the present invention, a kind of exploded perspective view of electric-control lock structure.

Fig. 2 is according to first preferred embodiment of the present invention, the three-dimensional combination figure of this electric-control lock structure.

Fig. 3 is according to first preferred embodiment of the present invention, the combination schematic diagram of tumbler, clutch gear and portable plate.

Fig. 4 is according to first preferred embodiment of the present invention, the partial sectional view of this electric-control lock structure.

Fig. 5 A to Fig. 5 C is this electric-control lock structure carries out locking with manual method a illustrative view.

Fig. 6 A to Fig. 6 E is this electric-control lock structure carries out locking in automatically controlled mode a illustrative view.

Fig. 7 A to Fig. 7 E is this electric-control lock structure carries out locking in automatically controlled mode an action partial sectional view.

Fig. 8 is according to second preferred embodiment of the present invention, a kind of three-dimensional exploded view of electric-control lock structure.

Fig. 9 is according to second preferred embodiment of the present invention, the three-dimensional combination figure of this electric-control lock structure.

Figure 10 is according to second preferred embodiment of the present invention, the combination schematic diagram of tumbler, clutch gear and portable plate.

Figure 11 is according to second preferred embodiment of the present invention, the partial sectional view of this electric-control lock structure.

Figure 12 is according to the 3rd preferred embodiment of the present invention, a kind of three-dimensional exploded view of electric-control lock structure.

Figure 13 is according to the 3rd preferred embodiment of the present invention, the three-dimensional combination figure of this electric-control lock structure.

Figure 14 is according to the 3rd preferred embodiment of the present invention, the combination schematic diagram of tumbler, clutch gear and portable plate.

Figure 15 is according to the 3rd preferred embodiment of the present invention, the partial sectional view of this electric-control lock structure.

10: housing 11: base

111: reference column 12: storage tank

20: electrical control mechanism 21: circuit substrate

212: the second gauge taps of 211: the first gauge taps

22: 221: the first sides of clutch gear

Side 223 in 222: the second: pushing block

224: protuberance 225: groove

225a: bottom surface 225b: caulking groove

226: junction plate 226a: projection

23: tumbler 23a: first surface

23b: second surface 231: be subjected to pushing block

233: the second projecting blocks of 232: the first projecting blocks

234: central shaft hole 24: the assembly of stepping down

241: portable plate 241a: first sidepiece

241b: the second sidepiece 241c: central siphon portion

241d: perforation 242: elastic component

25: motor 26: worm gear

27: double-layer gear 271: lower floor's gear

272: upper strata gear 28: fixed head

281: axis hole 30: handling means

31: knob 32: bull stick

40: battery pack 50: rotational travel

D: spacing

The specific embodiment

Reach technological means and the effect that predetermined goal of the invention is taked for further setting forth the present invention, below in conjunction with accompanying drawing and preferred embodiment, to its specific embodiment of electric-control lock structure, structure, feature and the effect thereof that foundation the present invention proposes, describe in detail as after.

See also Fig. 1, shown in Figure 2, according to first preferred embodiment of the present invention, a kind of electric-control lock structure is to comprise a housing 10, one electrical control mechanism 20, one handling means 30 and a battery pack 40, this housing 10 is to have a base 11 and a storage tank 12, this electrical control mechanism 20 is these storage tanks 12 that are arranged at this housing 10, and this electrical control mechanism 20 is to include a circuit substrate 21, one of be arranged on this circuit substrate 21 first gauge tap 211 and one second gauge tap 212, one clutch gear 22, a pair of tumbler 23 that should first gauge tap 211, one assembly 24 of stepping down, one can drive the motor 25 of this clutch gear 22, one is installed in worm gear 26 and the pair of lamina gear 27 on this motor 25, in the present embodiment, the angle that is provided with between this first gauge tap 211 and this second gauge tap 212 is to differ 90 degree, this clutch gear 22 is to have first side 221 towards this tumbler 23, one second side 222 with respect to this first side 221, at least one pushing block 223 and of being located at this first side 221 is convexly set in the protuberance 224 of this second side 222, this protuberance 224 is to can be ring-type, in the present embodiment, this first side 221 is to be concaved with a groove 225, this pushing block 223 is to be located in this groove 225, again, this groove 225 is to have a bottom surface 225a, preferably, this pushing block 223 is this bottom surface 225a that are convexly set in this groove 225, this tumbler 23 is to have a first surface 23a towards this clutch gear 22, one second surface 23b with respect to this first surface 23a, at least one be convexly set in this first surface 23a be subjected to pushing block 231, at least one first projecting block 232 that is convexly set in this second surface 23b, at least one second projecting block 233 and central shaft hole 234 that is convexly set in this second surface 23b, in the present embodiment, this is subjected to pushing block 231 is to this pushing block 223 that should clutch gear 22, and this pushing block 223 of this clutch gear 22 is that this that can promote this tumbler 23 is subjected to pushing block 231, in addition, this first projecting block 232 is to should first gauge tap 211, this second projecting block 233 is to should second gauge tap 212, wherein this first projecting block 232 and this second projecting block 233 are can be rotated counterclockwise and this first gauge tap 211 of start respectively, but perhaps also dextrorotation then this second gauge tap 212 of start respectively of this first projecting block 232 and this second projecting block 233.

Please consult Fig. 1, shown in Figure 2 again, in the present embodiment, this tumbler 23 is to have a pair of first projecting block 232 and a pair of second projecting block 233, wherein respectively this first projecting block 232 is can be to should first gauge tap 211, respectively this second projecting block 233 is can be to should second gauge tap 212, therefore this tumbler 23 is to turn clockwise or to be rotated counterclockwise, and with this first projecting block 232 or this this first gauge tap 211 of second projecting block, 233 starts or this second gauge tap 212.

Please consult Fig. 1, shown in Figure 2 again, in the present embodiment, this second side 222 that this assembly 24 of stepping down is these clutch gears 22 of butt, and this assembly 24 of stepping down is to include a portable plate 241 and an elastic component 242, and this portable plate 241 is to have the 241c of central siphon portion that one first sidepiece 241a, second a sidepiece 241b and with respect to this first sidepiece 241a are convexly set in this first sidepiece 241a.

See also Fig. 3, shown in Figure 4, in the present embodiment, this first sidepiece 241a of this portable plate 241 is these second sides 222 of this clutch gear 22 of butt, and preferably, this protuberance 224 of this clutch gear 22 is the 241c of this central siphon portion that embed this portable plate 241, this elastic component 242 is this second sidepiece 241b of this portable plate 241 of butt, preferably, this base 11 of this housing 10 is to convex with at least one reference column 111, this elastic component 242 is to be sheathed on this reference column 111 and this base 11 of an end butt, in addition, in the present embodiment, this portable plate 241 is to have at least one perforation 241d, and this elastic component 242 is to the 241d that should bore a hole, and these reference column 111 1 ends are this perforation 241d that can be arranged in this portable plate 241.

Please consult Fig. 1, shown in Figure 2 again, this motor 25 is to electrically connect this circuit substrate 21, and this double-layer gear 27 is to be hubbed at this base 11, and this double-layer gear 27 is to have lower floor's gear 271 and to be formed at upper strata gear 272 on this lower floor's gear 271, in the present embodiment, this lower floor's gear 271 is and these worm gear 26 engagements, and this upper strata gear 272 is and these clutch gear 22 engagements.

Please consult Fig. 1, shown in Figure 2 again, in the present embodiment, this handling means 30 is to have the bull stick 32 that a knob 31 and is connected in this knob 31, this bull stick 32 is to run through this base 11 of this housing 10 and this tumbler 23 that an end is connected in this electrical control mechanism 20, preferably, these bull stick 32 1 ends are these central shaft holes 234 that are embedded at this tumbler 23, and this battery pack 40 is these storage tanks 12 that are arranged at this housing 10, and this battery pack 40 is to electrically connect this circuit substrate 21.

See also shown in Fig. 5 A to Fig. 5 C, it is the flowing mode of doing that carries out locking about this electric-control lock structure with manual method.

See also shown in Fig. 5 A, it is each position component schematic diagram when being in unlocking condition for this electric-control lock structure, wherein this first projecting block 232 of this tumbler 23 is to should first gauge tap 211, and this second projecting block 233 is to should second gauge tap 212, in the present embodiment, the locking direction of rotation of this electric-control lock structure is for counterclockwise, and this first gauge tap 211 is to be designated as latch switch, perhaps, in another embodiment, the locking direction of rotation of this electric-control lock structure also can be designed to clockwise direction, and this second gauge tap 212 is to be designated as latch switch;

See also shown in Fig. 5 B, rotate counterclockwise this handling means 30, at this moment, this bull stick 32 is can drive this tumbler 23 to rotate, so that this this first gauge tap 211 of first projecting block, 232 first starts of this tumbler 23, in the present embodiment, because this handling means 30 is meeting and a lock core structure (figure does not draw) interlock, therefore, be that the anglec of rotation that limits this handling means 30 is 90 degree in design;

See also Fig. 5 C, after this handling means 30 rotated counterclockwise 90 degree, this second projecting block 233 of this tumbler 23 was these first gauge taps 211 of start again, so that this electric-control lock structure converts blocking to.In like manner, as will allow this electric-control lock structure convert unlocking condition to the time, only need that this handling means 30 is clockwise rotated 90 degree and get final product with manual method.

See also shown in Fig. 6 A to Fig. 6 E, Fig. 7 A to Fig. 7 E, it is the flowing mode of doing that carries out locking about this electric-control lock structure in automatically controlled mode.

See also Fig. 6 A, Fig. 7 A, it is each position component schematic diagram when being in unlocking condition for this electric-control lock structure, wherein this first projecting block 232 of this tumbler 23 is to should first gauge tap 211, and this second projecting block 233 is to should second gauge tap 212, and it is that definition has a rotational travel 50 that this of this tumbler 23 is subjected to pushing block 231, preferably, this rotational travel 50 is that the position is in one 90 degree sector regions, in unlocking condition, this pushing block 223 of this clutch gear 22 is that the position is outside this rotational travel 50, to prevent interference mutually under automatically controlled and manual two kinds of different operating modes, in addition, in the present embodiment, the locking direction of rotation of this electric-control lock structure is for counterclockwise, and latch switch is to be this first gauge tap 211, perhaps, in another embodiment, the locking direction of rotation of this electric-control lock structure also can be designed to clockwise direction, only needs that latch switch is changed to this second gauge tap 212 and gets final product;

See also Fig. 6 B, shown in Fig. 7 B, when the user with a remote controller (figure do not draw) or a button assembly (figure does not draw) when driving this electric-control lock structure, this motor 25 is can start and drive this worm gear 26 and rotate, and then drive this double-layer gear 27 and this clutch gear 22 and rotate, so that this of this pushing block 223 elder generations this tumbler 23 of contact of this clutch gear 22 is subjected to pushing block 231, promoting this again is subjected to pushing block 231 that this tumbler 23 is rotated, at this moment, this first projecting block 232 of this tumbler 23 is these first gauge taps 211 of the first start of meeting, in the present embodiment, because this handling means 30 is meeting and a lock core structure (figure does not draw) interlock, therefore, be that the anglec of rotation that limits this handling means 30 is 90 degree in design, similarly, the anglec of rotation of this tumbler 23 that is connected with this bull stick 32 of this handling means 30 also can be restricted to 90 and spend;

See also Fig. 6 C, Fig. 7 C, after this tumbler 23 rotates counterclockwise 90 degree, this second projecting block 233 is these first gauge taps 211 of start again, so that this electric-control lock structure converts blocking to, in the present embodiment, for this pushing block 223 of making this clutch gear 22 can the position after the automatically controlled locking outside this rotational travel 50, after this this first gauge tap 211 of second projecting block, 233 starts, this motor 25 still can drive this clutch gear 22 constantly and rotate, and this that cross this tumbler 23 up to this pushing block 223 of this clutch gear 22 is subjected to pushing block 231.

See also Fig. 6 D, shown in Fig. 7 D, in the present embodiment, because of being no longer to rotate after these tumbler 23 lockings, this that makes that this pushing block 223 of this clutch gear 22 desires to cross this tumbler 23 is can be subjected to this to be subjected to stopping of pushing block 231 when being subjected to pushing block 231, at this moment, the torsion that drives these clutch gear 22 rotations is to be transformed into an end thrust, this end thrust is to force this clutch gear 22 to move and promote this portable plate 241 of this assembly 24 of stepping down towards the direction of this base 11, and be can this elastic component 242 of compression during 241 displacements of this portable plate, in the present embodiment, owing to be to move toward this base 11 when this steps down assembly 24 pressurizeds, therefore, this pushing block 223 of this clutch gear 22 is that this that can cross this tumbler 23 by the yielding of this assembly 24 of stepping down smoothly is subjected to pushing block 231, and wherein to be subjected to pushing block 231 be to have the camber contact surface for this pushing block 223 and this.

See also shown in Fig. 6 E, Fig. 7 E, after this that cross this tumbler 23 when this pushing block 223 of this clutch gear 22 is subjected to pushing block 231, this elastic component 242 is these portable plates 241 of meeting pushing tow, so that this portable plate 241 and this clutch gear 22 reset, and this motor 25 promptly can shut down, and at this moment, this pushing block 223 of this clutch gear 22 is that the meeting position is outside this rotational travel 50, when desiring to unblank with manual method, the active force of this handling means 30 is the interference that can not be subjected to this pushing block 223 of this clutch gear 22.In like manner, when allowing this electric-control lock structure convert unlocking condition in automatically controlled mode, this motor 25 is can drive this clutch gear 22 to clockwise rotate, clockwise rotate to drive this tumbler 23, when this first projecting block 232 of this tumbler 23 and this second projecting block 233 respectively these first gauge taps 211 of start once after, promptly be convertible into unlocking condition, because this clutch gear 22 of the present invention and this tumbler 23 and this interlock of stepping down between the assembly 24 have splendid harmony, therefore, can significantly improve smoothness on automatically controlled and the manual mode operation.

See also Fig. 8, shown in Figure 9, it is second preferred embodiment of the present invention, the architectural feature of present embodiment is identical with first preferred embodiment basically, its difference place only is that this electrical control mechanism 20 includes a fixed head 28 in addition, this fixed head 28 is to be arranged between this clutch gear 22 and this portable plate 241, and this fixed head 28 is to have an axis hole 281.

See also Figure 10, shown in Figure 11, in the present embodiment, the 241c of this central siphon portion of this portable plate 241 is these axis holes 281 that are embedded at this fixed head 28, and the 241c of this central siphon portion of this portable plate 241 is these protuberances 224 of this clutch gear 22 of butt, in addition, because of this fixed head 28 is to maintain static in opening and closing the lock process, be not subjected to stopping of this fixed head 28 when making 22 displacements of this clutch gear, in the present embodiment, between this second side 222 of this clutch gear 22 and this fixed head 28 is to be provided with a space D, this space D is the space when these clutch gear 22 displacements can be provided, and be not subjected to stopping of this fixed head 28, in addition, the manner of execution manual and automatically controlled locking about present embodiment is identical with first preferred embodiment basically.

See also Figure 12, shown in Figure 13, it is the 3rd preferred embodiment of the present invention, the architectural feature of present embodiment is identical with second preferred embodiment basically, its difference place only is that this clutch gear 22 is to have a plate 226, this junction plate 226 is to be arranged in this groove 225, and this pushing block 223 is to be formed on this junction plate 226.

See also Figure 12, Figure 14, shown in Figure 15, in the present embodiment, for this junction plate 226 is firmly combined with this clutch gear 22, this groove 225 is to have at least one being arranged with in the caulking groove 225b of this bottom surface 225a, and this junction plate 226 is to have at least one and this pushing block 223 to be the projection 226a that is oppositely arranged, this projection 226a of this junction plate 226 can be sticked in this caulking groove 225b, firmly to be incorporated into this clutch gear 22, in addition, the manner of execution manual and automatically controlled locking about present embodiment is identical with first preferred embodiment basically.

The above, it only is preferred embodiment of the present invention, be not that the present invention is done any pro forma restriction, though the present invention discloses as above with preferred embodiment, yet be not in order to limit the present invention, any those skilled in the art, in not breaking away from the technical solution of the present invention scope, when the technology contents that can utilize above-mentioned announcement is made a little change or is modified to the equivalent embodiment of equivalent variations, in every case be the content that does not break away from technical solution of the present invention, according to technical spirit of the present invention to any simple modification that above embodiment did, equivalent variations and modification all still belong in the scope of technical solution of the present invention.

Claims (13)

1, a kind of electric-control lock structure is characterized in that it comprises:

One housing has a base and a storage tank;

One electrical control mechanism, be arranged at this storage tank of this housing, it includes step down assembly, a tumbler and of a clutch gear, can drive the motor of this clutch gear, this clutch gear is to have first side towards this tumbler, second side and an at least one pushing block of being located at this first side with respect to this first side, this second side that this assembly of stepping down is this clutch gear of butt, this tumbler is to have the pushing block that is subjected to that at least one pair of should pushing block, and this pushing block of this clutch gear is that this that can promote this tumbler is subjected to pushing block; And

One handling means, it is to have the bull stick that a knob and is connected in this knob, this bull stick is to run through this base of this housing and this tumbler that an end is connected in this electrical control mechanism.

2, electric-control lock structure according to claim 1, this first side that it is characterized in that wherein said this clutch gear are to be concaved with a groove, and this pushing block is to be located in this groove.

3, electric-control lock structure according to claim 2 is characterized in that wherein said this groove is to have a bottom surface, and this pushing block is this bottom surface that is convexly set in this groove.

4, electric-control lock structure according to claim 2 is characterized in that wherein said this clutch gear is to have a plate, and this junction plate is to be arranged in this groove, and this pushing block is to be formed on this junction plate.

5, electric-control lock structure according to claim 4, it is characterized in that wherein said this groove is to have a bottom surface and at least one caulking groove that is arranged with in this bottom surface, this junction plate is to have at least one and this pushing block to be the projection that is oppositely arranged, and this projection of this junction plate is to be sticked in this caulking groove.

6, electric-control lock structure according to claim 1, it is characterized in that wherein said this assembly of stepping down is to include a portable plate and at least one elastic component, this portable plate is to have one first sidepiece and second sidepiece with respect to this first sidepiece, this of this portable plate first sidepiece is this second side of this clutch gear of butt, and this elastic component is this second sidepiece of this portable plate of butt.

7, electric-control lock structure according to claim 6, this base that it is characterized in that wherein said this housing are to convex with at least one reference column, and this elastic component is to be sheathed on this reference column.

8, electric-control lock structure according to claim 7 is characterized in that wherein said this portable plate is to have at least one perforation, and this reference column one end of this base is this perforation that is arranged in this portable plate.

9, electric-control lock structure according to claim 1 is characterized in that wherein said this tumbler is to have a first surface and the second surface with respect to this first surface towards this clutch gear, and this is subjected to pushing block is to be convexly set in this first surface.

10, electric-control lock structure according to claim 9, it is characterized in that wherein said this electrical control mechanism includes one first gauge tap and one second gauge tap in addition, this tumbler is to have at least one first projecting block and at least one second projecting block that is convexly set in this second surface that is convexly set in this second surface, this first projecting block is to should first gauge tap, and this second projecting block is to should second gauge tap.

11, a kind of electric-control lock structure is characterized in that it comprises:

One housing, it is to have a base and a storage tank;

One electrical control mechanism, it is this storage tank that is arranged at this housing, it includes the motor that a clutch gear, a tumbler and can drive this clutch gear, this clutch gear be have first side towards this tumbler, second side, with respect to this first side is arranged with in the groove of this first side and at least one pushing block of being located in this groove, this tumbler is to have the pushing block that is subjected to that at least one pair of should pushing block, and this pushing block of this clutch gear is that this that can promote this tumbler is subjected to pushing block; And

One handling means, it is to have the bull stick that a knob and is connected in this knob, this bull stick is to run through this base of this housing and this tumbler that an end is connected in this electrical control mechanism.

12, electric-control lock structure according to claim 11 is characterized in that wherein said this groove is to have a bottom surface, and this pushing block is this bottom surface that is convexly set in this groove.

13, electric-control lock structure according to claim 12 is characterized in that wherein said this clutch gear is to have a plate, and this junction plate is to be arranged in this groove, and this pushing block is to be formed on this junction plate.

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