CN204627153U - A kind of door lock Dual Drive clutch - Google Patents

Abstract

The utility model relates to lock technology field, particularly relate to a kind of door lock Dual Drive clutch, comprise housing, clutch component is provided with in housing, first transmission component and the second transmission component, clutch component comprises the lower turning wheel being formed with lower wave tooth, be formed with the upper turning wheel of wave tooth, clutch block spring, first in command's contiguous block, second in command's contiguous block and be arranged at first in command's contiguous block and coordinate the first clutch block in the space that formed and the second clutch block with second in command's contiguous block, under stir tooth and upper wave tooth cooperatively interacts, lower turning wheel, upper turning wheel offers the perforation communicated, first in command's contiguous block is positioned at this perforation, the bottom of clutch block spring is embedded at the first clutch block, first transmission component drives with lower turning wheel and is connected, and the second transmission component drives with upper turning wheel and is connected.The utility model clutch good stability, Long-Time Service there will not be clutch fault, long service life.

Description

A kind of door lock Dual Drive clutch

Technical field

The utility model relates to lock technology field, particularly relates to a kind of door lock Dual Drive clutch.

Background technology

At present, electric lockset extensively finds application, and wherein, is generally provided with the clutch for controlling lockset folding in electronic lock.Mainly there are following 2 technical problems in the clutch that the various electric locksets on existing market use: one, clutch adopts shell fragment or has flexible quoit as executive item when carrying out clutch, by lifting this shell fragment or quoit, thus realize inter-agency disengaging or occlusion, but along with the increase of electric lockset service time, shell fragment or quoit cause elastic force to be deteriorated gradually because of fatigue, cause the elastic restoring force of shell fragment or the quoit lifted to be deteriorated, thus affect the effect of clutch; Its two, clutch generally only adopts single transmission component, namely adopts single Electric Machine Control, and the clutch of this kind of structure once motor breaks down, then cannot be unblanked, the later stage need adopt violence unblank, directly electric lockset is caused to the destruction of globality.In summary, the structure design defect of the clutch of existing electric lockset is obvious, and result of use is poor.

Utility model content

The purpose of this utility model is to provide a kind of reasonable in design for the deficiencies in the prior art, clutch good stability, and Dual Drive controls clutch, the door lock Dual Drive clutch of long service life.

For solving the problems of the technologies described above, the technical solution of the utility model is: a kind of door lock Dual Drive clutch, comprise housing, clutch component is provided with in described housing, first transmission component and the second transmission component, described clutch component comprises the lower turning wheel being formed with lower wave tooth, be formed with the upper turning wheel of wave tooth, clutch block spring, first in command's contiguous block, second in command's contiguous block and be arranged at first in command's contiguous block and coordinate the first clutch block in the space that formed and the second clutch block with second in command's contiguous block, tooth is stirred and upper wave tooth cooperatively interacts under described, described lower turning wheel, upper turning wheel offers the perforation communicated, described first in command's contiguous block is positioned at this perforation, the bottom of described clutch block spring is embedded at described first clutch block, described first transmission component drives with described lower turning wheel and is connected, and described second transmission component drives with described upper turning wheel and is connected.

Preferably, described first transmission component comprises the first motor, be set in the first shaft coupling of the main shaft of the first motor, the first slide block rotating shaft of being connected with the first shaft coupling and the first slide block being set in the first slide block rotating shaft and the first sliding block spring, and described first slide block is connected with described lower turning wheel.

Preferably, the peripheral side of described lower turning wheel offers the first U-lag, and the side of described first slide block is provided with the first cylinder be connected with this first U-lag.

Preferably, described second transmission component comprises the second motor, be set in the second shaft coupling of the main shaft of the second motor, the second slide block rotating shaft of being connected with the second shaft coupling and the second slide block being set in the second slide block rotating shaft and the second sliding block spring, and described second slide block is connected with described upper turning wheel.

Preferably, the peripheral side of described upper turning wheel offers the second U-lag, and the side of described second slide block is provided with the second cylinder be connected with this second U-lag.

Preferably, described second transmission component and described first transmission component are that identical direction is arranged side by side.

Preferably, described second transmission component and described first transmission component are that contrary direction is arranged.

Preferably, described housing is outside equipped with knob assembly, and described knob assembly comprises knob, knob handle, the tapered end be arranged in knob, tapered end pressing plate, upper plate, lower plate, first polygon shaft swivel base, second largest polygon shaft swivel base, little polygon shaft swivel base, axle bed pressing plate, the first spring, the second spring, large polygon shaft and little polygon shaft; One end of described lower plate is provided with the first post and the second post, described knob handle offers endoporus, described lower plate, little polygon shaft swivel base are arranged in described endoporus movably, described upper plate fits in the other end of described lower plate rotationally and is positioned at described endoporus, on this, the middle part of plate offers square opening, the both sides of upper plate are provided with symmetrical inclined-plane boss, and described tapered end is connected with described square opening; Described tapered end pressing plate is pressed in described tapered end and between upper plate and tapered end; Described first polygon shaft swivel base, second largest polygon shaft swivel base are all arranged in endoporus, one end of described second largest polygon shaft swivel base is uniform is provided with the square groove that four can be used for accommodating first post and the second post, the other end of second largest polygon shaft swivel base is uniform is provided with four U-lags, one end of described first polygon shaft swivel base is provided with first polygonal hole, and the other end of first polygon shaft swivel base is provided with four the U-shaped platforms cooperatively interacted with four described U-lags; The two ends of described first spring are connected to described little polygon shaft swivel base and described lower plate respectively; Described axle bed pressing plate is pressed in described first polygon shaft swivel base and is connected with described knob handle; One end of described large polygon shaft connects in described second in command's contiguous block, and the other end of large polygon shaft is inserted in described first polygonal hole; Described little polygon shaft is arranged in described large polygon shaft, and one end of this little polygon shaft is connected with the second clutch block, and the other end of little polygon shaft is connected with described little polygon shaft swivel base; Described second spring housing is connected to the periphery of described little polygon shaft and is positioned at the first polygon shaft swivel base and second largest polygon shaft swivel base that cooperatively interact.

Preferably, one end of described second in command's contiguous block offers second largest polygonal hole, one end of described large polygon shaft and this second largest polygonal hole grafting.

Preferably, the first little polygonal hole is offered in one end that described second clutch block connects, one end of described little polygon shaft swivel base offers the second little polygonal hole, one end of described little polygon shaft and described first little polygonal hole grafting, the other end of little polygon shaft and described second little polygonal hole grafting.

The beneficial effects of the utility model: a kind of door lock Dual Drive clutch of the present utility model, to the improvement of clutch component structure, by controlling the upper turning wheel of cooperation and relatively rotating of lower turning wheel, realize controlling first in command's contiguous block and the rotation of second in command's contiguous block and the rotation of the first clutch block and the second clutch block to realize clutch.Door lock Dual Drive clutch of the present utility model, clutch good stability, Long-Time Service there will not be clutch fault, can be good at the switch lock realizing controlling electric lockset, long service life when it is applied to electric lockset.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment one.

Fig. 2 is the structural representation that the transmission component of the utility model embodiment one is connected with lower turning wheel and upper turning wheel.

Fig. 3 is the STRUCTURE DECOMPOSITION schematic diagram of the utility model embodiment one.

Fig. 4 is the structural representation of the utility model embodiment two.

Fig. 5 is the structural representation of the utility model embodiment three.

Fig. 6 is the STRUCTURE DECOMPOSITION schematic diagram of the utility model embodiment three.

Fig. 7 is the STRUCTURE DECOMPOSITION schematic diagram of the knob assembly of the utility model embodiment three.

Fig. 8 is the structural representation of first polygon shaft swivel base of the present utility model.

Fig. 9 is the structural representation of little polygon shaft swivel base of the present utility model.

Figure 10 is that the knob assembly of the utility model embodiment three hides large polygon shaft and little polygon shaft

After structure cut away view.

Reference numeral comprises:

10-housing 11-rotating shaft 20-clutch component

Turning wheel 23-clutch block spring on turning wheel 22-under 21-

24-first in command's contiguous block 25-second in command contiguous block 26-first clutch block

27-second clutch block 28-perforation 30-first transmission component

The rotating shaft of 31-first motor 32-first shaft coupling 33-first slide block

34-first slide block 35-first sliding block spring 40-second transmission component

The rotating shaft of 41-second motor 42-second shaft coupling 43-second slide block

44-second slide block 45-second sliding block spring 50-knob assembly

Plate under plate 53-on 51-knob 52-

The first polygon shaft swivel base of 54-second largest polygon shaft swivel base 55-

The little polygon shaft of 56-little polygon shaft swivel base 57-large polygon shaft 58-

The second largest polygonal hole of 211-first U-lag 221-second U-lag 251-

271-first little polygonal hole 341-first cylinder 441-second cylinder

511-knob handle 512-tapered end 513-tapered end pressing plate

514-endoporus 521-square opening 522-inclined-plane boss

531-first post 532-second post 541-square groove

542-U shape groove 551-axle bed pressing plate 552-second spring

553-U shape platform 554-first polygonal hole 561-first spring

The little polygonal hole of 562-second.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in detail.

Embodiment one:

As shown in Fig. 1 to Fig. 3 and Fig. 8 and Fig. 9, a kind of door lock Dual Drive clutch of the present utility model, comprise housing 10, clutch component 20 is provided with in housing 10, first transmission component 30 and the second transmission component 40, clutch component 20 comprises the lower turning wheel 21 being formed with lower wave tooth, be formed with the upper turning wheel 22 of wave tooth, clutch block spring 23, first in command's contiguous block 24, second in command's contiguous block 25 and be arranged at first in command's contiguous block 24 and coordinate the first clutch block 26 and the second clutch block 27 in the space that formed with second in command's contiguous block 25, under stir tooth and upper wave tooth cooperatively interacts, lower turning wheel 21, upper turning wheel 22 offers the perforation 28 communicated, first in command's contiguous block 24 is positioned at this perforation 28, the bottom of clutch block spring 23 is embedded at described first clutch block 26, first transmission component 30 drives with lower turning wheel 21 and is connected, and described second transmission component 40 drives with described upper turning wheel 22 and is connected.

During init state, when first in command's contiguous block 24 rotates, only drive the first clutch block 26, first in command's contiguous block 24 rotate, and the second clutch block 27 dallies.When the first transmission component 30 is energized rotation, lower turning wheel 21 can be driven to turn an angle, inter-working between lower wave tooth and the upper wave tooth of upper turning wheel 22, in promotion, turning wheel 22 moves certain distance in B direction vertically, and the tooth top of lower wave tooth contacts with the tooth top of upper wave tooth.Upper turning wheel 22 moves in B direction vertically, thus drive the first clutch block 26 to move in B direction vertically, first clutch block 26 engages with the second clutch block 27, the clutch block spring 23 simultaneously contacted with it compresses and produces precompression, when now first in command's contiguous block 24 rotates, drive the first clutch block 26, second in command's contiguous block 25 rotates, the second clutch block 27 is also followed and is rotated together, can realize unblanking.After having unblanked, after waiting for the regular hour, first transmission component 30 reverses, in like manner, lower turning wheel 21 is driven to rotate backward, the tooth top of lower wave tooth and the tooth top of upper wave tooth are separated, under the precompression that upper turning wheel 22 and the first clutch block 26 are pressed at clutch block spring 23, the direction contrary with B to axis is moved, the tooth top of lower wave tooth coordinates with at the bottom of the tooth of upper wave tooth, close with the tooth top gapless of upper wave tooth at the bottom of the tooth of lower wave tooth, the first clutch block 26 and the second clutch block 27 depart from, and reply original state.In like manner, when the second transmission component 40 is energized and rotates, turning wheel 22 can be driven to turn an angle, realize the rotation driving upper turning wheel 22.The clutch of the present embodiment is identical with the principle of the lower turning wheel 21 of driving by the principle of driving upper turning wheel 22 rotation, drives the disengaging of the first clutch block 26 and the second clutch block 27 and closes, thus realize switch lock by the rotation of upper turning wheel 22.

Wherein, tooth is stirred under and upper wave tooth can adopt blind-mate.

Door lock Dual Drive clutch of the present utility model, clutch good stability, Long-Time Service there will not be clutch fault, can be good at the switch lock realizing controlling electric lockset, long service life when it is applied to electric lockset.

In the present embodiment, first transmission component 30 comprises the first motor 31, is set in the first shaft coupling 32 of the main shaft of the first motor 31, the first slide block rotating shaft 33 be connected with the first shaft coupling 32 and be set in the first slide block 34 of the first slide block rotating shaft 33 and the first sliding block spring 35, first slide block 34 is connected with lower turning wheel 21.Concrete, when the first motor 31 is energized rotation, the main axis of the first motor 31 followed by first shaft coupling 32, and push against the first slide block rotating shaft 33 and rotate, first slide block rotating shaft 33 promotes the axis rectilinear motion of the first sliding block spring 35 along the first slide block rotating shaft 33 in the process of rotating, when the first slide block 34 is along axis rectilinear motion, the first slide block 34 can drive lower turning wheel 21 to turn an angle, and realizes the rotation driving lower turning wheel 21.

In the present embodiment, the side that the peripheral side of lower turning wheel 21 offers the first U-lag 211, first slide block 34 is provided with the first cylinder 341 be connected with this first U-lag 211.Concrete, when the first slide block 34 is along axis rectilinear motion, under the first cylinder 341 on the first slide block 34 drives in the first U-lag 211, turning wheel 21 turns an angle, and realizes the rotation driving lower turning wheel 21.

In the present embodiment, described second transmission component 40 is arranged side by side in identical direction with described first transmission component 30, and this kind of structure design, whole clutch entirety can be made compacter, and take up space little, overall structure is less.

In the present embodiment, second transmission component 40 comprises the second motor 41, is set in the second shaft coupling 42 of the main shaft of the second motor 41, the second slide block rotating shaft 43 be connected with the second shaft coupling 42 and be set in the second slide block 44 of the second slide block rotating shaft 43 and the second sliding block spring 45, second slide block 44 is connected with upper turning wheel 22.Concrete, when the second motor 41 is energized rotation, the main axis of the second motor 41 followed by second shaft coupling 42, and push against the second slide block rotating shaft 43 and rotate, second slide block rotating shaft 43 promotes the axis rectilinear motion of the second sliding block spring 45 along the second slide block rotating shaft 43 in the process of rotating, when the second slide block 44 is along axis rectilinear motion, the second slide block 44 can drive turning wheel 22 to turn an angle, and realizes the rotation driving upper turning wheel 22.The clutch of the present embodiment is identical with the principle of the lower turning wheel 21 of driving by the principle of driving upper turning wheel 22 rotation, drives the disengaging of the first clutch block 26 and the second clutch block 27 and closes, thus realize switch lock by the rotation of upper turning wheel 22.

Wherein, when lower turning wheel 21 rotates, upper turning wheel 22 is limited can not realize circular-rotation by the second slide block 44, is merely able to realize axially-movable; In like manner, when upper turning wheel 22 rotates, lower turning wheel 21 is limited can not realize circular-rotation by the first slide block 34.

The clutch of the present embodiment achieves two transmission component driving switch lock, two modes of overlapping independently electric power system and control system parallel running can be adopted to carry out the operation of gauge tap lock, when wherein a set of control system breaks down, user can adopt rapidly another set of control system to realize unlock operation.The mode controlling two transmission component can adopt the modes such as fingerprint, face recognition or contactless card to carry out.

In the present embodiment, the side that the peripheral side of upper turning wheel 22 offers the second U-lag 221, second slide block 44 is provided with the second cylinder 441 be connected with this second U-lag 221.Concrete, when the second slide block 44 is along axis rectilinear motion, under the first cylinder 341 on the second slide block 44 drives in the second U-lag 221, turning wheel 21 turns an angle, and realizes the rotation driving upper turning wheel 22.

In the present embodiment, in housing 10, the end, raises up and is provided with rotating shaft 11, and perforation is stretched in rotating shaft 11.Concrete, the rotation of lower turning wheel 21 and upper turning wheel 22 is all rotated along rotating shaft 11.

The remainder of the present embodiment is identical with embodiment one, in the present embodiment unaccounted feature, all adopts the explanation of embodiment one, no longer repeats here.

Embodiment two:

As shown in Figure 4, the difference of the present embodiment and embodiment one is, the second transmission component 40 is arranged in contrary direction with the first transmission component 30.Concrete, according to different electric locksets, the second transmission component 40 and the first transmission component 30 can be arranged in opposite direction, namely the first motor 31 and the second motor 41 is set in the other direction.Be conducive to the variation of product structure, meet the demand in market.

The remainder of the present embodiment is identical with embodiment one, in the present embodiment unaccounted feature, all adopts the explanation of embodiment one, no longer repeats here.

Embodiment three:

As shown in Fig. 5 to Fig. 7 and Figure 10, the difference of the present embodiment and embodiment one is, housing 10 is outside equipped with knob assembly 50, and knob assembly 50 comprises knob 51, knob handle 511, the tapered end 512 be arranged in knob 51, tapered end pressing plate 513, upper plate 52, lower plate 53, first polygon shaft swivel base 55, second largest polygon shaft swivel base 54, little polygon shaft swivel base 56, axle bed pressing plate 551, first spring 561, second spring 552, large polygon shaft 57 and little polygon shaft 58; One end of lower plate 53 is provided with the first post 531 and the second post 532, knob handle 511 offers endoporus 514, lower plate 53, little polygon shaft swivel base 56 are arranged in endoporus 514 movably, upper plate 52 fits in the other end of lower plate 53 rotationally and is positioned at endoporus 514, on this, the middle part of plate 52 offers square opening 521, the both sides of upper plate 52 are provided with symmetrical inclined-plane boss 522, and tapered end 512 is connected with square opening 521; Tapered end pressing plate 513 is pressed in tapered end 512 and between upper plate 52 and tapered end 512; First polygon shaft swivel base 55, second largest polygon shaft swivel base 54 are all arranged in endoporus 514, one end of second largest polygon shaft swivel base 54 is uniform is provided with the square groove 541 that four can be used for accommodating first post 531 and the second post 532, the other end of second largest polygon shaft swivel base 54 is uniform is provided with four U-lags 542, one end of first polygon shaft swivel base 55 is provided with first polygonal hole 554, and the other end of first polygon shaft swivel base 55 is provided with four the U-shaped platforms 553 cooperatively interacted with four U-lags 542; The two ends of the first spring 561 are connected to little polygon shaft swivel base 56 and lower plate 53 respectively; Axle bed pressing plate 551 is pressed in first polygon shaft swivel base 55 and is connected with knob handle 511; One end of large polygon shaft 57 connects in described second in command's contiguous block 25, and the other end of large polygon shaft 57 is inserted in first polygonal hole 554; Little polygon shaft 58 is arranged in large polygon shaft 57, and one end of this little polygon shaft 58 is connected with the second clutch block 27, and the other end of little polygon shaft 58 is connected with little polygon shaft swivel base 56; Second spring 552 is socketed on the periphery of little polygon shaft 58 and is positioned at the first polygon shaft swivel base 55 and second largest polygon shaft swivel base 54 that cooperatively interact.

During init state, when mechanical key control tapered end 512 rotates, upper plate 52 follows rotation, the inclined-plane boss 522 of upper plate 52 extrudes lower plate 53 and moves to the direction that axis is contrary with B, if wherein two U-lags 542 that now second largest polygon shaft swivel base 54 is provided with align with the first post 531 in lower plate 53 and the second post 532, then the first post 531 and the second post 532 insert in two U-lags 542 alignd with it, first spring 561 is produced precompression by compression simultaneously, then turning knob assembly 50, what just can move axially because of lower plate 53 is arranged in knob handle 511, namely when knob handle 511 rotates, lower plate 53 also can transfer, second largest polygon shaft swivel base 54 also followed by rotation, first polygon shaft swivel base 55 and then second largest polygon shaft swivel base 54 rotates, the large polygon shaft 57 be connected with first polygon shaft swivel base 55 also and then rotates, complete and unblank, the mechanical key outdoors realizing electric lockset is unblanked.

When tapered end 512 rotates, lower plate 53 moves to the direction contrary with axial B, if now four U-lags 542 of second largest polygon shaft swivel base 54 all do not align with the first post 531 of lower plate 53 and the second post 532, then the first post 531 and the second post 532 can not insert in U-lag 542, first post 531 and 532, the second post can head on second largest polygon shaft swivel base 54 and move to the direction contrary with axial B, and the second spring 552 compresses and produces precompression.Then turning knob assembly 50, lower plate 53 follows rotation, instantly after plate 53 follows certain angle, the U-lag 542 of second largest polygon shaft swivel base 54 aligns with the first post 531 of lower plate 53 and the second post 532, then second largest polygon shaft swivel base 54 moves to axial B direction under the precompression of the second spring 552, first post 531 and the second post 532 insert in wherein two U-lags 542 of the second largest polygon shaft swivel base 54 alignd with it, be rotated further knob assembly 50, lower plate 53 also continues to follow rotation, then second largest polygon shaft swivel base 54 also and then rotates, first polygon shaft swivel base 55 and then second largest polygon shaft swivel base 54 rotates, the large polygon shaft 57 be connected with first polygon shaft swivel base 55 also and then rotates, complete and unblank, namely the mechanical key outdoors realizing electric lockset is unblanked.

Complete after unblanking, rotate backward mechanical key, upper plate 52 is also followed and is rotated backward.Lower plate 53 moves to axial B direction compress the precompression produced at the first spring 561 under, complete reset, descend the first post 531 of plate 53 and the second post 532 to depart from the U-lag 542 of second largest polygon shaft swivel base 54 thereupon, now turning knob assembly 50 again, lower plate 53 follows rotation, second largest polygon shaft swivel base 54 cannot rotate, and what be connected with first polygon shaft swivel base 55 cannot rotate with large polygon shaft 57, cannot realize unblanking.

The knob assembly 50 by setting up of the present embodiment, thus mechanical key can be realized unblank, when transmission component breaks down, user can adopt rapidly mechanical key to realize unlock operation, guarantee that electric lockset is safer, violence is adopted to unblank when avoiding transmission component to break down, reasonable in design, practical.

In the present embodiment, one end of second in command's contiguous block 25 offers second largest polygonal hole 251, one end of large polygon shaft 57 and this second largest polygonal hole 251 grafting.Concrete, the second largest polygonal hole 251 that the two ends of large polygon shaft 57 are offered by second in command's contiguous block 25 respectively and first polygonal hole 554 limit, thus second in command's contiguous block 25 can be driven to rotate by the rotation of first polygon shaft swivel base 55.

In the present embodiment, the first little polygonal hole 271 is offered in one end that second clutch block 27 connects, one end of little polygon shaft swivel base 56 offers the second little polygonal hole 562, one end of little polygon shaft 58 and the first little polygonal hole 271 grafting, the other end of little polygon shaft 58 and the second little polygonal hole 562 grafting.Concrete, the two ends of little polygon shaft 58 are limited by the first little polygonal hole 271 and the second little polygonal hole 562 respectively, thus the second clutch block 27 can be driven to rotate by the rotation of little polygon shaft swivel base 56.

The remainder of the present embodiment is identical with embodiment one, in the present embodiment unaccounted feature, all adopts the explanation of embodiment one, no longer repeats here.

Known the utility model is have above-described good characteristic in sum, is made it in use, promotes in conventional art the usefulness that do not have and has practicality, becoming the product that has practical value.

Above content is only preferred embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.

Claims (10)

1. a door lock Dual Drive clutch, comprise housing (10), clutch component (20) is provided with in described housing (10), first transmission component (30) and the second transmission component (40), it is characterized in that: described clutch component (20) comprises the lower turning wheel (21) being formed with lower wave tooth, be formed with the upper turning wheel (22) of wave tooth, clutch block spring (23), first in command's contiguous block (24), second in command's contiguous block (25) and be arranged at first in command's contiguous block (24) and coordinate the first clutch block (26) in the space that formed and the second clutch block (27) with second in command's contiguous block (25), tooth is stirred and upper wave tooth cooperatively interacts under described, described lower turning wheel (21), upper turning wheel (22) offers the perforation (28) communicated, described first in command's contiguous block (24) is positioned at this perforation (28), the bottom of described clutch block spring (23) is embedded at described first clutch block (26), described first transmission component (30) drives with described lower turning wheel (21) and is connected, and described second transmission component (40) drives with described upper turning wheel (22) and is connected.

2. a kind of door lock Dual Drive clutch according to claim 1, it is characterized in that: described first transmission component (30) comprises the first motor (31), be set in first shaft coupling (32) of the main shaft of the first motor (31), the first slide block rotating shaft (33) of being connected with the first shaft coupling (32) and the first slide block (34) being set in the first slide block rotating shaft (33) and the first sliding block spring (35), and described first slide block (34) is connected with described lower turning wheel (21).

3. a kind of door lock Dual Drive clutch according to claim 2, it is characterized in that: the peripheral side of described lower turning wheel (21) offers the first U-lag (211), the side of described first slide block (34) is provided with the first cylinder (341) be connected with this first U-lag (211).

4. a kind of door lock Dual Drive clutch according to claim 1, it is characterized in that: described second transmission component (40) comprises the second motor (41), be set in second shaft coupling (42) of the main shaft of the second motor (41), the second slide block rotating shaft (43) of being connected with the second shaft coupling (42) and the second slide block (44) being set in the second slide block rotating shaft (43) and the second sliding block spring (45), and described second slide block (44) is connected with described upper turning wheel (22).

5. a kind of door lock Dual Drive clutch according to claim 4, it is characterized in that: the peripheral side of described upper turning wheel (22) offers the second U-lag (221), the side of described second slide block (44) is provided with the second cylinder (441) be connected with this second U-lag (221).

6. a kind of door lock Dual Drive clutch according to claim 1, is characterized in that: described second transmission component (40) is arranged side by side in identical direction with described first transmission component (30).

7. a kind of door lock Dual Drive clutch according to claim 1, is characterized in that: described second transmission component (40) is arranged in contrary direction with described first transmission component (30).

8. a kind of door lock Dual Drive clutch according to claim 1, it is characterized in that: described housing (10) is outside equipped with knob assembly (50), described knob assembly (50) comprises knob (51), knob handle (511), be arranged at the tapered end (512) in knob (51), tapered end pressing plate (513), upper plate (52), lower plate (53), first polygon shaft swivel base (55), second largest polygon shaft swivel base (54), little polygon shaft swivel base (56), axle bed pressing plate (551), first spring (561), second spring (552), large polygon shaft (57) and little polygon shaft (58),

One end of described lower plate (53) is provided with the first post (531) and the second post (532), described knob handle (511) offers endoporus (514), described lower plate (53), little polygon shaft swivel base (56) is arranged in described endoporus (514) movably, described upper plate (52) fits in the other end of described lower plate (53) rotationally and is positioned at described endoporus (514), on this, the middle part of plate (52) offers square opening (521), the both sides of upper plate (52) are provided with symmetrical inclined-plane boss (522), described tapered end (512) is connected with described square opening (521),

Described tapered end pressing plate (513) is pressed in described tapered end (512) and is positioned between plate (52) and tapered end (512);

Described first polygon shaft swivel base (55), second largest polygon shaft swivel base (54) is all arranged in endoporus (514), one end of described second largest polygon shaft swivel base (54) is uniform is provided with the square groove (541) that four can be used for accommodating first post (531) and the second post (532), the other end of second largest polygon shaft swivel base (54) is uniform is provided with four U-lags (542), one end of described first polygon shaft swivel base (55) is provided with first polygonal hole (554), the other end of first polygon shaft swivel base (55) is provided with four the U-shaped platforms (553) cooperatively interacted with four described U-lags (542),

The two ends of described first spring (561) are connected to described little polygon shaft swivel base (56) and described lower plate (53) respectively;

Described axle bed pressing plate (551) is pressed in described first polygon shaft swivel base (55) and is connected with described knob handle (511);

One end of described large polygon shaft (57) connects in described second in command's contiguous block (25), and the other end of large polygon shaft (57) is inserted in described first polygonal hole (554);

Described little polygon shaft (58) is arranged in described large polygon shaft (57), one end of this little polygon shaft (58) is connected with the second clutch block (27), and the other end of little polygon shaft (58) is connected with described little polygon shaft swivel base (56);

Described second spring (552) is socketed on the periphery of described little polygon shaft (58) and is positioned at the first polygon shaft swivel base (55) and second largest polygon shaft swivel base (54) that cooperatively interact.

9. a kind of door lock Dual Drive clutch according to claim 8, it is characterized in that: one end of described second in command's contiguous block (25) offers second largest polygonal hole (251), one end of described large polygon shaft (57) and this second largest polygonal hole (251) grafting.

10. a kind of door lock Dual Drive clutch according to claim 8, it is characterized in that: the first little polygonal hole (271) is offered in one end that described second clutch block (27) connects, one end of described little polygon shaft swivel base (56) offers the second little polygonal hole (562), one end of described little polygon shaft (58) and described first little polygonal hole (271) grafting, the other end of little polygon shaft (58) and described second little polygonal hole (562) grafting.