CN102741491A

CN102741491A - Mortice Lock Actuator

Info

Publication number: CN102741491A
Application number: CN2010800612633A
Authority: CN
Inventors: 唐纳德·约翰·纽曼
Original assignee: Assa Abloy Australia Pty Ltd
Current assignee: Assa Abloy Australia Pty Ltd
Priority date: 2009-12-23
Filing date: 2010-12-21
Publication date: 2012-10-17
Anticipated expiration: 2030-12-21
Also published as: SG181839A1; WO2011075764A1; NZ600770A; AU2010336007A1; CN102741491B; HK1173483A1; AU2010336007B2

Abstract

This invention relates to an actuator assembly (18) for use with a mortice lock assembly (1) having a bolt 8 with biasing means (13) for biasing the bolt (8) towards an extended position. An inner hub (14) in an outer hub (15) being operable to move the bolt (8) relative to the extended position. A detent means controls operation of the inner hub (14) and outer hub (15). The actuator assembly including a housing (23,24) and an inner cam (25) and an outer cam (26) so that each cam (25 or 26) can operate in a latching mode or a locking mode.

Description

Lock pin lock actuator

Technical field

The present invention relates to a kind of and the actuator coupling of lock pin lock set, and a kind of lock pin lock set that contains said actuator.Said actuator provides contact surface between said lock pin lock set and cylinder lock, rotation pin etc., this also is convenient to hereinafter the REFERENCE TO RELATED content, and present invention is described.Be to be understood that for, said actuator also can with the lock set coupling of other types.

Background technology

The lock pin lock set is a kind of of lock set, and it is arranged at the mortise chamber that is arranged in the reveal limit.Hub spare and outer hub spare in this lock pin lock set generally includes, hub spare can be operated from the inboard and the outside of door through handle, croquet shape handle etc. with outer hub spare in this, and dead bolt is withdrawn from extended position.This lock pin lock set also comprises stop device, this stop device when user mode, pin said in hub spare and/or outside hub spare.

Said stop device can be by controls such as cylinder lock set or rotation pins.Yet said cylinder lock or rotation pin are alternately operated so that said dead bolt is independent of said interior hub spare or outer hub spare retraction.Usually, cam is connected to said cylinder lock or rotates pin, make its rotation can engage the element of said lock pin lock set.The shape of said cam has determined the element that it engaged usually.Setter has various cams usually, and perhaps said lock pin lock set is furnished with various cams, so that the cam that setter can therefrom be selected to be fit to said cylinder lock or rotate pin, to act on the stop device on the said dead bolt.

The lock pin lock set generally includes many widgets, even if in the controlled environment of plant, also is difficult to these widgets are assembled.Said cam is connected to said cylinder lock or rotates pin, is as broad as long, and it generally includes the Screw of ask for something high accuracy coupling.When preparation put said cam engagement in place, screw may drop or lose, and this especially is a problem.

The common expectation of lockset dealer, locksmith and setter can be adjusted the function of lockset flexibly, keeps low stock simultaneously.People expect that also lockset is easy to install.

Summary of the invention

Here, to being regarded as quoting of prior art patent document or other guide, be not regarded as admitting that the document or content are known or admit that before the priority date of its information that comprises in arbitrary claim be the part of common practise in Australia.

According to a first aspect of the invention; A kind of actuator that is used for the lock pin lock set is provided; Said lock pin lock set has dead bolt, be used for dead bolt be offset to extended position offset assembly, can make interior hub spare that said dead bolt removes from said extended position and outside hub spare, be used for said in hub spare and outside the interactional stop device of hub spare; When said stop device is in user mode, said interior hub spare and/or outer hub spare can't be operated; Said actuator comprise housing, can be by the inboard of said lock pin lock set and the cam ring and the external cam of outside driven rotary; Each cam optionally is used at least a breech lock pattern; Like this, via hub spare in said or the direct or indirect operation of outer hub spare, the rotation of said cam ring or said external cam makes said dead bolt move with respect to said extended position; Perhaps each cam optionally is used in a kind of locking mode; Like this, the rotation of said cam ring or external cam will be adjusted the state of said stop device.

Preferably; Said actuator comprises bistable device; When being in locking mode, this bistable device and said cam ring and/or external cam interact, and said bistable device can be used for promoting said cam ring or external cam reaches the primary importance or the second place; Said primary importance is corresponding to the stop device that is in user mode, and the said second place is corresponding to the stop device that is in non-working condition.Preferably, said bistable device comprises control lever, and when any one when between the said primary importance and the said second place, adjusting in said cam ring or the external cam, this control lever pivots.Preferably, said actuator comprises offset assembly, and this offset assembly is used to promote said cam ring or external cam reaches the said primary importance or the said second place.Preferably, said offset assembly acts on said control lever, to promote said cam ring or external cam indirectly.Preferably, said control lever has off-centered fulcrum.More preferably, said actuator comprises driven member, and it cooperates with work between said cam ring and the external cam at said control lever.Said cam ring or external cam moving between the said primary importance and the said second place can cause that said driven member moves as straight line.

Preferably, said actuator comprises locating part, and this locating part stops said cam ring or external cam between locking mode and breech lock pattern, to adjust under user mode.More preferably, said locating part can be adjusted to non-working condition from said user mode, thus, can between said locking mode and breech lock pattern, adjust for any one in said cam ring or the external cam.More preferably, when said locating part was in non-working condition, another cam ring or external cam can not adjust between said locking mode and said breech lock pattern.More preferably, said locating part comprises displaceable member, and when between user mode and non-working condition, adjusting the state of said locating part, this displaceable member can move along the direction that is substantially perpendicular to said cam ring and said external cam axis of rotation.More preferably, said displaceable member is pivotable.More preferably, promote said displaceable member to reach said user mode.More preferably, said locating part comprises and is used to promote the offset assembly that said displaceable member reaches said user mode.Preferably; Said locating part is processed by elastic deformable material; So that make said locating part when user mode is adjusted to said non-working condition, produce distortion, and when said locating part was in non-working condition, this deformable material promoted said locating part and reaches user mode.

Preferably, said cam ring and/or said external cam are rotatable to reach middle model, in this middle model; Said cam ring and/or said external cam both be not useable for the dead bolt of withdrawing; Also be not useable for adjusting the state of said stop device, through like this, the shape of said displaceable member; Be designed to when said locating part is in user mode and said cam ring and/or external cam and is in said middle model said displaceable member and said cam ring and/or external cam engagement.Preferably, said displaceable member, cam ring and external cam are toothed shape, and it is meshing with each other in said middle model, make the rotation of said cam in said middle model, promote said locating part and are adjusted to non-working condition from user mode.Preferably; Said cam ring and external cam are toothed shape; It meshes said displaceable member at least; Said displaceable member is shaped as chamfered teeth, and this makes said cam ring or external cam in the rotation of said intermediateness, promotes said displaceable member and moves along the direction that is substantially perpendicular to said direction of rotation.

Preferably, said housing comprises at least one hole, and through this hole, the state of said locating part is able to adjustment.More preferably, each cam ring and external cam include the hole that is used to hold foot piece, and each hole is made as the idle running that allows between said cam ring, external cam and the said foot piece.More preferably, each hole all is made as and allows 90 ° of idle runnings.

Preferably, each said cam ring and said external cam all comprise visual detector, to indicate the position of rotation of said cam with respect to said housing.

Preferably, said housing comprises at least a structure, and this structure is used to hold the securing member that at least one is used for cylinder lock, pin etc. is secured to said housing.

According to a further aspect in the invention, a kind of lock pin lock set is provided, it comprises according to the described actuator of above each claim.

In this manual,, use for example term such as " interior " and " outward " for ease of describing the installation position of said lock pin lock.The orientation of said lock pin lock can change, and for understanding the present invention better, the explanation of these terms also need correspondingly change.Especially, term " interior " and " outward " are used to describe the various elements of said actuator, for ease of explaining that said inboard refers to the nearside of lock pin lock set shown in Figure 1.

Description of drawings

For ease of describing the present invention hereinafter in more detail, the accompanying drawing of the various preferred implementations of referential expression the present invention.The characteristic of accompanying drawing and the relevant summary that specifies and be not understood to replace the aforesaid wide in range description of the present invention.

Fig. 1 is according to an aspect of the present invention, contains the exploded perspective view of the lock pin lock set of actuator preferred embodiment.

Fig. 2 is the detailed view of actuator 18 shown in Figure 1.

Fig. 3 is the inboard lateral elevational view of said actuator.

Fig. 4 is a cam ring when mediating pattern, the partial side elevational view that said lock pin lock set is inboard.

Fig. 5 shows to be in non-working condition corresponding to locating part, is in the lateral view of the displaceable member of pivot position.

Fig. 6 is that cam ring is in locking mode, when interior retainer is in unlock mode, and the lateral elevational view of said lock pin lock set.

Fig. 7 is an interior retainer when being in the lock state, the lateral elevational view of lock pin lock set shown in Figure 6.

Fig. 8 is a cam ring when being in the breech lock pattern, the lateral elevational view of lock pin lock set shown in Figure 6.

Fig. 9 is a dead bolt assembly when being in advanced position, the lateral elevational view of lock pin lock set shown in Figure 8.

Figure 10 is the another kind of preferred implementation of said displaceable member.

The specific embodiment

Fig. 1 has shown the exploded view according to the lock pin lock set of one aspect of the invention.Said lock pin lock set 1 comprises lock housing 2, and this lock housing 2 comprises inside portion 3 and outside portion 4.Fig. 1 shows that the front panel 5 of housing 2 constitutes one with said outside portion 4, yet this is not necessary, because front panel 5 also can constitute one with said inside portion 3 easily.Antetheca 5 comprises hole 6, and under the influence of spring 13, tiltedly the head 7 of dead bolt assembly 8 extends through this hole 6.Said oblique dead bolt assembly 8 comprises pull bar 9, and long-armed 10 of the driven member 11 of this pull bar 9 and hub spare subassembly 12 cooperatively interacts.Can operate hub spare subassembly 12, control oblique dead bolt assembly 8 from the extended position retraction, with the influence of antagonism spring 13.Hub spare 14 and outer hub spare 15 in said hub spare subassembly 12 comprises, interior hub spare 14 can rotate around axle XX with outer hub spare 15, and each all can make driven member 11 rotations independently in interior hub spare 14 and the outer hub spare 15.Interior hub spare 14 and outer hub spare 15 from the inboard and the outside of door, interact with inside handle axle and external handle axle (not shown) respectively.Hub spare 14 and outer hub spare 15 returned back to its resting position to promote driven member 11 successively in offset assembly 16 directly acted on, and this is equivalent to said oblique dead bolt assembly 8 and is in extended position.

Hub spare subassembly 12 also comprise be used for said in the stop device that cooperatively interacts of hub spare 14 and outer hub spare 15.This stop device comprises stop slide plate 17, and through controlling actuator 18, this stop slide plate 17 can move point-blank.Accompanying drawing in conjunction with the back can be described in more detail said actuator 18.Retainer 19 and outer retainer 20 in said stop device also comprises, retainer 19 and outer retainer 20 can rotate around axle YY with respect to the latched position relevant with interior hub spare 14 and outer hub spare 15 in this.

Retainer

19,20 and stop slide plate 17 sides interact, so that stop slide plate 17 moves along the straight line of arrow A direction, can drive

retainer

19,20 rotations.Latched position is corresponding to

retainer

19,20, and this

retainer

19,20 is angled along counterclockwise rotating to hub spare 14,15, can stop it to rotate around axle XX.And stop slide plate 17 is moved along the arrow B direction, through retainer 19 and outer retainer 20 in rotating along clockwise direction, just can interior retainer 19 be moved to unlocked position with outer retainer 20.

Lock pin lock set 1 also comprises breech lock slide plate 21, and the galianconism 22 of this breech lock slide plate 21 and driven member 11 interacts, and makes to need not to rotate interior hub spare 14 or outer hub spare 15, also can make oblique dead bolt assembly retraction.Through operate actuator assembly 18, can move breech lock slide plate 21 in the direction of arrow B, at this on the one hand,, will be described in more detail through accompanying drawing with reference to the back to the operation of actuator 18.Breech lock slide plate 21 can move along the arrow B direction, with engagement and cause the rotation of driven member 11 around axle XX.Skew spring 13 acts on oblique dead bolt assembly 8, gets back to extended position to promote oblique dead bolt, and this can cause driven member 11 to move along arrow A around axle XX rotation and breech lock slide plate.The part promotion breech lock slide plate that should be noted that the lock pin lock set moves in the direction of arrow A, and preferably, stop slide plate 17 can arrive a position, and this position makes

retainer

19,20 be in locking or unlocked position respectively.

Referring to Fig. 2, show actuator 18 in greater detail, it includes the housing of being made up of inner part 23 and outside parts 24 at present.Housing covers cam ring 25 and external cam 26, and cam ring 25 is equipped with external cam 26 and is used to make it to be positioned the boss in the cylindrical hole 28, and cylindrical hole 28 is formed in corresponding interior side body 23 and the outside housing 24.Flange 29 extends out from each cam ring 25 that is close to inboard housing 23 and outside housing 24 inner surfaces and boss 27 on the external cam 26.Can be with respect to hole 29 configuration boss 27 and flange 29, so that cam ring 25 closes its housing 23,24 separately with external cam 26 clips, yet this is not necessary.Also can be that the flange 29 of cam ring 25 and the flange of external cam 26 29 opposed contacts are so that boss 27 remains in the hole 28 with the space boundary between inner housing 23 and the shell body 24.

Cam ring 25 all comprises a pair of tooth 30 with external cam 26, and this extends along the radial direction of flange 29 tooth 30.With reference to the accompanying drawing of back,, can be described in more detail the matching way of the tooth on each flange 29 30 with other element of this lock pin lock set.

Actuator 18 also comprises control lever 31, and the fulcrum of this control lever 31 is located at from shell body 24 extended axles 32.Control lever 31 remains on the axle 32 through locator 33, and in illustrated embodiment, this locator 33 is the pressing securing member, yet, obviously also can use other forms of securing member.Another kind of mode is that control lever 31 can be provided with boss, to cooperate with axle 32.One end of control lever 31 has tooth 34, and tooth 34 meshes with the tooth of driven member 36 bottoms, and simultaneously, the other end of control lever 31 and stop slide plate 17 interact, and interactional pattern will be described in more detail referring to the accompanying drawing of back.Actuator 18 also comprises offset assembly 37, and this offset assembly 37 combines with control lever, forms bistable device.Illustrated offset assembly is a torque spring, and the one arm of torque spring is located in the hole of control lever 31, and the one arm in addition of torque spring 37 is located at the recess in the shell body 24.Referring to the accompanying drawing of back, torque spring 37 and control lever 31 are combined into the mode of bistable device, can be described in more detail.

Actuator 18 also comprises locating part 38, and this locating part 38 cooperatively interacts with cam ring 25, external cam 26.Illustrated locating part 38 is the form of moulding.Illustrated locating part 38 comprises the tablet of forming displaceable member, and said moving member can move with respect to a pair of leg 40 of tablet 39 both sides.When mediating pattern, said tablet 39 interacts through edge, its underpart and

cam

25,26, this lower edge be set to cam ring 25, external cam 26 on tooth 30 mesh.Displaceable member 39 is for movably, so that separate with the tooth 30 of cam ring 25 or external cam 26.Preferably, illustrated locating part 38 deformables are so that allow said displaceable member to move.Yet locating part can be made as and make tablet 39 around the rotation of axle (not shown), and adopts the spring (not shown) to promote tablet 39 to obtain centralized positioning.Correspondingly, the locating part 38 of the present invention locating part that is not limited among the figure to be given an example.

Still referring to Fig. 2, shown in the figure, on the external surface of said inner housing 23; Be provided with semicircular cylinder structure 41; In use, it can hold bearing pin fixture (not shown), and this bearing pin fixture is fixed to the cylinder lock (not shown) in the lock pin lock housing 2.Bearing pin extends through in the front panel 5 of housing 2 hole 42 (see figure 1)s that form, and is located in the cylinder lock housing in the formed boring (not shown).Structure 41 in the housing 23 of actuator 18 can link to each other cylinder lock indirectly with housing 23, so that keep adjacent with housing 23.Also has identical structure 42 on the external surface of shell body 24.

Existing referring to Fig. 3, the figure illustrates the elevation of said actuator, wherein, the cam ring pattern that mediates.In this pattern, the tooth 30 of

cam ring

25 and 43 engagements of the toothing of tablet 39 lower edge are worked in coordination.The engagement of

tooth

30,43 makes cam 25 remain on middle model passively.The boss 27 of illustrated cam ring 25 comprises visual detector 44, and this visual detector 44 illustrates the location of cam 25 with respect to housing 23.Especially, visual detector 44 indicates the position of the tooth 30 of cam 25.When cam 25 mediated, this was not necessary especially, because can see tooth 30 through formed square hole 45 in the housing 23.Yet, will explain subsequently that as this manual cam 25 can be from this position rotation, so as the position of tooth 30 can by housing 23 cover and can not be obviously it is thus clear that.

Still referring to Fig. 3, the boss 27 of cam ring 25 comprises centre bore 46, and this centre bore 46 is set to hold and relevant foot piece (not shown)s such as cylinder lock, rotation pin.The idle running that illustrated hole 46 allows between foot pieces and the cam 25, especially allowing has 90 ° idle running during for flat rod when foot piece.90 ° of idle runnings are provided, circle lock tube (not shown) is rotated in the cylinder lock housing, key is gone to vertical direction, extract key.The hole of other shapes obviously also is possible.

Preamble is described in detail the technical characterictic of the visible actuator of Fig. 3, should be noted in the discussion above that identical or similar in fact technical characterictic can see from the outside of actuator.

Existing referring to Fig. 4, it has shown cam ring 25, stop slide plate 17 and breech lock slide plate 21, but has removed inner housing 23.Cam ring 25 pattern that still mediates, stop slide plate 17 cooperatively interacts with breech lock slide plate 21 and actuator 18.Breech lock slide plate 21 interacts on the position of contiguous cam 25 with actuator 18, and stop slide plate 17 interacts on the position of contiguous control lever 31 other ends with actuator 18.Illustrated stop slide plate 17 residing positions are in the non-working condition said stop device.More specifically, in non-working condition, interior hub spare 14 rotates freely along arrow M direction, so that make driven member 11 rotations, withdrawal dead bolt.Tablet 39 can be pressed, and moves to not and cam ring 25 position engaged.In this position, locating part is in the non-working condition, and allows cam ring 25 between middle model, locking mode or breech lock pattern, to adjust.Fig. 5 shows that tablet 39 has been moved to cam ring 25 to break away from.In this position, cam ring 25 can be along rotation counterclockwise, to reach locking mode shown in Figure 6.Visible from Fig. 5, tablet 39 also can move in opposite direction, so that break away from external cam 26.

Visible from Fig. 6, the tooth 30 on the cam 25 meshes with last tooth 47 on the driven member 36 so that cam ring 25 be further rotated can cause driven member 26 in the direction of arrow B straight line move.This can cause the rotation of control lever 31 around its fulcrum again, so that move stop slide plate 17 along the arrow A direction.It is thus clear that Fig. 6 has shown that interior retainer 19 separates with interior hub spare 14, Fig. 7 has shown that then interior retainer 19 is in the position that stops interior hub spare 14 rotations.

The bistable device running promotes cam ring 25 and/or external cam 26 and reaches the primary importance or the second place, and this primary importance and the second place correspond respectively to retainer and be in user mode or non-working condition.It is thus clear that Fig. 6 shows that cam ring is in the second place, and Fig. 7 shows that cam ring is in primary importance.Illustrated offset assembly is the form of torque spring, when cam ring 25 moves between the primary importance and the second place, and the torque spring storage of potential energy, when cam ring 25 arrived the primary importance or the second place, torque spring discharged this energy.The bistable device of being given an example only is preferred form, and other forms of bistable device obviously also is possible.

At least visible from Fig. 6 and Fig. 7, the fulcrum of control lever 31 is off-centered.This provides advantage mechanically to actuator 18, and for example, this can make the circle lock tube of cylinder lock be easy to rotation, to control stop device.This has also offset the inertia that is produced by offset assembly 37, and this offset assembly 37 makes cam ring or external cam move to the direction away from the primary importance or the second place.

Cam ring 25 also can be operated in the breech lock pattern with external cam 26, and Fig. 8 and Fig. 9 have shown the cam ring 25 that is in the breech lock pattern.Once more, tablet 39 has been moved to a position, and in this position, the tooth 30 of cam ring 25 can separate with tooth 43 structures of tablet 39 lower edge, and is rotated in a clockwise direction.Further, cam ring 25 can cause the

tooth

30 and 21 engagements of breech lock slide plate of cam ring 25 from the rotation of position shown in Figure 8, and it is moved along the arrow B direction.Breech lock slide plate 21 causes the fastening of the galianconism 22 of itself and driven member 11 along the mobile meeting of arrow B direction, and driven member 11 is around the rotation of axle XX and the oblique retraction of dead bolt assembly.This rotation can be seen from Fig. 9.

At least visible by Fig. 8, in case cam ring 25 or external cam 26 have been removed tablet 39 returns from middle model; Make locating part 38 be in user mode; This locating part stops the rotation of cam ring 25 or external cam 26, between locking mode and breech lock pattern, and adjustment cam ring or external cam state.

Existing referring to Figure 10, this figure shows the tooth 43 of tablet 39 in greater detail.Visible from Figure 10; Tooth 43 comprises chamfering shape edge; Tooth 30 (see figure 2)s of this chamfering shape edge and cam ring 25 or external cam 26 interact, and like this, the rotation of cam ring 25 or external cam 26 self can promote tablet 39 and move along the direction that is substantially perpendicular to cam 25,26 moving directions.Chamfering shape edge makes does not need directly to force in tablet, and it is separated with cam ring 25 or external cam 26.

Visible by above content, the above actuator provides flexibility and the adjustment thereof to lock pin lock set function.Because setter needn't append to different cams on the circle lock tube of cylinder lock in order to reach difference in functionality, this actuator also helps cylinder lock is connected to the lock pin lock set.

Based on the application or priority that the application is required, can or submit follow-up patent application abroad in Australia.Be interpreted as, interim claim subsequently only provides with the form of giving an example, and does not mean that the protection domain to requiring in any patent application in future has restriction.Also can increase and decrease technical characterictic future in these interim claims, so that further limit or limit again the present invention.

Do not breaking away under spirit of the present invention or the scope situation, can carry out various alternative and/or additional said actuator.

Claims

1. actuator that is used for the lock pin lock set; Said lock pin lock set has dead bolt, be used for said dead bolt be offset to extended position offset assembly, can make interior hub spare that said dead bolt removes from said extended position and outside hub spare, be used for said in hub spare and outside the interactional stop device of hub spare; When said stop device is in user mode, said interior hub spare and/or outer hub spare can't be operated; Said actuator comprise housing, can be by the inboard of said lock pin lock set and the cam ring and the external cam of outside driven rotary; Each cam all selectively is used at least a breech lock pattern; Via hub spare in said or the direct or indirect operation of outer hub spare; The rotation of arbitrary said cam ring or said external cam makes said dead bolt move with respect to said extended position, and perhaps each cam optionally is used in a kind of locking mode, like this; The rotation of said cam ring or external cam will be adjusted the state of said stop device.

2. actuator according to claim 1; Comprise bistable device; When being in said locking mode, said bistable device and said cam ring and/or external cam interact, and said bistable device can be used for promoting said cam ring or external cam reaches the primary importance or the second place; Said primary importance is corresponding to the said stop device that is in user mode, and the said second place is corresponding to the said stop device that is in non-working condition.

3. actuator according to claim 2 is characterized in that: said bistable device comprises control lever, and when any one when between the said primary importance and the said second place, adjusting in said cam ring or the external cam, said control lever pivots.

4. actuator according to claim 3 comprises offset assembly, and said offset assembly is used to promote said cam ring or external cam reaches the said primary importance or the said second place.

5. actuator according to claim 4 is characterized in that: said offset assembly acts on said control lever, to promote said cam ring or external cam indirectly.

6. according to each described actuator in the claim 3 to 5, it is characterized in that: said control lever has off-centered fulcrum.

7. according to each described actuator in the claim 3 to 5; Comprise driven member; It is at said control lever; Cooperate with work between said cam ring and the external cam, said cam ring or external cam moving between the said primary importance and the said second place can cause that said driven member moves as straight line.

8. according to each described actuator in the aforementioned claim, comprise locating part, said locating part stops said cam ring or external cam between said locking mode and said breech lock pattern, to adjust under user mode.

9. actuator according to claim 8; It is characterized in that: said locating part can be adjusted to non-working condition from said user mode; Thus, any in said cam ring or the external cam can adjust between said locking mode and said breech lock pattern.

10. actuator according to claim 9 is characterized in that: when said locating part was in non-working condition, another cam ring or external cam can not adjust between said locking mode and said breech lock pattern.

11. each described actuator in 10 according to Claim 8; It is characterized in that: said locating part comprises displaceable member; When between said user mode and said non-working condition, adjusting the state of said locating part, said displaceable member can move along the direction that is substantially perpendicular to said cam ring and said external cam axis of rotation.

12. actuator according to claim 11 is characterized in that: said displaceable member is pivotable.

13. actuator according to claim 12 is characterized in that: promote said displaceable member to reach said user mode.

14. actuator according to claim 13 comprises being used to promote the offset assembly that said displaceable member reaches said user mode.

15. actuator according to claim 14; It is characterized in that: said locating part is processed by elastic deformable material; So that make said locating part when said user mode is adjusted to said non-working condition, produce distortion; And when said locating part was in non-working condition, this deformable material promoted said locating part and reaches said user mode.

16. according to each described actuator in the claim 11 to 15; It is characterized in that: said cam ring and/or said external cam are rotatable to reach middle model; In said middle model, said cam ring and/or said external cam both be not useable for the said dead bolt of withdrawing, and also were not useable for adjusting the state of said stop device; Through like this; The shape of said displaceable member, be designed to when said locating part be in user mode and said cam ring with or external cam when being in said middle model, said displaceable member and said cam ring and/or external cam mesh.

17. actuator according to claim 16; It is characterized in that: said displaceable member, cam ring and external cam are toothed shape; It is meshing with each other in said middle model; Make and promote the rotation of said cam in said middle model said locating part and be adjusted to said non-working condition from said user mode.

18. actuator according to claim 17; It is characterized in that: said cam ring and external cam are toothed shape; It meshes said displaceable member at least; Said displaceable member is shaped as chamfered teeth, and this makes said cam ring or external cam in the rotation of said intermediateness, promotes said displaceable member and moves along the direction that is substantially perpendicular to said direction of rotation.

19. each described actuator in 18 according to Claim 8, it is characterized in that: said housing comprises at least one hole, and through this hole, the state of said locating part is able to adjustment.

20. according to each described actuator in the aforementioned claim; It is characterized in that: each said cam ring and said external cam include the hole that is used to hold foot piece; Each hole is made as and allows said cam ring, external cam, and the idle running between the said foot piece.

21. actuator according to claim 20 is characterized in that: each said hole all is made as and allows 90 ° of idle runnings.

22. according to each described actuator in the aforementioned claim, it is characterized in that: each said cam ring and said external cam include visual detector, to indicate the position of rotation of said cam with respect to said housing.

23. according to each described actuator in the aforementioned claim, it is characterized in that: said housing comprises at least a structure, said structure is used to hold the securing member that at least one is used for cylinder lock, pin etc. is secured to said housing.

24. a lock pin lock set, it comprises according to each described actuator in the aforementioned claim.