CN102741491B - Mortice Lock Actuator - Google Patents

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

Mortice Lock Actuator

Technical field

The present invention relates to actuator that the is a kind of and coupling of insertion-core lock assembly, and a kind of insertion-core lock assembly containing described actuator.Described actuator is at described insertion-core lock assembly and provide contact surface between cylinder lock, rotation pin etc., and this is also convenient in hereinafter with reference teachings herein, and present invention is described.Should be understood to, described actuator also can with the lock set coupling of other types.

Background technology

Insertion-core lock assembly is the one of lock set, and it is arranged at the mortise chamber being arranged in door side.This insertion-core lock assembly generally includes interior hub part and outer hub part, and this interior hub part and outer hub part operate from the inner side and outer side of door by handle, door knob etc., and dead bolt is retracted from extended position.This insertion-core lock assembly also comprises stop device, and this stop device pins described interior hub part and/or outer hub part when using state.

Described stop device by cylinder lock set or can rotate the controls such as pin.But described cylinder lock or rotation pin alternately operate to make described dead bolt independent of described interior hub part or outer hub part retraction.Usually, cam be connected to described cylinder lock or rotate pin, making it rotate the element that can engage described insertion-core lock assembly.The shape of described cam generally determines its element engaged.Setter has various cam usually, or described insertion-core lock assembly is furnished with various cam, so that setter therefrom can be selected applicable described cylinder lock or rotate the cam of pin, to act on the stop device on described dead bolt.

Insertion-core lock assembly generally includes many widgets, even if in the controlled environment of plant, is also difficult to these widgets to assemble.Described cam being connected to described cylinder lock or rotating pin, is as broad as long, and it generally includes the Screw of ask for something high accuracy coupling.When preparing described cam engagement to put in place, screw may drop or lose, and this is especially a problem.

Lockset dealer, locksmith and setter expect the function that can adjust lockset flexibly usually, keep low stock simultaneously.People also expect that lockset is easy to install.

Summary of the invention

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

According to a first aspect of the invention, provide a kind of for the actuator in insertion-core lock assembly, described insertion-core lock assembly have dead bolt, for dead bolt is offset to extended position offset assembly, can make described dead bolt to remove from described extended position in hub part and outer hub part, be used for and described interior hub part and the interactional stop device of outer hub part, when described stop device is in using state, described interior hub part and/or outer hub part cannot be operated; Described actuator comprise housing, can by the cam ring of the inner side and outer side driven rotary of described insertion-core lock assembly and external cam, each cam is optionally used at least one breech lock pattern, like this, via described interior hub part or the direct or indirect operation of outer hub part, the rotation of described cam ring or described external cam makes described dead bolt move relative to described extended position, or each cam is optionally used in a kind of locking mode, like this, the rotation of described cam ring or external cam, will adjust the state of described stop device.

Preferably, described actuator comprises bistable device, when in a locked mode, this bistable device and described cam ring and/or external cam interact, described bistable device can be used for promoting described cam ring or external cam reaches primary importance or the second place, described primary importance is corresponding to the stop device being in using state, and the described second place is corresponding to the stop device being in non-working condition.Preferably, described bistable device comprises control lever, when any one in described cam ring or external cam adjusts between described primary importance and the described second place, and this control lever pivotable.Preferably, described actuator comprises offset assembly, and this offset assembly is for promoting described cam ring or external cam reaches described primary importance or the described second place.Preferably, described offset assembly acts on described control lever, indirectly to promote described cam ring or external cam.Preferably, described control lever has off-centered fulcrum.More preferably, described actuator comprises driven member, and it is at described control lever, coordinates with the intercropping of described cam ring and external cam.Described cam ring or the movement of external cam between described primary importance and the described second place, can cause that described driven member moves linearly.

Preferably, described actuator comprises locating part, and this locating part stops described cam ring or external cam to adjust between locking mode and breech lock pattern in a state of use.More preferably, described locating part can be adjusted to non-working condition from described using state, and thus, any one in described cam ring or external cam can adjust between described locking mode and breech lock pattern.More preferably, when described locating part is in non-working condition, another cam ring or external cam can not adjust between described locking mode and described breech lock pattern.More preferably, described locating part comprises displaceable member, and when adjusting the state of described locating part between using state and non-working condition, this displaceable member can move along the direction being substantially perpendicular to described cam ring and described external cam axis of rotation.More preferably, described displaceable member is pivotable.More preferably, described displaceable member is promoted to reach described using state.More preferably, described locating part comprises the offset assembly reaching described using state for promoting described displaceable member.Preferably, described locating part is made up of elastic deformable material, produce distortion when making described locating part be adjusted to described non-working condition from using state, and when described locating part is in non-working condition, this deformable material to promote described locating part and to reach using state.

Preferably, described cam ring and/or described external cam rotatable to reach middle model, in this middle model, described cam ring and/or described external cam be both not useable for retraction dead bolt, also the state adjusting described stop device is not useable for, by like this, the shape of described displaceable member, be designed to when described locating part is in using state and described cam ring and/or external cam are in described middle model, described displaceable member engages with described cam ring and/or external cam.Preferably, described displaceable member, cam ring and external cam are toothed shape, and it engages each other in described middle model, make the rotation of described cam in described middle model, promote described locating part and are adjusted to non-working condition from using state.Preferably, described cam ring and external cam are toothed shape, it at least engages described displaceable member, described displaceable member shape is chamfered teeth, this makes described cam ring or external cam in the rotation of described middle model, promotes described displaceable member and moves along the direction being substantially perpendicular to described direction of rotation.

Preferably, described housing comprises at least one hole, and by this hole, the state of described locating part is adjusted.More preferably, each cam ring and external cam include the hole for holding foot piece, and each hole is set to and allows described cam ring, idle running between external cam and described foot piece.More preferably, each hole is set to permission 90 ° of idle runnings.

Preferably, each described cam ring and described external cam comprise visual detector, to indicate described cam relative to the position of rotation of described housing.

Preferably, described housing comprises at least one structure, and this structure is for holding at least one for cylinder lock, pin etc. being secured to the securing member of described housing.

According to a further aspect in the invention, provide a kind of insertion-core lock assembly, it comprises the actuator according to above any one claim.

In this manual, for ease of describing the installation position of described insertion-core lock, use the such as term such as " interior " and " outward ".The orientation of described insertion-core lock can change, and for understanding the present invention better, the explanation of these terms also needs correspondingly to change.Especially, term " interior " and " outward " are for describing the various elements of described actuator, and for ease of explaining, described inner side refers to the nearside of the assembly of insertion-core lock shown in Fig. 1.

Accompanying drawing explanation

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

Fig. 1 is according to an aspect of the present invention, the exploded perspective view of the insertion-core lock assembly containing actuator preferred embodiment.

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

Fig. 3 is the lateral elevational view inside described actuator.

Fig. 4 be cam ring mediate pattern time, the partial side elevational view inside described insertion-core lock assembly.

Fig. 5 is that display is 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 described insertion-core lock assembly.

Fig. 7 is interior retainer when being in the lock state, the lateral elevational view of the assembly of insertion-core lock shown in Fig. 6.

Fig. 8 is cam ring when being in breech lock pattern, the lateral elevational view of the assembly of insertion-core lock shown in Fig. 6.

Fig. 9 is bolt component when being in advanced position, the lateral elevational view of the assembly of insertion-core lock shown in Fig. 8.

Figure 10 is the another kind of preferred embodiment of described displaceable member.

Detailed description of the invention

Fig. 1 indicates the exploded view of the insertion-core lock assembly according to one aspect of the invention.Described insertion-core lock assembly 1 comprises lock housing body 2, and this lock housing body 2 comprises inside portion 3 and outside portion 4.Fig. 1 shows, and the front panel 5 of housing 2 is integrally formed with described outside portion 4, but this is not necessary, because front panel 5 also can be integrally formed with described inside portion 3 easily.Antetheca 5 comprises hole 6, and under the impact of spring 13, the head 7 of oblique bolt component 8 extends through this hole 6.Described oblique bolt component 8 comprises pull bar 9, and long-armed 10 of the driven member 11 of this pull bar 9 and hub part subassembly 12 cooperatively interacts.Hub part subassembly 12 can be operated, control oblique bolt component 8 from extended position retraction, to resist the impact of spring 13.Described hub part subassembly 12 comprises interior hub part 14 and outer hub part 15, and interior hub part 14 and outer hub part 15 can rotate around axle XX, and in interior hub part 14 and outer hub part 15, each all can make driven member 11 rotate independently.Interior hub part 14 and outer hub part 15, respectively from the inner side and outer side of door, interact with inside handle axle and external handle axle (not shown).Offset assembly 16 directly acts on interior hub part 14 and outer hub part 15, returns back to its resting position to promote driven member 11 successively, and this is equivalent to described oblique bolt component 8 and is in extended position.

Hub part subassembly 12 also comprises the stop device for cooperatively interacting with described interior hub part 14 and outer hub part 15.This stop device comprises stop slide plate 17, and by manipulation actuator 18, this stop slide plate 17 can move point-blank.In conjunction with accompanying drawing below, can be described in more detail described actuator 18.Described stop device also comprises interior retainer 19 and outer retainer 20, and this interior retainer 19 and outer retainer 20 relative to the latched position relevant with outer hub part 15 to interior hub part 14, can rotate around axle YY.Retainer 19,20 and stop slide plate 17 side interact, and to make stop slide plate 17 along the rectilinear movement in arrow A direction, retainer 19,20 can be driven to rotate.Latched position corresponds to retainer 19,20, this retainer 19,20 rotates in the counterclockwise direction extremely with hub part 14,15 angled, it can be stoped to rotate around axle XX.And stop slide plate 17 is moved along arrow B direction, by rotating interior retainer 19 and outer retainer 20 along clockwise direction, just interior retainer 19 and outer retainer 20 can be moved to unlocked position.

Insertion-core lock assembly 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, without the need to rotating interior hub part 14 or outer hub part 15, oblique bolt component also can be made to bounce back.By operate actuator assembly 18, breech lock slide plate 21 can be moved in the direction of arrow B, at this on the one hand, to the operation of actuator 18, be described in more detail by reference to accompanying drawing below.Breech lock slide plate 21 can move along arrow B direction, to engage and to cause driven member 11 around the rotation of axle XX.Skew spring 13 acts on oblique bolt component 8, gets back to extended position to promote oblique dead bolt, and driven member 11 can be caused to rotate around axle XX for this and breech lock slide plate moves along arrow A.It should be noted that the part of insertion-core lock assembly promotes breech lock slide plate and moves in the direction of arrow A, and preferably, stop slide plate 17 can arrive a position, this position makes retainer 19,20 be in locking or unlocked position respectively.

Now see Fig. 2, show actuator 18 in greater detail, it includes the housing be made up of inner part 23 and outside parts 24.Housing covers cam ring 25 and external cam 26, and cam ring 25 and external cam 26 are equipped with the boss for making it be positioned in cylindrical hole 28, cylindrical hole 28 be formed at corresponding in side body 23 and outside housing 24.Flange 29 extends out from the boss 27 be close to inner side housing 23 and each cam ring 25 of outside housing 24 inner surface and external cam 26.Can configure boss 27 and flange 29 relative to hole 29, to make cam ring 25 and external cam 26 clip close its respective housing 23,24, but this is not necessary.Also the space between inner housing 23 and shell body 24 can be defined as, the flange 29 of cam ring 25 contacts with the flange 29 of external cam 26 is opposed, remains in hole 28 to make boss 27.

Cam ring 25 and external cam 26 all comprise a pair tooth 30, and this extends the radial direction of tooth 30 along flange 29.With reference to accompanying drawing below, to the matching way of other element of the tooth 30 on each flange 29 and this insertion-core lock assembly, can be described in more detail.

Actuator 18 also comprises control lever 31, and the fulcrum of this control lever 31 is located at the axle 32 that extends from shell body 24.Control lever 31 remains on axle 32 by locator 33, and in the illustrated embodiment in which, this locator 33 is pressing securing member, but, obviously also can use other forms of securing member.Another kind of mode is that control lever 31 can be provided with boss, to coordinate with axle 32.One end of control lever 31 has tooth 34, and tooth 34 engages with the tooth of driven member 36 bottom, and meanwhile, the other end and the stop slide plate 17 of control lever 31 interact, and interactional pattern is described in more detail see accompanying drawing below.Actuator 18 also comprises offset assembly 37, and this offset assembly 37 is combined with control lever, composition bistable device.Illustrated offset assembly is torque spring, and the one arm of torque spring is located in the hole of control lever 31, and another arm of torque spring 37 is located at the recess in shell body 24.See accompanying drawing below, 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 and cam ring 25, external cam 26 cooperatively interact.Illustrated locating part 38 is the form of moulding.Illustrated locating part 38 comprises the tablet of composition displaceable member, and described moving member can move relative to a pair leg 40 of tablet 39 both sides.During the pattern that mediates, described tablet 39 is interacted by edge, its underpart and cam 25,26, and this lower edge is set to engage with the tooth 30 in cam ring 25, external cam 26.Displaceable member 39 is moveable, to be separated with the tooth 30 of cam ring 25 or external cam 26.Preferably, the deformable of illustrated locating part 38, to allow described displaceable member to move.But locating part can be set to and make tablet 39 rotate around axle (not shown), and adopts spring (not shown) to promote tablet 39 to obtain centralized positioning.Correspondingly, locating part 38 of the present invention is not limited to the locating part that exemplifies in figure.

Still see shown in Fig. 2, figure, on the external surface of described inner housing 23, be provided with half-cylinder structure 41, in use, it can hold bearing pin fixture (not shown), and cylinder lock (not shown) is fixed in insertion-core lock housing 2 by this bearing pin fixture.Bearing pin extends through the hole 42(formed in the front panel 5 of housing 2 and sees Fig. 1), and be located in the boring (not shown) formed in cylinder lock housing.Structure 41 in the housing 23 of actuator 18 enables cylinder lock indirectly be connected with housing 23, to keep adjacent with housing 23.The external surface of shell body 24 also has identical structure 42.

Now see Fig. 3, the figure illustrates the elevation of described actuator, wherein, cam ring mediates pattern.In this mode, the tooth 30 of cam ring 25 engages with the toothing 43 of tablet 39 lower edge, works 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 relative to housing 23.Especially, visual detector 44 indicates the position of the tooth 30 of cam 25.When cam 25 mediates, this is not necessary especially, because can see tooth 30 by the square hole 45 formed in housing 23.But as this manual subsequently by what explain, cam 25 can rotate from this position, so that the position of tooth 30 can be covered by housing 23 and can not be obviously visible.

Still see Fig. 3, the boss 27 of cam ring 25 comprises centre bore 46, and this centre bore 46 is set to hold to cylinder lock, rotates the relevant foot piece (not shown) such as pin.Illustrated hole 46 allows the idle running between foot piece and cam 25, especially allows the idle running having 90 ° when foot piece is flat rod.90 ° of idle runnings are provided, circle lock cylinder (not shown) can be made to rotate in cylinder lock housing, key is gone to vertical direction, extracts key.The hole of other shapes is obviously also possible.

Above the technical characteristic of the visible actuator of Fig. 3 is described in detail, has it should be noted that identical or similar in fact technical characteristic can be seen from the outside of actuator.

Now see Fig. 4, which show cam ring 25, stop slide plate 17 and breech lock slide plate 21, but remove inner housing 23.Cam ring 25 still mediates pattern, and stop slide plate 17 and breech lock slide plate 21 cooperatively interact with 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 end with actuator 18.Position residing for illustrated stop slide plate 17 makes described stop device be in non-working condition.More specifically, in non-working condition, interior hub part 14 rotates freely along arrow M direction, to make driven member 11 rotate, and retraction dead bolt.Tablet 39 can be pressed, and moves to the position of not engaging with cam ring 25.In this position, locating part is in non-working condition, and allows cam ring 25 to adjust between middle model, locking mode or breech lock pattern.Fig. 5 shows, and tablet 39 has been moved to and has departed from cam ring 25.In this position, cam ring 25 can rotate in the counterclockwise direction, to reach the locking mode shown in Fig. 6.As seen from Figure 5, tablet 39 also can move in opposite direction, to depart from external cam 26.

As seen from Figure 6, the tooth 30 on cam 25 engages with the upper tooth 47 on driven member 36, so that further rotating of cam ring 25 can cause driven member 26 to move linearly in the direction of arrow B.This can cause again control lever 31 around the rotation of its fulcrum, to move stop slide plate 17 along arrow A direction.Visible, Fig. 6 shows interior retainer 19 and is separated with interior hub part 14, and Fig. 7 then shows interior retainer 19 and is in the position stoping interior hub part 14 to rotate.

Bistable device operates, and promotion cam ring 25 and/or external cam 26 reach primary importance or the second place, and this primary importance and the second place correspond respectively to retainer and be in using state or non-working condition.Visible, Fig. 6 shows cam ring and is in the second place, and Fig. 7 shows cam ring is in primary importance.Illustrated offset assembly is the form of torque spring, and when cam ring 25 moves between the first position and the second position, torque spring storage of potential energy, when cam ring 25 arrives primary importance or the second place, torque spring by this fault offset out.The bistable device exemplified is only preferred form, and other forms of bistable device is obviously also possible.

At least from Fig. 6 and Fig. 7, the fulcrum of control lever 31 is off-centered.This provides advantage mechanically to actuator 18, and such as, this can make the round lock cylinder of cylinder lock be easy to rotate, to manipulate stop device.This also counteracts the inertia produced by offset assembly 37, and this offset assembly 37 makes cam ring or external cam move to the direction away from primary importance or the second place.

Cam ring 25 and external cam 26 also can operate in breech lock pattern, Fig. 8 and Fig. 9 shows the cam ring 25 be in breech lock pattern.Again, tablet 39 has been moved to a position, and in this position, the tooth 30 of cam ring 25 can be separated with tooth 43 structure of tablet 39 lower edge, and is rotated in a clockwise direction.Further, cam ring 25 can cause the tooth 30 of cam ring 25 to engage with breech lock slide plate 21 from the rotation of position shown in Fig. 8, and makes it move along arrow B direction.Breech lock slide plate 21 can cause the fastening of the galianconism 22 of itself and driven member 11 along the movement in arrow B direction, the rotation of driven member 11 around axle XX and the retraction of oblique bolt component.This rotation is arrived as seen from Figure 9.

At least as seen from Figure 8, once cam ring 25 or external cam 26 are removed from middle model, tablet 39 return, locating part 38 is made to be in using state, 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.

Now see Figure 10, this figure shows the tooth 43 of tablet 39 in greater detail.As seen from Figure 10, tooth 43 comprises down angled edge, the tooth 30(being somebody's turn to do angled edge and cam ring 25 or external cam 26 is shown in Fig. 2) interact, like this, the rotation of cam ring 25 or external cam 26 self can promote tablet 39 and move along the direction being substantially perpendicular to cam 25,26 moving direction.Angled edge of falling makes not need directly to force in tablet, and it just can be made to be separated with cam ring 25 or external cam 26.

From above content, the above actuator provides flexibility to insertion-core lock assembly function and adjustment thereof.Because different cams need not be attached in the round lock cylinder of cylinder lock to reach difference in functionality by setter, this actuator also contributes to cylinder lock to be connected to insertion-core lock assembly.

Based on the application or to the priority that this application claims, in Australia or can abroad submit follow-up patent application.Be interpreted as, provisional claims subsequently only provides by way of example, and does not mean that the protection domain to requiring in any patent application in future is restricted.Future also can increase and decrease technical characteristic in these provisional claims, to limit further or again to limit the present invention.

Do not departing from the spirit or scope of the present invention situation, can carry out described actuator various alternative and/or supplementary.

Claims (24)

1. one kind for the actuator in insertion-core lock assembly, described insertion-core lock assembly have dead bolt, for described dead bolt is offset to extended position offset assembly, can make described dead bolt to remove from described extended position in hub part and outer hub part, be used for and described interior hub part and the interactional stop device of outer hub part, when described stop device is in using state, described interior hub part and/or outer hub part cannot be operated; Described actuator comprise housing, can by the cam ring of the inner side and outer side driven rotary of described insertion-core lock assembly and external cam, each cam is selectively used at least one breech lock pattern, via described interior hub part or the direct or indirect operation of outer hub part, the rotation of arbitrary described cam ring or described external cam makes described dead bolt move relative to described extended position, or each cam is optionally used in a kind of locking mode, like this, the rotation of described cam ring or external cam, will adjust the state of described stop device.

2. actuator according to claim 1, comprise bistable device, when being in described locking mode, described bistable device and described cam ring and/or external cam interact, described bistable device can be used for promoting described cam ring or external cam reaches primary importance or the second place, described primary importance is corresponding to the described stop device being in using state, and the described second place is corresponding to the described stop device being in non-working condition.

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

4. actuator according to claim 3, comprises offset assembly, and described offset assembly is for promoting described cam ring or external cam reaches described primary importance or the described second place.

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

6. the actuator according to any one of claim 3 to 5, is characterized in that: described control lever has off-centered fulcrum.

7. the actuator according to any one of claim 3 to 5, comprise driven member, it is at described control lever, coordinate with the intercropping of described cam ring and external cam, described cam ring or the movement of external cam between described primary importance and the described second place, can cause that described follower lever moves linearly.

8. actuator according to claim 1, comprises locating part, and described locating part stops described cam ring or external cam to adjust between described locking mode and described breech lock pattern in a state of use.

9. actuator according to claim 8, it is characterized in that: described locating part can be adjusted to non-working condition from described using state, thus, any one in described cam ring or external cam can adjust between described locking mode and described breech lock pattern.

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

11. actuators according to any one of claim 9 to 10, it is characterized in that: described locating part comprises displaceable member, when adjusting the state of described locating part between described using state and described non-working condition, described displaceable member can move along the direction being substantially perpendicular to described cam ring and described external cam axis of rotation.

12. actuators according to claim 11, is characterized in that: described displaceable member is pivotable.

13. actuators according to claim 12, is characterized in that: promote described displaceable member to reach described using state.

14. actuators according to claim 13, comprise the offset assembly reaching described using state for promoting described displaceable member.

15. actuators according to claim 14, it is characterized in that: described locating part is made up of elastic deformable material, to produce distortion when making described locating part be adjusted to described non-working condition from described using state, and when described locating part is in non-working condition, this deformable material promotes described locating part and reaches described using state.

16. actuators according to claim 15, it is characterized in that: described cam ring and/or described external cam rotatable to reach middle model, in described middle model, described cam ring and/or described external cam be both not useable for described dead bolt of retracting, also the state adjusting described stop device is not useable for, by like this, the shape of described displaceable member, be designed to when described locating part be in using state and described cam ring and or external cam is in described middle model time, described displaceable member engages with described cam ring and/or external cam.

17. actuators according to claim 16, it is characterized in that: described displaceable member, cam ring and external cam are toothed shape, it engages each other in described middle model, make the rotation of described cam in described middle model, promote described locating part and be adjusted to described non-working condition from described using state.

18. actuators according to claim 17, it is characterized in that: described cam ring and external cam are toothed shape, it at least engages described displaceable member, described displaceable member shape is chamfered teeth, this makes described cam ring or external cam in the rotation of described middle model, promotes described displaceable member and moves along the direction being substantially perpendicular to described direction of rotation.

19. actuators according to claim 8, is characterized in that: described housing comprises at least one hole, and by this hole, the state of described locating part is adjusted.

20. actuators according to claim 1, is characterized in that: each described cam ring and described external cam include the hole for holding foot piece, and each hole is set to and allows described cam ring, external cam, and the idle running between described foot piece.

21. actuators according to claim 20, is characterized in that: each described hole is set to permission 90 ° of idle runnings.

22. actuators according to claim 1, is characterized in that: each described cam ring and described external cam include visual detector, to indicate described cam relative to the position of rotation of described housing.

23. actuators according to claim 1, is characterized in that: described housing comprises at least one structure, and described structure is for holding at least one for cylinder lock, pin being secured to the securing member of described housing.

24. 1 kinds of insertion-core lock assemblies, it comprises actuator according to claim 1.