CN1138886A - Locking system comprising a lock and several keys which fit one lock - Google Patents
Locking system comprising a lock and several keys which fit one lock Download PDFInfo
- Publication number
- CN1138886A CN1138886A CN95191298A CN95191298A CN1138886A CN 1138886 A CN1138886 A CN 1138886A CN 95191298 A CN95191298 A CN 95191298A CN 95191298 A CN95191298 A CN 95191298A CN 1138886 A CN1138886 A CN 1138886A
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- Prior art keywords
- key
- locking
- lock
- locking mechanism
- lock core
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B17/00—Accessories in connection with locks
- E05B17/04—Devices for coupling the turning cylinder of a single or a double cylinder lock with the bolt operating member
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B27/00—Cylinder locks or other locks with tumbler pins or balls that are set by pushing the key in
- E05B27/0003—Details
- E05B27/0007—Rotors
- E05B27/001—Rotors having relatively movable parts, e.g. coaxial- or split-plugs
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B35/00—Locks for use with special keys or a plurality of keys ; keys therefor
- E05B35/08—Locks for use with special keys or a plurality of keys ; keys therefor operable by a plurality of keys
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05B—LOCKS; ACCESSORIES THEREFOR; HANDCUFFS
- E05B27/00—Cylinder locks or other locks with tumbler pins or balls that are set by pushing the key in
- E05B27/0053—Cylinder locks or other locks with tumbler pins or balls that are set by pushing the key in for use with more than one key, e.g. master-slave key
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- Lock And Its Accessories (AREA)
Abstract
The invention relates to a locking system comprising a lock and a number of keys which fit one lock. The appropriate keys which can be inserted into the lock channel have differing lock codes which actuate the locking mechanism of the lock. It is proposed that, in order to improve the security of the lock, each lock code should have allocated to it its own unique independently operated lock mechanism.
Description
The present invention relates to a kind of is a locking device that phase-locked key of joining is formed by lock and many handles, wherein, can insert the phase bitting in the key selectively, has the locking coding of the locking mechanism of the operated lock that differs from one another.
The known many form of structure of the locking device of the above-mentioned type.Can finish main locking task by means of this locking device.In a kind of master key system, in certain crowd, respectively distribute a single key, this single key is always only joined an independent lock.But can handle whole locks of master key system by means of master key.Can for example relate to the magnetic code key about key, it makes and sells co-operation with the magnetic lock of lock.Flat key also is a prior art, and this key is shaped on the locking otch of the locking pin that is used to arrange lock core in their wide side or on their narrow limit.Yet the shortcoming of this locking device is the following fact: can find out main locking coding from the many single key that exists, thereby reduce the safety of this locking device.
The objective of the invention is to design a kind of locking device of the above-mentioned type simple in structure, make it to improve safety, by existing secondary key, that is single key, can not find the locking coding of master key.
In this class locking device for achieving the above object, in lock be automatic manipulation alone of every kind of locking coding configuration and only be tuned to wherein a kind of locking mechanism of locking coding.
According to such design, the safety that has improved the above-mentioned type locking device.What are no matter have the quantity of the secondary key of locking coding, the locking coding of master key all can not be found.Because every kind of locking coding of a key all disposes a locking mechanism alone.When inserting relevant key, can only handle this locking mechanism.Other locking mechanism is unaffected.Therefore the locking coding is irrelevant each other, so people also just can not calculate or find out the locking coding of master key.
About locking device can relate to a kind of locking pin of magnetic of the locking mechanism that has magnetic code and handled by its, locking mechanism is by moving operating contact maker when the key that insertion matches.Eminency of the present invention in this case is, every key only has coding at part surface, remaining part surface does not have the locking coding, and a gulde edge arranged, it just is used to force locking mechanism displacement, and with do not have the locking mechanism that locking coding local surfaces matches on the key and keep motionless.The key card that its part surface contains the locking coding is used as key.This part surface and the locking mechanism that matches with it are overlapping when key is inserted, and arrange the locking pin of magnetic, thereby can drive relevant locking mechanism by the gulde edge in this part surface front.Another part surface is no locking coding.It does not apply any influence to the locking pin.This locking mechanism still keeps locking.That is to say that always when a locking mechanism reach, another locking mechanism is not driven.Can also relate to the coding of other types about key, for example be tape or punched card in form.Especially this solution security advantage of tape is very outstanding, because the easiest identification of hole coding, and, the easiest analysis when on an object, having major and minor key.
Favourable being improved to, locking mechanism are designed to be equipped with the slide block arranged side by side of magnetic lock cotter, are shaped on vacancy on the key, are used to insert the engages stop of this locking mechanism slide block, this slide block and the part surface phase configuration of not having the locking coding on the key.Corresponding lock this turned out to be reliable structure thereby kept.Slide block only separates by a boundary seam along its direction of motion.According to the size of locking mechanism slide block, also can determine the size of that part surface that contains coding of key.If key is inserted, then its locking coding is arranged the magnetic lock cotter of that relevant locking mechanism slide block.By gulde edge in the part surface front that coding is arranged, act on power on the engages stop of locking mechanism slide block, therefore this locking mechanism slide block is driven bonding station.But another locking mechanism slide block is slack, is not shaped on a vacancy because there is the part surface of locking coding on locating surface, so engages stop is inserted in this vacancy when key is passed forward.
In addition, thought of the present invention can be incorporated in the locking mechanism with rotating lock core cylinder, and this lock core cylinder is equipped with the locking pin, and they are arranged in unlocked position by the locking otch of the formation of key coding.Essence of the present invention in this case is, be provided with two lock core cylinder parts that respectively constitute a locking mechanism, they respectively are equipped with lock set cotter, and after each half key adaptive with one was neat with the locking pin row, lock core partly can move on to a bonding station with driven member.Be equally in this case, by locking coding, that is can not find out the locking coding of master key by the locking otch of secondary key, it doesn't matter between just the coding of single key and master key were encoded.This locking mechanism system partly is made up of two lock core cylinders now, and wherein each lock core cylinder partly has row's locking pin.Can the locking pin row of this or another lock core cylinder part is neat with corresponding half key, and then this lock core cylinder transposition of partial that just can release arrive the bonding station with driven member.Another lock core cylinder part state that then still keeps Locked.
Favourable way is, with the semicylinder of two lock core cylinder partial design for engaging one another along a longitudinal joint, is furnished with lock set cotter on each semicylinder, for they are equipped with the phase distribution of middle casing, these two semicylinders respectively have a vertical key guide groove that separates, and can move on to respectively vertically and the driven member position engaged by means of key, wherein, middle casing is contained in the shell rotationally.This means, after corresponding half key is inserted, just can carry out locking and handle.Will all not insert by two and half keys for handling.If inserted wherein one half key, then the locking otch by means of it comes into line the locking pin, and thereby makes that relevant lock core cylinder partly be displaced to release under the situation of bonding station at it.Can realize rotatablely moving by means of this half key now.This rotatablely moves and is partly passed to middle casing by other that by the lock core cylinder of locking, so this middle casing is and then moving in the shell transfer.
This has proved favourable way, and driven member is bearing on the rear side end wall of shell, and it has the non-circular cross section that is used for the projection engagement of lock core cylinder part.The engagement cross section complementation of two projections and the non-circle of driven member.One of them projection inserts in the driven member engagement cross section just to be enough to serve to spur.
By another kind of scheme also can be, two lock core cylinder parts are contained in vertically continuously in their set middle casings, a lock set coremaking pin respectively is equipped with and, they and the co-operation of distribution mutually of middle casing, wherein, lock core cylinder partly has the vertical key guide groove aligned with each other at the different length key, can mobile lock core cylinder part by means of these keys, reach the purpose that is in the driven member position of engagement, wherein, middle casing is contained in the shell rotationally.In this case, also it doesn't matter mutually for the locking of key coding.By for example encoding and derivation to encode than the locking of long key than the locking of short single key.If for example insert this short key, then it is listed as relevant locking pin row, and allows this lock core cylinder partly to move so that engage with driven member.When using that long key, also realize this situation.This key be passed in the inserting side lock core cylinder part vertical key guide groove and insert in vertical key guide groove of another lock core cylinder part, locking pin row there is neat, so, and then just can move this lock core cylinder part.
The further design of this scheme comprises, dorsal part in lock core cylinder part key inserting side has a blade that extends radially, be used for moving the transmission lath of a middle casing that is attached thereto, and middle casing is rotatably connected therewith, this transmits lath preceding a distance of that lock core cylinder radial system moving plate partly in the inside on the throne and stops, and this lock core part stretches in the engagement cross section of driven member with a non-circular projection.This braking blade will be inside that lock core cylinder pin and do not allow its rotation.When using that weak point key, when the lock core cylinder in the inserting side moves, its blade that extends radially is transmitting power of effect on the lath, and this transmits lath and acts on the brake(-holder) block after through an idle stroke, makes a recess disengage from of brake(-holder) block and shell.Now, this radial blade and middle casing inside are rigidly connected, so its rotation passes to that lock core cylinder of drive driven member inside.Moving of the lock core cylinder part of the inside of carrying out by means of long key causes brake(-holder) block rotation release equally, so driven member be rotated and be driven to the lock core cylinder part can attaching troops to a unit in its middle casing.
Suggestion is in addition transmitted lath and is provided with a control boss, it and the trip bolt co-operation of inner middle casing.When using short key to make the reach of transmission lath, trip bolt places the off-position by the control boss.This trip bolt prevents from owing to insert aid in vertical key guide groove lock core cylinder inside partly to be rotated with middle casing.Always allow to use the key that conforms with the regulations, handle so that can carry out locking.
Again be in the home position that conforms with the regulations after handling at locking, not only brake(-holder) block but also inboard middle casing all are subjected to the active force that the contrary connector of a compression spring meshes direction.
For increasing changeability, locking mechanism can be taken out and pack into by the present invention's design.There is not encoding relation mutually because belong to the locking mechanism of lock, so can change.No matter be the locking device of carrying magnetic coding key, or its key is provided with in form to the locking device of the coding of locking otch and can so do.In having the locking device of magnetic code, one or two locking mechanism slide block can be extracted out from the shell of lock, and available other replacement.For example, after a construction stage, can take out a locking mechanism slide block, and have the locking mechanism slide block of coding to replace, after being inserted into, irreversibly stay in the shell of lock with another.Just can not locking with the corresponding key of using in the past.This measure provides such possibility,, realizes belonging to the locking plan of a locking system after whole locks have been installed that is, and irrelevant with the locking device of producing in manufactory.
Changeability can also further be optimized, that is, make at least one locking mechanism that a code conversion device is arranged, and it is magnetic pin support movably by means of the key motion in form.It can be designed to the form of revolving part.When using follow-up key, by being in the magnetic pin support of tooth engagement mutually, just can cause step-type rotation, so previous key no longer can use.This point in conjunction with a plurality of locking mechanisms of a lock, is brought additional codifiability again.
The characteristics that are used to handle the key of the locking device that is provided with magnetic code are, a gulde edge of band vacancy that is used to handle engages stop and always only handles the engages stop of a locking mechanism slide block is arranged, wherein, vacancy is with respect to the distance of gulde edge retraction, and the locking mechanism slide block shift motion of handling with gulde edge is suitable.If key inserts the insertion groove of locking device, then drive the engages stop of that relevant locking mechanism slide block, and thereby make it mobile at the gulde edge of the part surface front that coding is arranged.The engages stop of adjacent locking mechanism slide block is then imbedded in the vacancy that bounces back with respect to gulde edge.Because the locking mechanism slide block shift motion that the amount of retraction and gulde edge are handled is suitable, so this engages stop can unhinderedly be imbedded in the vacancy, does not apply power on this engages stop.A key does not have vacancy although be provided with the coding that conforms with the regulations on a part surface, and it can not pass relevant locking mechanism slide block forward so.Also have,, also just can not move forward completely, so can not accomplish the joint sought if the depth design of vacancy gets inadequately.
Another hidden ingredient is that gulde edge and vacancy are arranged on the offset from center place on the key.If the vacancy of the key that will insert is not aimed at the engages stop that it faces, can not reach the combination of being sought so equally.
Can obtain the advantage of operating technology aspect by the following stated: be shaped on mark on one wide of key.For example, this mark can point out it related be single key or master key.This mark can point out that also key is not put upside down the side, otherwise does not allow to cause bonding station equally when implementing to insert.
Should mention also that at last vacancy is positioned at the part surface place of no locking coding.Therefore, there is the part surface of coding can not reduced because of vacancy.
Below by means of description of drawings various embodiments of the present invention, in the accompanying drawing:
Fig. 1 is the door that is equipped with by the lock of the present invention's design, sees that along the direction of door tongue and groove groove what relate to is first kind of form of implementation;
Fig. 2 is the key of regional magnetized key card for the vertical view of lock and two attach troops to a unit in it in form;
Fig. 3 is the vertical section by lock, and wherein the locking mechanism slide block is in the travelling backwards terminal location, and rotating handles is in the dropout position outdoors;
Fig. 4 is and Fig. 3 corresponding view, and is wherein different with Fig. 3, moved forward the locking mechanism slide block by means of a key, set up the joint of rotating handles outdoors;
Fig. 5 is the vertical view of the lock shell top when having removed the lock cover, sees the situation of two locking mechanism slide blocks arranged side by side before inserting card key;
Fig. 6 is the view after Fig. 5, wherein, by means of key card a locking mechanism slide block is moved on to the position that is disengaged;
Fig. 7 is the vertical view that is similar to Fig. 5, and is different with Fig. 5, wherein, boundary seam between two locking mechanism slide blocks is in eccentric position, one of them locking mechanism slide block has the code conversion device, is that to be in the revolving part of tooth engagement mutually right in form, and what relate to is second kind of form of implementation;
Fig. 8 is the third form of implementation vertical section of locking device, has inserted the locking pin row agent that will attach troops to a unit behind half key in top lock core cylinder part;
Fig. 9 is the front elevation drawing of related lock, inserts key;
Figure 10 is at the cross section of the height place, projection place of lock core cylinder part by locking;
Figure 11 is and Fig. 8 corresponding view that wherein, top circle bolt-lock core segment is pushed to and the driven member bonding station;
Figure 12 is vertical section as shown in Figure 8, but has used another half key, and is before the lock core cylinder part of mobile bottom that the locking pin row of this lock core cylinder part is neat;
Figure 13 does not insert key for by the locking device vertical section by the 4th kind of form of implementation;
Figure 14 is the horizontal profile by the lock front area;
The cross section of Figure 15 for pressing XV-XV line among Figure 13;
Figure 16 is and the corresponding vertical section of Figure 13, but inserted short key, and moved axially the lock core cylinder part that key inserts a side; And
Figure 17 is similarly the vertical section by lock, has wherein inserted long key, has moved the lock core cylinder part in the inboard.
Fig. 1 has represented to be fixed on the door 2 by the lock that relates to first kind of form of implementation 1 of the present invention's design, for example the door in hotel.Lock 1 has a lock box 3 that is contained in the rectangle outline of outer side of door, one at outdoors rotating handles 4 at an end bearing of lock box 3.Bolt 5 can be retracted by outside rotating handles.6 of inside rotating handleses that are contained in door 2 inboards are opposite, and it directly is connected with bolt 5, so can open door all the time from this side of door 2.
The shell 10 of dipartite lock is housed in the lock box 3, and it is made up of bottom 11, middle part 12 and top 13.By means of there not being the further screw of expression, these three parts are formed parts.Die casting is adopted at the middle part, and bottom 11 and top 13 are made of plastic.Between top 13 and middle part 12, the locking mechanism slide block parallel arranged side by side 14,15 of two formation locking mechanisms of guiding.Locking mechanism slide block 14,15 is placed on the middle part 12 with their a wide side.Keep plate 16 has constituted the guiding face that is in relative position, and this keep plate 16 immovably is contained in the top 13.Under the latched position of lock shown in Figure 3, align with the support holes 18 that is designed to through hole on the locking mechanism slide block 14,15 in the hole 17 of keep plate 16.In support holes 18, insert the locking pin 19 of magnetic.There is no need in each support holes 18, all to establish a locking pin 19, because the quantity of locking pin 19, position and polarity, be according to the lock 1 incompatible adjustment of unlatching code set at that time.
Another side at keep plate 16 has a guide plate 20, and there is an anchor slab 21 at guide plate 20 relative position places therewith.Compression spring 22 effects that the latter is supported on the top 13 are fixed on its position down.
By the anchor slab made from ferromagnetic material 21, inhale the locking pin 19 of magnetic, so they insert in the respective aperture 17 of keep plate 16.In this position, locking mechanism slide block 14,15 can not move from application position shown in Figure 3, is prevented from doing this moving because locking pin 19 is inserted in the keep plate 16 that is fixed in the shell.In this embodiment, in each locking mechanism slide block, there are a rotary body of packing into 23 or 24, their be used for equally packing into locking pins of magnetic.Each rotary body 23,24 has 4 holes, but they are not that the magnetic pin all is housed.
A Return spring 25 that is pressed on shell one side is buckled in of locking mechanism slide block 14,15 and passes on the projection 26 of groove at middle part 12.The boundary seam 27 that extends along glide direction passes this projection 26, and breaks it into two.The front end of projection 26 is shaped on handles inclined-plane 28.The tongue piece 30 that this inclined-plane 28 acts on the elastomeric material manufacturing is bent on the flange 29 at oblique angle, and the shell that tongue piece 30 is fixedly mounted on lock inserts in the zone of key one end.That end that is in relative position with the fixed end of elastic tongue piece 30 is designed to fork-shaped, and fork is in the cannelure 31 of a clutch collar 32 that is shaped on internal tooth.In the dropout position, clutch collar 32 is round pinion 33, and pinion 33 rotatably is contained in the support holes of bottom 11 with a bigger flange 34 of cross section.Flange 34 with push axle 35 and be in transmission connection antitorquely, push rotating handles 6 in distolateral dress of axle 35.
The internal tooth of clutch collar 32 and gear 36 match.Gear 36 aligns with pinion 33, and is adorning inner rotary handle 4 at the outboard end of shell.Press Fig. 3, be in unengaged position at present, so when rotating handles 4 rotates these gears 36 outside, do not cause that transmission pushes axle 35 at clutch collar 32 and gear 36.Compression spring 37 is round clutch collar 32 outsides, and contrary connector engagement directive effect is on clutch collar 32.
A backstop projection 38 is housed on the outer longitudinal edge of each locking mechanism slide block 14,15 swingably.Each backstop projection 38 each with stretch section 39 co-operation of an elastic tongue piece 30.The end of each stretch section 39 make the retainer 39 of bent angle ', in the dropout position, it is positioned at backstop projection 38 fronts as shown in Figure 3.
Be designed to only have its coding on the key 8 of key card form at part surface F1.There is not the locking coding on remaining part surface F1 '.Be provided with gulde edge 40 in the vacancy side in the front of the part surface F1 that coding is arranged.Vacancy 41 from then on gulde edge 40 is set out, and this vacancy is in the front of codeless part surface F1 '.As shown in Figure 2, gulde edge 40 and vacancy 41 all are located at the place at key 8 centers of staggering.In addition, vacancy 41 is with respect to the amount of gulde edge 40 retractions, and the stroke that moves with gulde edge operated lock locking mechanism slide block 15 is suitable.Also have, the width of the engages stop 44 of the width of vacancy 41 and another locking mechanism slide block is complementary.
Another card key 9 is divided into two subregion F2 and F2 ' equally.Part surface F2 includes and locking mechanism slide block 14 cooperative locking codings.In this section the front have gulde edge 40 '.Attach troops to a unit in the part surface F2 ' of no locking coding with respect to the vacancy 42 of gulde edge 40 ' retraction.What here stand good is gulde edge 40 ' be provided with vacancy 42 off-centre.In addition, the amount of vacancy 42 retractions is chosen as, and is suitable with the displacement stroke of gulde edge operated lock locking mechanism slide block 14.Afterwards, vacancy 42 is alignd with the engages stop 43 of locking mechanism slide block 15 when the insertion campaign of vacancy 42, so do not drive this locking mechanism slide block 15 when inserting key 9.
As seen from Figure 2, on wide of each key 8,9, be provided with a mark.This mark is the profile of a flat key.When inserting key, should be noted that the user should be able to see this mark.Guarantee thus that the vacancy 41,42 of key 8,9 and gulde edge 40,40 ' be conform with the regulations and effectively.Can also make following mark in case of necessity: what relate in order to identification is single key or master key actually.
The working method of coordinating is as follows:
If use key 8, then realize the arrangement of the relevant magnetic pin 19 of locking mechanism slide block 15 by the locking coding of part surface F1.Then, by means of the reach of gulde edge 40 realization locking mechanism slide blocks 15, and another locking mechanism slide block 14 waits behind.So engages stop 44 enters vacancy 41.
Identical part is with same symbol among the second kind of embodiment that represents in Fig. 7.Difference is the design of locking mechanism slide block 45,46, and the width of locking mechanism slide block 45 is greater than locking mechanism slide block 46.Successively two pairs of magnetic pin supports 47,48 are housed on the locking mechanism slide block 45 of big width, wherein, each is in the tooth engagement mutually to magnetic pin support.Can mobile locking mechanism slide block 45 by means of key 49, its gulde edge 50 is provided with vacancy 51 in the part surface F2 ' district of no locking coding.When inserting key 49, the engages stop 52 of locking mechanism slide block 46 is inserted in the vacancy 51.Therefore, when inserting key 49, the locking of key 49 coding (part surface F2) is in the overlay region of key and locking mechanism slide block 45.Another key 53 is in the insertion position, has its locking coded portion surface F1 in the overlay region of it and locking mechanism slide block 46.Its gulde edge in front 50 is adjacent with vacancy 54, and when inserting key 53, the engages stop 55 of locking mechanism slide block 45 enters in the vacancy 54.When inserting a key, always there is this or that locking mechanism slide block to be driven.
Relevant for this design, can be according to selecting regulation, inserting one during, carry out code conversion, and implement by rotating magnetic pin support 47,48 the follow-up key of operated lock locking mechanism slide block 45.Afterwards, previous key 49 no longer includes ability the magnetic pin of this locking mechanism slide block 45 is arranged with conforming with the regulations.Therefore can not release.
Press the third form of implementation shown in Fig. 8 to 12, realize by mechanical type locking cylinder.The locking cylinder has a cup-shaped shell 56, and it seals with a rear side end wall 57.At the end wall 57 central authorities driven member 58 of rotatably packing into.This driven member 58 is shaped on a non-circular engagement cross section 59 towards cup-shaped inside.
A middle casing 60 is housed in shell 56 rotationally.Two lock core cylinder parts 61 and 62 that respectively constitute a locking mechanism are arranged in middle casing 60, and they are designed to stitch the semicylinder that engages one another along a vertical boundary.A lock core hole 63 that is located in the middle casing 60 is used to the semicylinder of packing into.Lock core hole 63 is longer than lock core cylinder part 61,62.Each lock core cylinder part 61,62 is provided with a lock set coremaking pin 64 or 65, the phase distribution 66 or 67 that is provided with spring-loaded middle casing 60 that matches with it.At the medial extremity of middle casing 60, each lock core cylinder part 61,62 has a projection 68 or 69, engagement cross section 59 complementations of these projections and driven member 58.
At home position, lock core cylinder part 61 with a pin 61 in the key inserting side ', insert in the recess 70 of middle casing 60, as shown in Figure 8 with being rigidly connected.
This lock can be handled by means of two and half keys 71,72.Each semicolumn or lock core cylinder part 61,62 are provided with a vertical guide groove 73 of the key that separates or 74 to half key 71,72 for every.Adopt different shape of cross sections to accomplish, corresponding half key can only insert its vertical key guide groove alone.
Draw following working method:, then this half key 71 is inserted in vertical key guide groove 73 of lock core cylinder part 61 if should handle the locking cylinder with half key 71.After finishing insertion, by being located at the locking otch 75 on an one narrow limit of key bar, locking pin 64,66 is arranged in, their boundary seam is on the height of lock core hole 63.Present half key 71 can further insert.Its key is top to be used for driving lock core cylinder part 61, makes it with respect to 62 displacements of another lock core cylinder part.In this moving process, projection 68 engages with the engagement cross section 59 of driven member 58, as shown in figure 11.This lock core cylinder part can be by means of key 71 rotations.Rotatablely moving of lock core cylinder part 61 passes to another lock core cylinder part 62, and thereby passes to middle casing 60.When a key 71 is extracted, be in home position again.The travelling backwards of relevant member for example can be by means of spring pressure.
Figure 12 represents that another key 72 inserts in the lock core cylinder part 62. Relevant locking pin 65,67 is arranged as, and makes the boundary seam be in the height in lock core cylinder hole 63.Can realize constituting the moving and engaging of lock core cylinder part 62 of locking mechanism now with driven member 58.Implement the arrangement of locking pin here by means of the locking otch 76 of half key 72.By the locking otch 75,76 of existing each half key 71 or 72, can not find out the locking coding of another key.This is applicable to that also this class lock attaches troops to a unit under the situation of master key system.Even can not derive the locking coding of master key by a large amount of single keys.
The 4th kind of embodiment relates to a kind of mechanical lock equally, and it is the locking cylinder in form.It has cylinder shape shell 78.Driven member 80 is contained in rear side end wall 79 or the cylinder bottom 78.Two middle casings 82,83 are housed before and after in cylinder shape hole 81 continuously.They are used for installing the lock core cylinder part 84,85 that constitutes locking mechanism, and lock core cylinder part 84,85 is packed in the lock core hole 86,117 of middle casing 82,83.In lock core cylinder part 84,85, be provided with vertical key guide groove 87,88 aligned with each other.Each lock core cylinder part 84,85 is provided with lock set cotter 89 or 90, they and 91,92 co-operation of distribution mutually of middle casing 82 or 83.Equally, phase distribution 91,92 along the lock core pin direction by spring-loaded.
The lock core cylinder part 84 of key inserting side can be handled the short key 93 of length with one.The key bar length of key 93 is corresponding with the length of lock core cylinder part 84, as shown in figure 16.Middle casing 82 is contained in the shell 78 rotationally.A radially outside spring-loaded pin 94 of middle casing 82 is used as anti-safeties of pulling out, and this pin 94 inserts in the inner groove 95 of shell 78, as shown in figure 14.As seen from Figure 14, the home position of middle casing 82 is guaranteed that by a spring-loaded banking pin 96 it inserts in the recess 97 of shell 78 inboards.One of lock core cylinder part 84 pin 98 radially is used for guaranteeing that this lock core cylinder part 84 can not rotate with respect to its middle casing 82, but can only relatively moves.For this reason, middle casing 82 is being shaped on a cannelure 99 with pin 98 junctions radially.
Lock core cylinder part 84 back of key inserting side, design has a blade that extends radially 100.It is used for passing one and transmits lath 101.Transmit lath 101 for settling, an outer cannelure 102 that is located in the middle casing 83 is arranged.Blade 100 is in such situation, that is, when lock core cylinder part 84 moved, it inserted in the outer cannelure 102 with being rigidly connected, and will transmit lath 101 and move towards the direction of a radial system moving plate 103 of lock core cylinder part 85.For this purpose, transmit lath 101 place separated by a distance before brake(-holder) block 103 and stop, brake(-holder) block 103 shapes are inserted in the radial slot 104 of shell 78 suitably when lock is in lockup state.Radial slot 104 is communicated with a ring cavity 105 of shell 78.The compression spring 106 of a truncated cone shape is bearing on cylinder bottom or the end wall 79, and both also loads to middle casing 83 to brake(-holder) block 103.Therefore, that form and prevent this assembly that they rotate mutually by lock core cylinder part 85 and middle casing 83 by the locking pin, can not in shell 78, rotate.
Transmit lath 101 and be provided with radially inside control boss 107 towards an end of brake(-holder) block 103.It and one steady pin 108 co-operation of guiding radially in middle casing 83.Compression spring 109 with steady pin 108 to external pressure.Steady pin 108 is designed to fork-shaped, as shown in figure 15.Yoke 110 is round transmission lath 101, and shape is embedded in the radial slot 104 of shell 78 suitably.The web 111 restriction steady pins 108 of fork outwards move, and are used for and transmit control boss 107 joints of lath 101.Design difference when the front, lock core cylinder part 85 has been under the state that engages with driven member 80 rotation at home position, meshes in the cross sections 113 to a certain degree because the projection of lock core cylinder part 85 inserts driven member 80 112 this moments.For making 85 releases of lock core cylinder part, compare the key 114 that designs longlyer with key 93 with one.Its length dimension is designed to can make it to pass lock core cylinder part 84 and insert in the lock core cylinder part 85 that axially connects.Locking otch 115 made on the narrow limit of the key bar of key 114 is used for arranging the locking pin.
Draw following working method according to this design:
As shown in figure 16, being designed to short key 93 has inserted in the lock core cylinder part 84.Locking otch 116 by key 93 is arranged locking pin 89,91, so and then lock core cylinder part 84 just can be along moving with respect to middle casing 82 towards inner direction.When moving inward, blade 100 inserts in the outer cannelure 102, has set up with middle casing 83 to be rotationally connected.Meanwhile, pass transmission lath 101 vertically by blade 100.Control boss 107 makes steady pin 108 and shell 78 disengage from.In addition, by transmitting lath 101 brake(-holder) block 103 of lock core cylinder part 85 is moved, and thereby lock core cylinder part 85 is moved.Locking pin 90,92 also works to drive middle casing 83 simultaneously.In this position that moves forward, brake(-holder) block 103 is in the annular chamber 105 of shell 78, and therefore, rotatablely moving of key 93 passes to middle casing 83 by blade 100, and by the there locking pin 90,92 pass to lock core cylinder part 85, the latter drives driven member 80.
Can only rotary cylinder lock core part 84 and thereby also rotatable middle casing 82 by means of an aid.Change middle casing 83 but can not be with.If opener inserts in vertical key guide groove 88 of lock core cylinder part 85 always, then owing to brake(-holder) block 103 and steady pin 108 are arranged, so it can not rotate.Even when the assembly of being made up of middle casing 83 and lock core cylinder part 85 may be moved axially because steady pin 108 still keeps meshing with shell, thus the shell locking rotatablely move.
Therefore, it is just possible that the manipulation of lock only relends the key 114 that helps design longly.When this key 114 was inserted, it passed vertical key guide groove 87 of inserting side lock core cylinder part 84, afterwards, inserts vertical key guide groove 88 of follow-up lock core cylinder part 85.The locking otch 115 of key bar one side is arranged locking pin 90,92, thereby lock core cylinder part 85 can be along the longitudinal movement by key is top.When this vertically moved, the brake(-holder) block 103 of lock core cylinder part 85 left radial slot 104, and entered in the annular chamber 105 of shell 78, as shown in figure 17.Can rotate driven member 80 by means of lock core cylinder part 85 then.This rotational motion passes to lock core cylinder part 84 equally and attaches troops to a unit in its middle casing 82.
After extracting key, taper compression spring 106 is sent relevant member back to home position.
Can change middle casing 82, need only the transverse holes 95 ' insertion of passing the shell 78 that feeds inner annular groove 95 with an instrument, and pin 94 is pushed back.
No matter disclosed feature of the present invention in above-mentioned explanation, accompanying drawing and claim is individual event or any combination, all can be significant for implementing the present invention.All disclosed features are important content of the present invention.In the disclosure of this application thereby under also having absorbed comprehensively/disclosure of appended priority document (copy of application documents formerly).
Claims (17)
1, a kind of by lock and many locking devices of forming with a phase-locked key of joining, wherein, can insert the locking coding that phase bitting in the key has the locking mechanism of the operated lock that differs from one another selectively, it is characterized in that: for the automatic manipulation alone of each locking encoding setting in the lock and only be tuned to wherein a kind of locking mechanism (14,15,45,46,61,62,84,85) of locking coding.
2, according to the described locking device of claim 1, the locking mechanism magnetic lock cotter (19) that it has magnetic code and is handled by magnetic code, when inserting adaptive key, locking mechanism is by the displacement operating contact maker, it is characterized in that, every key (8,9,49,53) only at part surface (F1, coding is arranged F2), its remainder surface (F1 ', F2 ') there is not the locking coding, and a gulde edge (40 arranged, 40 ', 50,50 '), it just forces locking mechanism (14 or 15,45 or 46) displacement, during this period with do not have the locking mechanism that locking coding local surfaces matches on the key and keep motionless.
3, according to the described locking device of claim 2, it is characterized in that: locking mechanism is designed to be equipped with the slide block arranged side by side (14,15,45,46) of magnetic lock cotter (19), be shaped on vacancy (41,42 or 51,54) on the key (8,9 or 49,53), be used to insert the engages stop (43,44 or 52,55) of this locking mechanism slide block, this slide block is what to be attached troops to a unit in the part surface that does not have locking coding on the key (F1 ' or F2 ').
4, according to the described locking device of claim 1, wherein, locking mechanism has a rotating lock core cylinder, it is equipped with the locking pin, the locking otch of the formation coding of key is classified the locking pin row as unlocked position, it is characterized in that: two lock core cylinder parts (61,62) that respectively constitute a locking mechanism are arranged, and they respectively are equipped with lock set cotter, after each half key adaptive with one (71 or 72) is neat with the locking pin row, can move on to one and driven member (58) bonding station.
5, according to the described locking device of above-mentioned each claim, it is characterized in that: two lock core cylinder parts (61,62) be designed to the semicylinder that engages one another along a longitudinal joint (L), is furnished with a lock set coremaking pin (64 or 65) on each semicylinder, for they are equipped with the phase distribution (66 or 67) of middle casing (60), these two semicylinders respectively have a vertical key guide groove (73 or 74) that separates, and can be by means of key (71,72) move on to respectively vertically and driven member (58) position engaged, wherein, middle casing (60) is contained in the shell (56) rotationally.
6, according to the described locking device of above-mentioned each claim, it is characterized in that: driven member (58) is bearing on the rear side end wall (57) of shell (56), and it has the non-circular cross section (59) that is used for projection (68, the 69) engagement of lock core cylinder part (61,62).
7, according to the described locking device of above-mentioned each claim, it is characterized in that: two lock core cylinder parts (84,85) be contained in continuously vertically in their set middle casings (82 or 83), a lock set coremaking pin (89 or 90) respectively is equipped with and, they and distribution mutually (the 91 or 92) co-operation of middle casing (82 or 83), wherein, lock core cylinder part (84,85) has vertical key guide groove (87 or 88) aligned with each other at different length key (93 or 114), can mobile lock core cylinder part by means of these keys, reach the purpose that is in the position of engagement with driven member (80), wherein, middle casing (82,83) be contained in rotationally in the shell (78).
8, according to the described locking device of above-mentioned each claim, it is characterized in that: there is a blade that extends radially (100) back of lock core cylinder part (84) key insertion end, be used for moving the transmission lath (101) of a middle casing that is attached thereto (83), and middle casing (83) is rotatably connected therewith, this transmission lath (101) stops in preceding a distance of radial system moving plate (103) of that lock core cylinder part (85) that is positioned at the inside, and this lock core part (85) stretches in the engagement cross section (113) of driven member (80) with a non-circular projection (112).
9, according to the described locking device of above-mentioned each claim, it is characterized in that: transmit lath (101) and be provided with a control boss (107), it and steady pin (108) co-operation of inner middle casing (83).
10, according to the described locking device of above-mentioned each claim, it is characterized in that: not only brake(-holder) block (103) but also inboard middle casing (83) inner end, the active force of the contrary connector engagement of the spring (106) that all is under pressure direction.
11, according to the described locking device of above-mentioned each claim, it is characterized in that: at least one locking mechanism can take out and pack into.
12, according to the described locking device of above-mentioned each claim, it is characterized in that: the middle casing (82) of inserting key one side is equipped with an outside pin (94) under spring action radially, it inserts in the inboard annular groove (95) of shell (78), wherein, shell (78) has a cross-drilled hole (95 ') that aligns with annular groove (95).
13, according to the described locking device of above-mentioned each claim, it is characterized in that: at least one locking mechanism (locking mechanism-slide block 45) has the code conversion device, and it is the magnetic pin support (47,48) that can move by means of the key motion in form.
14, a kind of key that is used for by the described locking device of claim 1, it is characterized in that: a gulde edge (40,40 ') that is used to handle the band vacancy of engages stop (43,44) is arranged, always only handle a locking mechanism slide block (43,44), wherein, vacancy (41,42) is with respect to the distance of gulde edge (40,40 ') retraction, and locking mechanism slide block (the 14 or 15) shift motion of handling with gulde edge is suitable.
15, according to the described key of claim 14, it is characterized in that: gulde edge (40,40 ') and vacancy (41,42) are arranged on the offset from center place.
16, according to the described key of above-mentioned each claim, it is characterized in that: be shaped on mark (flat key image) on one wide of key (8,9).
17, according to the described key of above-mentioned each claim, it is characterized in that: vacancy (41,42) is positioned at the part surface (F1 ', F2 ') of no locking coding and locates.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE4401833A DE4401833A1 (en) | 1994-01-22 | 1994-01-22 | Locking device consisting of a lock and several keys that match a lock |
DEP4401833.9 | 1994-01-22 |
Publications (1)
Publication Number | Publication Date |
---|---|
CN1138886A true CN1138886A (en) | 1996-12-25 |
Family
ID=6508467
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN95191298A Pending CN1138886A (en) | 1994-01-22 | 1995-01-21 | Locking system comprising a lock and several keys which fit one lock |
Country Status (8)
Country | Link |
---|---|
EP (1) | EP0740729A1 (en) |
JP (1) | JPH09511554A (en) |
CN (1) | CN1138886A (en) |
AU (1) | AU1575395A (en) |
CZ (1) | CZ209296A3 (en) |
DE (1) | DE4401833A1 (en) |
WO (1) | WO1995020087A1 (en) |
ZA (1) | ZA95514B (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106574466A (en) * | 2014-05-26 | 2017-04-19 | 费代里科·达尼诺 | Lock |
CN112412181A (en) * | 2020-11-18 | 2021-02-26 | 安徽信息工程学院 | Multi-key anti-theft door lock structure |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE19823699A1 (en) * | 1998-05-27 | 1999-12-02 | Winkhaus Fa August | Combination coded bearer as locking cylinder key |
Family Cites Families (14)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
DE286255C (en) * | ||||
GB191416454A (en) * | 1914-07-10 | 1915-06-24 | Kelita Wainwright Robinson | Improvements in and relating to Locks. |
US1888946A (en) * | 1928-07-14 | 1932-11-22 | Yale & Towne Mfg Co | Master-keyed lock |
US1845867A (en) * | 1929-12-13 | 1932-02-16 | Ellingson Elling | Master-key lock |
US2117515A (en) * | 1937-03-24 | 1938-05-17 | Sinner Emil | Lock |
DE1553358B2 (en) * | 1965-07-31 | 1970-07-16 | Huwil-Werke Hugo Willach & Söhne, 5224 Ruppichteroth | Rotary cylinder lock with solenoid operated tumblers |
BR8104814A (en) * | 1981-04-08 | 1983-03-01 | Noel Litvin | DRUM LOCK BILATERAL KEY |
FR2571772B1 (en) * | 1984-10-12 | 1988-01-29 | Antivols Simplex Sa | ANTI-INFRINGEMENT PISTON FLAT KEY LOCK |
US4627252A (en) * | 1985-11-14 | 1986-12-09 | Lo Chi Woei | Coded-card type lock device |
DE3742826A1 (en) * | 1987-08-22 | 1989-03-02 | Schulte Schlagbaum Ag | LOCKING SYSTEM COMPOSED BY LOCK AND SEVERAL KEYS |
WO1991002368A1 (en) * | 1989-08-10 | 1991-02-21 | Nobuyo Sakai | Magnetic card-type switch |
DE4001153A1 (en) * | 1990-01-17 | 1991-07-18 | Schulte Schlagbaum Ag | MAGNETIC CARD LOCK WITH KEY CARD |
SE465473B (en) * | 1990-01-26 | 1991-09-16 | Ferenc Moricz | RETURN SAEKRA LAST, SPECIFICALLY DRIVING CARS |
US5109685A (en) * | 1990-03-15 | 1992-05-05 | Pundra Industries Limited | Control key for extension adapter |
-
1994
- 1994-01-22 DE DE4401833A patent/DE4401833A1/en not_active Withdrawn
-
1995
- 1995-01-21 WO PCT/EP1995/000217 patent/WO1995020087A1/en not_active Application Discontinuation
- 1995-01-21 CN CN95191298A patent/CN1138886A/en active Pending
- 1995-01-21 AU AU15753/95A patent/AU1575395A/en not_active Abandoned
- 1995-01-21 EP EP95907578A patent/EP0740729A1/en not_active Withdrawn
- 1995-01-21 JP JP7519347A patent/JPH09511554A/en not_active Ceased
- 1995-01-21 CZ CZ962092A patent/CZ209296A3/en unknown
- 1995-01-23 ZA ZA95514A patent/ZA95514B/en unknown
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106574466A (en) * | 2014-05-26 | 2017-04-19 | 费代里科·达尼诺 | Lock |
CN112412181A (en) * | 2020-11-18 | 2021-02-26 | 安徽信息工程学院 | Multi-key anti-theft door lock structure |
Also Published As
Publication number | Publication date |
---|---|
WO1995020087A1 (en) | 1995-07-27 |
CZ209296A3 (en) | 1996-10-16 |
AU1575395A (en) | 1995-08-08 |
ZA95514B (en) | 1996-02-06 |
EP0740729A1 (en) | 1996-11-06 |
JPH09511554A (en) | 1997-11-18 |
DE4401833A1 (en) | 1995-07-27 |
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