Field of Invention

The present invention relates to a lock arrangement of th kind which, expressed in general terms, includes a key- operated cylinder lock, which is mounted on one side of a lock housing, and a knob mechanism, which is mounted on the other side of the lock housing and by means of which a lock actuating member, such as a cylinder follower, can be manipulated through the intermediary of a dogging element.

Many different lock arrangements of this general kind are known to the art.

The invention relates particularly, but not exclusively, to locks of this kind which are intended preferably for use in hotels and like establishments, in which, in many instances, it is desirous to be able to manipulate the lock from outside the door to which the lock is fitted, with the aid of a standard pass key or guest key, and to be able to manipulate the lock from inside the door with the aid of the knob mechanism. It is also often required of such locks that when the door is locked from the inside by means of the knob mechanism, the door cannot be un¬ locked from the outside with the pass- key or guest key. It is desirous, on the other hand, that such locks can be opened at all times with the aid of a special or so-called management key, even when the door has been locked from the inside by means of the knob mechanism.

The actual locking function of such locks will sometimes differ, although not significantly, depending upon the country from which the lock arrangement originates.

For example, the lock may sometimes include a handle- operated latch bolt and a dead bolt which is manipulated by the cylinder lock and the dead bolt mechanism.

In some cases no separate dead bolt is included in the lock, and instead the latch or catch bolt serves to lock the door automatically as the door is closed. Locks are also known with which the lock mechanism is manipulated with the aid of a key from the outside or from the inside with the aid of the knob or by further rotation of the handle.

Other types of locks having further modified locking functions are also known to the art.

Certain types of locks also include indicator means, e.g. a pin, which will indicate from outside the door whether or not the door is locked, i.e. whether the door has been locked from the outside with a key or from the inside by means of the knob.

Background Prior Art

Examples of known locks of the aforesaid kind are de¬ scribed and illustrated in CH-A-650 054 (Berchtold), US-A-4 068 510 (Nearyl), US-A-1 639 535 (Russo), US-A-1 116 929 (Schoell) and FR-A-2 177 148 (Vachette).

None of these known lock arrangements or mechanisms, however, are constructed to prevent, with simple means, the lock from being opened with a standard key or guest key from the outside when the lock has been secured from the inside with the aid of a knob mechanism, while at the same time enabling the lock to be released from the out¬ side with a special or management key.

Object of the Invention

A prime object of the invention is to provide a simple lock arranement which will remove the aforesaid deficiency of known locks of this kind and which can be adapted readily to the many different types of lock systems and lock arrangements available on the market and where the type of lock system used is often related to that partic¬ ular country or that particular part of the world in which the lock is used and to the lock traditions or "security philosophies" which prevail in the country concerned.

Another object is to provide a lock arrangement of the aforesaid kind with which a standard key can be converted, with the aid of simple means, to a special key or manage- ment key, and which is not encumbered with those drawbacks encountered with conventional master key systems, where possession of such a key by an unauthorized person would enable such a person to open all locks belonging to the system.

Summary of the Invention

These and other objects are fulfilled by a lock arrange¬ ment according to the invention, which is characterized essentially in that the cylinder-lock dogging element and the knob dogging element are axially movable and are mutually in end-to-end contact in at least given positions of axial movement and in that the knob dogging element is intended, in dependence on the position to which it is rotated, these positions corresponding to the respective positions of the lock mechanism in its unlocking and locking modes, either to be located in a withdrawn posi¬ tion or to be located in a forwardly extended, axially locked position in which the cylinder-lock dogging element prevents full insertion of a standard key into the cylin- der lock.

Thus, in accordance with the invention direct contact is established between the axially movable knob dogging element and the axially movable cylinder-lock dogging element, and the knob dogging element is enabled to take an axially immovable position in which it cannot be dis¬ placed axially by a standard key inserted into the cylin¬ der lock, thereby preventing the standard key from being inserted fully into the lock and therewith preventing the cylinder plug from being turned by said key.

In other words this means that when the lock mechanism is brought to its locking mode with the aid of the knob on the inside of the door, the lock cannot be opened from the outside with a standard key. The same applies when the lock mechanism is brought to its locking mode from the outside with the aid of a special key or management key, since this key will also cause the knob dogging element to take the aforesaid axially immovable position and therewith render the full insertion of a standard key into the lock impossible.

A special key, or management key, which has a particularly configured end, can be inserted fully into the lock, how¬ ever, in order to release or to secure the lock. This may involve rotating the knob dogging element via the lock actuating member, e.g. the follower, so that the knob dogging element is moved from its axially immovable posi¬ tion.

A preferred embodiment of the inventive lock is character¬ ized in that an assembly comprising a fixed plate, a thrust plate and a spring located therebetween is mounted on the lock housing; in that the knob dogging element presents projections which are located on both sides of said assembly; in that the outer surface of the fixed

plate presents a guide means, e.g. a bead, against which an edge part of one projection engages when the knob dog¬ ging element is turned to a position which corresponds to the locking mode of the lock, wherewith the projection bearing on the inner surface of the thrust plate urges the thrust plate outwards and the knob dogging element is dis¬ placed forwardly to its axially immovable position.

The aforesaid guide means, e.g. the bead, functions in the manner of a camming surface, such that when the knob dog¬ ging element is turned, the dogging-element projection will ride on the bead and therewith displace the knob dog¬ ging element forwardly, so that the dogging-element pro¬ jection located on the inside of the aforesaid assembly engages the thrust plate and displaces the plate against the action of the spring lying between the two plates.

The thrust plate may be connected to an indicating device, such as a pin, which passes through a cut-out in the fixed plate and through the cylinder lock housing, and which is effective in indicating that the lock has been locked.

It is preferred in practice that the knob dogging element is provided with one or more projections in spaced rela- tionship with the fixed plate, such that the projection or projections will pass out of contact with the guide or camming means, e.g. the bead when the knob dogging element is turned.

According to one advantageous embodiment the projections provided on the end of the knob dogging element are con¬ figured to form a cross of suitable shape for engagement with the lock actuating member, e.g. the follower. The knob dogging element is also conventionally provided in- wardly of the thrust plate with two projections which lie

in the plane of the dogging element. Whether the end of the knob dogging element is given cruciform configuration or is configured with a single projection depends on the type of lock concerned. In the case of lock mechanisms with which the knob or the cylinder lock key must be turned through a complete revolution in order to move the bolt to its locking position, it is normally sufficient to use a projection configuration which falls in the plane of the knob dogging element.

In other types of locks which require the knob or key to be turned through only 180 or 90 , it has been found suf¬ ficient in normal cases to provide the knob dogging ele¬ ment with projections which have a cruciform configuration.

These and other characteristic features of the invention will be made more apparent in the following description, which is made with reference to a number of preferred embodiments of the invention and with reference to the accompanying drawings, in which

Figure 1 is a perspective,exploded view of the lock compo¬ nents forming part of a lock arrangement according to the invention;

Figure 2 is a perspective view of a fixed plate and thrust plate assembly which incorporates a cruciform projection arrangement;

Figure 3 illustrates a knob dogging element which is pro¬ vided with projections that lie in the plane of said ele¬ ment;

Figure 4 is a side view of the assembly illustrated in Figure 2;

Figure 5 illustrates schematically in full lines, and in side view, the end of a special key, or management key, intended for a lock constructed in accordance with the invention, and in chain lines the corresponding end of a standard key or guest key; and

Figures 6 to 8 are cross-sectional views which illustrate the functioning of a lock arrangement constructed in accordance with the invention, wherein

Figure 6 illustrates the lock arrangement with a standard key or guest key inserted in the lock and with the knob mechanism in a position which corresponds to the unlocked mode of the arrangement;

Figure 7 illustrates the functioning state of the lock arrangement of Figure 6 subsequent to rotating the knob to a position corresponding to the locked mode of the ar¬ rangement; and

Figure 8 illustrates the functioning of the lock arrange¬ ment in the state shown in Figure 7, but with the standard or guest key replaced with a special key or management key.

Description of Preferred Embodiments

The exploded view of Figure 1 illustrates the component parts of an inventive lock arrangement. These components are: a key 1, a cylinder fitting or cylinder cap 2, a cylinder lock 3 having a dogging element 4, a lock casing or housing 5 which incorporates a follower 6 forming part of the lock mechanism, a fixed plate and thrust plate assembly 7, a knob dogging element 8 attached to the assembly 7, a knob fitting or plate 9, and a knob or finger turn 10.

The lock casing is shown fitted into a cavity in a door 11 and is provided with a face plate 12. The latch bolt 13 of the lock mechanism is manipulated with the aid of a door handle 14, while the dead bolt 15 of said lock mechanism is manipulated by means of the cylinder lock 3 and the knob or finger-turn mechanism 7-10, via the respective dogging elements 4 and 8.

The respective dogging elements 4 and 8 of the cylinder lock and the knob mechanism are both movable in an axial direction and, when the lock is assembled, are in end-to- end connection with one another. Furthermore, the knob dogging element 8 is intended to be located either in a withdrawn position or in an outwardly displaced position in which it is held against axial movement, depending upon the rotational position of the dogging element, which in turn depends upon whether the lock mechanism is in its unlocked or locked mode.

Figures 2 and 4 illustrate an assembly 7 which comprises a fixed plate 18, which is intended to be attached firmly to the lock casing, and a thrust plate 19 which is movable axially in relation to the fixed plate 18 against the action of an intermediate leaf spring 20. The knob dog- ging element 8 extends through circular holes in the fixed plate 18 and the thrust plate 19 and has mounted on its outwardly directed end either a plurality of projections which lie in the plane of said element - c.f. Figure 3, or a plurality of projections which in addition to those projections 8a, 8b, 8c which lie in the plane of the dog¬ ging element also include a plurality of projections 8d, 8e, 8f which lie in a plane that extends perpendicularly to the plane of said dogging element, therewith to form a projecting cruciform 8a-8f as illustrated in Figures 2 and 4.

As will be seen particularly from Figure 4, the knob dog¬ ging element, or driver 8, has two further projections 8g and 8h, which abut the inwardly facing surface of the thrust plate 19 and which lie in the plane of said dogging element, such as to move the thrust plate 19 axially during outward axial movement of the knob dogging element 8.

As will also best be seen from Figure 4, the projection 8a is arranged to co-act with a curved, raised surface or bead 18a located on the fixed plate 18, such that when the knob dogging element 8 is rotated, the projection 8a will ride on the bead 18a and therewith axially displace the thrust plate 19. The thrust plate 19 of the illustrated embodiment has mounted thereon a rod-shaped holder 21 which carries an indicating pin 22, and a stop pin 23.

Figure 5 illustrates in full lines the configuration of one end of a special key or management key 1 having an especially configured tip la, and in chain lines 16 the configuration of one end of a corresponding standard key or guest key.

Figures 6-8 illustrates the lock arrangement when as- sembled. As in the embodiment shown in Figures 2 and 4, the end of the knob dogging element, or driver 8 presents projections 8a-8f in the form of a cross.

Figure 6 shows a standard key 1 inserted into the cylinder lock 3. The lock mechanism housed in the lock casing 5 is in the unlocked mode and the knob or finger-turn 10 is correspondingly in a horizontal position. The thrust plate 19 is spaced axially from the fixed plate 18 and the indicating pin 22 indicates that the lock arrangement is in its unlocked mode. The end of the knob dogging element

carrying the projections is in contact with the axially movable cylinder dogging element 4 incorporated in the plug or barrel 3a of the cylinder lock and abuts the end of the standard or guest key 1.

Figure 7 illustrates the position of the lock components subsequent to turning the knob 10 through 90 . The projection 8a has therewith displaced the dogging element - 8 outwards in co-action with the bead 18a, while bringing the projections 8g, 8h into engagement with the thrust plate 19 and moving the plate outwards into firm abutment with the fixed plate 18.

As a result of its engagement with the outer end of the knob dogging element 8, the cylinder-lock dogging element 4 is displaced axially outwards through a distance of about 2 mm, therewith also displacing the key 1. The plug 3a of the cylinder lock 3 cannot then be turned with the key 1.

As will be understood, since the knob dogging element 8 in this state of the lock arrangement is held against axial movement, the lock cannot be opened with a standard key 1.

Figure 8 illustrates the use of a special key or manage¬ ment key 1 which has a particularly configured end la which enables- the key to be inserted in the cylinder lock and turn the plug 3a. The rotational movement effected by the follower (not shown) of the lock mechanism in the casing 5 when the management key is turned will result in rotation of the knob dogging element 8 and the knob or finger-turn 10.

The Figures 7 and 8 show the indicating pin 22 in a posi- tion in which it indicates that the lock arrangement is in

its locking mode.

When the knob 10 is turned back to the position shown in Figure 6, in which the projection 8a no longer rides on the bead 18a, the knob dogging element 8 is moved back to the Figure 6 position by the spring 20 located between the fixed plate 18 and the thrust plate 19, thereby en¬ abling the cylinder-lock dogging element 4 to be manipu¬ lated with a standard key 1, which can be inserted into the lock and into contact with the outer end of the knob dogging element.

Industrial Application

It will be understood from the aforegoing that the inven- tion can be applied to many different types of lock con¬ struction, such as to prevent a lock from being opened with a standard key or guest key when a door has been locked from the inside with the aid of the knob or the finger-turn, or from the outside with the aid of a special key or management key, and such as to enable the door to be unlocked from the outside with the aid of said special key or management key.

The inventive lock mechanism can be swiftly unlocked from the inside under all circumstances, for instance if the need arises to vacate the room quickly, e.g. in the event of fire.

The above description also teaches the provision of a management key for the inventive lock _^ arrangement.