WO1984003909A1

WO1984003909A1 - Lock device

Info

Publication number: WO1984003909A1
Application number: PCT/SE1984/000109
Authority: WO
Inventors: Emile Beudat; Stig Goete Tersaeus
Original assignee: Emile Beudat
Priority date: 1983-03-28
Filing date: 1984-03-27
Publication date: 1984-10-11
Also published as: SE8301728L; EP0169204B1; DE3472280D1; SE8301728D0; FI79589C; FI79589B; EP0169204A1; DK158960C; DK542084D0; FI851673A0; JPH0676743B2; FI851673L; JPS60500916A; DK158960B; SE445055B; US4633688A; DK542084A

Abstract

Lock device, including an electrically operable lock unit (2) having at least one lock bolt (15, 15'), which by means of electrical influence can be moved between two different locations of extension in relation to the lock unit (2). Said lock unit (2) is arranged displacable within a surrounding casing (1), together with a manually and by means of a key (5) operable lock mechanism (3). By influencing said lock mechanism (3), the electrically operable lock unit (2) can be moved between two from each other spaced positions of location in relation to the casing (1). In a first position, the lock unit (2) is arranged adjacent to an edge portion of the casing (1), and in this position, the lock bolt/lock bolts (15, 15') can be moved by electrical influence to/from a position of engagement with a co-acting and adjacent to the casing (1) located striking plate. By influencing the manually operable lock mechanism (3), the electrically operable lock unit (2) is moved to a second position, located at a greater distance from the co-acting striking plate in relation to the first position, and wherein said second position the lock bolt/lock (15, 15') can no longer engage with the striking plate.

Description

Lock device

The present invention relates to a lock device, intended to facilitate both electrical and manual operation.

When using electrically operable lock mechanisms, as used together with various types of electronic code locks, there is obviously also a need for such lock mechanisms which can be influenced manually, i.e. by means of associated key or handle. For fire safety reasons, manual operation is a necessary requirement, which prevents use of lock mechanisms being operable electrically only.

For example, with regard to entrance door lock installations of today, a conventional manually operable lock mechanism is arranged located enclosed within the entrance door, arranged to facilitate operation by means of a key from the outside of the door, and having a manually operable handle by the inside surface of the door. When installing an electronic lock device, having an externally located key pad by means of which a certain code sequence can be programmed for operation of the lock mechanism, an electrically operable device is attached to the inside surface of the door adjacent to the handle, mechanically connected to the shaft of said handle, whereby an opening movement of the lock mechanism can be achieved when correct code sequence is programmed. This solution has a number of disadvantages, since the electrically operable device is mounted externally on the inside surface of the door, and thus easily can be made subject to outside forces, with intention to prevent same from operating. Also from aesthetical point of view, such an externally mounted device is not desirable. There are also certain risks that the lock handle is jammed by means of fire or other outside forces, thus preventing or slowing down emergency exit.

The object of the present invention is to disclose a lock device, which meets existing requirements relating to safety in case of fire, and also safety against outside influence, thus completely overcoming the disadvantages related to previously utilized devices. The lock device according to the present invention is also mounted rapidly and easily, and facilitates simple and fast service, if service is required. An important feature is that the lock device is completely enclosed between the outside and inside surfaces of the door, and that it facilitates mounting within the space existing for mounting a conventional and key operated lock mechanism.

The lock mechanism according to the present invention is mainly characterised in that it includes an electrically operable lock unit, including one or a number of electrically operable lock bolts, which positions of extension in relation to the unit can be changed by electrical influence, and that said lock unit is arranged displacable n relation to a surrounding lock casing, which lock casing also includes a conventional manually operable lock mechanism, the electrically operable lock unit being arranged to take up a first position when the manually operable lock mechanism is uninfluenced, in which associated electrically operable lock bolt/lock bolts can engage, respectively disengage, associated striking plate, influence on the manually operable lock mechanism being arranged to displace the electrically operable lock unit into a second position within the surrounding lock casing, located at a greater distance from the striking plate, thereby moving the lock bolt(s) of the lock unit from a position of engagement with the striking plate.

An example of an embodiment of a lock device according to the present invention is more fully described below with reference to the accompanying drawings, in which:-

Fig. 1 is an exploded perspective view of a lock device according to the present invention, intended to illustrate an embodiment within the scope of the invention.

Fig. 2 is a cross-sectional view of a part of the embodiment of a lock device shown in Fig. 1.

Fig. 3 is a side view of the lock device shown in Fig. 1, showing same in locked position, i.e. when the lock device is not influenced manually or electrically.

Fig. 4 is a view corresponding to Fig. 3, showing the device influenced electrically only. Fig. 5 is a view corresponding to Fig. 3, showing the device influenced manually only.

With reference to Fig. 1, an example of an embodiment of a lock device according to the present invention is shown with included parts located separated from each other, Said embodiment comprises an external lock casing 1, an electrically operable lock unit, which as a complete unit is denominated 2, a conventional cylinder lock mechanism 3 with related surrounding housing 4, a key 5 for influencing the lock mechanism 3, and a manually operable handle 6, intended to be located adjacent to an internal door surface.

The shown embodiment is arranged to facilitate a manual opening movement from the outside or inside surface of a door, regardless whether or not the opposed side has been manipulated in such a way, that the handle 6, or the lock mechanism 3, has been jammed to prevent rotation.

The lock mechanism 3, operable by means of the key 5, is connected to a cog wheel 7, and an axle 8 extends from the handle 6, connected to a second cog wheel 9. Adjacent to the upper surface of the electrically operable lock unit 2, two racks 10, 10^' are arranged, one 10 being arranged to mesh with the first cog wheel 7 and the other 10^" being arranged to mesh with the second cog wheel. Each rack 10, 10^" is arranged with an abutment means 11, extending towards the electrically operable lock unit 2, located in a groove 12 extending in longitudinal direction of said unit 2.

The electrically operable lock unit 2 is also arranged at a side surface with a groove 13, open towards the front end surface, and intended to co-act with a stop means 14, in the shown embodiment arranged as a stop screw, attached to a side surface of the lock casing 1. Two electrically operable lock bolts 15, 15^" are also shown, which in Fig. 1 are arranged in a position extending from the lock unit 2, and in Fig. 2 are moved back to a position enclosed within the lock unit 2. The number of lock bolts 15, 15^" can obviously be varied from one only to desired number, and the shown number of lock bolts 15, 15^' should thus in no way be regarded as restrictive.

-BUREAU

_ OMPI Fig. 2 indicates an example of how the lock bolts 15, 15^" electrically can be moved between the positions shown in Fig. 1 and 2. An axle 16, having an external screw thread, is located in an intermediate position in relation to the lock bolts 15, 15^", surrounded by a nut 16, from which two pin-shaped members extend, arranged to join the nut 17 with the lock bolts 15, 15^". The direction of movement is obviously related to the direction of rotation imposed on the axle 16 by means of the motor.

A displacement movement can obviously also be achieved by means of other ways than utilization of an electric motor, e.g. by use of lock bolts 15, 15^" which are electromagnetically influenced to perform necessary displacement movements, but other previously known methods for causing linear displacement movements by electrical influence can obviously also be used.

When the parts shown in Fig. 1 are joined together, the electrically operable lock unit 2 is arranged enclosed within the lock casing 1, the front surface of the lock unit 2 preferably being arranged to coincide with the front surface of the lock casing 1. The stop screw 14, the front portion of which extends into the groove 13, prevents" the lock unit 2 from being displaced further outwardly from the lock casing 1, but facilitates a displacement movement of the complete lock unit 2 in direction towards the internal bottom surface of the lock casing 1. Between the lock unit 2 and said internal bottom surface within the lock casing 1, return springs 18, 18^" are arranged, which apply a force on the lock unit 2 directed towards the front surface of the lock casing 1.

The complete lock device is mounted in a door as a conventional and manually operable lock device, the only difference being an electrical connection to the electrically operable lock unit 2, which is connected to the member by means of which electrical influence is intended to be applied. By influencing said member, the lock bolts 15, 15^" can thus be moved from a position engaging with a striking plate, and also be moved back to said engaging position. This is more closely illustrated in Fig. 3 and 4, which figures illustrate the alternative positions of the lock bolts 15, 15^" when influenced electrically, and also the position of the electrically operable lock unit 2 in relation to the surrounding lock

, OMPI casing 1.

When the lock bolts 15, 15^' are arranged located in^' extended positions as shown in Fig. 3, opening can also be performed by manual operation, from the inside by means of the handle 6 and from the outside by means of associated key 5. A rotary movement of the handle 6 is transferred by the axle 8 to the cog wheel 9, which is connected to the rack 10^". The abutment means 11 of said rack 10^", which abuts the rear end portion of the groove 12, transfers the rotary movement of the handle 6 into a linear movement causing the complete lock unit 2 to move into a more adjacent position in relation to the internal bottom surface of the lock casing 1, and during said movement, the lock bolts 15, 15^" are obviously also moved a corresponding distance, whereby the lock bolts diengage from associated striking plate. The position taken up, with regard to the lock unit 2 and the lock bolts 15, 15^' extending from same enclosed within the lock casing 1, is shown in Fig. 5, facilitating an opening movement to be performed. During the movement described above, the rack 10^' connected to the cog wheel 9 moves the lock unit 2, whereas the second rack 10, connected to the cog wheel 7, can remain in the original position. However, if the last mentioned cog wheel 7 is rotated by means of a rotary movement transferred from the key 5, an opposite effect would be produced, i.e. the rack 10^' and associated cog wheel 9 are not influenced by a displacement movement of the lock unit 2, since the abutment means 11 can move within the groove 12 during.the movement of the lock unit 2.

The above described feature makes it thus possible to perform a manual opening movement from one side of the lock device, even when the manually operable means at the opposed side has been jammed to prevent rotary movement. Such a feature can be of significant importance when, for example, evacuating an apartment building and the outside and manually operable member has been jammed to prevent rotary movement.

The above disclosed feature can also be obtained in other ways, for example by arranging the. cog wheels 7, 9 freely rotatable in one rotary direction in relation to associated axles, but locked against rotation in the opposed rotary direction. Hereby can the cog wheels 7, 9 be arranged to mesh with a common rack 10, attached fixed in relation to the l ock unit 2.

It is obviously also possible to use one cog wheel only, arranged connected to a cylinder lock mechanism 3 as well as the axle 8 to which the handle is attached. Such a design obviously results in a lower manufacturing cost, and is acceptable for many applications.

In order to reduce frictional contact existing between contacting surfaces of the lock unit 2 and the surrounding lock casing, balls or similar are advantageously located at desired locations between the lock unit 2 and the lock casing 1. Such balls could for example be located in shallow blind holes taken up in the outside surface of the lock unit 2 directed towards the lock casing 1, and existing friction between the units can hereby be reduced to a minimum.

The above described lock device is well suited to be used as a conventional entrance lock device, i.e. a lock device which during a certain time period of the day can be opened by means of an externally located electric switch. In such an application, the electrically operated striking plates used today are no longer required, and the functional security, as well as the security against damage-caused by outside influence, will be considerably increased.

Furthermore, the shown and described embodiment is only intended to serve as an example of an embodiment within the scope of the inventive thought, and may thus be varied in a number of ways, while maintaining the important and characteristic features of the invention. The type of manually operable lock mechanism used can thus be varied further, as well as the design of included parts and their mechanical connection in relation to each other. Furthermore, cog wheel/rack must not necessarily be used to accomplish manual opening movement, but also other technical solutions can be applied for transforming the manual movement into a linear movement for the lock unit 2.

The features which can be regarded as particularly characteristic for the inventive thought are thus, that an electrically operable lock unit 2 is located enclosed within an outer lock casing 1, that said lock unit takes up a first position in relation to said lock casing 1 in which associated lock bolt(s) 15, 15^' can be brought into engagement with a striking plate or similar, and that an associated manually operable mechanism facilitates displacement of the lock unit-2 in relation to the lock casing 1 to a position in which the lock bolt/lock bolts 15, 15^' no longer engage with associated striking plate or similar means, even though the lock bolt/lock bolts 15, 15^' are maintained located in a position in relation to the lock unit 2 which normally constitutes the locking position.

The above disclosed features are a summary of the main and most important characteristic features on which the present invention is based.

Finally, it should also be mentioned, that the shape of the handle 6, as shown in Fig. 1, only is intended as a disclosure of a type which is more suitable for disabled persons than conventional handles, and thus intended to facilitate rapid and simple opening with a minimum of applied manual force. Also other and more conventional types of handles can obviously be used.

OMPI

Claims

1. Lock device, including an electrically operable lock unit (2) having at least one lock bolt (15, 15^') which by means of electrical influence can be moved between two d fferent position of extension in relation to the lock unit (2), c h a r a c t e r i s e d i n, that said lock unit (2) is arranged displacable in relation to a surrounding casing (1), arranged to be influenced by means of an adjacently located manually operable lock mechanism (3) to facilitate movement between two from each other spaced positions of location in relation to the casing (1), said electrically operable lock unit (2) in a first position being arranged, when influenced electrically, to facilitate displacement of the lock bolt/lock bolts (15, 15^") to/from a position of engagement with an associated striking plate, influencing the manually operable lock mechanism (3) being arranged to result in displacement of the electrically operable lock unit (2) to a second position located at a greater distance from the associated striking plate, in which second position the lock bolt/lock bolts (15, 15^") no longer engage with the striking plate.

2. Lock device according to claim 1, c h a r a c t e r s e d n, that the electrically operable lock unit (2) by means of a return spring means (18, 18") is pressed towards the first position, and that stop or abutment means (14) are arranged to act as a displacement restricting means for the displacement movement of the electrically operable lock unit (2) from the second towards the first position of location.

3. Lock device according to claim 2, c h a r a c te r i s e d i n, that at least one side surface of the electrically operable lock unit (2) is arranged with a groove (13) extending in the direction of travel for the lock unit (2), co-acting with a stop means (14) extending from the surrounding casing (1) into the groove, and that the length extension of said groove is corelated to the position of the stop means (14) in such a way, that said stop means (14) takes up contact against an end portion of the groove (13) when the first position of the electrically operable lock unit (2) is taken up.

4. Lock device according to any of claims l - 3, c h a r a c t e - r i s e d i n, that the electrically operable lock unit (2) is arranged to only facilitate displacement from the first position when the manually operable lock mechanism (3) is influenced, and that the electrically operable lock unit (2) otherwise is locked against a displacement movement from the first position.

5. Lock device according to any of claims 1 - 4, c h a r a c t e ¬ r i s e d i n, that the electrically operable unit (2) includes a rack means (10, 10^") extending in the direction of travel for the lock unit (2), and that said means (10, 10^") is arranged to co-act with a cog wheel (7), connected to the manually operable lock mechanism (3).

6. Lock device according to any of claims 1 - 4, c h a r a c t e ¬ r i s e d i n, that the electrically operable lock unit (2) is connected to the manually operable lock mechanism (3) by means of a mechanical transmission means (7, 10), arranged to transfer the movement of the manually operable lock mechanism (3) into a linear displacement movement for the electrically operable lock unit (2).

7. Lock device according to any of claims 1 - 6, c h a r a c t e ¬ r i s e d i n, that the electrically operable lock unit (2) includes at least one rack means (10, 10^") extending in the direction of travel for the lock unit (2), and that said means (10, 10^") is arranged to co-act with two of each other independent cog wheels (7, 9), a first cog wheel being arranged to cause a displacement movement for the electrically operable lock unit (2) when the manually operable lock mechanism (3) is influenced, the second being arranged connected to a manually operable handle (6), arranged located in an opposed side relationship to the casing (1) in relation to the manually operable lock mechanism (3).

8. Lock device according to claim 7, c h a r a c t e r i s e d i n, that the cog wheels (7, 9) are arranged freely rotatable in relation to the handle (6) and the manually operable lock mechanism (3) in one rotary direction, thereby being freely rotated by means of the rack means (10, 10^") during a displacement movement of the electrically operable lock unit (2) caused by only one of the cog wheels (7, 9) with thereto attached member (3, 6). 1G

9. Lock device according to any of claims 1 - 8, c h a r a c t e ¬ r i s e d i n, that the electrically operable lock unit (2) is of a type which substantially prevents associated lock bolt/lock bolts (15, 15^") to be moved by application of pressure in positions taken up, and in this respect at least with regard to a displacement movement from an extended position in relation to the lock unit (2).

10. Lock device according to claim 9, c h a r a c t e r i s e d i n, that the electrically operable lock unit (2) includes an electric motor, the rotary movement of which is being transformed into a linear movement for the lock bolt/lock bolts (15, 15^") of the lock unit (2) by means of a mechanical transmission gear, said transmission gear being arranged to prevent transformation of a linear movement, caused by pressure applied against the lock bolt/lock bolts (15, 15^"), into a rotary movement.