EP3733998A1 - Lock - Google Patents

Abstract

The invention relates to a lock comprising a lock case (2), a lock element (7) arranged in the lock case (2), the lock element (7) being movable relative to the lock case (2) parallel to a lock plane (8), and one in the lock case (2) arranged braking device (20) with a braking element (25) and an elastic restoring element (27), wherein the braking element (25) can be moved perpendicular to the lock plane (8) against a restoring force of the restoring element (27), and wherein the braking element ( 25) and the lock element (7) are arranged so that the lock element (7) runs against the braking element (25) during its movement and thereby moves the braking element (25) perpendicular to the lock plane (8) against the restoring force.

Description

The invention relates to a lock. The lock is designed in particular for installation in a door leaf. In a preferred embodiment it is a panic lock.

Locks considered here usually comprise a large number of movable lock elements in or on a lock case. These lock elements include, for example, the bolt or the latch, but also a large number of components within the lock case that contribute, for example, to moving and / or blocking the bolt or the latch. When these lock elements move in or on the lock case, undesirable noise can be generated.

It is the object of the present invention to provide a lock in which the development of noise, triggered by the movement of at least one lock element of the lock, is reduced as much as possible.

This problem is solved by the features of the independent claim. The dependent claims relate to advantageous embodiments of the invention.

Thus the task is solved by a lock. The lock includes a lock case. In particular, the lock case is composed of a lock plate and a lock cover. The Lock case does not necessarily have to be made of sheet metal, but can also be made of plastic or composite material, for example. Nonetheless, the common term "lock plate" is used. The lock plate in particular forms a rear wall and the multiple side walls of the lock case. The lock plate is locked via the lock cover, so that a lock case is created from the lock plate and lock cover.

At least one lock element is located in the lock case. The lock element can also be arranged only partially in the lock case and, if necessary, protrude from the lock case, for example a bolt or a latch. The lock element considered here is movable relative to the lock case and parallel to a lock plane.

The lock also included a braking device located in the lock case. The braking device in turn comprises a braking element and an elastic return element. The elastic return element, for example in the case of an embodiment to be described as an elastomer element, can also be an integral part of the braking element.

The braking element can be moved against the restoring force of the restoring element. The braking element is preferably movable perpendicular to the lock plane against the restoring force of the restoring element.

The braking element and the lock element are arranged in such a way that the lock element runs against the braking element when it moves. By running onto the braking element, the braking element can be moved against the restoring force. By running onto the braking element the braking element is preferably movable against the restoring force perpendicular to the lock plane.

In particular, the lock element runs into one of its end positions on the braking element when it moves. It may be that the lock element rests against the braking element in an end position.

During the braking process, the lock element presses the braking element against the restoring force. In particular, the braking element is pressed perpendicular to the lock plane. It is basically sufficient if at least one movement vector of the braking element is perpendicular to the lock plane. It is preferably provided that the larger motion vector is perpendicular to the lock plane.

During the braking process, the lock element moves the braking element in one direction. Due to the restoring force, a counterforce acts simultaneously on the lock element in the opposite direction. As a result, the lock element rubs against the braking element and / or against at least one further bearing or guide element of the lock element and is braked accordingly. The braking reduces noise that would arise when the lock element was moved into its end position. At the same time, the load on the lock element is reduced, since the lock element is not moved into its end position at full speed.

During the braking process, the lock element preferably moves the brake element in one direction perpendicular to the lock plane. Due to the restoring force, a counterforce also acts on the lock element at the same time, also perpendicular to the lock plane in the opposite direction.

The lock can comprise a locking element, in particular a bolt. The locking element can be displaceable along a locking element axis for locking a door. The locking element axis can run parallel to the lock plane.

In principle, the lock element described here can be a bolt or a latch of the lock.

In a preferred embodiment, however, it is provided that the lock comprises, in addition to the lock element, a bolt which, for locking the lock, is displaceable along a bolt axis parallel to the lock plane. In addition to the bolt, the lock preferably includes at least one latch. The lock plane is designed in particular so that it lies parallel to a connecting line from the bolt to the latch.

The lock plane is in particular parallel to the lock plate and the lock cover.

The lock can further comprise a nut. The nut usually has an opening, for example a square, for inserting a door handle or a panic bar. This opening in the nut is preferably perpendicular to the lock plane. Furthermore, the lock can preferably include an opening for inserting a lock cylinder. This opening for the lock cylinder is also preferably perpendicular to the lock plane.

The lock element described here is particularly preferably designed as a slide. It may be that the locking element, in particular the bolt, is activated by turning the nut by means of the slide is retractable. Alternatively or additionally, the locking element can be unlocked by turning the nut by means of the slide.

In a preferred embodiment, the lock is designed as a panic lock.

When the lock is designed as a "panic lock", a mechanism is provided within the lock case which enables the bolt to be drawn in by turning the nut, for example using a door handle. Accordingly, the lock element, here designed as a slide, is operatively connected to the bolt and the nut of the lock, so that the bolt can be retracted over the slide by turning the nut. The slide thus transfers a rotary movement of the nut into a translational movement of the bolt.

In particular, the lock element, designed as a slide, is guided to be linearly movable in the lock case.

It may be that the lock element, in particular the slide, can be moved into one of its end positions by a spring. The braking device preferably brakes the movement into the end position which is caused by the spring. It may be that a braking device according to the invention is missing in the other end position. Rather, the movement of the lock element into the other end position is braked by the spring. This avoids the development of noise.

The braking device preferably brakes the movement of the lock element in the direction of gravity when the lock is mounted. When moving in the direction of gravity without a braking device, increased noise development is to be expected. So it may be that the braking device is preferably on the the lower end position of the slide. The braking device can in particular be located on the side of the bolt facing away from the latch.

It may be that the braking device brakes the movement of the lock element, which causes the door to be locked. If the lock element is designed as a slide, the movement of the slide, which causes the bolt to move out of the lock case, is braked.

It may be that the braking device is designed to press the lock element against an inside of the lock case when it is opened. In particular, the inside of the lock case can be the inside of the lock cover.

It can be provided that the lock element, for example designed as a slide, is slidably guided on the inside of the lock case. In particular, the lock element is slidably guided on the inside of the lock cover. However, the lock element, in particular the slide, and / or the inside of the lock case is / are particularly preferably coated with a lubricating varnish for this purpose. The braking device is preferably designed to press the lock element against the inside when it opens. The lock element is braked here by the increased friction, triggered by the restoring force of the restoring element, between the lock element and the inside.

Alternatively, it can be the case that the lock element is guided at a distance from the inside of the lock case. It is conceivable that the braking device does not press the lock element until it hits the inside of the lock case.

Furthermore, it is preferably provided that the braking element and / or an approaching area of the lock element has / have a surface inclined to the lock plane. The "approaching area" of the lock element is that area of the lock element which comes into contact with the braking element during the braking process. The run-up is made possible by the at least one inclined surface.

According to a preferred embodiment, the restoring element of the braking device is a spring, in particular a spiral spring. This spring is compressed when it runs up. The braking element moves in particular perpendicular to the lock plane against the restoring force. At the same time, the compressed spring exerts an opposing force on the lock element via the brake element, in particular also perpendicular to the lock plane.

Furthermore, it can alternatively be provided that the restoring element is designed as an elastomer element. Such an element made of elastomeric material can also be correspondingly elastically deformed and thereby apply the restoring force.

It is also possible that the elastomer element is an integral part of the braking element. The lock element directly contacts the elastomer element or a hard layer applied to the elastomer element. In both cases, elastic deformation of the elastomer element and the corresponding restoring force occur directly.

Furthermore, the restoring element can also be formed from a combination of a spring and an elastomer element. The elastomer element can be located inside the spring or outside the spring, for example.

In a preferred embodiment it is provided that the restoring force of the restoring element is adjustable. The setting is made by means of a setting means. The adjusting means can be designed as an adjusting screw. When the restoring element is designed as a spring, the compression of the spring can be adjusted via such an adjusting means, in particular via such an adjusting screw. In particular, it is provided that the spring rests against the adjusting screw.

In a preferred embodiment it is provided that the adjusting means, in particular the adjusting screw, is positioned so that it is accessible from outside the lock case. For example, the adjusting means, in particular the adjusting screw, protrudes into a hole in the lock case or is accessible through such a hole in the lock case.

In a further preferred embodiment it is provided that the braking device comprises a braking arm. In particular, the brake element comprises the brake arm. The brake arm is designed to be pivotable. The brake arm is in particular pivotable about an axis of rotation. A corresponding shaft, which is fixedly mounted on a brake housing, can be provided on the axis of rotation.

The brake arm can be formed in one piece and / or made of the same material with the rest of the brake element.

Furthermore, it is also possible for the braking element, in particular designed as a rocker, to roll by means of a curved surface; a shaft does not necessarily have to be present on the axis of rotation.

It may be that the braking element, in particular the braking arm, encompasses the inclined surface. The inclined surface can be inclined in such a way that the lock element slides along the surface.

It is conceivable that the brake arm can be pivoted in such a way that a tip of the brake arm is pivoted when the lock element hits the brake arm. In particular, the tip of the brake arm is pivoted away from the lock element. As a result of the pivoting, it can happen that the braking force on the lock element increases continuously when it is opened.

The inclined surface can include a curve. The rounding can flatten in a braking direction of the lock element. This makes it possible for the lock element to slide further along the inclined surface despite the pivoting of the brake arm. In particular, there is no tilting. The rounding can be formed by means of several radii running into one another.

The axis of rotation is preferably parallel to the lock plane.

The braking element is preferably designed as a rocker. This rocker is characterized in that it extends on both sides of the axis of rotation. The brake arm is located on one side of the axis of rotation, the restoring element engages the rocker on the other side of the axis of rotation. As already described, the rocker can be mounted on the axis of rotation via a shaft. Alternatively, it is also possible for the rocker to roll on a support through a curved outer surface.

Furthermore, it is preferably provided that the braking device comprises a brake housing. In the brake housing or on the Brake housing are arranged at least the braking element and the restoring element.

In a preferred embodiment, the braking element, in particular designed as a rocker, is located in or on the brake housing. In particular, the brake housing is an independent component that is connected to the lock case, in particular is detachably connected in a trouble-free manner. The brake housing is preferably screwed to the lock case.

The restoring element, in particular designed as a spring, is preferably located in a cavity of the brake housing. The restoring element is preferably supported with one side against the braking element, preferably designed as a rocker. In particular, the adjustment means is at least partially received in the brake housing. The adjusting means, designed as an adjusting screw, is preferably received in a thread of the brake housing. In particular, the restoring element, in particular the spring, is supported against one end of the adjusting means, in particular the adjusting screw.

Furthermore, it is preferably provided that the brake housing comprises an eye which, for positioning the brake housing, is placed on a guide pin fixed to the lock case. The eye can be placed directly on the guide pin or on a further element, for example a bearing, which in turn is placed on the guide pin.

In particular, the lock has the bolt described. The bolt is preferably guided in a linearly movable manner on the guide pin. The eye of the brake housing is preferably also located on the same guide pin.

The brake housing can be formed from an electrically insulating material. In particular, the brake housing can be arranged between a plate and the lock case. This allows the brake housing to act as electrical insulation.

The lock can comprise a stop for limiting the movement of the lock element. The stop can be arranged outside the inclined surface. This avoids an abrupt end to the movement of the lock element on the braking device. The stop is preferably arranged outside the braking element. The stop is particularly preferably arranged outside the braking device. For example, the lock element can comprise an elongated hole. A pin or a roller can be arranged in the elongated hole. The pin or roller can serve as a stop. For example, the elongated hole can be designed as a backdrop for moving the locking element, in particular the bolt. The locking element, in particular the bolt, can comprise the pin or the roller and thus the stop.

Figur 1

eine schematische Ansicht eines erfindungsgemäßen Schlosses gemäß einem Ausführungsbeispiel,

Figur 2

Details des erfindungsgemäßen Schlosses gemäß dem Ausführungsbeispiel,

Figur 3

Details des erfindungsgemäßen Schlosses gemäß dem Ausführungsbeispiel, mit ausgeblendetem Schlosselement (Schieber),

Figur 4

eine Bremsvorrichtung des erfindungsgemäßen Schlosses gemäß dem Ausführungsbeispiel, und

Figur 5

die Bremsvorrichtung aus Figur. 4, mit ausgeblendetem Bremsgehäuse.

The invention will now be described in more detail using an exemplary embodiment. Show:

Figure 1

a schematic view of a lock according to the invention according to an embodiment,

Figure 2

Details of the lock according to the invention according to the embodiment,

Figure 3

Details of the lock according to the invention according to the embodiment, with hidden lock element (slide),

Figure 4

a braking device of the lock according to the invention according to the embodiment, and

Figure 5

the braking device off Figure. 4th , with hidden brake housing.

In the following, the Figures 1 to 5 an embodiment of a lock 1 is described in detail. The lock 1 is designed as a mortise lock with a panic function (as a panic lock).

Unless otherwise stated, the following always applies to all Figures 1 to 5 Referenced.

The lock 1 comprises a lock case 2. The lock case 2 forms the housing of the lock 1 and is used to hold or store the individual components. The lock case 2 comprises a lock plate 3 and a lock cover. The lock cover closes the lock plate 3. In the figures, the lock cover is hidden so that the inner structure of the lock 1 can be seen.

Furthermore, the lock 1 comprises a socket 4 with corresponding socket arms and an opening, here designed as a square, for inserting a handle. A latch 5 and a bolt 6 protrude from the lock 1. For the sake of clarity, not all components of the lock 1 are shown in the figures. In particular, further mechanical and / or electronic elements can be arranged in the lock 1 in order to carry out movements within the lock 1.

The lock 1 further comprises a lock element 7, here designed as a slide. The lock element 7 is operatively connected to both the nut 4 and the bolt 6. In the position shown after Fig. 1 the lock element 7 can be lifted by means of the nut 4, whereby the bolt 6 retracts. In particular because of this design of the lock element 7 as a slide, the lock 1 fulfills a panic function.

The bolt 6 is guided on a guide pin 10 so that it can move linearly along a bolt axis 9.

A lock level 8 is defined on lock 1. This lock plane 8 is parallel to the rear wall, formed by the lock plate 3 or parallel to the lock cover, not shown. Furthermore, the lock plane 8 is parallel to the bolt axis 9 and perpendicular to the opening in the follower 4. The lock element 7 is linearly movable in this lock plane 8.

Figure 1 shows the lock 1 with the lock element 7. Figure 2 shows a detailed representation, the lock plate 3 being hidden. In Figure 3 the lock element 7 is also hidden. In particular, based on the Figures 2 and 3 it can be seen that the lock 1 comprises a braking device 20. Show in detail Figures 4 and 5 this braking device 20.

The brake device 20 comprises a brake housing 21. The brake housing 21 in turn comprises an eye 22. This eye 22 is located on the guide pin 10 on which the bolt 6 is guided in a linearly movable manner. The brake housing 21 is positioned inside the lock case 2 via this eye 22 and via the guide pin 10. About that In addition, the brake housing 21 is connected to the lock case 2 via two screw connections 23.

In Figure 5 the brake housing 21 is hidden. Like the synopsis in particular Figures 4 and 5 shows, the braking device 20 comprises a braking element 24 within the brake housing 21. The braking element 24 is designed here as a rocker. The braking element 24 is rotatable or pivotable about an axis of rotation 26 relative to the brake housing 21. As a result of the design as a rocker, part of the braking element 24 is located on one side of the axis of rotation 26 and another part is on the opposite side of the axis of rotation 26.

The axis of rotation 26 does not necessarily have to be formed by a corresponding shaft. So it is also sufficient if a curved portion of the brake element 24 rolls against the brake housing 21. Generally speaking, it is therefore an imaginary axis of rotation 26.

On one side of the axis of rotation 26, there is a brake arm 25 on the braking element 24. On the other side of the axis of rotation 26, a restoring element 27 acts on the braking element 24.

The brake arm 25 has an inclined surface 29. The lock element 7 runs onto the brake arm 25 as it moves. As a result, the brake arm 25 is moved at least with a movement vector perpendicular to the lock plane 8. In this case, the movement takes place in the direction of the lock plate 3. At the same time, the other side of the braking element 24 moves with at least one movement vector also perpendicular to the lock plane 8, but in the opposite direction; in this case in the direction of the castle ceiling. The restoring element 27, here designed as a spiral spring, is compressed. A restoring force acts on the braking element 24 through the restoring element 27. This restoring force pushes the lock element 7 in the direction of the lock cover. The lock element 7 is pressed against the lock cover by the movement. This results in the braking.

During braking, the lock element 7 slides further along the inclined surface 29.

The inclined surface 29 is rounded. The rounding is formed by several radii running into one another. As a result, the lock element 7 initially runs flat onto the inclined surface. The lock element 7 is pressed against the lock cover without tilting due to the pivoting of the brake arm 25 and the decreasing curvature.

It may be that the lock element 7, namely the slide, is slidably guided on the lock cover. The lock element 7 is pressed against this guide surface by the restoring force, as a result of which the braking takes place.

Figures 4 and 5 show that an adjusting screw 28, here designed as a grub screw, is arranged in the brake housing 21. The restoring element 27 is supported against the adjusting screw 28. As a result, the restoring force can be adjusted by means of the adjusting screw 28. In the lock case 2, in the example shown in the lock cover, there is a hole at the position of the adjusting screw 28, so that the adjusting screw 28 is accessible from the outside.

The brake housing 21 is formed from an electrically insulating material. The brake housing 21 between a not shown Circuit board and the lock case 2 arranged, whereby the brake housing 21 acts as electrical insulation.

The lock 1 comprises a stop 30 for limiting the movement of the lock element 7. The bolt 6 comprises the stop 30. The stop 30 is guided in an elongated hole 31 of the lock element 7. The elongated hole 31 serves as a backdrop for moving the bolt 6. If the lock element 7 moves downwards, the bolt 6 is moved out of the lock case 2, in that the stop 30 is guided in the elongated hole 31. The stop 30 is designed as a pin or a roller. Because the stop 30 is provided outside of the braking device 20, the movement of the lock element 7 outside of the braking device 20 is limited, so that particularly gentle braking is possible.

The braking device 20 brakes the movement of the lock element 7 into the lower end position, which is shown in FIG Figure 1 is shown. The lock element 7 is moved into the lower end position by the force of a spring 32 (see Fig. Figure 1 ). In contrast, an upper end position of the lock element 7 is achieved by rotating the nut 4 against the force of the spring 32. In the lower end position of the lock element 7, the bolt 6 is extended.

In the context of the exemplary embodiment, the braking device 20 for braking the slide was explained in more detail. However, this braking device 20 in the lock case 2 can also be used for any other movable component. The component to be braked does not necessarily have to execute a linear movement, but can also execute a rotating or pivoting movement in the lock case 2.

List of reference symbols

1

lock

2

Lock case

3

Lock plate

4th

nut

5

Cases

6th

bars

7th

Lock element, especially slide

8th

Castle level

9

Latch axis

10

Guide mandrel

20th

Braking device

21st

Brake housing

22nd

eye

23

Screw connection

24

Brake arm, especially rocker

25th

Braking element

26th

Axis of rotation

27

Reset element

28

Adjusting screw

29

inclined surface

30th

attack

31

Elongated hole, backdrop

32

feather

Claims (15)

Castle comprehensive • a lock case (2), • a lock element (7) arranged in the lock case (2), the lock element (7) being movable relative to the lock case (2) parallel to a lock plane (8), and • a braking device (20) arranged in the lock case (2) with a braking element (24) and an elastic return element (27), • wherein the braking element (24) can be moved in particular perpendicular to the lock plane (8) against a restoring force of the restoring element (27), and • wherein the braking element (24) and the lock element (7) are arranged in such a way that the lock element (7) hits the braking element (25) during its movement and thereby the braking element (24) in particular perpendicular to the lock plane (8) against the restoring force emotional. Lock according to claim 1, wherein the lock element (7) is designed as a slide, the slide being operatively connected to a locking element (6) and a nut (4) of the lock (1), in particular so that the locking element is activated by turning the nut (4) (6) can be retracted and / or unlocked via the slide, in particular a movement of the slide (7) caused by a spring (32) being braked by the braking device (20). Lock (1) according to one of the preceding claims, the braking device (20) is designed to press the lock element (7) against an inside of the lock case when it is opened. Lock (1) according to one of the preceding claims, wherein the braking element (24) and / or an approaching region of the lock element (7) has / have a surface (29) inclined to the lock plane (8). Lock (1) according to one of the preceding claims, wherein the restoring force of the restoring element (27) is adjustable; in particular by means of an adjusting means accessible from outside the lock case (2), in particular an adjusting screw (28). Lock (1) according to one of the preceding claims, wherein the braking device (20) comprises a pivotable brake arm (25), wherein in particular the braking element (24) comprises the brake arm (25). Lock (1) according to one of the preceding claims, wherein the braking element (24), in particular the brake arm (25), has the surface (29), the surface (29) being inclined such that the lock element (7) on the surface (29) slides along. Lock (1) according to one of the preceding claims, characterized in that the brake arm (25) is pivotable such that a tip of the brake arm (25) is pivoted when the lock element (7) hits the brake arm (25). Lock (1) according to one of the preceding claims, wherein the surface (29) comprises a rounding, wherein the rounding is flattened in a braking direction of the lock element (7), in particular that the rounding is formed by means of several radii running into one another. Lock (1) according to one of the preceding claims, wherein the braking element (24) is designed as a rocker, the braking arm (25) being on one side of an axis of rotation (26) of the braking element (24) and the restoring element (27) engages on the other side of the axis of rotation (26). Lock (1) according to one of the preceding claims, wherein the braking device (20) comprises a brake housing (21) in and / or on which the braking element (24) and the restoring element (27) are arranged, the brake housing (21) with the lock case (2) is connected, preferably screwed. Lock (1) according to claim 11, wherein the brake housing (21) comprises an eye (22) which, for positioning the brake housing (21), is placed on a guide pin (10) fixed to the lock case. Lock (1) according to claim 12, wherein a bolt (6) of the lock (1) is guided in a linearly movable manner on the guide pin (10). Lock (1) according to one of the preceding claims, wherein the brake housing (21) is formed from an electrically insulating material, wherein in particular the brake housing (21) is arranged between a plate and the lock case (2). Lock (1) according to one of the preceding claims, wherein the lock (1) comprises a stop (30) for limiting the movement of the lock element (7), the stop (30) outside the inclined surface (29), preferably outside the braking element (24), particularly preferably outside the braking device (20), is arranged.

Images