Information
-
Patent Grant
-
6419287
-
Patent Number
6,419,287
-
Date Filed
Friday, March 17, 200024 years ago
-
Date Issued
Tuesday, July 16, 200222 years ago
-
Inventors
-
Original Assignees
-
Examiners
Agents
- Pauley Petersen Kinne & Erickson
-
CPC
-
US Classifications
Field of Search
US
- 312 3486
- 312 322
- 312 323
- 016 444
- 016 446
- 016 412
- 292 221
- 292 227
- 292 53
- 292 56
- 292 3363
-
International Classifications
-
-
Disclaimer
Terminal disclaimer
Abstract
A fastening mechanism for a cover, door or the like, hinged on a body, frame or the like, wherein a locking element is fixedly attached to the body, frame or the like. The cover, door or the like supports an actuating element. The actuating element controls a locking mechanism, which can be disengaged from the locking element during opening and engaged with the locking element during closing. The operation of the fastening mechanism is simplified and an assured locking in the closed position is achieved because the locking element is embodied as a locking bolt on the body, frame and the like, in particular for furniture. The actuating element is adjustable relative to the cover, door or the like and controls a locking mechanism, on the inside, which includes a locking lever and a rotatably seated locking claw. The locking claw is held in a receiving position for the insertion of the locking bolt in the open position of the fastening mechanism. The locking claw extends behind the locking bolt in the closed position, and the locking lever, which is displaced by the actuating element and is spring-loaded, locks the locking claw in the closed position.
Description
FIELD OF THE INVENTION
This invention relates to a fastening mechanism for a cover, door or the like, hinged on a body, frame or the like, wherein a locking element is fixedly attached to the body, frame or the like, the cover, door or the like supports an actuating element, the actuating element controls a locking mechanism which can be disengaged from the locking element during opening and engaged with the locking element during closing of the body, frame and the like, in particular for furniture.
BACKGROUND OF THE INVENTION
A fastening mechanism is desired for furniture, in particular, which is easy to operate and yet results in a definite securing of the closed position. This is of special importance for overhead cabinets in house trailers and mobile homes and the like, since their fastening mechanisms are often only accessible at the level of the head of the user.
Various so-called rotatable fastening mechanisms are known, wherein an actuating element must be rotated for opening, and thereafter the cover, door and the like must be pulled into the opening position. Opening of the cover, door or the like is more difficult with the operating step, which can be performed in two directions, in particular in those cases where the fastening mechanism is arranged at a height which is disadvantageous for the user.
Magnetic and snap fastening mechanisms are also known, which do not require a separate actuating element and which can be brought into an opening or closing position merely by the pivot movement of the cover, door or the like. Here, a compromise is made between the holding and the opening force of the cover, door or the like, which often leads to an insufficiently fixed locking position.
SUMMARY OF THE INVENTION
It is one object of this invention to provide a fastening mechanism of the type mentioned above but which is easy to operate and in particular results in an assured locking in the closed position.
In accordance with this invention this object is attained with the locking element embodied as a locking bolt on the body, frame and the like, in particular for furniture. The actuating element is adjustable in relation to the cover, door or the like and controls a locking mechanism on the inside thereof, which includes a locking lever and a rotatably seated locking claw, wherein the locking claw is held in a receiving position for insertion of the locking bolt in the open position of the fastening mechanism. The locking claw extends behind the locking bolt in the closed position, and the locking lever, which can be displaced by the actuating element and is springloaded, locks the locking claw in the closed position.
For opening the cover, door and the like it is only necessary to operate the actuating element in order to move the locking lever far enough so that it releases the lock with the locking claw. The locking bolt is released by the pivot movement of the cover, door and the like by rotating the locking claw, and the cover, door and the like can be opened without hindrance. During this the locking claw is pivoted so far that it assumes its receiving position and is held therein, so that when the cover, door and the like is closed, the locking bolt is again inserted into the locking claw. In the final closing movement of the cover, door and the like the locking claw is rotated into the locked position by the inserted locking bolt, so that the spring-loaded locking bolt can perform the locking of the locking claw. Thus, the cover, claw and the like is clearly secured in the locked position and can only be unlocked and opened by operating the actuating element.
In one embodiment the operation of the fastening mechanism is further eased because the actuating element is designed as a bow-shaped or U-shaped handle, with lateral legs ajustably guided in openings of the cover, door or the like. At least one of these lateral legs is connected with the pivotally seated locking lever on the inside of the cover, door or the like. The locking lever is supported by a compression spring on the inside of the cover, door and the like, and its locking projection can be moved into the pivot range and out of the pivot range of the locking claw, which has a locking shoulder.
If the locking lever and the locking claw are rotatably seated on a mounting element attached to the inside of the cover, door and the like, wherein the hinge pins are aligned parallel with respect to each other and parallel with the link pin of the cover, door and the like, the locking mechanism can be attached as a unit on the inside of the cover, door and the like, and only needs to be connected with the actuating element.
Following the opening of the fastening mechanism, the locking claw can be maintained in the receiving position for the locking bolt. In the opening position of the fastening mechanism, the locking claw can be restored to and maintained in the receiving position for the locking bolt by a spring, which is guided in a guidance receiver of the locking lever.
The same result can also be achieved because in the receiving position the locking claw is snapped into a snap-in receiver of the mounting element by a snap-in projection, wherein in the course of closing and releasing the fastening mechanism, the snapped-in connection can be achieved and released by rotating movement of the locking claw.
In accordance with a further embodiment, the locking mechanism can be simplified because the locking lever and the mounting element are embodied as a one-piece plastic element and are hingedly connected with each other.
If in one embodiment the displacement movement of the actuating element is limited in both displacement directions by detents, wherein the compression spring displaces the locking lever in the direction of the closed position when the actuating element is released, then a defined position of the locking lever and the locking claw is maintained during the opening and closing of the cover, door and the like.
BRIEF DESCRIPTION OF THE DRAWINGS
This invention will be explained in greater detail by exemplary embodiments represented in the drawings, wherein:
FIG. 1
is a sectional view of a first exemplary embodiment of a fastening mechanism in the locked position, wherein the locking claw is maintained in the receiving position for the locking bolt by a spring;
FIG. 2
is a view from above on the fastening mechanism in
FIG. 1
;
FIG. 3
is a plan view of the fastening mechanism in
FIG. 1
in the direction of the inside of the cover;
FIG. 4
sectional view of the fastening mechanism in
FIG. 1
on a reduced scale on an overhead cabinet with a suspended cover in the closed position;
FIG. 5
is a sectional view of the unlocking of the locking claw at the start of the opening movement;
FIG. 6
is a sectional view of the return of the locking claw into the receiving position for the locking bolt; and
FIG. 7
a sectional view of a second embodiment of a fastening mechanism, wherein the locking claw is maintained in the receiving position for the locking bolt by an additional snap-in connection.
DESCRIPTION OF PREFERRED EMBODIMENTS
This invention will be explained by means of exemplary embodiments, wherein the fastening mechanism is used on a suspended hinged cover
10
of an overhead cabinet. In this case the lower edge area of the cover
10
and the body
20
of the overhead cabinet form the locked side with the fastening mechanism, which is located opposite the hinged side.
A mounting element
24
, which supports the locking bolt
23
extending parallel with the link pin
15
of the cover
10
, is fastened with fastening screws on the front side
22
in an edge area
21
of the cabinet opening, as shown in
FIGS. 4
to
6
. The cover
10
has openings
11
, in which a U-shaped handle acting as the actuating element
36
is adjustably guided by its lateral legs, essentially perpendicular with respect to the cover plane. In this case a lateral leg of the actuating element
36
has a threaded connection
37
with a fastening screw
35
, which connects a locking lever
32
arranged on the inside of the cover
10
, with the actuating element
36
. As shown in
FIGS. 2 and 3
, the other lateral leg of the actuating element
36
is connected by means of a fastening screw
53
with a guide lever
52
, which is hinged on a mounting element
50
fastened on the inside of the cover
10
, as suggested by the link pin
51
. The mounting element
50
is connected with the cover
10
by means of fastening screws
54
. It is thus possible, as indicated in connection with the fastening screw
35
, to use a connecting sleeve
34
which, together with the locking lever
32
, or respectively the guide lever
52
, limits the displacement movement in both directions.
The locking lever
32
is hinged on a mounting element
30
, as shown in
FIGS. 1 and 2
. The mounting element
30
is fastened on the cover
10
by means of fastening screws
46
and has bearing brackets
40
, on which the locking claw
42
is pivotally seated by means of the hinged bolt
41
. The same as the hinged bolt
31
of the locking lever
32
, the hinged bolt
41
is aligned parallel with the link pin
15
of the cover
10
.
The locking claw
42
has a claw receiver
43
, into which the locking bolt
23
can be inserted. The locking lever
32
is resiliently supported on the cover
10
by means of a compression spring
33
, so that with the cover
10
opened, the actuating element
36
is maintained in the inserted end position, which is associated with the closed and locked position.
The functioning of the fastening mechanism will be explained in view of
FIGS. 4
to
6
, wherein
FIG. 4
shows the closed position. The locking claw
42
is pushed on the locking bolt
23
and is pivoted in such a way that it extends behind it. The locking lever
32
is pivoted away from the cover
10
by the compression spring
33
so far that its locking projection
39
is in engagement with the locking shoulder
44
of the locking claw
42
and assures locking. In place of the locking projection
39
it is also possible to provide a recess in the locking lever
32
, which is engaged by the locking shoulder
44
.
If a pull is exerted on the actuating element
36
, the locking lever
32
with its locking projection
39
is moved out of the pivot range of the locking claw
42
against the force of the compression spring
33
, as shown in FIG.
5
. During further opening process of the cover
10
, the locking claw
42
is pivoted on the locking bolt
23
, until it slides out of the claw receiver
43
and the locking claw
42
assumes its receiving position for the locking bolt
23
, as clearly shown in FIG.
6
.
If the cover
10
is closed further, the locking claw
42
is again conducted on the locking bolt
23
and turned into the closing position wherein, after release of the actuating element
36
, the compression spring
33
assures the locking of the fastening mechanism.
The locking claw
42
is guided by means of a spring
45
in a guidance receiver
38
of the locking lever
32
in such a way that in the open position of the fastening device the locking claw
42
is maintained in the receiving position for introducing the locking bolt
23
. The precise progress of the closing and locking process is thus assured.
As shown by the exemplary embodiment in
FIG. 7
, the locking lever
32
can be provided in one piece with the mounting element
30
in the form of a plastic part, wherein a spring section can form the hinge pin
31
. The spring section assures the locking of the fastening mechanism. Moreover, the securing of the locking claw
42
in the reception position for the locking bolt
23
can be achieved by means of an additional snap-in connection, which includes a snap-in projection
46
and a snap-in receiver
47
. In the open position of the fastening mechanism the snap-in projection
46
of the locking claw
42
is snapped into the snap-in receiver
47
of the mounting element
30
in the area of the bearing brackets
40
. It is also possible that the snap-in projection
46
is frictionally held in the snap-in receiver
47
. If during closing of the cover
10
the locking bolt
23
is inserted into the claw receiver
43
, in the end phase of the closing movement of the cover
10
the locking claw
42
is rotated by the locking bolt
23
and the snap-in connection is released. In its end position, the locking lever
32
can lock the locking claw
42
. During opening of the cover
10
, the lock between the locking lever
32
and the locking claw
42
is released, the locking claw is turned back into the receiving position, and during which the snap-in connection between the locking claw
42
and the mounting element
30
is restored.
The actuating element
36
can also merely be designed as a furniture knob and can be connected only with the locking lever
32
.
Claims
- 1. In a mechanism for a cover hinged on a body wherein a locking element is fixedly attached to the body, the cover supports an actuating element, the actuating element controls a locking mechanism which can be disengaged from the locking element during opening of the body and engaged with the locking element during closing of the body, the improvement comprising:the locking element (23) comprising a locking bolt on the body (10), the actuating element (36) being adjustable with respect to the cover (10) and controlling the locking mechanism having a locking lever (32) and a rotatably seated locking claw (42), the locking claw (42) held in a receiving position for insertion of the locking bolt in an open position of the fastening mechanism, the locking claw (42) extending behind the locking bolt in the closed position, the locking lever (32) being displaced by the actuating element (36) and spring-loaded for locking the locking claw (42) in a closed position, and the locking lever (32) and the mounting element (30) formed as a one-piece plastic element.
- 2. In the fastening mechanism in accordance with claim 1 wherein the actuating element (36) is adjustable generally perpendicular to the cover (10).
- 3. In the fastening mechanism in accordance with claim 2, wherein the actuating element (36) is designed as one of a one of bow-shaped handle and a U-shaped handle with lateral legs ajustably guided in openings (11) of the cover (10), at least one of the lateral legs is connected with the locking lever (32) which is pivotally seated on inside of the cover (10), the locking lever (32) is supported by a compression spring (33) on an inside of the cover (10), and a locking projection (44) is moveable into a pivot range and out of the pivot range of the locking claw (42) which has a locking shoulder (39).
- 4. In the fastening mechanism in accordance with claim 3, wherein the locking lever (32) and the locking claw (42) are rotatably seated on a mounting element (30) attached to the inside of the cover (10), and the hinge pins (31, 41) are aligned parallel with respect to each other and parallel with the link pin (15) of the cover (10).
- 5. In the fastening mechanism in accordance with claim 4, wherein in the open position of the fastening mechanism, the locking claw (42) is restored to and maintained in the receiving position for the locking bolt (23).
- 6. In the fastening mechanism in accordance with claim 4, wherein the locking lever (32) and the mounting element (30) are formed as a one-piece plastic element.
- 7. In the fastening mechanism in accordance with claim 4, wherein in the receiving position the locking claw (42) is snapped into a snap-in receiver (46) of the mounting element (30) with a snap-in projection (46), and while closing and releasing the fastening mechanism the snapped-in connection is achieved and released by rotating the locking claw (42).
- 8. In the fastening mechanism in accordance with claim 7, wherein a displacement movement of the actuating element (36) is limited in two displacement directions by detents, wherein the compression spring (33) displaces the locking lever (32) in a direction of the closed position when the actuating element (36) is released.
- 9. In the fastening mechanism in accordance with claim 1, wherein the actuating element (36) is designed as one of a one of bow-shaped handle and a U-shaped handle with lateral legs adjustably guided in openings (11) of the cover (10), at least one of the lateral legs is connected with the locking lever (32) which is pivotally seated on inside of the cover (10), the locking lever (32) is supported by a compression spring (33) on an inside of the cover (10), and a locking projection (44) is moveable into a pivot range and out of the pivot range of the locking claw (42) which has a locking shoulder (39).
- 10. In the fastening mechanism in accordance with claim 1, wherein the locking lever (32) and the locking claw (42) are rotatably seated on a mounting element (30) attached to the inside of the cover (10), and the hinge pins (31, 41) are aligned parallel with respect to each other and parallel with the link pin (15) of the cover (10).
- 11. In the fastening mechanism in accordance with claims 1, wherein in the open position of the fastening mechanism, the locking claw (42) is restored to and maintained in the receiving position for the locking bolt (23).
- 12. In the fastening mechanism in accordance with claim 1, wherein a displacement movement of the actuating element (36) is limited in two displacement directions by detents, wherein the compression spring (33) displaces the locking lever (32) in a direction of the closed position when the actuating element (36) is released.
- 13. In a mechanism for a cover hinged on a body wherein a locking element is fixedly attached to the body, the cover supports an actuating element, the actuating element controls a locking mechanism which can be disengaged from the locking element during opening of the body and engaged with the locking element during closing of the body, the improvement comprising:the locking element (23) comprising a locking bolt on the body (10), the actuating element (36) being adjustable with respect to the cover (10) and controlling the locking mechanism having a locking lever (32) and a rotatably seated locking claw (42), the locking claw (42) held in a receiving position for insertion of the locking bolt in an open position of the fastening mechanism, the locking claw (42) extending behind the locking bolt in the closed position, the locking lever (32) being displaced by the actuating element (36) and spring-loaded for locking the locking claw (42) in a closed position, in the receiving position the locking claw (42) snapped into a snap-in receiver (46) of the mounting element (30) with a snap-in projection (46), and while closing and releasing the fastening mechanism the snapped-in connection being achieved and released by rotating the locking claw (42).
Priority Claims (1)
Number |
Date |
Country |
Kind |
199 11 792 |
Mar 1999 |
DE |
|
US Referenced Citations (8)