Rotary lever lock

Abstract

A rotary latch closure comprising a housing with an actuating shaft which is mounted so as to be rotatable, but axially fixed therein. The rotary latch closure has, at its free end, a circumferential thread, at least one axially oriented flattened portion, and a rotary latch configured to be fitted to the free end of the shaft so as to be fixed with respect to rotation relative to it in at least one rotational position and which is axially supported on a nut which can be screwed onto the circumferential thread. The nut is enclosed by a cage forming a laterally accessible space that is bounded by two walls, each of the two walls having a prismatic opening, wherein the opening allows the shaft to be slid through in a torsionally rigid manner.

Claims

1. A rotary latch closure apparatus comprising: a housing including: an actuating shaft configured to be mounted so as to be rotatable but axially fixed therein, the actuating shaft comprising, at its free end; a circumferential thread; and at least one axially oriented flattened portion; a nut configured to be screwed onto the circumferential thread; and a rotary latch configured to be fitted to the free end of the shaft so as to be fixed with respect to rotation relative to it in at least one rotational position and axially supported on the nut; and wherein: the nut comprises: a single unit along an axial direction enclosed by a cage configured to form a laterally accessible space bounded by two walls; wherein each of the two walls is perpendicular to an axis of the nut when the single unit is enclosed by the cage, the two walls having a distance from one another in an axial direction of the nut that accommodates an axial length of the single unit; and wherein each of the two walls include a prismatic opening that is configured to allow the shaft to be slid through in a torsionally rigid manner; or the nut comprises: multiple parts along the axial direction comprising a ring arrangement enclosed by a cage configured to form a laterally accessible space bounded by a first wall comprising a prismatic opening and a second wall comprising a U-shaped notch or recess configured to receive the ring arrangement; wherein each of the first and second walls is perpendicular to an axis of the nut when the ring arrangement is enclosed by the cage, the first and second walls having a distance from one another in an axial direction of the nut that accommodates an axial length of a portion of the ring arrangement.

2. The rotary latch closure apparatus according to claim 1; wherein the cage is integral with the rotary latch.

3. The rotary latch closure apparatus according to claim 1; wherein the cage and the rotary latch are two parts.

4. The rotary latch closure apparatus according to claim 3; wherein the cage is U-shaped; and first and second U-legs form the first and second walls.

5. The rotary latch closure apparatus according to claim 4; the first U-leg of the U-shaped cage forms a recess or projection near its free end configured to receive the rotary latch in a positive engagement.

6. The rotary latch closure apparatus according to claim 4; the second U-leg of the U-shaped cage forms a knob configured to engage with recesses of a contacting lateral surface of the nut in order to preventing rotation.

7. The rotary latch closure apparatus according to claim 1; wherein the nut includes a circumferential knurling.

8. The rotary latch closure apparatus according to claim 7; wherein the walls of the cage are configured to retract transverse to an extension of the rotary latch and configured to make the circumferential knurling of the nut accessible.

9. The rotary latch closure apparatus according to claim 4; wherein the nut together with the rotary latch are configured to be inserted into the cage along an axis of the U-legs.

10. The rotary latch closure apparatus according to claim 1; wherein the rotary latch is configured to be driven by a swivel lever.

11. The rotary latch closure apparatus according to claim 1; wherein the rotary latch is configured to be driven by a T-handle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1A shows a rotary latch closure installed in a cabinet door which is held by a cabinet frame;

(2) FIG. 1B shows a side view of a rotary latch according to a first embodiment form of the invention;

(3) FIG. 1C shows a top view of a pinion which is shown in a side view in FIG. 1E;

(4) FIG. 1D shows a side view of the rotary latch in question;

(5) FIG. 1E shows a side view of the pinion shown in in FIG. 1A;

(6) FIG. 2A shows a side view of another embodiment form of the invention in partial section;

(7) FIG. 2B shows a side view of the other embodiment form of the invention from the rear;

(8) FIG. 2C shows a perspective view of this closure;

(9) FIG. 2D shows an exploded view of this embodiment form according to FIG. 2C;

(10) FIG. 2E shows a side view of this embodiment form;

(11) FIG. 3A shows a perspective view of another embodiment form of the invention;

(12) FIG. 3B shows an exploded view of the latter embodiment form;

(13) FIG. 3C shows a side view of this rotary latch closure;

(14) FIG. 4 shows a perspective view of a swivel lever closure according to the invention; and

(15) FIG. 5 shows a perspective view of a T-handle.

DETAILED DESCRIPTION OF EMBODIMENTS

(16) It is to be understood that the figures and descriptions of the present invention have been simplified to illustrate elements that are relevant for a clear understanding of the present invention, while eliminating, for purposes of clarity, many other elements which are conventional in this art. Those of ordinary skill in the art will recognize that other elements are desirable for implementing the present invention. However, because such elements are well known in the art, and because they do not facilitate a better understanding of the present invention, a discussion of such elements is not provided herein.

(17) The present invention will now be described in detail on the basis of exemplary embodiments

(18) FIG. 1A shows a rotary latch closure 10 comprising a housing 12 with an actuating shaft 14 which is mounted so as to be rotatable but axially fixed therein. The housing is inserted through an opening at a door leaf 16 up to a flange 18 and is held by means of a retainer nut 20 which is screwed onto an external thread 22 of the housing 12 and holds the housing in the door leaf. It is also possible to fasten the housing to the door leaf in other ways, for example, by means of a clip fastener or a spring that can be inserted from the side.

(19) The actuating shaft 14 has a circumferential thread 24 and an axially oriented flattened portion 26. A rotary latch 28 is fitted to the end 30 of the shaft 14 and, with a necked-down portion at one location together with the flattened portion of the shaft, is fixed with respect to relative rotation but, on the other hand, is displaceable in axial direction on the shaft. The rotary latch 28 is supported in the direction of the end of the shaft 30 by a knurled nut 32 such that by screwing in the nut the rotary latch 28 is fixed, e.g., in direction of the door frame 34, by the knurled nut, and the latch 28 is accordingly fixed in direction of the door leaf 16, whereas, in the opposite direction, the latch is held by ring arrangement 38 proceeding from the knurled nut 32, which ring arrangement 38 engages in a corresponding annular groove 36 of the knurled cam. As can be seen from FIG. 1D and FIG. 1E, the knurled nut 32 with the ring 38 can be inserted laterally into the cam 28, whereupon the shaft 14 can be inserted through the opening 38. By turning the knurled nut 32, the cam 28 can be displaced axially in both directions in order to ensure a snug contact of the latch 28 at the frame 34.

(20) Accordingly, in this embodiment form, part of the nut 32, namely, the ring 38, is enclosed by a cage 48 which forms a space 46 which is accessible from the side (see FIG. 1D) and which is bounded by two walls 42, 44 which have a prismatic opening in each instance so that the opening allows the shaft to be slid through in a torsionally rigid manner.

(21) The cage 48 surrounding the annular groove 36 is integral with the latch cam 28. In the embodiment form in FIG. 2A, the knurled nut 32 is also slid in laterally, whereupon the shaft with its thread can be inserted through the openings 140 in the walls 142, 144 and the nut 132 can be turned at the same time.

(22) It can be seen in the embodiment form shown in FIG. 3A that the cage and the latch cam 228 are two parts. Accordingly, the cage 248 and the latch cam 228 can be made from different materials, e.g., plastic and metal. FIG. 3A also shows that the cage is U-shaped in this case, and the walls form the U-legs through which prismatic (particularly rectangular) bores 45 are guided in order to receive the shaft while preventing rotation. The latch 228 is likewise connected to the shaft 45 in a torsionally rigid manner.

(23) Further, the latch 228 can be provided with a protuberance or recess. FIG. 3B shows that the cage is not only U-shaped and that the walls form U-legs (see reference numerals 50, 52) but also that the one leg 50 of the U-shaped cage forms a recess 56 close to its free end in which a projection 54 of the rotary latch 228 can be received in a positive engagement and accordingly produces a positively engaging rotational connection. The other leg 52 of the U-shaped cage forms a knob 58 which engages with recesses 60 in the contacting lateral surface of the nut 232 to prevent rotation. This prevents the knurled nut 232 from unwanted adjustment, e.g., during shaking movement.

(24) As can be seen from FIG. 3B, the cage 248 is also U-shaped, and the nut 228 together with the rotary latch can be slid in along the axis of the legs of the U-shaped cage.

(25) FIG. 4 shows a rotary latch 328 which is axially displaceable by means of a screw 332. Here, also, the nut is arranged in a cage 348 which is bounded by two ends, and the opening allows the shaft to be slid through in a torsionally rigid manner, and the shaft is driven by a swivel lever which propels the cage 348 and, further, has a double-arm. Locking rods are arranged at the arms and can be displaced axially by rotating the shaft 330. The shaft 330 is driven by a swivel lever 68. The swivel lever can be swiveled into a cavity 70 which can be installed in two apertures in the thin wall, specifically with a disk 72 and with a locking cylinder receptacle 74.

(26) FIG. 5 shows a perspective view of a closure which has a construction similar to that of the closure shown in FIG. 4 and in which actuation is effected by means of a T-handle 80 which is fastened by means of a retainer nut in conventional manner as is shown in FIG. 1A.

(27) While this invention has been described in conjunction with the specific embodiments outlined above, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art. Accordingly, the preferred embodiments of the invention as set forth above are intended to be illustrative, not limiting. Various changes may be made without departing from the spirit and scope of the inventions as defined in the following claim.

LIST OF REFERENCE NUMERALS

(28) 10 rotary latch closure 12 housing 14, 114, 214 actuating shaft 16 door leaf 18 flange 20 retainer nut 22 circumferential thread of the housing 24 circumferential thread of the shaft 26 flattened portion of the shaft 28, 128, 228 328, 428 rotary latch 30, 130, 230, 330, 430 free end of the shaft 32, 132, 232, 323, 432 knurled nut 34 door frame 36 ring annular groove 38 annular groove ring 40, 140, 240 prismatic bore 42 wall 44, 144 wall 46, 146 space 48, 148, 248, 348, 448 cage 50 U-leg 52 U-leg 54 projection/recess 56 recess/projection 58 knob 60 recesses 62 cam path 64 double-lever 66 lock rods 68 swivel lever 70 cavity 72 clamping plate 74 cylinder lock receptacle 76 clamping screw 78 clamping screw 80 T-handle