Source: http://www.google.com/patents/US20030020285?ie=ISO-8859-1
Timestamp: 2015-05-03 11:06:49
Document Index: 265841362

Matched Legal Cases: ['art 6', 'art 6', 'art 6', 'art 6', 'art 6', 'art 6', 'art 6', 'art 6']

Patent US20030020285 - Rotary-latch lock - Google PatentsSearch Images Maps Play YouTube News Gmail Drive More »Sign inAdvanced Patent SearchPatentsA rotary-latch lock (1), of which a rotary latch (8) has a fork mouth (9) for accommodating a mating locking part (6) which, in a locked position of the rotary-latch lock (1), is located in front of a blocking flank (16) formed by a fork-mouth leg (11), having a window-like opening (17, 25, 26) which...http://www.google.com/patents/US20030020285?utm_source=gb-gplus-sharePatent US20030020285 - Rotary-latch lockAdvanced Patent SearchPublication numberUS20030020285 A1Publication typeApplicationApplication numberUS 10/186,317Publication dateJan 30, 2003Filing dateJun 28, 2002Priority dateJul 2, 2001Also published asDE10131978A1, US6695362Publication number10186317, 186317, US 2003/0020285 A1, US 2003/020285 A1, US 20030020285 A1, US 20030020285A1, US 2003020285 A1, US 2003020285A1, US-A1-20030020285, US-A1-2003020285, US2003/0020285A1, US2003/020285A1, US20030020285 A1, US20030020285A1, US2003020285 A1, US2003020285A1InventorsBernd Kluting, Norbert KrugerOriginal AssigneeBernd Kluting, Norbert KrugerExport CitationBiBTeX, EndNote, RefManReferenced by (6), Classifications (11), Legal Events (3) External Links: USPTO, USPTO Assignment, EspacenetRotary-latch lock
US 20030020285 A1Abstract
A rotary-latch lock (1), of which a rotary latch (8) has a fork mouth (9) for accommodating a mating locking part (6) which, in a locked position of the rotary-latch lock (1), is located in front of a blocking flank (16) formed by a fork-mouth leg (11), having a window-like opening (17, 25, 26) which promotes plastic deformation when the blocking flank (16) is subjected to increased loading, wherein the opening (17, 25, 26) forms a bending/extending web (18, 23, 24). Images(4) Claims(13)
1. A rotary-latch lock (1), of which the rotary latch (8) has a fork mouth (9) for accommodating a mating locking part (6) which, in the locked position of the rotary-latch lock (1), is located in front of a blocking flank (16) formed by a fork-mouth leg (11), having a window-like opening (17, 25, 26) which promotes plastic deformation when the blocking flank (16) is subjected to increased loading, characterized by the fact that the opening (17, 25, 26) forms a bending/extending web (18, 23, 24). 2. The rotary-latch lock as claimed in claim 1 or in particular as claimed therein, characterized by the fact that the bending/extending web (18) runs parallel to the blocking flank (16). 3. The rotary-latch lock as claimed in one or more of the preceding claims or in particular as claimed therein, characterized by the fact that the bending/extending web (23, 24) is part of the bearing eyelet (L1, L2) for the rotary bearing of the rotary latch and/or catch. 4. The rotary-latch lock as claimed in claim 1 or in particular as claimed therein, characterized by the fact that the stresses which occur under the increased loading in the region of the fork-mouth root (9′) are reduced as a result of the opening (17) extending into the fork-mouth root (9′). 5. The rotary-latch lock as claimed in one or more of the preceding claims or in particular as claimed therein, characterized by the fact that the length of the web (18, 23, 24) is considerably greater than the diameter of the mating locking part (6) and of the bearing eyelet (L1, L2). 6. The rotary-latch lock as claimed in one or more of the preceding claims or in particular as claimed therein, characterized by the fact that the mating locking part (6) or the articulation pin (7, 14), which engages through the bearing eyelet (L1, L2), butts approximately centrally against the web (18, 23, 24). 7. The rotary-latch lock as claimed in one or more of the preceding claims or in particular as claimed therein, characterized by the fact that the opening section (17″), which is assigned to the fork-mouth root (9′), follows the curvature of the blocking flank (16). 8. The rotary-latch lock as claimed in one or more of the preceding claims or in particular as claimed therein, characterized by the fact that the window width corresponds approximately to half the diameter or the radius of the mating locking part (6) and of the bearing eyelets (L1, L2). 9. The rotary-latch lock as claimed in one or more of the preceding claims or in particular as claimed therein, characterized by the fact that the rotary latch (8) and/or the catch (13), in particular the opening (17, 25, 26), are/is sheathed in plastic. 10. The rotary-latch lock as claimed in one or more of the preceding claims or in particular as claimed therein, characterized by the fact that the opening (17, 25, 26) contains a compressible plastic filling (20, 20′, 27, 28). 11. The rotary-latch lock as claimed in one or more of the preceding claims or in particular as claimed therein, characterized by the fact that the plastic filling (20, 20′, 27, 28) is configured integrally with the sheathing (19, 19′). 12. The rotary-latch lock as claimed in one or more of the preceding claims or in particular as claimed therein, characterized by the fact that the plastic filling (20′) has webs (22) which form cavities (21). 13. The rotary-latch lock as claimed in one or more of the preceding claims or in particular as claimed therein, characterized by the fact that the webs (22) are arranged in zigzag form.
[0001] The invention relates to a rotary-latch lock, of which the rotary latch has a fork mouth for accommodating a mating locking part which, in the locked position of the lock, is located in front of a blocking flank formed by a fork-mouth leg, having a window-like opening which promotes plastic deformation when the blocking flank is subjected to increased loading. [0002] A rotary-latch lock of the type in question is known from DE A 28 03 351, which rotary-latch lock is used for the releasable locking of a backrest of a vehicle seat. The window-like opening of the relevant fork-mouth leg is configured as a loading-relief bore and provided beneath a run-on slope in the fork-mouth leg. This makes it possible to form between the loading-release bore and the run-on slope, in the event of a crash, a plastically deformable region which prevents the rotary latch from sliding off from the mating locking part. On account of the particular bore-like outline of the window-like opening, largely controlled plastic deformation takes place, to be precise in the region where the spacing is smallest between the bore and the run-on slope and/or the corresponding section of the blocking flank. In the case of this configuration, however, it is not possible to avoid the situation where stress peaks occur on the rotary latch under increased loading, which is the case, for example, in the event of a crash, it being possible for said stress peaks, in some circumstances, to result in the rotary latch breaking, to be precise in the region of the rotary-latch weak point formed by the fork mouth. [0003] The object of the invention is to configure a rotary-latch lock of the generic type such that even high loading forces acting on the rotary latch do not result in any functional incapability of the rotary latch. [0004] This object is achieved first and foremost in the case of a rotary-latch lock having the features of claim 1, this being based on the fact that the opening forms a bending/extending web. [0005] The subject matters of the rest of the claims are explained hereinbelow in relation to the subject matter of claim 1, but their independent wording may also be important. [0006] Such a configuration provides a rotary-latch lock of the generic type which has an increased safety value. The opening which forms a bending/extending web results in compensation for stress peaks in the event of a crash and/or under increased loading and reliably avoids the risk of the relevant fork-mouth leg tearing or breaking. This means that the functional capability of the rotary-latch lock is maintained even following a crash. This is important, in particular, if the rotary-latch lock is assigned to vehicle doors which, once the vehicle has been involved in a crash or accident, have to be opened in order for it to be possible for any injured individuals to be rescued quickly. The essential plastic deformation in the event of a crash takes place in the region of the bending/extending web. Deliberately controlled deformation is thus realized. An advantageous variant of the invention is distinguished in that the bending/extending web runs parallel to the blocking flank. Accordingly, the essential plastic deformation is assigned to the rotary latch. The slot configuration of the window-like opening compensates for installation tolerances, with the result that the effectiveness which is sought after according to the invention is not impaired. The essential plastic deformation in the event of a crash takes place in the region between the slot and the blocking flank. The rest of the rotary latch is subjected to a lower level of deformation. At the same time, it is possible, overall, for the relevant fork-mouth leg to warp to a certain extent without this resulting in the material of the rotary latch tearing. Furthermore, the bending/extending web may be part of the bearing eyelet for the rotary bearing of the rotary latch and/or catch. Even then, the bending/extending web can run parallel, to be precise concentrically in relation to the relevant articulation pin. In addition, it is also possible for the bending/extending web to be arranged parallel to the blocking flank. Provision is then made for the stresses which occur under the increased loading in the region of the fork-mouth root to be reduced as a result of the opening extending into the fork-mouth root. The region of the rotary latch, which is thus very much at risk, is reliably protected as a result. Emphasis should also be given to the fact that the length of the web is considerably greater than the diameter of the mating locking part and of the bearing eyelet. This greater length is available for warping in the event of a crash, with the stress peaks which occur in this case being reduced in the process. It proves to be optimal if the mating locking part or the articulation pin, which engages through the bearing eyelet, butts approximately centrally against the web. In order largely to eliminate stress peaks which occur in the region of the fork-mouth root, the opening section which is assigned to the fork-mouth root follows the curvature of the blocking flank and/or of the bearing eyelet. A further advantageous feature is that the window width corresponds approximately to half the diameter or the radius of the mating locking part and bearing eyelet. Under increased loading, accordingly, the bending of the bending/extending web is not adversely affected to any significant extent. Variations in the dissipation of stress peaks may be realized in that the rotary latch and/or the catch, in particular the opening, are/is sheathed in plastic. It is possible here for the opening to contain a compressible plastic filling. The bending deformation is additionally controlled by this plastic filling. Production-related advantages are achieved in that the plastic filling is configured integrally with the sheathing. This configuration is varied, furthermore, in that the plastic filling has webs which form cavities. These webs may be oriented in different ways. A zigzag arrangement of the webs is also recommended.
[0007] A number of exemplary embodiments of the invention are explained hereinbelow with reference to the drawings, in which: [0008]FIG. 1 shows a view of a rotary-latch lock with rotary latch, trapping a mating locking part, under normal loading, [0009]FIG. 2 shows an illustration as in FIG. 1, but with the rotary latch being subjected to increased loading, [0010]FIG. 3 shows a second embodiment of the rotary latch, which is sheathed in plastic and contains a compressible plastic filling in the opening, [0011]FIG. 4 shows a third embodiment of the rotary latch, in the case of which the opening has webs which form plastic-free cavities, to be precise in the form of a zigzag arrangement, [0012]FIG. 5 shows a fourth embodiment of the rotary latch alongside its associated catch, and [0013]FIG. 6 shows a fifth embodiment of a rotary latch with catch. [0014] The rotary-latch lock, which is designated 1 overall, according to the first embodiment illustrated in FIGS. 1 and 2 has a lock housing 2. The latter has a housing base plate 3. An entry opening 5 of approximately rectangular outline for a mating locking part 6 extends from one flank 4 of said housing base plate. The rotary-latch lock 1 is preferably secured on a vehicle door, while the mating locking part 6 is fastened on the bodywork. The mating locking part 6 is a bolt of circular cross section. [0015] To the side of the entry opening 5, the lock housing 2 bears an articulation pin 7 for a rotary latch 8, which articulation pin 7 engages through a bearing eyelet L1 of the rotary latch 8. This forms an open-border fork mouth 9, on both sides of which fork-mouth legs 10, 11 remain, the fork-mouth leg 10 being of smaller width. In the locked position, the blocking tooth 12 of a catch 13 acts on the free end of the fork-mouth leg 10. Said catch is mounted on the other side of the entry opening 5, about an articulation pin 14 which passes through a bearing eyelet L2 of the catch 13 and belongs to the lock housing 2. A tension spring 15, which extends between the rotary latch 8 and the catch 13, subjects the catch 13 to loading in the blocking direction and the rotary latch 8 to loading in the opening direction. The rotary-latch lock 1 can be opened at will in a known manner in that the catch 13 is subjected to the action of an element which is not illustrated but by means of which the catch can be moved into the release position. This, however, belongs to the prior art, and so no more details will be given in this respect. [0016] In the locked position of the rotary-latched lock, the fork-mouth leg 11, which is wider than the fork-mouth leg 10, is directed transversely to the entry opening 5 and bridges the latter. The fork-mouth leg 11 in this case forms a blocking flank 16 running transversely to the entrance and exit direction of the mating blocking part 6. Parallel to said blocking flank, the fork-mouth leg 11 is provided with an opening 17 configured as a slot. Said opening is made up of a rectilinear opening section 17′ and a rounded opening section 17″, which is assigned to the fork-mouth root 9′. The length of the rectilinear opening section 17′ corresponds more or less to the extent of the entry opening 5, while the opening section 17″, which follows the curvature of the blocking flank 16 and is assigned to the fork-mouth root 9′, projects slightly beyond the root 9′. As can be seen from FIGS. 1 and 2, in the locked position, the mating locking part 6 extends approximately in the center of the bending/extending web 18 remaining between the blocking flank 16 and the opening 17. On account of the previously described configuration of the opening 17, the length of said web is considerably greater than the diameter of the mating locking part 6. It can then be seen from FIG. 1 that the window width or the extent of the opening 17 corresponds approximately to the radius of the mating locking part 6. [0017] In the event of a crash, the situation according to FIG. 2 may occur. In the case of a motor-vehicle door trying to burst open, the blocking flank 16 is subjected to increased loading. The mating locking part 6 in this case acts on the bending/extending web 18 to a pronounced extent and results in plastic deformation of the same, it being possible for said web to bend at an obtuse angle on account of the slot-like opening 17. The vertex of this bending reaches as far as the outer opening edge 17′″. Stress peaks which occur in the case of this plastic deformation are eliminated on account of this buffer action, with the result that the rotary latch 8 cannot tear in the region of the fork-mouth root 9′. The rotary latch 8 thus remains functionally capable, with the result that subsequent opening of the rotary-latch lock is ensured. [0018] The illustration according to FIG. 2 shows the initial position of the rotary latch 8 by chain-dotted lines. The solid-line illustration of the rotary latch here shows the deformation, in particular of the blocking fork-mouth leg 11. [0019]FIG. 3 shows a modified configuration of a rotary latch 8. The same parts are provided with the same designations. In contrast, then, the rotary latch 8 is provided with plastic sheathing 19. The opening 17 then contains a plastic filling 20. The latter is integral with the plastic sheathing 19 and is preferably produced at the same time as the rotary latch 8 is sheathed. [0020] On account of the compressible plastic filling 20, an additional component is included in respect of absorbing the stress peaks. It is possible to use materials with differing compression behavior. In this respect, it is also possible to vary the slot configuration. [0021] The third embodiment, which is illustrated in FIG. 4, is related to the configuration according to FIG. 3. In contrast, then, the plastic filling 20′ has webs 22 which leave cavities 21 and are arranged in zigzag form, the vertex of the webs extending as far as the wall of the opening 17. This configuration makes it possible to realize a further-modified deformation behavior in a crash situation. [0022] The fourth embodiment which is illustrated in FIG. 5, is largely related to the first embodiment according to FIGS. 1 and 2. The same designations have been adopted. In addition to the bending/extending web 18, two further bending/extending webs 23 and 24 are provided. The bending/extending web 23 is part of the bearing eyelet L1. It is formed by an opening 25 running concentrically in relation to the axis of the articulation pin 7. The opening 25 is located on that side of the articulation pin 7 which is located opposite the blocking flank 16. Furthermore, the length of the opening 25 is dimensioned such that the length of the web 23 is greater than the diameter of the bearing eyelet L1. [0023] The bending/extending web 24, in contrast, is assigned to the catch 13. The bending/extending web 24 is formed by an opening 26 running concentrically in relation to the axis of the articulation pin 14 for the catch 13. This opening, too, is dimensioned such that the length of the web 24 is greater than the diameter of the bearing eyelet L2. The opening 26 extends between the blocking tooth 12 and the articulation pin 14. All the bending/extending webs 18, 23 and 24 are thus positioned such that, in the event of a crash, they can deform plastically and dissipate stress peaks occurring in the process. [0024] In contrast to what is illustrated, it would be possible to provide just one additional bending/extending web 23 or 24, to be precise in addition to the bending/extending web 18. [0025]FIG. 5 shows that the articulation pin 7, 14, which engages through the bearing eyelet L1, L2, is assigned centrally to the bending/extending web 23, 24. [0026] The fifth embodiment corresponds to a combination of the second embodiment according to FIG. 3 and of the fourth embodiment according to FIG. 5. The same parts have the same designations. The plastic sheathing 19 is integral not just with the plastic filling 20 of the opening 17, but also with the plastic filling 27 of the opening 25. Furthermore, the catch 13 also has a plastic sheathing 19′ which, with a plastic filling 28 for the opening 26 being formed in the process, is used for dissipating stress peaks in the event of a crash. These plastic fillings 27, 28 provide an additional variation in the deformation behavior of relevant components in the event of the vehicle crashing. [0027] All features disclosed are (in themselves) pertinent to the invention. The disclosure contents of the associated/attached priority documents (copy of the prior application) are hereby also included in full in the disclosure of the application, also for the purpose of incorporating features of these documents in claims of the present application. Referenced byCiting PatentFiling datePublication dateApplicantTitleUS7264283Dec 9, 2004Sep 4, 2007Intier Automotive Closures Inc.Vehicle latch with partially decoupled key cylinder leverUS7513541 *Nov 27, 2006Apr 7, 2009Shawn GregoryRotary latch and lock mechanismUS20130269403 *Mar 15, 2013Oct 17, 2013Piotr Leonard KowalczykLocking arrangementDE102004020648A1 *Apr 22, 2004Nov 17, 2005Volkswagen AgClosing device for a vehicle bonnet has closing part attached to vehicle side and another on side of bonnet with crash box around closing part on vehicle body creating a buffer zone to allow the closing part to give on impactEP1739258A1 *Jun 27, 2005Jan 3, 2007Brose Schliesssysteme GmbH &amp; Co. KGMotor vehicle lockWO2013163981A1 *May 2, 2013Nov 7, 2013Kiekert AktiengesellschaftLock for a flap or door* Cited by examinerClassifications U.S. Classification292/216, 292/229International ClassificationE05B65/12, E05B65/32Cooperative ClassificationY10T292/1062, Y10T292/1047, Y10S292/23, E05B77/02, E05B85/26European ClassificationE05B77/02, E05B85/26Legal EventsDateCodeEventDescriptionAug 16, 2011FPAYFee paymentYear of fee payment: 8Jul 25, 2007FPAYFee paymentYear of fee payment: 4Sep 16, 2002ASAssignmentOwner name: WITTE-VELBERT GMBH & CO. KG, GERMANYFree format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:KLUTING, BERND;KRUGER, NORBERT;REEL/FRAME:013348/0828;SIGNING DATES FROM 20020906 TO 20020916Owner name: WITTE-VELBERT GMBH & CO. KG HOFERSTRASSE 3-15D-425Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:KLUTING, BERND /AR;REEL/FRAME:013348/0828;SIGNING DATES FROM 20020906 TO 20020916RotateOriginal ImageGoogle Home - Sitemap - USPTO Bulk Downloads - Privacy Policy - Terms of Service - About Google Patents - Send FeedbackData provided by IFI CLAIMS Patent Services