BUCKLE
Description This invention relates to buckles which lock together more than two parts. Buckles according to the invention are particularly suitable for use in safety harnesses, for example safety harnesses of child's safety seats for use in motor vehicles.
The present invention aims to improve the operational safety of the buckles to which it relates and provides a buckle comprising a body and a tongue insertable into the body, the body having latch means operable to engage the inserted tongue to lock the body and tongue together and the buckle including at least one further member positionable relative to the tongue and body such that it becomes secured to at least one of these when they are locked together, the buckle also including latch-inhibiting means having a first condition in which operation of the latch means is prevented and a second condition in which such operation takes place, the inhibiting means being responsive to the presence of the further member so as to adopt its second condition when the further member is in its said position and to adopt its first condition in the absence of the further member.
With such a buckle, the latch-inhibiting means functions to prevent the tongue and body being locked together without the further member also being locked to the tongue and/or the body. The buckle can be used in a safety harness, in which respective straps of the harness are connected to the body, the tongue and the further member. These straps may be, for example, a crotch strap, one shoulder strap and the other shoulder strap of the safety harness of a child's safety seat and an important safety feature is provided by the buckle of the invention. Such a safety feature is required by safety regulations governing the sale of child safety seats in certain countries, the regulations requiring, for example, that the buckle can only be fastened when certain "obligatory" straps of the harness are present for connection.
Advantageously, the buckle therefore includes another further member which is securable to the parts mentioned above and which must also be positioned correctly relative to the other buckle parts for the latch-inhibiting means to allow operation of the latch means.
In a preferred harness arrangement, respective lap straps of the harness are attached to the body and the tongue and respective shoulder straps of the harness are attached to the two further members mentioned above. In such an arrangement, fewer than all four harness straps cannot be secured to one another by the buckle. Preferably, the latch means comprises a latch member which is mounted in the body for movement between positions in which it is respectively disengaged from and engaged with the tongue. In some
embodiments, the latch member is movable rectilinearly in directions substantially perpendicular to the path of movement of the tongue.
Conveniently, the latch-inhibiting means comprises a blocking member which is movable between first and second positions, corresponding to the first and second conditions, in which it respectively blocks movement of the latch member from its disengaged to its engaged positions and allows such movement to take place. When the latch member moves rectilinearly as mentioned above, the blocking member preferably moves substantially parallel to the path of the tongue.
Advantageously, the latch member is acted upon by resilient biassing means which urge the latch member into engagement with the blocking member when the blocking member is in its first position. With such an arrangement, movement of the blocking member to its second position will result in movement of the latch member to its engaged position under influence of the resilient biassing means. Preferably, the engagement between the latch and blocking members takes place at ramped surfaces which serve to allow the latch member to move progressively towards its engaged position during movement of the blocking member to its second position. In buckles having these features, the latch member will be returned to its disengaged position by manual movement against the resilient bias of an operating member acting on the latch member and operable from the outside of the buckle body. In preferred embodiments of the invention, the further member is shaped to engage the blocking member as the further member is moved to its securement position and,in this way, the blocking member is moved
from its first to its second position. Preferably, this movement of the blocking member takes place against a resilient bias which is conveniently provided by integral resilient portions of the blocking member engaging the buckle body. The blocking member in such embodiments is preferably a one-piece plastics moulding.
For engagement with the blocking member, the further member conveniently has a protruding formation which is received in an appropriately-positioned aperture in the buckle body.
Advantageously, securement of the further member to the other buckle parts is achieved by insertion of the free end of the tongue through an opening in the further member which is then retained on the tongu .
With such an arrangement and when the further member is shaped to engage the blocking member in the way mentioned above, the aperture in the buckle body is conveniently positioned adjacent an aperture through which the tongue is inserted and, upon such insertion, a portion of the further member engages the blocking member through the aperture. To prevent movement of the further member relative to the tongue in the direction opposite to the direction of insertion, the tongue and further member may have respective abutment surfaces.
Advantageously, a buckle according to the present invention includes secondary latch means which are operable to lock a secondary strap-attachment member to the buckle body and/or one or more said further members, the secondary latch means having first and second conditionsin which locking is respectively prevented and able to take place, the
secondary latch means being responsive to the primary latch means and adopting its first and second conditions when the primary latch means is respectively disengaged from and engaged with the said tongue. In a buckle having this feature, a harness strap attached to the secondary strap-attachment member can only be locked to the buckle after the tongue and the or each said further member have been locked together. This feature enables the buckle to comply with certain safety regulations which require that designated "optional" harness straps cannot be secured to the harness buckle until all "obligatory" straps have been fastened.
When the primary latch means comprises the latch member mentioned above, the secondary latch means may comprise a portion of the latch member which is engageable with the secondary strap-attachment member only when the latch member is in its engaged position. For example, the secondary latch means may comprise co-operating formations on the latch member and the secondary strap-attachment member which is insertable through an appropriately-positioned aperture in the buckle body, the latch member, when moving to its engaged position, moving to a position in which the secondary strap-attachment member, when inserted through the aperture, contacts the latch member and engagement of the co-operating formations takes place.
When the resilient biassing means mentioned above acts on the latch member, the latch member, in its engaged position, may move against the resilient biassing means to allow locking of the secondary strap- attachment member to take place, such movement of the latch member being insufficient to cause disengagement
of it from the tongue to take place. With buckles of this construction, both the primary and the secondary latch means will be released by movement of the above-mentioned operating member.
Two embodiments of the invention will now be described by way of example with reference to the drawings, of which:
Figure 1 is a plan view of the main components of a first buckle.
Figure 2 is a side view, mostly in longitudinal section, of most parts of the buckle of Figure 1 ,
Figure 3 is an exploded perspective view of some parts of the buckle of Figures 1 and 2, and
Figure 4 is a plan view of the main components of a second buckle.
In the following description, terms such as "upper" and "lower" refer to the orientation of the buckle shown in Figure 2. This is for ease of description only and the buckle can of course be used in any orientation.
As shown in Figure 1 , the first buckle has a body 7. a tongue 10, a first supplementary connecting member 8, a second supplementary connecting member 9 and a crotch strap connecting member 15. These parts are shown in Figure 1 orientated ready for connection together.
From here on, the end of the body 7 which is on the right in Figure 1 will be referred to as the "forward" or "front" end. The terms "rearward" and "rear" should be construed accordingly.
Referring now to Figures 1, 2 and 3, the body 7 will be seen to comprise a frame 1, a lockplate 2, an inhibitor 3, a spring 4 and upper and lower half- bodies 5, 6. These latter and the inhibitor 3 are moulded from plastics material, whilst the frame 1, lockplate 2 and spring 4, together with the two
supplementary connecting members 8, 9 and the tongue 10 are of steel. The buckle is intended to be used in the harness of a child's safety seat and, for such an application, the frame 1 and tongue 10 have elongate slots 11, 12 through which the lap straps of the harness are looped and secured to themselves by stitching. In a similar manner, the supplementary connecting members 8, 9 have openings 13, 14 for the shoulder straps of the harness. Likewise, the crotch strap connecting member 15 has an opening 16 for attachment of the crotch strap. The slot 12 is formed in a wider portion 70 of the tongue which narrows by way of shoulders 71 at each side to an insertion portion • 72. As can be best seen in Figure 3 of the drawings, the frame 1 has four tabs 17 which are arranged in opposed pairs at respective sides of the plate and which first bend down from the main plane of the plate and then extend inwardly parallel to the plane of the frame to form guide surfaces 18 between which and guide portions 19 of the frame 1 the tongue 10 is slidable upon insertion into and removal from the body part 7. The shape of the lockplate 2 is also best seen from Figure 3 from which it will be clear that the tabs of the pair of tabs 17 and the guide portions 19* are spaced-apart to form a transverse slot 20 in which the lockplate 2 is guided to move in a plane substantially perpendicular to that in which the tongue 10 moves into and out of the frame 1. The lock- plate 2 has a central aperture 21 through which the tongue extends when the tongue is received in the body. The aperture 21 is generally rectangular and has on its lower edge a central locking portion 22 which engages in a rectangular aperture 23 in the insertion portion
72 of the tongue 10 in the locked condition of the buckle,
The inhibitor 3 is also shown in Figures 2 and 3 and it will be seen that this moulding of plastics material has a central transverse slot 24 in which the lockplate 2 is received. The rear wall of the slot 24 has two forwardly-projecting lockplate- retaining portions which have ramped lower surfaces 26, 27 which can engage the lower edge of the lockplate aperture 21 at respective sides of the locking portion 22. At its rear end, the inhibitor 3 has a pair of outwardly-extending resilient integral spring portions 28, 29 which engage the lower half-body 6 and urge the inhibitor 30 forwardly in the body 7. In the forward position of the inhibitor 3, the ramped surfaces 26, 27 extend over the lower edge of the lockplate aperture 21 and prevent the lockplate from moving upwardly in the body 7.
The spring 4 is shown in Figures 2 and 3. It will be seen that it has a spine 30 and three resilient tines 31, 32 and 33, the central one 32 of which is longer than the outer two and curls downwardly to pass through an opening 39 in the centre of the rear guide portion 19 of the frame 1 to form an ejector spring for ejection of the tongue 10 from the body 7. The spine 30 has a longitudinal flange 36 which has locking tabs 37 on it and engages in a slot 38 adjacent the rear of the frame 1 , the tabs 37 engaging under the frame to retain the spring. The outer tines 31, 33 extend upwardly from the spine 30 and engage in recesses 34, 35 in the upper corners of the lockplate aperture 20 and urge the lockplate 2 upwardly in the body 7. When the inhibitor 3 is in its forward position, this upward movement of the lockplate 2 is prevented by engagement of the ramped surfaces 26, 27 on the lower "
edges of the aperture 20.
The lower half-body 6 is a moulding of plastics material and has a hollow interior in the rear corners of which the spring portions 28, 29 of the inhibitor 3 are located. The lower half-body also has respective slots 46 in its side walls for reception of the lockplate 2, a recess 41 in its forward edge for the tongue 10 and a slot 42 for the flange 36 of the spring 4 in the upper surface of its rear wall. A central portion 45 of the recess 41 is of increased depth and accommodates a forwardly-extending operating portion 40 of the inhibitor 3. A further recess 44 in one side wall of the lower half-body 6 can receive a tongue portion 68 of the crotch strap connecting member 15 (see Figure 1).
The upper half-body 5 is also a moulding of plastics material and secured to the lower half-body 6 by integrally-moulded latches (not shown) on the two half-bodies, the frame 1 being secured to the lower half-body by similar latches (also not shown) . In its upper surface, the upper half-body has an operating button 48. The operating button 48 is hinged to the upper half-body 5 by an integral hinge portion 49 extending along the rear edge of the button 48. The lower surface of the operating button 48 abuts the upper edge of the lockplate 2 when the lockplate is in its upper position in which the locking portion 22 engages the aperture 23 of the tongue 10, depression of the operating button 48 from this position into the interior of the upper half-body 5 causes downward movement of the lockplate 2 against the bias of the spring . This downward movement of the operating button 48 will therefore release the lockplate locking portion 22 from the aperture 23 in the tongue
10 and the central tine 32 of the spring 4 acting on the leading edge of the tongue 10 will eject the-tongue 10 from the body 7.
The supplementary connecting members 8, 9 are shown in Figures 1 and 2 of the drawings and it will be seen that the first member 8 has a main flat part 50 containing the aperture 13 and, along one edge, an upstanding flange 52 which has in it a slot 53 through which the tongue 10 can pass. The flange 52 also carries a projecting tab 54 which is dimensioned to be received in the deeper central portion 45 of the recess 41 and to abut the forward end of the operating portion 40 of the inhibitor 3 when the first supplementary connecting member is correctly assembled with the body 7. The second supplementary connector member 9 has a main flat part 58 containing the aperture 14 and also an upstanding flange 59, also having a slot 60 through which the tongue 10 can pass. The crotch strap connecting member 15 has a tongue portion 68 which can be inserted through the aperture formed in the side body 7 by the recess 44. The tongue portion 68 of the connecting member 15 has an opening 66 in which a hook portion 67 at one side of the lockplate 2 engages when the tongue portion 60 is inserted through the side-wall opening. Upon such insertion, abutment of the tongue portion 65 upon an inclined upper surface 69 of the lockplate hook portion 67 causes the lockplate to move downwardly and thus allow the tongue 68 to pass over the portion 67 and the hook to engage in the opening 66. Such downward movement of the lockplate is riot sufficient to cause disengagement of its locking portion 22 from the aperture 23 in the tongue 10.
The operation of the first buckle when used in connecting together the lap, shoulder and crotch straps of a safety harness will now be described. It is assumed that the buckle is in an out-of-use condition in which the harness straps are unconnected and the lockplate 2 is held in its lower position by the inhibitor 3. The tongue 10 is now threaded through the slots 53, 60 in the supplementary connecting members 8, 9, movement of the supplementary connecting members towards the wider tongue portion 70 being prev¬ ented by abutment of the flange 59 on the second supplementary member 9 against the shoulders 71 on the tongue and by abutment of the flange 52 of the first supplementary member 8 against the flange 59 of the second member 9. The insertion portion 72 of the tongue is then inserted through the opening in the front of the body 7 formed by the recess 41.
Upon insertion, the insertion portion 72 moves into the slot formed in the frame 1 between the guide surfaces 18 of the tabs 17 and the guide portions 19 of the frame and, during insertion, the projecting tab 54 on the first supplementary connecting member 8 moves into the aperture formed by the deeper recess portion 45 and contacts the operating portion 40 of the inhibitor 3. Such contact causes rearward movement of the inhibitor 3 against the bias of its spring portions 28, 29 and, as a consequence, the lockplate 2 is allowed to move progressively upwards under the action of the outer tines 31 , 33 of the spring 4 by virtue of sliding movement of the ramped surfaces 26, 27 on the lower surfaces of the aperture 20. When the lockplate 2 has been released from the inhibitor 3, it will be continued to be urged upwards in the slot 24 and its central locking portion 22 will become
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engaged in the aperture 23 in the tongue 10. Further upward movement under the influence of the spring 4 results in the locking portion 22 becoming held in the slot 20 between the guide portions 19 of the frame 1. The tongue 10 is thus locked in the body.
So that the presence of the second supplementary connecting member 9 is essential for the buckle parts to become locked together, the length of the tab 54 is chosen such that an attempt to lock the body 7, tongue 10 and first supplementary connecting member 8 together would be unsuccessful because insertion of the tongue would be limited by abutment of the leading end of the tongue with the lower half-body 6 before sufficient rearward movement of the inhibitor 3 for release of the lockplate 2 had taken place.
When it is desired to release the tongue from the body, the operating button 48 of the half-body 5 is depressed and the lockplate 2 consequently moved downwards into its locking portion 22 is freed from the aperture 23. The tongue 10 is now disengaged from the body 7 and the central tine 32 of the spring 4 acts on the inner end of the tongue 10 to eject the tongue from the body. During the final stage of the lockplate's downward movement, the inhibitor is moved forwards by the restoring force 5 of the spring portions 28, 29 and the retaining portions projecting into the inhibitor slot 24 are urged over the lower edge of the lockplate aperture 21. The lockplate is thus retained in its lower position and the buckle is returned to its out-of- use condition.
After assembly of the tongue 10 and supplementary connecting members 8, 9 to the body 7, the crotch strap connecting member 15 can be inserted through its opening in the side of the body and the opening 66 in its tongue part 68 thus becomes engaged on the hook portion 67 of the lockplate 2. If it is attempted to lock the crotch strap connecting member to the body 7 before the tongue and supplementary members have been locked to the body, locking will not be possible because the lockplate will be held in its lower position by tne inhibitor 3 and the hook portion 67 will be below the level of the side opening in the body.
Figure 4 of the drawings shows a second buckle which is suitable for use with a three-strap safety harness. One strap of the harness is a crotch strap 80 which is attached to the buckle body 81. The other two harness straps (not shown) are shoulder straps which are connected through slots 82, 83 in a tongue 84 and a supplementary connecting member 85. The internal construction of the buckle body is identical to that
shown in Figures 1 , 2 and 3. The supplementary connecting member 85 has an upstanding flange 86 having in it a slot 87 through which an insertion portion 88 of the tongue 84 can pass until lateral shoulders 90 on the tongue 84 abut the flange 86. The flange 86 also has a projecting tab 89 which is received in an opening in the forward edge of the body 81 to abut an operating portion of the inhibitor inside. Assembly and operation of this second buckle are substantially identical to those of the first buckle except that there is only one supplementary connecting member through which the tongue must pass and that there is no separate crotch strap to fasten.
It will be noted that in both buckles described above, it is not possible to lock the tongue 10 or 84 into the body 7 or 81 without also assembling the supplementary connector member(s) 8, 9 or 82 with the tongue or body. In both buckles, absence of the supplementary connector member(s) 8, 9 or 82 in their correct positions for locking to the tongue and body means that the inhibitor 3 prevents upward movement of the lockplate 2 and locking of the buckle. Consequently, with the first buckle it is not possible to fasten the buckle with fewer than both lap and both shoulder straps connected together and, with the second buckle, the buckle cannot be fastened unless both shoulder straps are connected to the crotch strap. However, the crotch strap of a harness including the first buckle cannot be connected to the buckle body until all three other steps have been connected. Accordingly, if lap and shoulder straps are termed "obligatory" under safety regulations and a crotch strap is termed "optional", both buckles will meet requirements of the regulations that a buckle
cannot be locked with fewer than all the obligatory harness straps being present for connection and that any optional strap of the harness can only be connected after connection of all obligatory straps. It should also be noted that the lockplate of both buckles moves from its lower position to its upper, locking position only when the aperture in the buckle tongue is positioned to receive the locking portion of the lockplate. Thus, in both buckles, the lockplate moves directly into the tongue aperture without being guided by the tongue or the walls of the aperture. This leads to particularly safe and reliable locking of the buckle and avoids the possibility of the lockplate and tongue becoming jammed together without proper latching having taken place.