The present invention relates to child seats and the like and more particularly to a rugged, substantially child proof safe buckle.
Child seats such as seats employed in cars and airplanes, as well as other forms of transportation, carriages, strollers and swing seats, to name just a few. It is necessary to provide a buckle which is child-safe, easy to use and child proof and having a design which provides a high level of rugged and continuous service.
The present invention is characterized by comprising a buckle assembly having a main body to which a pair of male members are releasably connected. Each male member has a positioning projection with slot for receiving a guide rib provided in the main body of the buckle as well as a flexible locking projection provided with a hook which is releasably locked within the body of the buckle. A spring-loaded buckle button is normally biased in a first direction away from the male buckle members to enable the male buckle members to be retained in the locked position. The buckle button, when moved in a second direction against the biasing force of the integral spring member, is provided with a pair of cam surfaces which slideably engage cam-follower surfaces on the hook projection of the male hook member to urge them away from cooperating locking members provided in the hollow buckle body.
A substantially U-shaped bottom bar is provided with a pair of integral arms each having a hook with protrudes though an associated opening in the buckle body to retain the buckle bottom locked in the buckle body.
The individual components are rugged and capable of providing a long, useful operating life while at the same time being capable of being inexpensively molded. All of the components are preferably formed of a suitable plastic or reinforced plastic material, further reducing manufacturing costs while providing a rugged, child-proof design. The buckle bottom bar and the male hook members are provided with elongated openings for receiving a webbing belt. In cases where a wide crotch strap is employed for use of the buckle in strollers or the like, the wide strap may be wrapped about the yoke portion of the bottom buckle bar.
The buckle is easy to use by adults and yet child-proof, thereby providing a safe and rugged buckle assembly adaptable for use in a wide variety of child and infant seats and other like devices.
The present invention will be understood from a consideration of the detailed description and drawings, wherein like elements are designated by like numerals and, wherein:
Making reference to
The bottom buckle bar 30 is a substantially U-shaped member having a yoke portion 31 with a elongated opening 31a for receiving a belt webbing W1, shown in dotted fashion. A pair of arms 32 and 33 integral with yoke portion 31 both extend in the same direction at opposite ends of the yoke portion and are provided with end projections 32a, 33a each having an integral hook-shaped projections 34, 35 so that their lower ends 34b, 35b project further away from the arms 32 and 33, thereby providing sloping surfaces 34c, 35c.
The arms 32 and 33 are slideably inserted into the bottom end of hollow buckle body 20, which is provided with pairs of integral guides 21 which align and guide the hooks, such as hook 34, into the interior of buckle housing 20. Buckle housing 20 is further provided with rectangular-shaped openings 22 each conforming in shape to and receiving one of the locking projections 34, 35. Making reference to
Each arm 32, 33 of bottom bar 30 is provided with a shoulder 32b, 33b which rests against a cooperating surface of wall portions 23c, 23c which form part of a substantially S-shaped wall comprised of wall portions 23a, 23b, 23c, 23d and 23e, when the bottom bar 30 is properly seated within buckle housing 20. The bottom bar 30, once inserted into the buckle housing 20 is designed so as to be permanently retained within the buckle housing. Providing the buckle housing and bottom bar as two separate components significantly simplifies production costs by enabling the buckle housing and bottom bar to be separately molded or otherwise produced.
The male buckle members 40 and 50 are substantially identical in both design and function and only one is shown in detail in
Male buckle members 40, 50 are further provided with an intergral locking projection 43, 53 extending downwardly from body portion 41, 51 and having a hook-shaped end 44, 54 comprised of a sloping surface 44a, 54a and a hook-shaped portion 44b, 54b.
The upper end of buckle housing 20, as show in
The buckle release button 60, shown in detail in
Opposite side surfaces of body 61 are each provided with an elongated slot 61a, 61a and opposite side surfaces of end portion 63 are each provided with a slot 63a, 63b, which slots receive cooperating guide ribs arranged along opposite interior surfaces of the buckle body 20. The slots 61a and 63a taper outwardly at 61a-1 and 63a-1 to facilitate insertion of the button assembly into buckle body 20.
The bottom end of buckle housing 20 is further provided with flexible wall portions 23b each being joined to adjacent wall portions 23a, as shown in
Button assembly 60 is assembled to button body 20 by insertion through the bottom end of the buckle body and is pushed into buckle body, moving in the direction of arrow A shown in
As was mentioned above, each male buckle member 40, 50 is inserted into the buckle housing and guided by the ribs such as ribs 24 to be assured that they are properly positioned. The sloping surfaces 54a, 44a slide against the outer surfaces of downwardly extending wall portions 27a, 28a and are flexed away from one another until they clear the free ends 27a-1, 28a-1 of members 27a, 28a whereupon they snap into the locked positions shown in
To release the male buckle members 40 and 50, the button body 61 is moved upwardly in the direction shown by arrow A in
The wall portions 23c, 23d and 23e of S-shaped walls 23 conform to the shape of portions 32a, 32b of bottom bar 30 and the wall portions 23d, 23c and 23a conform to the shape of the positioning arms 52, 42 of male buckle members 50, 40 whereby the walls 23 are common to member 50 and arm 32 and member 40 and arm 33, thereby providing a unique common wall for positioning and supporting two members on opposite sides thereof when inserted into the buckle body.
The symmetrical design of the buckle assembly of the present invention enables both male buckle members to be unlatched simultaneously using a single, common release button, in contrast to present day designs in which each of the shoulder straps require a separate latching mechanism and typically require that each latch be provided with not one but two flexible latching arms, each latch assembly requiring an opening operation independent of one another. In addition, as an important safely feature the design of the latching assembly of the present invention, the operating portion of the release button is removed from the flexible hook members of the male buckle members and the hook-shaped members concealed within the buckle housing to prevent the fingers of the person releasing the latched male projection members from having his (her) fingers pinched. In addition, the unique design permits all of the components to be produced in a simple molding operation. The biasing member 62 and flexing arms 43, 53 and 23b, 23b are respectively integral portions of the button, male buckle members and wall 23 while providing a design in which conventional fasteners are totally eliminated and the number of components are significantly reduced as compared with conventional designs.
The buckle assembly of the present invention has a design which facilitates molding of all of the components which are rugged and provide a long, useful operating life.
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Number | Date | Country | |
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20080010790 A1 | Jan 2008 | US |