Drawers used with units such as cabinets, chests, and various appliances often utilize telescoping slides to guide the drawer in extending or retracting directions, for example, to access the contents of the drawer and then return the drawer to a stored position within the unit. A slide may reduce resistance in moving the drawer, for example, through the use of rollers or ball bearings received in aligned tracks assembled with the drawer and unit. This type of drawer slide arrangement relies on rolling of the ball bearings or rollers to reduce friction forces experienced by the sliding drawer. However, to provide sufficient support and reduced friction between the aligned tracks, a linear arrangement of many ball bearings or rollers may be required. To facilitate rolling of the ball bearings, lubrication may be required, which may add cost and time to the assembly process and may contaminate or degrade other portions of the cabinet during assembly and use. Further, to reduce wear of the ball bearings, for example, from metal to metal contact, these ball bearings may need to be hardened or otherwise treated to eliminate worn or flat spots on the balls that affect their ability to roll, and in turn, reduce friction. The resulting quantity of components and types of manufacturing operations required may result in added cost to the drawer slide.
The present application contemplates a drawer slide assembly utilizing non-rolling sliding bearing components, for example, to reduce the number and cost of components utilized and to improve assembly efficiency.
Accordingly, in one exemplary embodiment, a drawer slide mechanism includes at least first and second slide members, with the second slide member being telescopically and movably received by the first slide member in an axial direction. First and second elongated bearing members are disposed laterally between, and in non-rolling sliding engagement with, corresponding inner surfaces of the first slide member and outer surfaces of the second slide member. The first and second elongated bearing members are configured to slide independently of each other.
Features and advantages of the invention will become apparent from the following detailed description made with reference to the accompanying drawings, wherein:
This Detailed Description merely describes embodiments of the invention and is not intended to limit the scope of the claims in any way. Indeed, the invention as claimed is broader than and unlimited by the embodiments described herein, and the terms used have their full ordinary meaning.
According to an inventive aspect of the present application, a drawer slide assembly for slideably connecting a drawer with a unit, such as, for example, a cabinet, chest, or appliance, includes a drawer slide member attached to the drawer and a unit slide member attached with the unit. The slide members may be attached to the drawer and unit using any suitable arrangement, including, for example, by an adhesive, screws, or other such fasteners.
To facilitate movement of the drawer and unit slide members with respect to each other, one or more low friction bearing members may be positioned between the slide members. In one embodiment, a low friction bearing member may be disposed directly between the drawer and unit slide members for sliding movement of the drawer slide member with respect to the unit slide member. The bearing member prevents contact between the adjacent slide members, and, in the case of metal slide members, may prevent binding and galling often associated with metal to metal contact. The reduced friction of these sliding surfaces may facilitate smoother, quieter, and more effortless movement of the drawer between extended and retracted positions. In one example, a bearing member may include an intermediate or center slide member having low friction bearing surfaces positioned to be in sliding engagement with the drawer and unit slide members. In another example, as illustrated in
In another embodiment, a drawer slide mechanism may include three rails or slide members—a first slide member for attachment to one of a drawer and a storage unit; a second slide member telescopically received by (or receiving) the first slide member and axially slideable with respect to the first slide member; and a third slide member telescopically received by (or receiving) the second slide member and axially slideable with respect to the second slide member for attachment to the other of the drawer and storage unit, the third slide member being configured to be attached to the other of the drawer and the storage unit. Use of three telescoping slide members may, for example, allow for extended sliding movement of a drawer with respect to a storage unit, while providing sufficient support and stability for the drawer and its contents. In one embodiment, one or more bearing members may be disposed between the first and second slide members for sliding movement of the second slide member with respect to the first slide member. Further, one or more bearing members may be disposed between the second and third slide members for sliding movement of the third slide member with respect to the second slide member.
Many different low friction materials may be utilized as bearing members, including, for example, low friction plastics such as nylon, acetal resin (DELRIN®), or ultra high molecular weight polyethylene (UHMWPE). Further, a material may be impregnated with a lubricant to further reduce friction; one example of such a material is nylon 6/6 impregnated with molybdenum disulfide. By using a low friction bearing member, a rolling mechanism, as is used with a ball bearing or roller type assembly, may not be required, as the low friction intermediary bearing members facilitate freely sliding movement of the slide members with respect to each other.
Many different types of bearing members may be utilized between the slide members of a drawer slide assembly. According to one inventive aspect of the present application, one or more elongated bearing members may be disposed between contoured surfaces of slide members, providing bands of contact between the low friction bearing members and the adjacent slide members, as compared to the more focused point contact of a ball bearing. While these bearing members may be provided in may different shapes (e.g., rectangular in cross section), in one embodiment, the bearing members may be cylindrical, or substantially circular in cross section, for sliding engagement with corresponding arcuate surfaces of the adjacent slide members. In one example, a bearing member may be a cylindrical rod sized to replace a conventional set of ball bearings in a conventional drawer slide assembly. A greater distribution of contact force resulting from this band of contact may further reduce resistance during operation of the drawer.
Disposed between the center slide member 20 and the drawer and unit slide members 30, 40 are rod shaped bearing members 53, 54, which may be provided in a low friction material, such as nylon. The bearing members 53, 54 may be configured to travel with the center slide member 20 as the drawer slide member 30 is moved with respect to the unit slide member 40. This may be accomplished, for example, by staking the bearing members 50 into engagement with the center slide member 20. In another embodiment, each of the bearing members 53, 54 may be configured to independently slide with respect to the adjacent slide members 20, 30, 40 along a range of axial movement. Axial movement of the bearing members 53, 54 may be limited, for example, by protrusions, tabs, or other stops on the slide members 20, 30, 40 to engage the bearing members 53, 54 at desired limit positions. Likewise, stops may be provided on the slide members 20, 30, 40 to limit the range of movement of the adjacent slide member or members. In one embodiment, the center slide member 20 may be permitted to extend approximately half way out of the unit when the drawer is extended from the unit. For example, as shown in
According to another inventive aspect of the present application, a drawer slide assembly may further include slide members with low friction surfaces for slideably engaging low friction bearing members, for even further reduced friction between the slide members during operation of the drawer slide assemblies. While the slide members may be constructed from a lower friction material, in another embodiment, a low friction coating (e.g., nylon) may be applied to the bearing member engaging surfaces of the slide members for reduced friction. The contours and shapes of these bearing member engaging surfaces of the slide members may be varied, for example, to take into consideration area of surface contact with low friction coatings, manufacturability of the slide members, durability of the coatings and/or slide members, size restrictions, and adequate strength and support of the drawer (and its contents) during operation of the drawer slide assemblies, and other such factors.
Many different methods may be used to adhere the bearing coatings to the slide members. As one example, a thin adhesive coating, such as, for example, SANTOPRENE®, may be applied to the slide member to facilitate adhesion of the low friction coating to the slide member. In one embodiment, a coated slide member may be formed using a combined process in which the metal (e.g., steel) slide member is roll formed into an extruder to combine with an extruded thermoplastic coating, a process known in the art as ROLLTRUSION™.
In another embodiment, bearing member engaging surfaces of the slide members may be configured to reduce the contact surface areas between the slide members and the bearing members, which may further reduce friction. While many different arrangements may be utilized to reduce these contact surface areas, in one embodiment, as shown in
While bearing members or coated bearing surfaces may be provided in a compressible material to accommodate dimensional variances in the slide members of a drawer slide assembly, reduced contact surface areas may also reduce friction resulting from these variances. According to another inventive aspect of the present application, contact surface areas between slide members and bearing member of a drawer slide assembly may be reduced by providing a bearing member with a plurality of axially spaced bearing portions separated by web portions that are spaced apart from the bearing member engaging surfaces of the slide members. The bearing portions may be provided in any suitable shape or contour, including, for example, cylindrical or spherical portions. Further the web portions may be provided in a material or thickness configured to allow bending or flexure of the flexible web portions, thereby allowing for independent lateral movement of each of the bearing portions with respect to the other bearing portions.
According to another inventive aspect of the present application, a center slide member may be adapted to function as a bearing member, thereby eliminating the need for additional bearing members (e.g., ball bearings or other rolling or sliding components) between the drawer and unit slide members. In one embodiment, points of engagement between a center slide member and drawer and unit slide members may include low friction coatings, such as those described above, on one or more of the slide members to reduce friction between adjacent slide members during operation of the drawer slide assemblies. As one example, a slide member may be provided with low friction material coatings on a first side for sliding engagement with the drawer slide member, and low friction material coatings on a second side for sliding engagement with the unit slide member. These coatings may be positioned to eliminate rubbing or binding of the adjacent slide members, as well as to center each slide member with respect to the other slide members, and to minimize pivoting or rotation of each slide member with respect to the other slide members. Further, the corresponding contours and shapes of the slide members may be varied, for example, to take into consideration area of surface contact with low friction coatings, manufacturability of the slide members, durability of the coatings and/or slide members, size restrictions, and adequate strength and support of the drawer (and its contents) during operation of the drawer slide assemblies, and other such factors.
The exemplary center slide member 320 includes laterally outer bearing surfaces 353, 354 positioned to be in sliding engagement with laterally outer portions of the drawer and unit slide members 330, 340. As shown, the outer bearing surfaces 353, 354 may be laterally spaced from a lateral center line of the slide members 320, 330, 340 by a non-bearing portion of the center slide member 320. These outer bearing portions 353, 354 may face partially laterally (i.e., across each slide member), for example, to facilitate centering of the slide members 320, 330, 340 with respect to each other, and partially radially (i.e., between the slide members), for example, to prevent contact between adjacent slide members 320, 330, 340.
The exemplary center slide member 320 also includes laterally central bearing surfaces 355, 356 positioned to be in sliding engagement with laterally central portions of the drawer and unit slide members 330, 340. As shown, the central bearing surfaces 355, 356 may be positioned along a lateral center line of the slide members 320, 330, 340. These central bearing surfaces 355, 356 face radially, for example, to resist contact between the adjacent slide members 320, 330, 340. In other embodiments, central bearing surfaces may face at least partially laterally to facilitate centering of the slide members with respect to each other.
The exemplary center slide member 420 includes laterally outer bearing surfaces 453, 454 positioned to be in sliding engagement with laterally outer portions of the drawer and unit slide members 430, 440. As shown, the outer bearing surfaces 453, 454 may be laterally spaced from a lateral center line of the slide members 420, 430, 440 by a non-bearing portion of the center slide member 420. Further, the bearing surfaces 453 for engaging the drawer slide member 430 may be laterally spaced from the bearing surfaces 454 for engaging the unit slide member by non-bearing portions of the center slide member 420. These outer bearing portions 453, 454 may face partially laterally (across each slide member), for example, to facilitate centering of the slide members 420, 430, 440 with respect to each other, and partially radially (between the slide members), for example, to resist contact between adjacent slide members 420, 430, 440.
The exemplary center slide member 520 includes laterally outer bearing surfaces 553, 554 positioned to be in sliding engagement with laterally outer portions of the drawer and unit slide members 530, 540. As shown, the outer bearing surfaces 553, 554 may be laterally spaced from a lateral center line of the slide members 520, 530, 540 by a non-bearing portion of the center slide member 520. These outer bearing portions 553, 554 may face partially laterally (across each slide member), for example, to facilitate centering of the slide members 520, 530, 540 with respect to each other, and partially radially (between the slide members), for example, to resist contact between adjacent slide members 520, 530, 540. As shown, the unit slide member 540 may be provided with corresponding low friction coated surfaces 544 positioned to engage the outer bearing surfaces 554.
The exemplary center slide member 520 also includes a laterally central bearing surface 555 positioned to be in sliding engagement with a laterally central portion of the drawer slide member 530. As shown, the central bearing surface 555 may be positioned along a lateral center line of the slide members 520, 530, 540. The central bearing surface 555 may face partially laterally (across each slide member), for example, to facilitate centering of the slide members 520, 530 with respect to each other, and partially radially (between the slide members), for example, to resist contact between adjacent slide members 520, 530. As shown, the drawer slide member 530 may be provided with corresponding low friction coated surfaces 535, 536 positioned to engage the central bearing surfaces 555.
The exemplary drawer and unit slide members 630, 640 include laterally outer bearing surfaces 633, 644 positioned to be in sliding engagement with laterally outer portions of the center slide member 620. As shown, the outer bearing surfaces 633, 644 may be laterally spaced from a lateral center line of the slide members 620, 630, 640 by a non-bearing portion of the center slide member 620. The arcuate outer bearing portions 633, 644 face partially laterally (across each slide member), for example, to facilitate centering of the slide members 620, 630, 640 with respect to each other, and partially radially (between the slide members), for example, to resist contact between adjacent slide members 620, 630, 640.
While various inventive aspects, concepts and features of the inventions may be described and illustrated herein as embodied in combination in the exemplary embodiments, these various aspects, concepts and features may be used in many alternative embodiments, either individually or in various combinations and sub-combinations thereof. Unless expressly excluded herein all such combinations and sub-combinations are intended to be within the scope of the present inventions. Still further, while various alternative embodiments as to the various aspects, concepts and features of the inventions—such as alternative materials, structures, configurations, methods, circuits, devices and components, software, hardware, control logic, alternatives as to form, fit and function, and so on—may be described herein, such descriptions are not intended to be a complete or exhaustive list of available alternative embodiments, whether presently known or later developed. Those skilled in the art may readily adopt one or more of the inventive aspects, concepts or features into additional embodiments and uses within the scope of the present inventions even if such embodiments are not expressly disclosed herein. Additionally, even though some features, concepts or aspects of the inventions may be described herein as being a preferred arrangement or method, such description is not intended to suggest that such feature is required or necessary unless expressly so stated. Still further, exemplary or representative values and ranges may be included to assist in understanding the present disclosure; however, such values and ranges are not to be construed in a limiting sense and are intended to be critical values or ranges only if so expressly stated. Moreover, while various aspects, features and concepts may be expressly identified herein as being inventive or forming part of an invention, such identification is not intended to be exclusive, but rather there may be inventive aspects, concepts and features that are fully described herein without being expressly identified as such or as part of a specific invention. Descriptions of exemplary methods or processes are not limited to inclusion of all steps as being required in all cases, nor is the order that the steps are presented to be construed as required or necessary unless expressly so stated.
This application claims the benefit of U.S. Provisional Patent Application Ser. No. 60/861,878, entitled “DRAWER SLIDE” and filed Nov. 30, 2006, the entire contents of which are incorporated herein by reference, to the extent that they are not conflicting with the present application.
Number | Date | Country | |
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60861878 | Nov 2006 | US |