Dishwashers are provided with an interior wash chamber or tub into which one or more racks or baskets are designed to hold dishware within the interior of the tub during operation of the dishwasher. A plurality of tines are positioned within the rack to support various dishware for optimum cleaning and to provide a separation between dishware items such as glasses, plates, and bowls to avoid breakage. Some tines are mounted to tine arms that can be rotated to a fully upright position or to a fully down position to facilitate positioning of dishware items for cleaning. Nevertheless, it remains difficult to adequately support odd sized dishware for optimal cleaning and breakage avoidance.
In an example embodiment, a dual tine system for a rack is provided. The dual tine system includes, but is not limited to, a gear hub, a right gear tooth device, a left gear tooth device, a right tine arm, a plurality of right tines, a left tine arm, and a plurality of left tines. The gear hub is configured to mount to a rack frame. The gear hub includes, but is not limited to, a hub body, right teeth that extend from the hub body, and left teeth that extend from the hub body to the left of the right teeth. The right gear tooth device is mounted to the hub body to support rotation of the right gear tooth device relative to the gear hub. The right gear tooth device includes, but is not limited to, a right gear tooth body, and a right gear tooth that extends from the right gear tooth body. The right gear tooth is configured to fit within a right valley defined between a pair of teeth of the right teeth. The left gear tooth device is mounted to the hub body adjacent a left side of the right gear tooth device to support rotation of the left gear tooth device relative to the gear hub. The left gear tooth device includes, but is not limited to, a left gear tooth body, and a left gear tooth that extends from the left gear tooth body. The left gear tooth is configured to fit within a left valley defined between a pair of teeth of the left teeth. The right tine arm is mounted to the right gear tooth device and to the rack frame to rotate with the right gear tooth device and to extend horizontally from the right gear tooth device. The plurality of right tines is mounted to the right tine arm. Each tine of the plurality of right tines extends from the right tine arm at a first angle. The left tine arm is mounted to the left gear tooth device and to the rack frame to rotate with the left gear tooth device and to extend horizontally from the left gear tooth device. The plurality of left tines is mounted to the left tine arm. Each tine of the plurality of left tines extends from the left tine arm at a second angle.
In another example embodiment, a rack for a dishwasher is provided. The rack includes, but is not limited to, a rack frame and the gear hub mounted to the rack frame.
In yet another example embodiment, a dishwasher is provided. The dishwasher includes, but is not limited to, a body, a tub bottom wall mounted within the body, a door, a hinge pivotally mounting the door to the body, a rack, a fluid supply system mounted to the body, and the gear hub. The rack is mounted within the body above the tub bottom wall and configured to hold dishware. The rack includes, but is not limited to, a rack frame and a sliding mechanism mounted to the rack frame to provide movement of the rack relative to the body. The gear hub is mounted to the rack frame. The fluid supply system is mounted to the body and includes, but is not limited to, a wash pump, a conduit mounted to the wash pump, and a spray arm configured to mount to the conduit to receive liquid from the wash pump. The spray arm comprising a hole through which the liquid received from the wash pump is sprayed when the dishwasher is used.
Other principal features and advantages will become apparent to those skilled in the art upon review of the following drawings, the detailed description, and the appended claims.
Illustrative embodiments of the disclosed subject matter will hereafter be described with reference to the accompanying drawings, wherein like numerals denote like elements.
Referring to
Door 102 rotates from a vertical position to a horizontal position as understood by a person of skill in the art though door 102 may rotate in other directions in alternative embodiments. A plurality of hinges such as a right hinge 122 pivotally mount door 102 to body 104 proximate a lower edge of door 102. In the illustrative embodiment, door 102 rotates downward to provide access to wash tub 200. In an alternative embodiment, dishwasher 100 may be implemented as a drawer type dishwasher in which door 110 slides out from body 104.
Wash tub 200 may include one or more racks on which dishware or other items are placed for washing and/or rinsing. For example, dishwasher 100 includes a top dishware rack 116 and a bottom dishware rack 118. Dishwasher 100 may include one or more additional racks above and/or below top dishware rack 116 and/or bottom dishware rack 118. For example, a third rack 312 (shown referring to
Wash tub 200 may include one or more spray arms that spray a washing fluid on the dishware loaded on the one or more racks. For example, dishwasher 100 may include a lower spray arm 204, an upper spray arm 300 (shown referring to
Use of directional terms, such as top, bottom, right, left, front, back, upper, lower, etc. are merely intended to facilitate reference to the various surfaces of the described structures relative to the orientations shown in the drawings and are not intended to be limiting in any manner. For example, front is with reference to a front of dishwasher 100 as defined by a location of door 102.
As used herein, the term “mount” includes join, unite, connect, couple, associate, insert, hang, hold, affix, attach, fasten, bind, paste, secure, bolt, screw, rivet, solder, weld, glue, form over, form in, layer, mold, rest on, rest against, abut, and other like terms. The phrases “mounted on”, “mounted to”, and equivalent phrases indicate any interior or exterior portion of the element referenced. These phrases also encompass direct mounting (in which the referenced elements are in direct contact) and indirect mounting (in which the referenced elements are not in direct contact, but are connected through an intermediate element). Elements referenced as mounted to each other herein may further be integrally formed together, for example, using a molding or thermoforming process as understood by a person of skill in the art. As a result, elements described herein as being mounted to each other need not be discrete structural elements. The elements may be mounted permanently, removably, or releasably unless specified otherwise.
Dishwasher 100 may include a greater or a fewer number of components than those illustrated. The one or more components of dishwasher 100 may be formed of one or more materials, such as various metals, glass, elastomeric material, and/or plastics having a sufficient strength and rigidity to support the described application.
Referring to
Referring to
Referring to
In the illustrative embodiment, bottom dishware rack 118 includes a bottom rack frame 400, a right plurality of wheels 402, and a left plurality of wheels 404. Rack frame 400 includes a plurality of stacked coated wires that generally form a rectangular shape though other shapes may be formed. Rack frame 400 is configured to fit within wash tub 200 and to hold dishware for cleaning. Rack frame 400 is configured to provide a generally free flow of water in and around the plurality of stacked coated wires that form rack frame 400. The right plurality of wheels 402 and the left plurality of wheels 404 are mounted to a right side and a left side, respectively, of rack frame 400 to allow bottom dishware rack 118 to be slid in and out of dishwasher 100, for example, on a right platform 210 (shown referring to
The plurality of stacked coated wires may be curved to form a right plurality of wheel axles 500, a left plurality of wheel axles 502, a plurality of tine support cups 504, and a plurality of hub support cups 506 to which the right plurality of wheels 402, the left plurality of wheels 404, a plurality of tine socket devices 428, and a plurality of tine gear teeth devices 430 are mounted. Various other components may be mounted directly or indirectly to rack frame 400 to support dishware such as a right plurality of support platforms 406, a right plurality of socket devices 408, a right support socket device 900, a left plurality of support platforms 410, a left plurality of socket devices 412, a left support socket device 414, a support arm 416, a front support arm socket device 418, a back support arm socket device 420, a support arm engagement device 422, a plurality of tine arms 424, a plurality of tines 425, a plurality of tine center socket devices 800, a plurality of tine gear hubs 426, a plurality of tine socket devices 428, and a plurality of tine gear teeth devices 430.
For example, right support socket device 900 and the right plurality of socket devices 408 mount to the stacked coated wires of rack frame 400 above the right plurality of wheels 402, and the right plurality of support platforms 406 each mount to a pair of the right plurality of socket devices 408 and to right support socket device 900, which is used to hold the right plurality of support platforms 406 upright when not in use to hold dishware. The right plurality of support platforms 406 are mounted to be releasable from right support socket device 900 for rotation toward a center of rack frame 400 within the right plurality of socket devices 408. Similarly, left support socket device 414 and the left plurality of socket devices 412 mount to the stacked coated wires of rack frame 400 above the left plurality of wheels 404, and the left plurality of support platforms 410 each mount to a pair of the left plurality of socket devices 412 and to left support socket device 414, which is used to hold the left plurality of support platforms 410 upright when not in use to hold dishware. The left plurality of support platforms 410 are mounted to be releasable from left support socket device 414 for rotation the center of rack frame 400 within the left plurality of socket devices 412.
As another example, front support arm socket device 418 and back support arm socket device 420 mount to the stacked coated wires of rack frame 400 above the left plurality of wheels 404, and support arm 416 mounts to front support arm socket device 418 and back support arm socket device 420, which are used to hold support arm 416 upright when not in use to hold dishware as discussed further below. Support arm 416 is mounted to be releasable from front support arm socket device 418 and from back support arm socket device 42 for rotation toward the center of rack frame 400 within front support arm socket device 418 and back support arm socket device 420. Support arm engagement device 422 mounts to the stacked coated wires adjacent a back, left corner of rack frame 400, and support arm 416 is supported in a rotated position by support arm engagement device 422 as discussed further below.
In the illustrative embodiment, each gear hub of the plurality of tine gear hubs 426 mounts to a hub support cup of the plurality of hub support cups 506. The plurality of hub support cups 506 are distributed across a front of rack frame 400. Each tine socket device of the tine socket devices 428 mounts to a hub support cup of the tine support cups 504. The tine support cups 504 are distributed across a back of rack frame 400 to align with a hub support cup of the plurality of hub support cups 506.
Each tine arm of the plurality of tine arms 424 are mounted at a first end to a tine gear tooth of the tine gear teeth devices 430. A pair of tine gear teeth of the tine gear teeth devices 430 are mounted to a gear hub of the plurality of tine gear hubs 426 though a greater or a fewer number of tine gear teeth may be mounted to each gear hub of the plurality of tine gear hubs 426. Each tine arm of the plurality of tine arms 424 are mounted at a second end to a tine socket device of the plurality of tine socket devices 428. In the illustrative embodiment, a pair of tine arms of the plurality of tine arms 424 mounts to each tine socket device of the plurality of tine socket devices 428 though a greater or a fewer number of tine arms may be mounted to each tine socket device of the plurality of tine socket devices 428. The plurality of tines 425 are mounted to extend from each tine arm of the plurality of tine arms 424.
Referring to
Center tooth 1302 is an elongated tooth that extends from the back of hub body 1201 generally toward the back of rack frame 400 and between right teeth 1202 and left teeth 1300. Center tooth 1302 may also have a semicircular shape relative to right center 1316 and to left center 1320.
Right aperture wall 1306 and left aperture wall 1310 extend from approximately a back center of hub body 1201. Right aperture wall 1306 and left aperture wall 1310 form circular openings though other shapes may be used in alternative embodiments. Right aperture wall 1306 and left aperture wall 1310 are sized, shaped, and positioned so that mounting prong 1502 of a right gear tooth device 1400 and of a left gear tooth device 1700, respectively, can be inserted and held within right aperture wall interior surface 1308 and within left aperture wall interior surface 1312, respectively, to mount right gear tooth device 1400 and left gear tooth device 1700 to gear hub 1200.
Right hub socket wall 1204 and left hub socket wall 1304 are formed in a bottom surface of hub body 1201. Right hub socket wall 1204 and left hub socket wall 1304 are sized, shaped, and positioned to mount gear hub 1200 to the stacked coated wires adjacent a bottom, front of rack frame 400.
A number of teeth of right teeth 1202 is equal to a number of teeth of left teeth 1300 and is greater than two. In the illustrative embodiment, number of teeth of right teeth 1202 and the number of teeth of left teeth 1300 is six to form six valleys. The components of gear hub 1200 may be formed of one or more materials, such as metal, glass, and/or plastic having a sufficient strength and rigidity to provide the illustrated and/or described function of mounting to rack frame 400, supporting right gear tooth device 1400 and/or left gear tooth device 1700 for rotation, and being subjected to numerous wash cycles. For example, gear hub 1200 may be formed of a single continuous piece of material using a molding process.
Referring to
Right gear tooth device 1400 may include a gear tooth body 1402, a right gear tooth head 1404, a gear tooth connector body 1406, a gear tooth stop 1408, a gear tooth stop body 1410, a gear tooth stop brace 1412, a gear tooth tine aperture wall 1414, a right gear tooth 1416, a contact face 1500, and mounting prong 1502. Right gear tooth 1416 extends from a front of gear tooth body 1402 and is sized, shaped, and positioned to fit within a valley defined between a pair of teeth of right teeth 1202 of gear hub 1200. When right gear tooth 1416 is not positioned within a valley defined between a pair of teeth of right teeth 1202 of gear hub 1200, right gear tooth 1416 may be positioned adjacent center tooth 1302 of gear hub 1200 or below right teeth 1202 of gear hub 1200.
Right gear tooth head 1404 is mounted to a top of gear tooth body 1402 and extends outward from gear tooth body 1402 above right gear tooth 1416. Right gear tooth head 1404 may include contact face 1500 that faces away from the back of rack frame 400. Contact face 1500 may form a concave surface in which a consumer's finger or thumb may fit for rotating right gear tooth device 1400 in a clockwise direction from an upright position when right gear tooth 1416 is positioned adjacent center tooth 1302 of gear hub 1200. Right gear tooth head 1404 extends above hub body 1201 of gear hub 1200 when right gear tooth head 1404 is mounted to gear hub 1200 and right gear tooth 1416 is positioned adjacent center tooth 1302 of gear hub 1200.
Gear tooth connector body 1406 is mounted to a bottom of gear tooth body 1402 and extends backward from gear tooth body 1402 toward the back of rack frame 400. Gear tooth connector body 1406 may include gear tooth tine aperture wall 1414 formed therein that is sized, shaped, and positioned for insertion of a tine arm mounting head 1802 (shown referring to
Gear tooth stop 1408 is mounted to a top of gear tooth connector body 1406 and extends upward from gear tooth connector body 1406 when right gear tooth head 1404 is mounted to gear hub 1200 and right gear tooth 1416 is positioned adjacent center tooth 1302 of gear hub 1200. Gear tooth stop 1408 is mounted behind gear tooth body 1402. Gear tooth stop 1408 may include gear tooth stop body 1410 and gear tooth stop brace 1412 both of which extend upward from gear tooth connector body 1406. Gear tooth stop brace 1412 adds rigidity to gear tooth stop body 1410 in a direction toward gear tooth body 1402.
Gear tooth body 1402 is configured to be deflectable in a direction away from right teeth 1202 by pressure applied to contact face 1500 relative to gear tooth connector body 1406 to release right gear tooth 1416 from the valley defined between the pair of teeth of right teeth 1202. For example, gear tooth body 1402 is formed with a height, a depth, and a width as well as of a flexible material that provides the deflection needed to release right gear tooth 1416 from the valley defined between the pair of teeth of right teeth 1202. An illustrative flexible material may be a ½ hard stainless steel, a plastic material, etc. For example, gear tooth body 1402 may be molded of a polyoxymethylene material due to its ability to snap on and flex without breaking and with a memory to return to an original position. Gear tooth stop 1408 is configured to stop a deflection of gear tooth body 1402 when a maximum deflection in the direction away from right teeth 1202 is reached. For example, gear tooth stop 1408 is formed with a height, a depth, and a width that provide sufficient rigidity to stop the deflection of gear tooth body 1402 before gear tooth body 1402 separates from gear tooth connector body 1406.
Gear tooth body 1402 and right gear tooth head 1404 act as a spring lever. The consumer can push right gear tooth head 1404 away from right teeth 1202 to disengage, rotate, and re-engage right gear tooth 1416 with a different valley to define a new angled position of gear tooth body 1402 relative to hub body 1201.
In the illustrative embodiment, right gear tooth device 1400 and left gear tooth device 1700 are mirror images of each other when mounted to gear hub 1200 relative to a vertical plane through a center of gear hub 1200 and extending towards a back of rack frame 400 parallel to the plurality of tine arms 424. Similarly, left gear tooth device 1700 may include gear tooth body 1402, left gear tooth head 1704, gear tooth connector body 1406, gear tooth stop 1408, gear tooth stop body 1410, gear tooth stop brace 1412, gear tooth tine aperture wall 1414, left gear tooth 1716, contact face 1500, and mounting prong 1502. Right gear tooth head 1404 extends to the right of gear tooth body 1402; whereas, left gear tooth head 1704 extends to the left of gear tooth body 1402. Right gear tooth 1416 is mounted on a right edge of gear tooth body 1402; whereas, left gear tooth 1716 is mounted on a left edge of gear tooth body 1402. In the illustrative embodiment, when right gear tooth head 1404 is mounted to gear hub 1200 and right gear tooth 1416 is positioned adjacent center tooth 1302 of gear hub 1200, right gear tooth 1416 is positioned within a first valley of right teeth 1202 that is closest to center tooth 1302. In the illustrative embodiment, when left gear tooth head 1704 is mounted to gear hub 1200 and left gear tooth 1716 is positioned adjacent center tooth 1302 of gear hub 1200, left gear tooth 1716 is positioned within a first valley of left teeth 1300 that is closest to center tooth 1302.
In an alternative embodiment, right gear tooth device 1400 and left gear tooth device 1700 may be identical. For example, a position of right gear tooth 1416 and left gear tooth 1716 may be adjusted and/or a circumferential arc length of center tooth 1302 may be adjusted.
The components of right gear tooth device 1400 and left gear tooth device 1700 may be formed of one or more materials, such as metal, glass, and/or plastic having a sufficient strength and rigidity to provide the illustrated and/or described function of mounting to gear hub 1200, supporting rotation and deflection, and being subjected to numerous wash cycles. For example, right gear tooth device 1400 and left gear tooth device 1700 may each be formed of a single continuous piece of material using a molding process.
Referring to
Each tine arm 1800 of the plurality of tine arms 424 may have a same or a different number of tines mounted thereto. The subset of the plurality of tines may extend from a same or a different side of tine arm 1800 and/or at a same or a different angle 1806 separated with a same distance 1808 or a different distance 1808 between successive tines. Angle 1806 is defined relative to a first vector defined parallel to the horizontally extending tine arm 1800. A first tine distance 1810 may be defined as a distance between a first tine of the subset of the plurality of tines 425 and a first end of tine arm 1800 where the first tine is closest to the first end of tine arm 1800 that is mounted to right gear tooth device 1400 and/or left gear tooth device 1700. First tine distance 1810 may be different for adjacent tine arms 1800 of the plurality of tine arms 424. A difference between first tine distance 1810 for adjacent tine arms 1800 may be half distance 1808 so that when viewed from a side, the plurality of tines 452 of the adjacent tines are equidistant and alternating between the adjacent tine arms.
Referring to
Right tine 2000 may include a right tine connector body 2002, a right tine transition body 2004, a right tine extension body 2006, and a right tine head 2008. Right tine connector body 2002 mounts to tine arm 1800, for example, using soldering, a fastener, etc. Right tine transition body 2004 mounts and extends generally upward from right tine connector body 2002 away from tine arm 1800. Right tine extension body 2006 mounts and extends generally upward from right tine transition body 2004. Right tine head 2008 mounts and extends generally upward from right tine extension body 2006.
Similarly, left tine 2100 may include a left tine connector body 2102, a left tine transition body 2104, a left tine extension body 2106, and a left tine head 2108. Left tine connector body 2102 mounts to tine arm 1800, for example, using soldering, a fastener, etc. Left tine transition body 2104 mounts and extends generally upward from left tine connector body 2102 away from tine arm 1800. Left tine extension body 2106 mounts and extends generally upward from left tine transition body 2104. Left tine head 2108 mounts and extends generally upward from left tine extension body 2106. Right tine head 2008 and left tine head 2108 are rounded at a top so that right tine 2000 and left tine 2100 do not include a blunt edge that may damage dishware or injure the consumer when loading dishware onto bottom dishware rack 118.
In the illustrative embodiment, right tine 2000 may be mounted to a left side of tine arm 1800, and left tine 2100 may mounted to a right side of tine arm 1800. Right tine 2000 and left tine 2100 may be identical though mounted to opposite sides of tine arm 1800 in the illustrative embodiment. Right tine transition body 2004 and left tine transition body 2104 are angled so that a plurality of right tines mounted to tine arm 1800 that is mounted to right gear tooth device 1400 and a plurality of left tines mounted to tine arm 1800 that is mounted to left gear tooth device 1700 align between right gear tooth head 1404 and left gear tooth head 1704 when the plurality of right tines and the plurality of left tines are both in the first valley of right teeth 1202 and left teeth 1300, respectively, as shown in
In an alternative embodiment, right tine 2000 and left tine 2100 may be mounted to a same side of tine arm 1800 including a top side. In an alternative embodiment, neither right tine transition body 2004 nor left tine transition body 2104 may be included.
The components of right tine 2000 and left tine 2100 may be formed of one or more materials, such as metal, glass, and/or plastic having a sufficient strength and rigidity to provide the illustrated and/or described function of supporting dishware and being subjected to numerous wash cycles. For example, right tine 2000 and left tine 2100 may each be formed of a single continuous piece of material using a molding process though a soldering or fastening process may be used in alternative embodiments.
Referring to
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Bottom arm 3406 extends between front arm 3404 and back arm 3402 and includes front prong 3408, front curved wire 3700, back curved wire 3418, back prong 3410, and back prong head 3412. Front prong 3408 extends from front curved wire 3700 that extends from a front end of bottom arm 3406. Back prong 3410 extends from back curved wire 3418 that extends from a back end of bottom arm 3406. Back prong head 3412 is mounted to an end of back prong 3410.
Front arm 3404 extends between serpentine arm 3400 and bottom arm 3406 and includes front bottom prong 3414 that extends below a mounting point between front arm 3404 and bottom arm 3406. Back arm 3402 extends between serpentine arm 3400 and bottom arm 3406 and includes back bottom prong 3416 that extends below a mounting point between back arm 3402 and bottom arm 3406.
The components of support arm 416 may be formed of one or more materials, such as metal, glass, and/or plastic having a sufficient strength and rigidity to provide the illustrated and/or described function of supporting dishware and being subjected to numerous wash cycles. For example, support arm 416 may be formed of a single continuous piece of material using a molding process though a soldering or fastening process may be used in alternative embodiments.
Referring to
Prong socket 3506 forms a u-shaped cavity into which back prong 3410 is inserted for rotation of support arm 416 relative to back support arm socket device 420. Prong socket 3506 of front support arm socket device 418 also forms the u-shaped cavity into which front prong 3408 is inserted for rotation of support arm 416 relative to front support arm socket device 418.
Bottom prong upright stop 3508 is generally circular in shape and extends from support arm socket device body 3500 below prong socket 3506. Bottom prong front angled stop 3510 extends from a front side of support arm socket device body 3500 and is angled downwards toward rack frame 400. Bottom prong back angled stop 3600 extends from a back side of support arm socket device body 3500 and is angled downwards toward rack frame 400.
Referring to
When support arm 416 is in the first (upright) position, back bottom prong 3416 extends on a first side of bottom prong upright stop 3508 toward an interior of rack frame 400, for example, as shown in
The components of front support arm socket device 418 and back support arm socket device 420 may be formed of one or more materials, such as metal, glass, and/or plastic having a sufficient strength and rigidity to provide the illustrated and/or described function of allowing deflection of front bottom prong 3414 around bottom prong upright stop 3508 of front support arm socket device 418, allowing deflection of back bottom prong 3416 around bottom prong upright stop 3508 of back support arm socket device 420, supporting dishware and being subjected to numerous wash cycles. For example, front support arm socket device 418 and back support arm socket device 420 may each be formed of a single continuous piece of material using a molding process though a soldering or fastening process may be used in alternative embodiments.
Referring to
Support arm engagement device hook 4104 extends from a back of support arm engagement device body 4100 and forms a hook for mounting support arm engagement device 422 to the wire of rack frame 400. Upper tab 4400 and lower tab 4402 extend from the back of support arm engagement device body 4100 and form a pair of tabs facing a direction opposite to the hook of support arm engagement device hook 4104. Wall extension 4200 extends from the back of support arm engagement device body 4100 along a left edge of support arm engagement device body 4100. Wall extension 4200 includes upper wall protrusion 4404 and lower wall protrusion 4406 that extend toward upper tab 4400 and lower tab 4402, respectively. Another wire of rack frame 400 is inserted between upper wall protrusion 4404 and upper tab 4400 and between lower wall protrusion 4406 and lower tab 4402 to provide additional stability for mounting support arm engagement device 422 to the wire of rack frame 400. A bottom horizontal surface of wall extension 4200, of lower tab 4402, and of support arm engagement device hook 4104 may rest on another wire of rack frame 400 to provide still further stability for mounting support arm engagement device 422 to the wire of rack frame 400.
Support arm engagement ladder 4102 provides a plurality of resting locations for back arm 3402 of support arm 416 to provide a plurality of angles and heights for serpentine arm 3400 against which dishware may be supported. In the illustrative embodiment, support arm engagement ladder 4102 provides four optional support locations. For example, support arm engagement ladder 4102 may include a first step 4106, a second step 4108, a third step 4110, and a fourth step 4112. Back arm 3402 of support arm 416 may be supported by any of first step 4106, second step 4108, third step 4110, and fourth step 4112 based on the consumer's selection. First step 4106, second step 4108, third step 4110, and fourth step 4112 may have a same or a different shape. In the illustrative embodiment, first step 4106, second step 4108, third step 4110, and fourth step 4112 extend successively more perpendicular from a front of support arm engagement device body 4100 and extend further from the front of support arm engagement device body 4100 to provide additional support as support arm 416 is rotated by an increasing angle from the upright position. In an alternative embodiment, a second support arm engagement device (not shown) could be mounted to a front of rack frame 400.
The components of support arm engagement device 422 may be formed of one or more materials, such as metal, glass, and/or plastic having a sufficient strength and rigidity to provide the illustrated and/or described function of allowing deflection of back arm 3402 of support arm 416 past first step 4106, second step 4108, and third step 4110, supporting dishware and being subjected to numerous wash cycles. For example, support arm engagement device 422 maybe formed of a single continuous piece of material using a molding process though a soldering or fastening process may be used in alternative embodiments.
Referring to
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Each hub system 2400 provides the consumer with the flexibility to independently angle the tines of right tine arm 1800a and of left tine arm 1800b to a plurality of angles to accommodate plates, bowls and other dishware that does not fit comfortably between vertical tines due to a depth and/or a width of the dishware when compared to some standard plate and/or bowl sizes. Each hub system 2400 and/or support arm 416 also support the washing of various glassware sizes such as those used for drinking wine. With an angle change, a resting plane for a wine glass can accommodate very wide and tall glasses.
The word “illustrative” is used herein to mean serving as an example, instance, or illustration. Any aspect or design described herein as “illustrative” is not necessarily to be construed as preferred or advantageous over other aspects or designs. Further, for the purposes of this disclosure and unless otherwise specified, “a” or “an” means “one or more”. Still further, in the detailed description, the use of “and” or “or” is intended to include “and/or” unless specifically indicated otherwise.
The foregoing description of illustrative embodiments has been presented for purposes of illustration and of description. It is not intended to be exhaustive or to limit the subject matter to the precise form disclosed. Modifications and variations are possible in light of the above teachings or may be acquired from practice of the disclosed subject matter. The embodiments were chosen and described in order to explain the principles of the disclosed subject matter and as practical applications of the disclosed subject matter to enable one skilled in the art to utilize the disclosed subject matter in various embodiments and with various modifications as suited to the particular use contemplated.