The present invention pertains to the art of domestic appliances and, more particularly, to a handle assembly mounting arrangement for an appliance.
Conventional handle arrangements for domestic appliances, such as refrigerators, are often formed from multiple pieces, including a handle frame and a handle piece having a gripping portion. Such a handle is typically mounted to a refrigerator cabinet utilizing screws which extend through the handle piece and frame, clamping the handle to a panel of the refrigerator cabinet. Once the handle is in place, a cover is inserted over each screw, with the cover either extending only over the screw or along substantially an entire length of the handle. In general, this handle mounting arrangement is rather difficult to assemble and, often times, results in witness lines that detract from an overall aesthetic appearance of the refrigerator.
There exist numerous other types of refrigerator handle arrangements in the art, such as gas assist handles employed in an attempt to simplify the construction and assembly of the handle. However, regardless of these known arrangements, there still exists a need in the art for an improved mounting arrangement for a refrigerator handle assembly. More specifically, there exists a need for a mounting arrangement that provides a secure attachment, is aesthetically appealing and easily assembled. In addition, there exists a need for a mounting arrangement that can be readily mounted without scratching or otherwise damaging an outer surface of the refrigerator during construction of the appliance.
The present invention pertains to a mounting arrangement for a refrigerator handle assembly. In accordance with a preferred form of the invention, the handle assembly can be selectively mounted to either a front face portion or a side edge of a refrigerator. The handle assembly includes a main body member having first and second end portions separated by an intermediate portion. Each of the first and second end portions includes a corresponding cavity that is adapted to receive a respective end insert.
In accordance with one aspect of the invention, each end insert is provided with a recessed portion having a base for receiving an attachment member, such as a clip. In accordance with another aspect of the invention, each end insert includes a threaded opening that receives the attachment member or screw. In this embodiment, the screw acts upon a base member to retain and draw the handle assembly against the refrigerator door. Regardless of the design, the end insert is formed from a soft material that will not scratch the refrigerator door when the handle assembly is mounted to the refrigerator.
Additional objects, features and advantages of the present invention will be more readily apparent from the following detailed description of preferred embodiments when taken in conjunction with the drawings wherein like reference numerals refer to corresponding parts in the several views.
In the drawings:
With reference to
In a generally similar manner, freezer door 18 includes an outer edge portion 38 which is pivoted at an upper hinge 40 and a lower hinge 42 for movement relative to cabinet shell 5. In a manner also known in the art, fresh food door 15 and freezer door 18 have inner edge portions 45 and 46 respectively which are spaced by a vertical gap 52. As is also known, fresh food and freezer doors 15 and 18 conceal corresponding fresh food and freezer compartments (not shown). Aside from the aspects which will be described more fully below, the basic construction and operation of refrigerator 2 is known in the art and does not form part of the present invention. Therefore, this structure will not be discussed further herein. Instead, the present invention is directed to the design and mounting of handle assemblies 60 and 61 for fresh food and freezer doors 15 and 18 respectively.
In accordance with the invention, each handle assembly 60, 61 is mounted to a respective front face portion 63, 64 of fresh food and freezer doors 15 and 18. However, as each handle assembly 60, 61 is preferably identical, a detailed description will be made with respect to handle assembly 60 with an understanding that handle assembly 61 is correspondingly constructed. Handle assembly 60 is preferably made from hydroformed metal and includes a main body member 65 having a first end portion 66, a second end portion 67 and an intermediate portion 68. Handle assembly 60 can be mounted to door 15 through a pair of mounting arrangements, one of which is indicated at 70 in
Reference will now be made to
In accordance with the embodiment shown, end insert 74 is preferably formed from a soft, rubber-like, material and includes a main body portion 75 having a recessed portion 77. Recessed portion 77 preferably includes a base portion 79 provided with a ridge 87. Ridge 87 assists in positioning a handle clip portion 95 of mounting arrangement 70. Base portion 79 also includes a pair of apertures 97 and 98 that receive a corresponding pair of fasteners 99 and 100 for securing handle clip 95 to end insert 74. End insert 74 includes an outer, peripheral lip 101 that surrounds and extends outward from recessed portion 77. In this manner, once end insert 74 is positioned within cavity 72, lip 101 rests upon rim 73. In further accordance with the invention, end insert 74 also includes an elongated portion 105 that is provided with openings 107 and 108. Elongated portion 105 is sized so as to fit within a hollow interior portion of handle 60, with openings 107 and 108 aligning with corresponding openings 109 and 110 formed in main body member 65. Once properly aligned, screws 112 and 113 extend through respective ones of openings 109, 110 and engage with end insert 74 through openings 107 and 108.
As best shown in
Door clip member 118 is mounted to fresh food door 15 with tab member 125 projecting into slot 119 to provide proper alignment so that the central aperture of door clip member 118 is aligned with the hole (not shown) provided in fresh food door 15. Thereafter, a mechanical fastener 132, which is preferably a sheet metal screw, extends through the central aperture, into the hole and engages with fresh food door 15 to fixedly secure door clip member 118. At this point, it should be realized that the structure and mounting method of door clip member 118 can be readily varied without departing from the invention.
In further accordance with the invention, handle clip 95 includes a base portion 135 having upstanding side wall portions 137 and 138, each of which includes a corresponding in-turned flange member 140, 141. Each in-turned flange member 140, 141 projects laterally inward from a respective side wall portion 137, 138 respectively. In addition, base portion 135 is provided with a cantilevered arm 143. As shown, arm 143 includes a first angled section 145 extending from base portion 135. First angled section 145 leads to a catch section 147. More specifically, first angled section 145 projects from base portion 135 at an angle which forces catch section 147 to lie in a plane substantially parallel to flange members 140 and 141. First angled section 145 is actually lanced and bent to establish a clip member 150. Furthermore, base portion 135 is shown to include with a pair of spaced holes 155 and 156 that align with apertures 97 and 98 of end insert 74 as will be discussed more fully below.
Having described a preferred structure of mounting arrangement 70, reference will be made to
At this point, handle assembly 60 is ready to be mounted to fresh food door 15. To this end, first end portion 66 is initially aligned with door clip 118. Once so positioned, handle assembly 60 is then shifted or slid relative to fresh food door 15 such that door clip 118 and handle clip 95 interengage. More specifically, shifting handle 60 causes side connectors 122 and 123 of door clip 118 to engage with flange members 140 and 141 of handle clip 95. Moreover, as handle 60 is shifted, the curved lower surface (not labeled) of side connectors 122 and 123 create a wedging action between side connectors 122 and 123 and flange members 140 and 141, causing handle 60 to be progressively drawn against fresh food door 15. The shifting of handle 60 also results in leg extension 127 engaging arm 143. More specifically, the initial engagement causes arm 143 to deflect and, thereafter, snap back as clip member 150 enters into hole 130. Of course, a corresponding attachment simultaneously occurs at second end portion 67 of handle assembly 60. At this point, handle assembly 60 is fixed in position upon fresh food door 15.
Reference will now be made to
Reference will now be made to
In accordance with the embodiment shown, mounting arrangement 250 includes a first end insert 310 that includes a main body portion 315 preferably formed from ejection molded plastic. Main body portion 315 includes a first section 320 having defined therein a base member receiving portion 322, and a second section 328 formed with opposing side walls 330 and 331. In a manner that will be discussed more fully below, a threaded opening 335 is formed in side wall 330. Actually, threaded opening 335 can be formed in side wall 330 or, alternatively, be provided as a separate metal insert either molded or assembled into side wall 330. In any case, opening 335 leads to receiving portion 322.
Having described a preferred structure of mounting arrangement 250, reference will now be made to
Although described with reference to preferred embodiments of the invention, it should be understood that various changes and/or modifications can be made without departing from the spirit of the invention. For instance, although described with reference to a side-by-side refrigerator, corresponding handle assemblies could be equally employed in top mount, bottom mount or French door style refrigerators. In any event, the invention is only intended to be limited in accordance with scope of the following claims.
The present application represents a continuation application of U.S. patent application Ser. No. 13/597,776 filed Aug. 29, 2012, pending, which application is a continuation application of U.S. patent application Ser. No. 12/941,269 filed Nov. 8, 2010, now U.S. Pat. No. 8,281,460, which application is a continuation application of U.S. patent application Ser. No. 12/212,673 filed Sep. 18, 2008, now U.S. Pat. No. 7,849,563, which application is a continuation of U.S. patent application Ser. No. 11/485,373 filed Jul. 13, 2006, now U.S. Pat. No. 7,793,388.
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NPL A) GE Manual for Bottom Freezer Refrigerators (3828JL8012C). |
NPL B) GE Manual for Bottom Freezer Refrigerators (3828JL8069A). |
NPL C) GE Manual for Bottom Freezer Refrigerators (3828JL8069B). |
NPL D) Use and Care Guide for Kenmore Bottom Freezer Refrigerator Model Nos. 596.75522400, 596.75523400, 596.75524400, 596.75529400, 596.75532400, 596.75533400, 596.75534400, 596.75539400. |
NPL E) Use and Care Guide for Kenmore Bottom Freezer Refrigerator Model Nos. 596.76502500, 596.76503500, 596.76504500, 596.76209500, 596.76512500, 596.76213500, 596.76214500, 596.76519500. |
NPL F) Use and Care Guide for Kenmore Bottom Freezer Refrigerator Model Nos. 596.76522500, 596.76523500, 596.76524500, 596.76529500, 596.76532500, 596.76533500, 596.76534500, 596.76539500. |
NPL G) Maytag Service Manual (16025629). |
NPL H) Kenmore Bottom Freezer Frefrgerator Use & Care Guide (12828112). |
NPL I) Kenmore Bottom Freezer Frefrgerator Use & Care Guide (12828130). |
NPL J) Kenmore Bottom Freezer Frefrgerator Use & Care Guide (12828131). |
NPL K) GE Manual for Bottom Freezer Refrigerators (3828JL8069C). |
NPL M) Maytag Refrigerator Manual (12828121). |
Number | Date | Country | |
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20140319991 A1 | Oct 2014 | US |
Number | Date | Country | |
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Parent | 13597776 | Aug 2012 | US |
Child | 14325400 | US | |
Parent | 12941269 | Nov 2010 | US |
Child | 13597776 | US | |
Parent | 12212673 | Sep 2008 | US |
Child | 12941269 | US | |
Parent | 11485373 | Jul 2006 | US |
Child | 12212673 | US |