Dishwasher apparatus including sound absorbing device

Information

  • Patent Grant
  • 8317935
  • Patent Number
    8,317,935
  • Date Filed
    Friday, December 1, 2006
    18 years ago
  • Date Issued
    Tuesday, November 27, 2012
    12 years ago
Abstract
A dishwasher apparatus includes a cover member and a sound absorbing device. The sound absorbing device comprises a sound absorbing element attached to the cover member and a motor guard attached to the sound absorbing element. A portion of the motor guard is positioned between a portion of the motor and a portion of the sound absorbing element.
Description
FIELD OF THE INVENTION

The present invention relates to dishwasher apparatus, and more particularly, to dishwasher apparatus with a sound absorbing device.


BACKGROUND OF THE INVENTION

Conventional dishwashers typically include a motor cavity located underneath a wash tub. Components located within the motor cavity typically produce sound that may pass to the surrounding environment. U.S. patent application Publication No. U.S. 2005/0092353, published May 5, 2005, describes a dishwasher with a sound attenuator for attenuating the sound emanating from the motor cavity of a conventional dishwasher. More specifically, the referenced publication discloses a sound attenuator comprising a sound barrier for blocking the transfer of sound from the motor cavity and a sound absorber for absorbing sound from the motor cavity. The sound absorber absorbs sound emanating from the motor cavity and the sound barrier blocks the sound that is not absorbed from passing through the sound absorber and the access panel. The referenced publication states that a suitable sound absorber can comprise a VersaMat® sound absorber sold by Owens Corning.


There is a need to provide dishwasher apparatus including a sound absorbing device with a sound absorbing element and a motor guard.


SUMMARY OF THE INVENTION

In accordance with one aspect, a dishwasher apparatus comprises a wash tub, a motor cavity, and a motor positioned within the motor cavity. The dishwasher apparatus further includes a cover member configured to substantially cover an access opening into the motor cavity and a sound absorbing device. The sound absorbing device comprises a sound absorbing element attached to the cover member and a motor guard attached to the sound absorbing element. A portion of the motor guard is positioned between a portion of the motor and a portion of the sound absorbing element.


In accordance another aspect, a dishwasher apparatus comprises a cover member and a sound absorbing device. The sound absorbing device comprises a motor guard and an acoustical insulation blanket. The acoustical insulation blanket includes a first side including a first area facing a first direction and a second side including a second area facing a second direction opposite the first direction. The cover member is attached to the first side of the acoustical insulation blanket and the motor guard is attached to the second side of the acoustical insulation blanket. A portion of the acoustical insulation blanket is positioned between a portion of the cover member and the motor guard. The motor guard substantially covers less than about 75% of the second area of the acoustical insulation blanket.


In accordance still another aspect, a dishwasher apparatus comprises a wash tub, a motor cavity, and a motor positioned within the motor cavity. The dishwasher apparatus further comprises cover member configured to substantially cover an access opening into the motor cavity and a sound absorbing device comprising an acoustical insulation blanket. The acoustical insulation blanket includes a first side having a first area facing a first direction and a second side including a second area facing a second direction opposite the first direction. The first side of the acoustical insulation blanket is attached to the cover member. The sound absorbing device further includes a motor guard attached to the second side of the acoustical insulation blanket and substantially covering less than about 75% of the second area of the acoustical insulation blank. A portion of the motor guard is positioned between a portion of the motor and a portion of the acoustical insulation blanket.





BRIEF DESCRIPTION OF THE DRAWINGS

The foregoing and other aspects of the present invention will become apparent to those skilled in the art to which the present invention relates upon reading the following description with reference to the accompanying drawings, in which:



FIG. 1 is a lower perspective view of portions of an example dishwasher apparatus incorporating aspects of the present invention;



FIG. 2 is a side elevational view of the portions of the example dishwasher apparatus of FIG. 1;



FIG. 3 is an exploded upper perspective view of lower portions of an example dishwasher apparatus incorporating aspects of the present invention;



FIG. 4 is a side elevational exploded view of the lower portions of the example dishwasher apparatus of FIG. 3;



FIG. 5 is an elevational view of a first side of a sound absorbing device incorporating aspects of the present invention; and



FIG. 6 is an elevational view of a second side of the sound absorbing device of FIG. 5.





DETAILED DESCRIPTION OF EXAMPLE EMBODIMENTS

Certain terminology is used herein for convenience only and is not to be taken as a limitation on the present invention. Further, in the drawings, the same reference numerals are employed for designating the same elements.



FIG. 1 depicts one example of a dishwasher apparatus 10 in accordance with aspects of the present invention. Dishwasher apparatus 10 herein may include a wash tub 20 configured to receive a wide range of articles for conducting a dishwashing cycle. For example, the wash tub 20 may be designed to receive and support articles such as pots, pans, plates, bowls, utensils (e.g., knives, forks, spoons, spatulas, ladles, etc.), glassware, drinking vessels (e.g., cups, mugs, glasses, stemware, etc.) or the like.


Various wash tubs 20 may be used in accordance with aspects of the present invention. In the illustrated example, the wash tub 20 comprises a side loading tub arrangement although top loading or other arrangements may be incorporated in further examples. The tub 20 can comprise a variety of materials such as plastic, metal, or other material types. The tub 20 includes an opening that may be provided with a closure, such as a dishwasher door 12. The dishwasher door 12 can be designed to pivot from the closed orientation illustrated in FIG. 2 to an open orientation (not shown) by grasping a handle and pivoting the dishwasher door 12 in direction 13 about a pivot axis 14.


The dishwasher apparatus 10 can also include a motor cavity 40 configured to receive one or more dishwasher components therein. For example, the motor cavity can be configured to at least partially receive circulation motors, fluid input motors, or other motors. As shown in FIGS. 1, 3 and 4, in one example, a drain motor 50 may be positioned within the motor cavity 40. As shown in FIGS. 3 and 4, the dishwasher apparatus 10 can include an access opening 42 into the motor cavity 40 to permit service of one or more components within the cavity 40. The motor cavity can be defined at one or more various locations of the dishwasher apparatus 10. For example, the motor cavity may be located above, behind, at a side or other locations of the dishwasher apparatus. As shown, the motor cavity 40 can be located at least partially beneath the wash tub 20 of the dishwasher apparatus 10.


As further illustrated in FIG. 2, the dishwasher apparatus 10 can be configured to rest on a support surface 200, such as the floor of a room. In further examples, the dishwasher apparatus 10 can be supported by other support surfaces such as a shelf, table top, portion of a cabinet, surface of another appliance, or the like. As further illustrated in FIG. 2, the motor cavity 40 can be at least partially positioned between a portion of the wash tub 20 and the support surface 200. In addition, or alternatively, the motor cavity 40 may be positioned at one or more other alternative locations in further examples.


The motor cavity 40 can be provided in a wide variety of ways. For instance, the dishwasher apparatus 10 can include a frame 30 configured to support the wash tub 20 to help define the motor cavity. Indeed, as shown, the frame 30 can support the wash tub 20 at an elevated position with respect to the support surface 200 to define the motor cavity 40 underneath the wash tub 20. The motor cavity 40 can provide room for a drain motor 50 and/or other components of the dishwasher apparatus 10. In addition, or alternatively, the frame 30 can also be configured to support the dishwasher door 12 relative to the wash tub 20. In such examples, the frame 30 can be designed to withstand forces applied by the wash tub 20 and/or the dishwasher door 12. The frame 30, if provided, can be fabricated from various materials capable of supporting components of the dishwasher apparatus 10. For example, the frame 30 may be comprise of metal, plastic, ceramic, composite, and/or other material sufficient to provide support for the wash tub 20 and/or the dishwasher door 12.


The dishwasher apparatus 10 can further include a cover member 60 configured to substantially cover the access opening 42 into the motor cavity 40. The cover member can be configured to be removably attached with respect to the frame 30 and/or other components of the dishwasher apparatus 10 to permit selective access to the motor cavity 40 by way of the access opening 42. Access to the motor cavity may be desirable to clean the support surface 200 underlying the dishwasher apparatus 10 can also facilitate servicing of the dishwasher components located within the motor cavity 40. Various structures may be provided to permit selective removal of the cover member 60. For example as shown in FIG. 3, the cover member 60 can include at least one flange 62 with a detent or opening 64 configured to receive a dimple or protrusion (not shown) extending from the frame 30, the wash tub 20 and/or other components of the dishwasher apparatus 10. Further, as shown, a lower portion of the cover member 60 may include a pair of apertures 68a, 68b that are each configured to be aligned with a corresponding one of a pair of apertures 32a, 32b defined in respective tabs 31a, 31b in the front portion of the frame 30. A fastener (not shown) may be inserted through each aperture 68a, 68b of the cover member 60 and threaded into the corresponding aperture 32a, 32b of the frame 30. In further examples, the cover member may be snapped into place or otherwise removably attached with respect to the access opening 42. It is still further contemplated that the cover member 60 may be designed to permanently seal off the access opening in still further examples.


As further illustrated, the dishwasher apparatus 10 can further include a sound absorbing device 70. The sound absorbing device 70 includes a sound absorbing element 80 configured to absorb sound originating from components within the motor cavity 40 from being emitted through the cover member 60. In one example, the sound absorbing element 80 can comprise an acoustical insulation blanket that may be formed from an acoustical insulating mat formed from a fibrous material. In one example, the fibrous material can comprise fibrous polyester configured to provide sound-absorbing properties. Although a wide range of materials may be used, one type of sound absorbing element 80 can comprise a VersaMat® acoustical insulation blanket sold by Owens Corning.


As further shown in FIGS. 4-6, the sound absorbing element 80 can include an acoustical insulation blanket including a first side 82 having a first area 83 facing a first direction 84 and a second side 86 including a second area 87 facing a second direction 88 opposite the first direction 84. The first side 82 of the insulation blanket can be attached to the cover member 60. As shown in FIG. 5, adhesive strips 90a, 90b may be provided to attach the insulation blanket to the cover member 60 although the insulation blanket may be attached in a wide variety of ways. For example, a hook and loop type fastener or other mechanical fastening apparatus may be used to provide removable attachment.


The sound absorbing element 80 may also include a wide variety of shapes and sizes depending on the particular application. As shown, in FIGS. 5 and 6, the sound absorbing element 80 may have cut out areas configured to provide significant coverage over the cover member 60 while providing clearance for frame or other components of the dishwasher apparatus 10. For example, referencing FIGS. 3 and 5, the sound absorbing element 80 may include an upper left cut out 92 to receive portions of a float switch 120 that may be mounted to the frame 30 of the dishwasher apparatus 10. The sound absorbing element 80 can further include an upper right cut out 94 configured to receive portions of a junction box 122 may also be mounted on the frame 30. The upper portion of the sound absorbing element 80 may also include a groove 96 configured to be aligned with a similarly-shaped groove 66 on the cover member 60 to provide clearance for an electrical cable or conduit for electrical controls or other components located within the dishwasher door 12. The lower portion of the cover member 60 can also include lower lateral notches 98a, 98b configured to receive the respective tabs 31a, 31b of the frame 30.


The sound absorbing device 70 further includes a motor guard 150. The motor guard 150 can be designed to thermally shield the sound absorbing element 80 from the motor 50. Thus, the motor guard 150 can help protect the sound absorbing element from thermal damage due to heat from the motor 50. In addition, or alternatively, the motor guard 150 can provide a dielectric shield between the motor 50 and the sound absorbing element 80. Thus, the motor guard 150 can act to inhibit, such as prevent, electrical current from passing from the motor to the sound absorbing element 80. Still further, the motor guard 150 can be configured to transmit vibrational energy from the motor 50 to the sound absorbing element 80. For example, the motor 50 may engage the motor guard 150 such that vibrational energy from the motor 50 is transmitted through the motor guard 150 to the sound absorbing element 80. Once transmitted, the sound absorbing element 80 can absorb the vibrational energy, thereby inhibiting release of sound from the motor cavity 40.


The motor guard 150 can be fabricated from a wide range of materials, sizes and/or configurations to provide the desired thermal shielding, dielectric shielding and/or noise transmission characteristics. In one example, the motor guard 150 can comprise a talc filled copolymer polypropylene although other material types may be used in further examples. The talc filled copolymer polypropylene or other material can be formed as a substantially rigid material with a density of approximately 1.39 g/cm3, although other material characteristics may be provided in further examples.


As shown in the drawings, the motor guard 150 can be attached to the second sound absorbing element 80, such as the second side 86 of the acoustical insulation blanket. The motor guard 150 can be attached to the acoustical insulation blanket by an adhesive, mechanical fastener or other attachment mechanism. As shown, the motor guard 150 can also be attached such that a portion of the motor guard is positioned between a portion of the motor 50 and a portion of the sound absorbing element 80. As further shown in the drawings, a portion of the sound absorbing element 80 can be positioned between a portion of the cover member 60 and the motor guard 150.


As shown in FIG. 6, the sound absorbing element 80 comprises an acoustical insulation blanket wherein the motor guard 150 is attached to the second side 86 of the acoustical insulation blanket. In one example, the motor guard 150 can be configured to cover less than the entire second area 87 of the second side 86 of the acoustical insulation blanket. For instance, the motor guard 150 can be designed to substantially cover less than about 75% of the second area 87 of the acoustical insulation blanket. In further examples, the motor guard 150 can be designed to substantially cover less than about 50% of the second area 87 of the acoustical insulation blanket. In still further examples, the motor guard 150 can be designed to substantially cover less than about 25% of the second area 87 of the acoustical insulation blanket. In still further examples, the motor guard 150 can be designed to substantially cover about 20% of the second area 87 of the acoustical insulation blanket. Reducing the coverage of the motor guard over the second area can reduce the material costs of the motor guard 150 while still providing desirable thermal shielding, dielectric shielding and/or noise transmission characteristics.


From the above description of the invention, those skilled in the art will perceive improvements, changes and modifications. Such improvements, changes and modifications within the skill of the art are intended to be covered by the appended claims.

Claims
  • 1. A dishwasher apparatus comprising: a wash tub;a motor cavity;a motor positioned within the motor cavity;a cover member configured to substantially cover an access opening into the motor cavity; anda sound absorbing device comprising a sound absorbing element attached to the cover member, and a motor guard attached to the sound absorbing element, wherein a portion of the motor guard is positioned laterally between a portion of the motor and a portion of the sound absorbing element and the portion of the sound absorbing element is positioned laterally between a portion of the cover member and the portion of the motor guard.
  • 2. The dishwasher apparatus of claim 1, wherein the motor guard is configured to provide the portion of the sound absorbing element with thermal shielding from the motor.
  • 3. The dishwasher apparatus of claim 1, wherein the motor guard is configured to provide a dielectric shield between the motor and the sound absorbing element.
  • 4. The dishwasher apparatus of claim 1, wherein the motor guard is configured to transmit vibrational energy to the portion of the sound absorbing element.
  • 5. The dishwasher apparatus of claim 1, wherein the motor engages the motor guard.
  • 6. The dishwasher apparatus of claim 1, wherein the motor guard comprises a substantially rigid material.
  • 7. The dishwasher apparatus of claim 1, wherein the motor guard comprises a talc filled copolymer polypropylene.
  • 8. The dishwasher apparatus of claim 1, wherein the motor guard has a density of approximately 1.39 g/cm3.
  • 9. The dishwasher apparatus of claim 1, wherein the sound absorbing element comprises an acoustical insulation blanket including a first side having a first area facing a first direction and a second side including a second area facing a second direction opposite the first direction, wherein the first side of the acoustical insulation blanket is attached to the cover member and the motor guard is attached to the second side of the acoustical insulation blanket.
  • 10. The dishwasher apparatus of claim 9, wherein the motor guard substantially covers less than about 75% of the second area of the acoustical insulation blanket.
  • 11. The dishwasher apparatus of claim 9, wherein the motor guard substantially covers less than about 50% of the second area of the acoustical insulation blanket.
  • 12. The dishwasher apparatus of claim 9, wherein the motor guard substantially covers less than about 25% of the second area of the acoustical insulation blanket.
  • 13. The dishwasher apparatus of claim 9, wherein the motor guard substantially covers about 20% of the second area of the acoustical insulation blanket.
  • 14. A dishwasher apparatus comprising: a wash tub;a motor cavity;a motor positioned within the motor cavity;a cover member configured to substantially cover an access opening into the motor cavity; anda sound absorbing device comprising a motor guard and an acoustical insulation blanket including a first side including a first area facing a first direction and a second side including a second area facing a second direction opposite the first direction, wherein the cover member is attached to the first side of the acoustical insulation blanket and the motor guard is attached to the second side of the acoustical insulation blanket, a portion of the motor guard is positioned laterally between a portion of the motor and a portion of the acoustical insulation blanket, the portion of the acoustical insulation blanket is positioned laterally between a portion of the cover member and the portion of the motor guard, and the motor guard substantially covers less than about 75% of the second area of the acoustical insulation blanket.
  • 15. The dishwasher apparatus of claim 14, wherein the motor guard substantially covers less than about 50% of the second area of the acoustical insulation blanket.
  • 16. The dishwasher apparatus of claim 14, wherein the motor guard substantially covers less than about 25% of the second area of the acoustical insulation blanket.
  • 17. The dishwasher apparatus of claim 14, wherein the motor guard comprises a substantially rigid material.
  • 18. The dishwasher apparatus of claim 14, wherein the motor guard comprises a talc filled copolymer polypropylene.
  • 19. The dishwasher apparatus of claim 14, wherein the motor guard has a density of approximately 1.39 g/cm3.
  • 20. A dishwasher apparatus comprising: a wash tub;a motor cavity;a motor positioned within the motor cavity;a cover member configured to substantially cover an access opening into the motor cavity; anda sound absorbing device comprising an acoustical insulation blanket including a first side having a first area facing a first direction and a second side including a second area facing a second direction opposite the first direction, wherein the first side of the acoustical insulation blanket is attached to the cover member, the sound absorbing device further including a motor guard attached to the second side of the acoustical insulation blanket and substantially covering less than about 75% of the second area of the acoustical insulation blanket, the motor guard comprising a substantially rigid material and configured to provide the portion of the sound absorbing device with thermal shielding from the motor, wherein a portion of the motor guard is positioned laterally between a portion of the motor and a portion of the acoustical insulation blanket and the portion of the acoustical insulation blanket is positioned laterally between a portion of the cover member and the portion of the motor guard.
US Referenced Citations (52)
Number Name Date Kind
2655024 Sway Oct 1953 A
3147914 Hatten et al. Sep 1964 A
3294102 Ruspino et al. Dec 1966 A
3458241 Barnard et al. Jul 1969 A
3612714 Ruspino Oct 1971 A
4889209 Sears Dec 1989 A
4985106 Nelson Jan 1991 A
5044705 Nelson Sep 1991 A
5117642 Nakanishi et al. Jun 1992 A
5125241 Nakanishi et al. Jun 1992 A
5127235 Nakanishi et al. Jul 1992 A
5143513 Ellingson et al. Sep 1992 A
5152259 Bell Oct 1992 A
5253486 Sugahara et al. Oct 1993 A
5388956 Pla et al. Feb 1995 A
5428965 Grunwald et al. Jul 1995 A
5487528 Richmond Jan 1996 A
5499301 Sudo et al. Mar 1996 A
5503172 Hedeen et al. Apr 1996 A
5549760 Becker Aug 1996 A
5878603 Warren, Jr. et al. Mar 1999 A
5965851 Herreman et al. Oct 1999 A
6152259 Freist et al. Nov 2000 A
6293289 Hapke et al. Sep 2001 B1
6512831 Herreman et al. Jan 2003 B1
6514889 Théorêt et al. Feb 2003 B1
6539955 Tilton et al. Apr 2003 B1
6654467 York et al. Nov 2003 B1
6662814 Tobbe et al. Dec 2003 B2
6798799 Jang et al. Sep 2004 B2
6807700 Panther et al. Oct 2004 B2
20020134615 Herreman et al. Sep 2002 A1
20030213271 Lim et al. Nov 2003 A1
20040079400 Young Apr 2004 A1
20040084068 Hur et al. May 2004 A1
20040169118 Talaucher et al. Sep 2004 A1
20040206377 Griffin et al. Oct 2004 A1
20040238015 Beer et al. Dec 2004 A1
20040244436 Park et al. Dec 2004 A1
20040261434 Zentner et al. Dec 2004 A1
20040261469 Park et al. Dec 2004 A1
20040265553 Rockwell et al. Dec 2004 A1
20050022847 Nito et al. Feb 2005 A1
20050028850 Nito et al. Feb 2005 A1
20050076938 Jordan et al. Apr 2005 A1
20050092353 Retsema May 2005 A1
20050136235 Rockwell Jun 2005 A1
20050188472 Park et al. Sep 2005 A1
20050241683 Jeong Nov 2005 A1
20050257816 Kim Nov 2005 A1
20060010935 Park et al. Jan 2006 A1
20060037630 Griffin et al. Feb 2006 A1
Foreign Referenced Citations (6)
Number Date Country
2 330 369 Sep 2001 CA
1464619 Dec 2003 CN
1464620 Dec 2003 CN
90 13 663 Apr 1992 DE
0 657 575 Jun 1995 EP
7-171291 Jul 1995 JP
Related Publications (1)
Number Date Country
20080128005 A1 Jun 2008 US