Tine adjustment and adaptable wash cycle control
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A47L-015/00
A47L-015/42
A47L-015/50
출원번호
US-0458552
(2014-08-13)
등록번호
US-9901240
(2018-02-27)
발명자
/ 주소
Lee, Joon J.
출원인 / 주소
Samsung Electronics Co., Ltd.
대리인 / 주소
Sherman IP LLP
인용정보
피인용 횟수 :
0인용 특허 :
12
초록▼
One embodiment provides a method for adapting a wash cycle of a dishwashing machine. The method comprises gathering sensor information from one or more sensors of the dishwashing machine. The sensor information gathered includes data identifying one or more adjustments to a rack layout of a dish rac
One embodiment provides a method for adapting a wash cycle of a dishwashing machine. The method comprises gathering sensor information from one or more sensors of the dishwashing machine. The sensor information gathered includes data identifying one or more adjustments to a rack layout of a dish rack of the dishwashing machine. The method further comprises determining a load configuration for the dish rack based on the sensor information gathered. The load configuration determined identifies one or more types of content loaded onto the dish rack. A wash cycle for washing the content loaded onto the dish rack is adapted based on the load configuration determined.
대표청구항▼
1. A method for adapting a wash cycle of a dishwashing machine, comprising: gathering sensor information from one or more sensors of the dishwashing machine, wherein the sensor information gathered includes data identifying one or more adjustments to a rack layout of a dish rack of the dishwashing m
1. A method for adapting a wash cycle of a dishwashing machine, comprising: gathering sensor information from one or more sensors of the dishwashing machine, wherein the sensor information gathered includes data identifying one or more adjustments to a rack layout of a dish rack of the dishwashing machine, the one or more sensors configured to detect a position of a slide adjuster of the dish rack, the slide adjuster coupled to an adjustable member of the dish rack, the adjustable member comprising an adjustable tine set, and the slide adjuster slidable along a portion of the dish rack to rotate the adjustable member to adjust the rack layout of the dish rack;determining a load configuration for the dish rack based on the sensor information gathered, wherein the load configuration determined identifies one or more types of content loaded onto the dish rack; andadapting a wash cycle for washing the content loaded onto the dish rack based on the load configuration determined. 2. The method of claim 1, further comprising: displaying the load configuration determined; andreceiving user input regarding the load configuration determined;wherein the wash cycle for the dish rack is further customized based on the user input received. 3. The method of claim 2, wherein the user input received includes one of: user confirmation for the load configuration determined, and an adjustment for the load configuration determined. 4. The method of claim 1, wherein adapting a wash cycle for the dish rack comprises adjusting one or more wash cycle parameters. 5. The method of claim 4, wherein the one or more wash cycle parameters include at least one of the following: amount of water pressure from a water nozzle of the dishwashing machine, a range of motion of a deflector blade of the dishwashing machine, the speed of the deflector blade, the duration of time the deflector blade is in motion, and the position of the deflector blade. 6. The method of claim 1, wherein: the slide adjuster is coupled to the adjustable tine set of the dish rack, the adjustable tine set includes a plurality of tines, the slide adjuster is slidable back and forth along the portion of the dish rack to rotate the plurality of tines between varying positions, the varying positions include a substantially horizontal position where the plurality of tines lie flush against a bottom side of the dish rack, and the varying positions further include a substantially vertical position where the plurality of tines are positioned vertically relative to the bottom side of the dish rack. 7. A system for adapting a wash cycle of a dishwashing machine, comprising: a sensor unit configured to gather sensor information from one or more sensors of the dishwashing machine, wherein the sensor information gathered includes data identifying one or more adjustments to a rack layout of a dish rack of the dishwashing machine, the one or more sensors configured to detect a position of a slide adjuster of the dish rack, the slide adjuster coupled to an adjustable member of the dish rack, the adjustable member comprising an adjustable tine set, and the slide adjuster slidable along a portion of the dish rack to rotate the adjustable member to adjust the rack layout of the dish rack;a load configuration unit configured to determine a load configuration for the dish rack based on the sensor information gathered, wherein the load configuration determined identifies one or more types of content loaded onto the dish rack; anda wash cycle unit configured to adapt a wash cycle for washing the content loaded onto the dish rack based on the load configuration determined. 8. The system of claim 7, further comprising: a user interface unit configured to: display the load configuration determined; andreceive user input regarding the load configuration determined;wherein the wash cycle for the dish rack is further customized based on the user input received. 9. The system of claim 8, wherein the user input received includes one of: user confirmation for the load configuration determined, and an adjustment for the load configuration determined. 10. The system of claim 7, wherein adapting a wash cycle for the dish rack comprises adjusting one or more wash cycle parameters. 11. The system of claim 10, wherein the one or more wash cycle parameters include at least one of the following: amount of water pressure from a water nozzle of the dishwashing machine, a range of motion of a deflector blade of the dishwashing machine, the speed of the deflector blade, the duration of time the deflector blade is in motion, and the position of the deflector blade. 12. The system of claim 7, wherein: the slide adjuster is coupled to an adjustable tine set of the dish rack, the adjustable tine set include a plurality of tines, the slide adjuster is slidable back and forth along the portion of the dish rack to rotate the plurality of tines between varying positions, the varying positions include a substantially horizontal position where the plurality of tines lie flush against a bottom side of the dish rack, and the varying positions further include a substantially vertical position where the plurality of tines are positioned vertically relative to the bottom side of the dish rack. 13. The system of claim 7, wherein: the slide adjuster is coupled to the adjustable tine set; andthe adjustable tine set includes a plurality of tines. 14. A non-transitory computer-readable storage medium having program code embodied therewith, the program code including instructions executable by a computer to perform a method comprising: gathering sensor information from one or more sensors of a dishwashing machine, wherein the sensor information gathered includes data identifying one or more adjustments to a rack layout of a dish rack of the dishwashing machine, the one or more sensors configured to detect a position of a slide adjuster of the dish rack, the slide adjuster coupled to an adjustable member of the dish rack, the adjustable member comprising an adjustable tine set, and the slide adjuster slidable along a portion of the dish rack to rotate the adjustable member to adjust the rack layout of the dish rack;determining a load configuration for the dish rack based on the sensor information gathered, wherein the load configuration determined identifies one or more types of content loaded onto the dish rack; andadapting a wash cycle for washing the content loaded onto the dish rack based on the load configuration determined. 15. The medium of claim 14, the method further comprising: displaying the load configuration determined; andreceiving user input regarding the load configuration determined;wherein the wash cycle for the dish rack is further customized based on the user input received. 16. The medium of claim 15, wherein the user input received includes one of: user confirmation for the load configuration determined, and an adjustment for the load configuration determined. 17. The medium of claim 14, wherein adapting a wash cycle for the dish rack comprises adjusting one or more wash cycle parameters. 18. The medium of claim 17, wherein the one or more wash cycle parameters include at least one of the following: amount of water pressure from a water nozzle of the dishwashing machine, a range of motion of a deflector blade of the dishwashing machine, the speed of the deflector blade, the duration of time the deflector blade is in motion, and the position of the deflector blade. 19. The medium of claim 14, wherein: the slide adjuster is coupled to the adjustable tine set of the dish rack, the adjustable tine set includes a plurality of tines, the slide adjuster is slidable back and forth along the portion of the dish rack to rotate the plurality of tines between varying positions, the varying positions include a substantially horizontal position where the plurality of tines lie flush against a bottom side of the dish rack, and the varying positions further include a substantially vertical position where the plurality of tines are positioned vertically relative to the bottom side of the dish rack. 20. A dishwashing apparatus, comprising: a dish rack including an adjustable tine set configured to adjust a rack layout of the dish rack;one or more sensors configured to capture sensor information including data identifying one or more adjustments to the rack layout of the dish rack, the one or more sensors further configured to detect a position of a slide adjuster coupled to the adjustable tine set, and the slide adjuster slidable along a portion of the dish rack to rotate the adjustable tine set;a load configuration unit configured to determine a load configuration for the dish rack based on the sensor information captured, wherein the load configuration determined identifies one or more types of content loaded onto the dish rack; anda wash cycle unit configured to adapt a wash cycle for washing the content loaded onto the dish rack based on the load configuration determined. 21. The apparatus of claim 20, further comprising: a user interface unit configured to: display the load configuration determined; andreceive user input regarding the load configuration determined;wherein the wash cycle for the dish rack is further customized based on the user input received. 22. The apparatus of claim 21, wherein the user input received includes one of: user confirmation for the load configuration determined, and an adjustment for the load configuration determined. 23. The apparatus of claim 20, wherein the wash cycle unit is further configured to adjust one or more wash cycle parameters to customize a wash cycle for washing the content loaded onto the dish rack. 24. The apparatus of claim 23, wherein the one or more wash cycle parameters include at least one of the following: amount of water pressure from a water nozzle of the dishwashing machine, a range of motion of a deflector blade of the dishwashing machine, the speed of the deflector blade, the duration of time the deflector blade is in motion, and the position of the deflector blade. 25. The apparatus of claim 20, wherein: the adjustable tine set includes a plurality of tines, the slide adjuster is slidable back and forth along the portion of the dish rack to rotate the plurality of tines between varying positions, the varying positions include a substantially horizontal position where the plurality of tines lie flush against a bottom side of the dish rack, and the varying positions further include a substantially vertical position where the plurality of tines are positioned vertically relative to the bottom side of the dish rack. 26. A dishwashing apparatus, comprising: a dish rack including a dish rack frame with a customizable rack layout;one or more rack layout adjustment devices facilitating one or more manual adjustments to the rack layout; andat least one sensor device configured to capture sensor data identifying one or more manual adjustments to the rack layout, wherein each sensor device is positioned within proximity of a rack layout adjustment device, the sensor device further configured to detect a position of a slide adjuster of the rack layout adjustment device, the slide adjuster coupled to an adjustable member of the dish rack, the adjustable member comprising an adjustable tine set, and the slide adjuster slidable along a portion of the dish rack frame to rotate the adjustable member to adjust the rack layout. 27. The apparatus of claim 26, wherein: the dish rack frame further includes a guide track;each rack layout adjustment device further comprises the adjustable member, the adjustable member including a rotatable set of tines that is pivotally coupled to the dish rack frame; andthe slide adjuster is slidably coupled to the guide track and interconnected with the tines, and the slide adjuster is movable back and forth along a portion of the guide track to rotate the tines between varying positions including a substantially horizontal position where the tines lie flush against a bottom side of the dish rack and a substantially vertical position where the tines are positioned vertically relative to the bottom side of the dish rack, thereby adjusting the rack layout. 28. The apparatus of claim 27, wherein: each rack layout adjustment device further comprises: a rotatable member that is coupled to each tine of the rack layout adjustment device; anda connection mechanism interconnecting the rotatable member with the slide adjuster of the rack layout adjustment device, wherein the connection mechanism triggers the rotatable member to rotate the tines between the varying positions when the slide adjuster is moved back and forth along a portion of the guide track. 29. The apparatus of claim 26, wherein: the dish rack frame further includes a guide track;each rack layout adjustment device further comprises the adjustable member, the adjustable member including: a first rotatable set of tines that is pivotally coupled to the dish rack frame; anda second rotatable set of tines that is pivotally coupled to the dish rack frame; andthe slide adjuster is slidably coupled to the guide track and interconnected with both the first and the second sets of tines, and the slide adjuster is movable back and forth along a portion of the guide track to simultaneously rotate the first and the second sets of tines between varying positions including a substantially horizontal position where the tines lie flush against a bottom side of the dish rack and a substantially vertical position where the tines are positioned vertically relative to the bottom side of the dish rack, thereby adjusting the rack layout. 30. The apparatus of claim 29, wherein: each rack layout adjustment device further comprises: a first rotatable member that is coupled to each tine of the first set of tines of the rack layout adjustment device;a second rotatable member that is coupled to each tine of the second set of tines of the rack layout adjustment device; anda connection mechanism interconnecting both the first and the second rotatable members with the slide adjuster of the rack layout adjustment device, wherein the connection mechanism triggers the first and the second rotatable members to simultaneously rotate the first and the second sets of tines between the varying positions when the slide adjuster is moved back and forth along a portion of the guide track. 31. The apparatus of claim 26, wherein: the dish rack frame further includes: one or more rotatable flip shelves pivotally coupled to the dish rack frame, wherein each flip shelf is rotatable to further adjust the rack layout. 32. The apparatus of claim 26, further comprising: one or more removable utensil baskets; andat least one additional sensor device for capturing sensor data indicating whether a utensil basket is inserted into the dish rack.
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