IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0071935
(2013-11-05)
|
등록번호 |
US-9243833
(2016-01-26)
|
발명자
/ 주소 |
- Yun, Seokki
- Kim, Geon Ho
- Shin, Dong Soo
- Lee, Kang Sun
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
4 |
초록
▼
An ice making system for a refrigerator appliance is provided. The ice making system includes an ice maker, an ice bucket and an ice cube level sensing assembly. The ice cube level sensing assembly includes an infrared light emitter and an infrared light receiver. The infrared light emitter directs
An ice making system for a refrigerator appliance is provided. The ice making system includes an ice maker, an ice bucket and an ice cube level sensing assembly. The ice cube level sensing assembly includes an infrared light emitter and an infrared light receiver. The infrared light emitter directs infrared light into a storage volume of the ice bucket, and the infrared light receiver receives infrared light from the infrared light emitter reflected by ice cubes within the storage volume of the ice bucket.
대표청구항
▼
1. An ice making system for a refrigerator appliance, comprising: an ice maker configured for generating ice cubes;an ice bucket defining a storage volume, the storage volume of the ice bucket positioned for receiving the ice cubes from the ice maker;an ice cube level sensing assembly comprising a f
1. An ice making system for a refrigerator appliance, comprising: an ice maker configured for generating ice cubes;an ice bucket defining a storage volume, the storage volume of the ice bucket positioned for receiving the ice cubes from the ice maker;an ice cube level sensing assembly comprising a first infrared light emitter positioned adjacent the ice bucket, the first infrared light emitter positioned for directing infrared light haying a first frequency into the storage volume of the ice bucket;a first infrared light receiver positioned adjacent the first infrared light emitter, the first infrared light receiver positioned such that the first infrared light receiver receives infrared light from the first infrared light emitter reflected by the ice cubes in the storage volume of the ice bucket;a second infrared light emitter positioned adjacent the ice bucket, the second infrared light emitter positioned for directing infrared light having a second frequency into the storage volume of the ice bucket; anda second infrared light receiver positioned adjacent the second infrared light emitter, the second infrared light receiver positioned such that the second infrared light receiver receives infrared light from the second infrared light emitter that is reflected by the ice cubes the storage volume of the ice bucket,wherein the first frequency and the second frequency are different. 2. The ice making system of claim 1, wherein the ice bucket defines a lateral direction, the ice bucket extending between a first side portion and a second side portion along the lateral direction, the first infrared light emitter and the first infrared, light receiver positioned at the second side portion of the ice bucket. 3. The ice making system of claim 2, wherein the first infrared light emitter is positioned for directing infrared light towards the first side portion of the ice bucket. 4. The ice making system of claim 1, wherein the first infrared light emitter is positioned for directing infrared light in a first direction, the second infrared light emitter positioned for directing infrared light in a second direction, the first and second directions defining an angle α therebetween, the angle α being greater than about zero degrees and less than about ninety degrees. 5. The ice making system of claim 4, wherein the angle α is greater than about fifteen degrees and less than about seventy-five degrees. 6. The ice making system of claim 1, wherein the ice bucket defines a vertical direction, the storage volume of the ice bucket extending between a top portion and a bottom portion along the vertical direction, a middle portion of the storage volume is positioned between the top and bottom portions of the storage volume along die vertical direction, the first infrared light emitter positioned for directing infrared light towards the top portion of the storage volume, the second infrared light emitter positioned for directing infrared light towards the middle portion of the storage volume. 7. The ice making system of claim 1, wherein the first infrared light emitter comprises an infrared light emitting diode and the first infrared light receiver comprises a phototransistor. 8. The ice making system of claim 1, wherein the ice bucket defines a vertical direction, ice cube level sensing assembly positioned above the storage volume of the ice bucket along the vertical direction, the first infrared light emitter positioned for directing infrared light downwardly along the vertical direction into the storage volume of the ice bucket. 9. An ice making system for a refrigerator appliance, comprising: an ice maker configured for generating ice cubes;an ice bucket defining a storage volume, the storage volume of the ice bucket positioned for receiving the ice cubes from the ice maker;an ice cube level sensing assembly comprising a first infrared light emitter positioned proximate the ice bucket, the first infrared light emitter oriented such that the first infrared light emitter is configured for directing infrared light having a first frequency into the storage volume of the ice bucket;a first infrared light receiver positioned proximate the first infrared light emitter, the first infrared light receiver oriented such that the first infrared light receiver is configured for receiving infrared light from the first infrared light emitter reflected by the ice cubes in the storage volume of the ice bucket;a second infrared light emitter positioned proximate the ice bucket, the second infrared light emitter oriented such that the second infrared light emitter is configured for directing infrared light having a second frequency into the storage volume of the ice bucket; anda second infrared light receiver positioned proximate the second infrared light emitter, the second infrared light receiver oriented such that the second infrared light receiver is configured for receiving infrared light from the second infrared light emitter reflected by the ice cubes in the storage volume of the ice bucket,wherein the first frequency and the second frequency are different. 10. The ice making system of claim 9, wherein the ice bucket defines a lateral direction, the ice bucket extending between a first side portion and a second side portion along the lateral direction, the first infrared light emitter and the first infrared light receiver positioned at the second side portion of the ice bucket. 11. The ice making system of claim 10, wherein the first infrared light emitter is oriented for directing infrared light towards the first side portion of the ice bucket. 12. The ice making system of claim 9, wherein the first infrared light emitter is oriented for directing infrared light in a first direction, the second infrared light emitter oriented for directing infrared light in a second direction, the first and second directions defining an angle α therebetween, the angle α being greater than about zero degrees and less than about ninety degrees. 13. The ice making system of claim 9, wherein the ice bucket defines a vertical direction, ice cube level sensing assembly positioned above the storage volume of the ice bucket along the vertical direction, the first infrared light emitter oriented for directing infrared light downwardly along the vertical direction into the storage volume of the ice bucket. 14. A method for determining an ice level within an ice bucket of a refrigerator appliance, the method comprising: directing a first ray of infrared light having a first frequency into a storage volume of the ice bucket;receiving a first ray of reflected infrared light from the storage volume of the ice bucket if ice within the storage volume is positioned above a first predetermined height in the storage volume;directing a second ray of infrared light having a second frequency into a storage volume of the ice bucket;receiving a second ray of reflected infrared light from the storage volume of the ice bucket if ice within the storage volume is positioned above a second predetermined height in the storage volume,wherein the frequency and second frequency are different such that the first and second rays of reflected infrared light are distinguishable by frequency. 15. The method of claim 14, wherein said step of directing the first ray of infrared light comprises directing the first ray of infrared light into the storage volume of the ice bucket with a first infrared light emitter of the refrigerator appliance, said step of receiving the first ray of reflected infrared light comprising receiving the first ray of reflected infrared light from the storage volume of the ice bucket at a first infrared light receiver of the refrigerator appliance. 16. The method of claim 14, wherein said step of directing the first ray of infrared light comprises directing the first ray of infrared light into the storage volume of the ice bucket with a first infrared light emitter of the refrigerator appliance positioned at a first side portion of the ice bucket, said step of receiving the first ray of reflected infrared light comprising receiving the first ray of reflected infrared light from the storage volume of the ice bucket at a first infrared light receiver of the refrigerator appliance positioned at the first side portion of the ice bucket. 17. The method of claim 14, further comprising determining whether the first ray of reflected infrared light has been received from the storage volume of the ice bucket and, if so, then deactivating an ice maker of the refrigerator appliance. 18. The method of claim 17, wherein determining whether the first ray of reflected infrared light has been received comprises sending a signal from a first infrared light receiver to a controller that the first ray of reflected infrared light has been received. 19. The method of claim 14, further comprising determining whether the first ray of reflected infrared light has been received from the storage volume of the ice bucket and, if not, then determining whether the second ray of reflected infrared light has been received from the storage volume of the ice bucket and, if so, then operating an ice maker of the refrigerator appliance to generate additional ice. 20. The method of claim 14, further comprising determining whether the first ray of reflected infrared light has been received from the storage volume of the ice bucket and, if not, then determining whether the second ray of reflected infrared light has been received from the storage volume of the ice bucket and, if so, then deactivating an ice maker of the refrigerator appliance.
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