A clear ice making system and method utilizes an ice forming tray pivotally connected to opposing side walls of an icemaker housing. Ice forming fingers of a dedicated evaporator extend into fluid within the ice forming tray, and are cooled by communication with the refrigerant circulating system of
A clear ice making system and method utilizes an ice forming tray pivotally connected to opposing side walls of an icemaker housing. Ice forming fingers of a dedicated evaporator extend into fluid within the ice forming tray, and are cooled by communication with the refrigerant circulating system of the refrigerator. A motor oscillates the ice forming tray about a longitudinal axis at a frequency of about 0.4-0.6 hertz as fluid channels freezes on the ice forming fingers over time, forming clear ice pieces. During an ice dispensing event, the motor pivots the ice making tray about the longitudinal axis such that fluid remaining within the ice making tray drains into a fluid reservoir below. The ice forming fingers are then heated to release the clear ice pieces for transfer from the fresh food compartment to the freezer compartment of the refrigerator.
대표청구항▼
1. A refrigerator comprising: a cabinet including a fresh food compartment and a freezer compartment;a refrigerant circulating system; anda clear ice making system comprising: a housing including front, bottom, back and opposing side walls;an ice forming tray including a bottom portion and opposing
1. A refrigerator comprising: a cabinet including a fresh food compartment and a freezer compartment;a refrigerant circulating system; anda clear ice making system comprising: a housing including front, bottom, back and opposing side walls;an ice forming tray including a bottom portion and opposing side portions, each of said opposing side portions being supported by a respective one of the opposing side walls of the housing for pivotal movement of the ice forming tray about a longitudinal axis, the bottom portion including a substantially smooth, continuous arcuate inner wall;a motor connected to the ice forming tray;a motor controller configured to operate the motor to oscillate the ice forming tray about the longitudinal axis at a frequency of 0.4-0.6 Hz during an ice making event and to pivot the ice forming tray from a first, ice forming position to a second, ice dispensing position during an ice dispensing event; andan evaporator member including refrigerant inlet and outlet lines in communication with the refrigerant circulating system, the evaporator member further including a plurality of ice forming fingers extending into the ice forming tray when the ice forming tray is in an ice forming position. 2. The refrigerator of claim 1, wherein the clear ice making system further comprises: a fluid reservoir located below the ice forming tray;a fluid inlet line in communicating with the ice forming tray and the fluid reservoir; anda pump connected to the fluid inlet line for controlling the transfer of fluid from the fluid reservoir to the ice making tray through the fluid inlet line. 3. The refrigerator of claim 2, wherein the pump is mounted on the back wall of the housing through a mounting bracket. 4. The refrigerator of claim 1, wherein the clear ice making system further comprises: an ice slide positioned between the ice forming tray and a fluid reservoir, the ice slide including drain apertures therein in fluid communication with the fluid reservoir. 5. The refrigerator of claim 4, wherein the housing further comprises mounting flanges located on each of the opposing side walls of the housing, the mounting flanges engaging the ice slide to hold the ice slide at a downwardly sloping acute angle with respect to the back wall of the housing such that clear ice pieces released from each of the plurality of ice forming fingers during an ice dispensing event are guided by gravity down the ice slide for storage within the refrigerator. 6. The refrigerator of claim 1, wherein the housing further comprises mounting flanges extending substantially perpendicularly from respective opposing side walls of the housing, wherein the housing is mounted to a top wall portion of the fresh food compartment through the mounting flanges. 7. The refrigerator of claim 1, wherein the clear ice making system further comprises: an ice storage bucket located in the freezer compartment; andan ice transfer chute located beneath an ice slide, wherein icemaker housing is located within the fresh food compartment, and the ice transfer chute is adapted to transfer clear ice pieces dispensed from the clear ice making system from the fresh food compartment to the freezer compartment. 8. A clear ice making system comprising: a housing including front, bottom, back and opposing side walls;an ice forming tray including a bottom portion and opposing side portions, each of said opposing side portions being supported by a respective one of the opposing side walls of the housing for pivotal movement of the ice forming tray about a longitudinal axis, the bottom portion including a substantially smooth, continuous arcuate inner wall;a motor connected to the ice forming tray;a motor controller configured to operate the motor to oscillate the ice forming tray about the longitudinal axis at a frequency of 0.4-0.6 Hz during an ice making event and to pivot the ice forming tray from a first, ice forming position to a second, ice dispensing position during an ice dispensing event; andan evaporator member including refrigerant inlet and outlet lines in communication with a refrigerant circulating system, the evaporator member further including a plurality of ice forming fingers extending into the ice forming tray when the ice forming tray is in an ice forming position. 9. The clear ice making system of claim 8, further comprising: a fluid reservoir located below the ice forming tray;a fluid inlet line in communicating with the ice forming tray and the fluid reservoir; anda pump connected to the fluid inlet line for controlling the transfer of fluid from the fluid reservoir to the ice making tray through the fluid inlet line. 10. The clear ice making system of claim 9, wherein the pump is mounted on the back wall of the housing through a mounting bracket. 11. The clear ice making system of claim 8, further comprising: an ice slide positioned between the ice forming tray and a fluid reservoir, the ice slide including drain apertures therein in fluid communication with the fluid reservoir. 12. The clear ice making system of claim 11, wherein the housing further comprises mounting flanges located on each of the opposing side walls of the housing, the mounting flanges engaging the ice slide to hold the ice slide at a downwardly sloping acute angle with respect to the back wall of the housing such that clear ice pieces released from each of the plurality of ice forming fingers during an ice dispensing event are guided by gravity down the ice slide for storage. 13. The clear ice making system of claim 8, wherein the housing further comprises mounting flanges extending substantially perpendicularly from respective opposing side walls of the housing, wherein the housing is adapted to be mounted to a top wall portion of a refrigerator through the mounting flanges. 14. The clear ice making system of claim 8, further comprising: an ice transfer chute adapted to transfer clear ice pieces dispensed from the clear ice making system to an ice bucket. 15. A method of forming clear ice pieces with an ice making system including a housing, an ice forming tray connected to respective opposing side walls of the housing for pivotally movement of the ice forming tray about a longitudinal axis, the ice forming tray having a bottom portion including a substantially smooth, continuous arcuate inner wall, and an evaporator member including a plurality of ice forming fingers, the method comprising: supplying a predetermined amount of water to the ice forming tray, with the ice forming tray being in an ice forming position and the ice forming fingers of the evaporator member extending into the ice forming tray;oscillating the ice forming tray about the longitudinal axis at a frequency of 0.4-0.6 Hz; andcooling the plurality of ice forming fingers such that clear ice pieces form on the plurality of ice forming fingers over a period of time. 16. The method of claim 15, wherein the step of supplying water to the ice making tray includes pumping water from a fluid reservoir through a fluid inlet line to the ice making tray. 17. The method of claim 16, further comprising: rotating the ice forming tray from the ice forming position to an ice dispensing position wherein any of the predetermined amount of water remaining in the ice forming tray, after the clear ice pieces form, drains from the ice forming tray to the fluid reservoir; andheating each of the plurality of ice forming fingers to partially melt the clear ice pieces formed on the plurality of ice forming fingers to release the clear ice pieces from the plurality of ice forming fingers. 18. The method of claim 17, further comprising: transferring the clear ice pieces down a sloped upper surface of an ice slide located below the ice forming tray, to an ice transfer chute. 19. The method of claim 18, further comprising: transferring the clear ice pieces released from the plurality of ice forming fingers to an ice storage bucket through the ice transfer chute. 20. The method of claim 19, wherein the housing and evaporator member are located within a fresh food compartment of a refrigerator and the ice storage bucket is located in a freezer compartment of the refrigerator, and the ice transfer chute transfers the clear ice pieces released from the plurality of ice forming fingers through a wall separating the fresh food and freezer compartments to the ice storage bucket.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (27)
Simkens Marcellus C. P. L. (Kasteel Bloemendale B - 8030 Beernem BEX), Apparatus for making ice blocks.
Frohbieter Edwin H. (Lincoln Township ; Berrien County MI) Reck Andrew C. (Hartford Township ; Van Buren County MI) Jewell Roger D. (Lincoln Township ; Berrien County MI) Janke Donald E. (Benton Town, Clear cube ice maker.
Cur Nihat O. (Royalton Township ; Berrien County MI) Kuehl Steven J. (Lincoln Township ; Berrien County MI) Khanpara Jatin C. (St. Joseph Township ; Berrien County MI) LeClear Douglas D. (St. Joseph , Method for sequentially operating refrigeration system with multiple evaporators.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.