System and apparatus for regulating flow rate in an espresso machine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A47J-031/057
A47J-031/46
A47J-031/00
출원번호
US-0015823
(2013-08-30)
등록번호
US-9433318
(2016-09-06)
발명자
/ 주소
Prefontaine, Jason Camille
Walker, Devin
출원인 / 주소
Seattle Espresso Machine Corporation
대리인 / 주소
Walters, Mark P.
인용정보
피인용 횟수 :
1인용 특허 :
2
초록▼
Embodiments are directed towards regulating flow rate in an espresso machine, during a multi-phase brewing process which includes a pre-brew and an extraction phase. During the pre-brew phase, coffee grounds are slowly pre-wetted and/or out-gassed with a first volume of water delivered at a first fl
Embodiments are directed towards regulating flow rate in an espresso machine, during a multi-phase brewing process which includes a pre-brew and an extraction phase. During the pre-brew phase, coffee grounds are slowly pre-wetted and/or out-gassed with a first volume of water delivered at a first flow rate. During the extraction phase, a second volume of water is delivered, at a second flow rate, to extract espresso, where the second volume is delivered at a generally greater pressure than the first volume. The second flow rate is greater than the first flow rate. The flow rates, volumes, and pressures are regulated by the espresso machine, which includes a flow rate regulation assembly that comprises first and second flow paths and first and second valves. Baristas may vary the flow rate, volume, and pressure of water throughout the brewing process by opening, closing, or otherwise adjusting at least one of the valves.
대표청구항▼
1. A brew flow rate regulation assembly for regulating a brew flow rate of pressurized water and providing the pressurized water to a heating source of an espresso machine while brewing a coffee beverage using the pressurized water, comprising: an assembly body;a brew regulation assembly input confi
1. A brew flow rate regulation assembly for regulating a brew flow rate of pressurized water and providing the pressurized water to a heating source of an espresso machine while brewing a coffee beverage using the pressurized water, comprising: an assembly body;a brew regulation assembly input configured and arranged to allow flow of the pressurized water into the assembly body;a brew regulation assembly output configured and arranged to allow flow of the pressurized water out of the assembly body and provide the pressurized water to the heating source, wherein, in the espresso machine, the brew regulation assembly output is disposed upstream from the heating source;a first flow path disposed in the assembly body such that the first flow path is downstream from the brew regulation assembly input and upstream from the brew regulation assembly output, wherein the first flow path is in fluid communication with the brew regulation assembly input and the brew regulation assembly output, wherein the first flow path is configured and arranged to receive at least a portion of the pressurized water from the brew regulation assembly input and provide the portion of the pressurized water to the brew regulation assembly output;a second flow path disposed in the assembly body such that the second flow path is downstream from the brew regulation assembly input and upstream from the brew regulation assembly output, wherein the second flow path is in fluid communication with the brew regulation assembly input and the brew regulation assembly output, wherein the second flow path is configured and arranged to receive at least another portion of the pressurized water from the brew regulation assembly input and provide the other portion of the pressurized water to the brew regulation assembly output and the first flow path and the second flow path are parallel flow paths;a first valve disposed in the assembly body such that the first valve is positioned downstream of the brew regulation assembly input and upstream from the brew regulation assembly output, wherein the first valve is configured and arranged to regulate the brew flow rate of the pressurized water that is provided by the brew regulation assembly output to the heating source of the espresso machine by restricting a first flow rate through the first flow path; anda second valve disposed in the assembly body such that the second valve is positioned downstream of the brew regulation assembly input and upstream from the brew regulation assembly output, wherein the second valve is configured and arranged to regulate the brew flow rate of the pressurized water that is provided by the brew regulation assembly output to the heating source of the espresso machine by restricting a second flow rate though the second flow path, wherein the brew flow rate of the pressurized water is equal to at least a sum of the first flow rate and the second flow rate. 2. The brew flow rate regulation assembly of claim 1, further comprising a signal line configured and arranged to carry a signal to control the second valve, wherein controlling the second valve includes at least one of opening the second valve or closing the second valve. 3. The brew flow rate regulation assembly of claim 1, wherein the first valve is a needle valve. 4. The brew flow rate regulation assembly of claim 1, wherein the second valve is an electro-mechanical valve. 5. The brew flow rate regulation assembly of claim 1, wherein the first valve is oriented substantially perpendicular to the second valve. 6. The brew flow rate regulation assembly of claim 1, wherein a transverse cross-section of the first flow path is less than a transverse cross-section of the second flow path. 7. The brew flow rate regulation assembly of claim 1, further comprising: a third flow path disposed in the assembly body and in fluid communication with the brew regulation assembly input and the brew regulation assembly output; anda third valve configured and arranged to regulate the brew flow rate of the pressurized water within the espresso machine by restricting a third flow rate through the third flow path, wherein the brew flow rate of the pressurized water is equal to at least a sum of the first flow rate, the second flow rate, and the third flow rate. 8. An espresso machine configured and arranged for regulating a brew flow rate of water while brewing a coffee beverage, comprising: a brew tank configured and arranged for storing water;a heating structure disposed in the brew tank and configured and arranged for heating water stored in the brew tank;a giggleur in fluid communication with the brew tank and configured and arranged to regulate the brew flow rate of the water while brewing the coffee beverage;a pump configured and arranged to pump the water through the giggleur; anda brew flow rate regulation assembly that includes at least a first valve disposed downstream from the pump and upstream from the brew tank and the giggleur, wherein the brew flow rate regulation assembly is configured and arranged to regulate the brew flow rate of water while brewing the coffee beverage, wherein the brew flow rate regulation assembly includes a first flow path in fluid communication with the brew tank and a second flow path also in fluid communication the brew tank and each of the first flow path and the second flow paths are disposed downstream from the pump and upstream from the brew tank. 9. The espresso machine of claim 8, wherein the brew flow rate regulation assembly is the brew flow rate regulation assembly of claim 1. 10. The espresso machine of claim 8, wherein a transverse cross-section of the giggleur is greater than a transverse cross-section of the first flow path but less than a transverse cross-section of the second flow path. 11. The espresso machine of claim 8, wherein the brew flow rate regulation assembly is disposed between the pump and the brew tank.
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