Frosted beverage chilling and dispensing device and system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F25D-003/00
F25D-031/00
출원번호
US-0722492
(2012-12-20)
등록번호
US-9366475
(2016-06-14)
발명자
/ 주소
Abraham, III, Martin J
출원인 / 주소
Abraham, III, Martin J
대리인 / 주소
Barras, Ian C.
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
According to an exemplary embodiment of the present invention, a device for chilling and dispensing a beverage from a bottle is provided. The device comprises mounting rail configured to attach to a bar top structure and having a top rail plate and a rail freezing and chilling mechanism under the to
According to an exemplary embodiment of the present invention, a device for chilling and dispensing a beverage from a bottle is provided. The device comprises mounting rail configured to attach to a bar top structure and having a top rail plate and a rail freezing and chilling mechanism under the top rail plate. The device also includes a dome configured to attach to the top rail plate and having a dome plate, interior storage tank and a dome freezing and chilling mechanism between the dome plate and the interior storage tank. The rail freezing and chilling mechanism and the dome freezing and chilling mechanism are configured to build a layer of frost on top of the top rail plate and along the dome plate from humidity of ambient air. The dome is configured to seat the bottle in an inverted position and chill and dispense the beverage from the interior storage tank.
대표청구항▼
1. A device for chilling and dispensing a beverage from a bottle comprising: a mounting rail configured to attach to a bar top structure and having a top rail plate and a rail freezing and chilling mechanism under the top rail plate; anda dome configured to attach to the top rail plate and having a
1. A device for chilling and dispensing a beverage from a bottle comprising: a mounting rail configured to attach to a bar top structure and having a top rail plate and a rail freezing and chilling mechanism under the top rail plate; anda dome configured to attach to the top rail plate and having a dome plate, interior storage tank and a dome freezing and chilling mechanism between the dome plate and the interior storage tank, the rail freezing and chilling mechanism and the dome freezing and chilling mechanism being configured to build a layer of frost on top of the top rail plate and along the dome plate from humidity of ambient air and the dome being configured to seat the bottle in an inverted position and chill and dispense the beverage from the interior storage tank. 2. The device according to claim 1, further comprising: a plurality of domes; and a plurality of dome lights arranged around a base of each dome, where the plurality of dome lights are configured to illuminate the layer of frost on the domes and the mounting rail. 3. The device according to claim 2, further comprising a beer dispensing tower coupled to said mounting rail. 4. The device according to claim 3, wherein the beer dispensing tower comprises a tower body wherein the tower body is configured to form a layer of frost on the tower body. 5. The device according to claim 1, wherein the dome has a pyramid shape, a spherical shape, a circular shape, or a cylindrical shape. 6. The device according to claim 1, wherein the dome comprises a stabilizing bar mounted to a floor of the interior storage tank, the stabilizing bar being constructed and arranged to be received in an opening and neck of the bottle and stabilize said bottle. 7. The device according to claim 1, wherein the top rail plate and dome plate are made of a metal having a first thermal conductivity factor; and the rail freezing and chilling mechanism includes: a first non-metallic thermal layer immediately below the top rail plate;a metal thermal conductor layer made of a metal with a second thermal conductivity factor greater than the first conductivity factor below the first non-metallic thermal layer;a second non-metallic thermal layer below the metal thermal conductor layer; andat least one refrigerant line partially or fully embedded within the second non-metallic thermal layer, the at least one refrigerant line being configured to flow therethrough a refrigerant. 8. The device according to claim 7, wherein the dome freezing and chilling mechanism includes: a first non-metallic thermal layer immediately concentric with the dome plate;a metal thermal conductor layer made of a metal with a third thermal conductivity factor greater than the first conductivity factor adjacent to and concentric with the first non-metallic thermal layer;a second non-metallic thermal layer adjacent to and concentric with the metal thermal conductor layer; andat least one refrigerant line partially or fully embedded within the second non-metallic thermal layer, the at least one refrigerant line being configured to flow therethrough a refrigerant. 9. The device according to claim 1, further comprising: first and second elongated heating wires enclosed along longitudinal sides of the mounting rail; anda temperature control unit configured to control heat along each of the elongated heating wires to minimize condensation. 10. A system for chilling and dispensing a beverage from a bottle comprising: a chilling and frost system having a compressor and refrigerant;a mounting rail configured to attach to a bar top structure and having a top rail plate and a rail freezing and chilling mechanism under the top rail plate, the rail freezing and chilling mechanism configured to receive said refrigerant;a dome configured to attach to the top rail plate and having a dome plate, interior storage tank and a dome freezing and chilling mechanism between the dome plate and the interior storage tank, the dome freezing and chilling mechanism configured to receive said refrigerant whereinthe rail freezing and chilling mechanism and the dome freezing and chilling mechanism are configured to build a layer of frost on top of the top rail plate and along the dome plate from humidity of ambient air and the dome is configured to seat the bottle in an inverted position and chill and dispense the beverage from the interior storage tank. 11. The system according to claim 10, further comprising: a plurality of domes; and a plurality of dome lights arranged around a base of each dome, where the plurality of dome lights are configured to illuminate the layer of frost on the domes and the mounting rail. 12. The system according to claim 11, further comprising a beer dispensing tower coupled to said mounting rail; and a beer chilling system having a coolant. 13. The system according to claim 12, wherein the beer dispensing tower comprises a tower body wherein the tower body is configured to form a layer of frost on the tower body using the coolant from the beer chilling system. 14. The system according to claim 10, wherein the dome has a pyramid shape, a spherical shape, a circular shape, or a cylindrical shape. 15. The system according to claim 10, wherein the dome comprises a stabilizing bar mounted to a floor of the interior storage tank, the stabilizing bar being constructed and arranged to be received in an opening and neck of the bottle and stabilize said bottle. 16. The system according to claim 10, wherein the top rail plate and dome plate are made of a metal having a first thermal conductivity factor; and the rail freezing and chilling mechanism includes: a first non-metallic thermal layer immediately below the top rail plate;a metal thermal conductor layer made of a metal with a second thermal conductivity factor greater than the first conductivity factor below the first non-metallic thermal layer;a second non-metallic thermal layer below the metal thermal conductor layer; andat least one refrigerant line partially or fully embedded within the second non-metallic thermal layer, the at least one refrigerant line being configured to flow therethrough said refrigerant. 17. The system according to claim 16, wherein the dome freezing and chilling mechanism includes: a first non-metallic thermal layer immediately concentric with the dome plate;a metal thermal conductor layer made of a metal with a third thermal conductivity factor greater than the first conductivity factor adjacent to and concentric with the first non-metallic thermal layer;a second non-metallic thermal layer adjacent to and concentric with the metal thermal conductor layer; andat least one refrigerant line partially or fully embedded within the second non-metallic thermal layer, the at least one refrigerant line being configured to flow therethrough said refrigerant. 18. The system according to claim 10, further comprising: first and second elongated heating wires enclosed along longitudinal sides of the mounting rail; anda temperature control unit configured to control heat along each of the elongated heating wires to minimize condensation. 19. A dome for chilling and dispensing a beverage from a bottle comprising: an external dome plate having a top opening;an interior storage tank within the external dome plate; anda dome freezing and chilling mechanism between the external dome plate and the interior storage tank, the dome freezing and chilling mechanism being configured to receive a refrigerant to build a layer of frost on the external dome plate from humidity of ambient air and the dome being configured to seat in the top opening the bottle in an inverted position and to chill and dispense the beverage from the interior storage tank. 20. The dome according to claim 19, wherein the external dome plate is made of a metal having a first thermal conductivity factor and the dome freezing and chilling mechanism comprises: a first non-metallic thermal layer immediately concentric with the external dome plate;a metal thermal conductor layer made of a metal with a second thermal conductivity factor greater than the first conductivity factor adjacent to and concentric with the first non-metallic thermal layer;a second non-metallic thermal layer adjacent to and concentric with the metal thermal conductor layer; andat least one refrigerant line partially or fully embedded within the second non-metallic thermal layer, the at least one refrigerant line being configured to flow therethrough the refrigerant.
Cleleand Robert K. (11051 Via El Mercado Los Alamitos CA 90720) Cleleand James M. (4200 Vie Norte St. Cypress CA 90630), Counter top beer chilling dispensing tower.
Trewhella Joseph M. (5008 Cavalier Ct. Godfrey IL 62035), Machine for dispensing chilled alcoholic beverage having improved cooling circuit and bottle mounting system.
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