Instantaneous cooler/freezer using orbital shake method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F28F-013/12
F25D-017/06
B67D-001/08
F25D-031/00
F25D-017/02
출원번호
US-0710810
(2017-09-20)
등록번호
US-10119774
(2018-11-06)
발명자
/ 주소
Kosa, Umit
Erhan, Kerem
출원인 / 주소
Kosa, Umit
대리인 / 주소
Bayramoglu, Gokalp
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
The invention discloses instantaneous cooler/freezer using orbital shake method. The instantaneous cooler/freezer using orbital shake method includes a cooling liquid, a flow pump, a reserve tank, a plate heat exchanger, a liquid entrance hole, a cooling chamber, an exit hole, a cooling gas entrance
The invention discloses instantaneous cooler/freezer using orbital shake method. The instantaneous cooler/freezer using orbital shake method includes a cooling liquid, a flow pump, a reserve tank, a plate heat exchanger, a liquid entrance hole, a cooling chamber, an exit hole, a cooling gas entrance, a gas exit hole, a plurality of cooling liquid distribution channels, an expandable envelope with pockets, a valve, a flat inner cover, a cooling chamber cover having led lights placed at sides for each bottle to inform a user in case of a problem, a rakor, a plurality of conical springs, a laser thermometer, a reduced motor, an eccentric bearing, is used to enables the cooling chamber to be in orbital shake motion, a plurality of roller ball bearings, a plurality of horizontal guide bearings. The instantaneous cooler/freezer using orbital shake method specifically build for packaged beverages, food, and similarly all packaged objects.
대표청구항▼
1. An instantaneous cooler/freezer apparatus using an orbital shake method comprising: a cooling liquid cooled down to −30 degrees Celsius or lower without freezing nor losing fluidity of the cooling liquid;a flow pump to circulate the cooling liquid and provide pressure when necessary;a reserve tan
1. An instantaneous cooler/freezer apparatus using an orbital shake method comprising: a cooling liquid cooled down to −30 degrees Celsius or lower without freezing nor losing fluidity of the cooling liquid;a flow pump to circulate the cooling liquid and provide pressure when necessary;a reserve tank, to contain the cooling liquid;a plate heat exchanger where a cooling gas and the cooling liquid interacts without mixing with each other; a liquid entrance hole, wherein the cooling liquid coming from the reserve tank is transmitted to the plate heat exchanger through the liquid entrance hole;an exit hole, wherein the cooling liquid cooled in the plate heat exchanger is transmitted to the cooling chamber through the exit hole;a cooling gas entrance, wherein the cooling gas enters the plate heat exchanger through the cooling gas entrance in order to cool down the cooling liquid;a gas exit hole, wherein the cooling gas after completing the cooling process of the cooling the cooling liquid exits from the gas exit hole to prevent a risk of liquification of the cooling gas;a cooling chamber to cool down packaged beverages and food; a plurality of cooling liquid distribution channels, wherein the plurality of cooling liquid distribution channels enable the cooling liquid to divert in to 3 lines for 3 different bottle modules in the cooling chamber;an expandable envelope with pockets in the cooling chamber, wherein the expandable envelope with pockets, with the help of fluid pressure of the cooling liquid, envelops bottles when the cooling process starts;a valves connected to one end of the distribution channels to stop a flow of the cooling liquid that goes to the envelope;a flat inner cover that access to the valve in case of a technical problem;a cooling chamber cover having light-emitting diode (LED) lights placed at sides of the chamber for each bottle to inform a user in case of a problem;a male coupling, to connect the expandable envelope with the valve;a plurality of conical springs to measure the temperature of the different size bottles with the help of thermometer probes attached to tips of the conical springs;a laser thermometer to measure the temperature of each bottle separately and transmit data to the system;an information LED situated adjacent to each pocket, wherein the information LED indicates if there is a bottle with temperature different from an average temperature of all the bottles and needing to be taken out of the system;a reduced motor to shake the cooling chamber at a desired angular velocity; an eccentric bearing to enable the cooling chamber to be moved in the orbital shake motion;a plurality of roller ball bearings, wherein the plurality of roller ball bearings carry the weight of the cooling liquid and the product that will be cooled/freezed;a plurality of horizontal guide bearings, wherein the plurality of horizontal guide bearings support the eccentric bearing to induce the orbital motion of the cooling chamber being carried by the roller ball bearings. 2. The instantaneous cooler/freezer apparatus using the orbital shake method according to claim 1, wherein cooling liquid distribution channels with a second valve connected to opposite the one end of the distribution channels to stop the flow of the cooling liquid that goes to the envelope. 3. The instantaneous cooler/freezer apparatus using the orbital shake method according to claim 1, further comprising an inner cover with holes to cover the cooling chamber and the valve. 4. The Instantaneous cooler/freezer apparatus using the orbital shake method according to claim 2, wherein the expandable envelope is connected to the valve and the second valve on opposite ends of the expandable envelope. 5. The instantaneous cooler/freezer apparatus using the orbital shake method according to claim 1, wherein the coupling connects the expandable envelope with the valve. 6. The instantaneous cooler/freezer apparatus using the orbital shake method according to claim 1, wherein the plate heat exchanger includes a plurality of separate plates. 7. The instantaneous cooler/freezer apparatus using the orbital shake method according to claim 1, wherein the horizontal guide bearings are synchronized with the eccentric bearing. 8. The instantaneous cooler/freezer apparatus using the orbital shake method according to claim 1, wherein the cooling gas and the cooling liquid circulate in separate closed circuits. 9. A instantaneous cooler/freezer apparatus using an orbital shake method, comprising: a cooling liquid cooled down to −30 degrees Celsius or lower without freezing nor losing fluidity of the cooling liquid;a flow pump to circulate the cooling liquid and provide pressure when necessary; a reserve tank, to contain the cooling liquid;a plate heat exchanger where a cooling gas and the cooling liquid interacts without mixing with each other; a liquid entrance hole, wherein the cooling liquid coming from the reserve tank is transmitted to the plate heat exchanger through the liquid entrance hole;an exit hole, wherein the cooling liquid cooled in the plate heat exchanger is transmitted to the cooling chamber through the exit hole;a cooling gas entrance, wherein the cooling gas enters the plate heat exchanger through the cooling gas entrance in order to cool down the cooling liquid;a gas exit hole, wherein the cooling gas after completing the cooling process of cooling the cooling liquid exits from the gas exit hole to prevent a risk of liquification of the cooling gas;a cooling chamber to cool down packaged beverages and food; a plurality of cooling liquid distribution channels, wherein the plurality of cooling liquid distribution channels enable the cooling liquid to divert in to 3 lines for 3 different bottle modules in the cooling chamber;an expandable envelope with pockets in the cooling chamber,wherein the expandable envelope with pockets, with the help of fluid pressure of the cooling liquid, envelops bottles when the cooling process starts;a valve connected to one end of the distribution channels to stop a flow of the cooling liquid that goes to the envelope;a flat inner cover that access to the valve in case of a technical problem;a cooling chamber cover having light-emitting diode (LED) lights placed at sides of the chamber for each bottle to inform a user in case of a problem;a male coupling, to connect the expandable envelope with the valve;a plurality of laser thermometers to measure the temperature of the different size bottles with the help of thermometer probes attached to tips of the laser thermometers;a laser thermometer to measure the temperature of each bottle separately and transmit data to the system;an information LED situated adjacent to each pocket, wherein the information LED indicates if there is a bottle with temperature different from an average temperature of all the bottles and needing to be taken out of the system;a reduced motor to shake the cooling chamber at a desired angular velocity; an eccentric bearing to enable the cooling chamber to be moved in the orbital shake motion;a plurality of roller ball bearings, wherein the plurality of roller ball bearings carry the weight of the cooling liquid and the product that will be cooled/freezed;a plurality of horizontal guide bearings, wherein the plurality of horizontal guide bearings support the eccentric bearing to induce the orbital motion of the cooling chamber being carried by the roller ball bearings.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.