Beverage capsule for preparing a beverage in a beverage preparation device from a capsule containing beverage ingredients by passing water through the ingredients contained in the capsule using centrifugal forces, said device comprising means for driving the capsule in rotation around an axis of rotation (I), a capsule holder for receiving the capsule and a water injection means for injecting water in the capsule, said device further comprising a valve means for engaging a valve engaging portion of the capsule; said valve means comprising a pressing ring; the capsule comprising a body and a lid and a valve engaging portion designed for being inserted between the capsule holder and the valve means of the device; wherein said capsule comprises an outlet structure forming beverage flow restriction passages of defined cross-section in the capsule at such and/or as a result of the insertion of the valve engaging portion between the capsule holder and the pressing ring of the valve means.

The present utility model discloses a cool immersed and centrifugal coffee brewing machine, includes a filtration cup arranged in a blender jar for accommodating coffee powder; and a stirring mechanism, rotating under driven, is arranged for driving coffee powder and water in the filtration cup to rotate, the centrifugal force formed by rotation and the rotating time are sufficient to brew coffee; a space is set between the filtration cup and the blender jar for accommodating coffee solution. The present utility model of cool immersed and centrifugal coffee brewing machine, due to adopting a stirring mechanism which is driven by a motor, drives the mixture of coffee powder and water to rotate rapidly, thus achieves a fast brewing of the cold soaking coffee through the centrifugal force, which is able to shorten the brewing time of cold soaking coffee from several hours to 10-30 minutes, therefore, it is more practical.

The present utility model discloses a cool immersed and centrifugal coffee brewing machine, includes a filtration cup arranged in a blender jar for accommodating coffee powder; and a stirring mechanism, rotating under driven, is arranged for driving coffee powder and water in the filtration cup to rotate, the centrifugal force formed by rotation and the rotating time are sufficient to brew coffee; a space is set between the filtration cup and the blender jar for accommodating coffee solution. The present utility model of cool immersed and centrifugal coffee brewing machine, due to adopting a stirring mechanism which is driven by a motor, drives the mixture of coffee powder and water to rotate rapidly, thus achieves a fast brewing of the cold soaking coffee through the centrifugal force, which is able to shorten the brewing time of cold soaking coffee from several hours to 10-30 minutes, therefore, it is more practical.

A method for preparing a short coffee extract from a capsule containing coffee powder. The method includes providing a capsule containing contains between 5.0 and 8.5 gram of ground coffee powder, injecting liquid into the capsule to interact with the coffee powder, and centrifuging the capsule in a beverage producing device to force, by the effect of centrifugal forces, the liquid coffee extract out of the capsule so that it can be collected and dispensed. The extraction of the liquid coffee extract is preferably obtained by rotating the capsule within a speed range of 2500 to 7500 rpm.

A method for preparing a short coffee extract from a capsule containing coffee powder. The method includes providing a capsule containing contains between 5.0 and 8.5 gram of ground coffee powder, injecting liquid into the capsule to interact with the coffee powder, and centrifuging the capsule in a beverage producing device to force, by the effect of centrifugal forces, the liquid coffee extract out of the capsule so that it can be collected and dispensed. The extraction of the liquid coffee extract is preferably obtained by rotating the capsule within a speed range of 2500 to 7500 rpm.

The present application relates to improvements in machines for the preparation of beverage and food products, and in particular to such a machine which utilizes a compressed tablet of food or beverage product, which is inserted into the brew chamber of the machine, into which a liquid is directed to break up or dissolve the tablet. The machine for preparing a beverage or food product from a compressed disc of at least one ingredient includes a sealable brew chamber, and said brew chamber includes means for mounting the disc so that it is able to spin freely around a central axis. The brew chamber further includes an at least one nozzle having an outlet in the brew chamber located to direct a jet of liquid at a peripheral edge of the disc mounted in the brew chamber.

The present application relates to improvements in machines for the preparation of beverage and food products, and in particular to such a machine which utilizes a compressed tablet of food or beverage product, which is inserted into the brew chamber of the machine, into which a liquid is directed to break up or dissolve the tablet. The machine for preparing a beverage or food product from a compressed disc of at least one ingredient includes a sealable brew chamber, and said brew chamber includes means for mounting the disc so that it is able to spin freely around a central axis. The brew chamber further includes an at least one nozzle having an outlet in the brew chamber located to direct a jet of liquid at a peripheral edge of the disc mounted in the brew chamber.

A machine for preparing a beverage (3) from a flavouring ingredient (2) has a beverage processing unit (10,20) with: a holder (10) delimiting a mixing chamber (11) in which the flavouring ingredient is received, held and mixed with water (4) during beverage preparation; and a water inlet (22) configured to guide water (4) into the mixing chamber (11) where it is mixed with the flavouring ingredient (2) to form the beverage (3). The machine (1) has a thermal conditioner (30) that has a body (31) with: a guide (32) for guiding the water (4) towards the beverage processing unit (10,20); and a thermal device (33) that is able to be powered to thermally conditioning the guide (32). The machine (1) has a liquid driving arrangement (5) with: a driving mode to drive the water (4); and a stationary mode. The machine has a control unit (7) to control the thermal device (33) and the driving arrangement (5), the control unit being selectively in: a first control mode in which the thermal device (33) is powered so that the water (4) located along the guide (32) is thermally conditioned; and a second control mode different to the first control mode. The control unit (7) has a selection arrangement for selecting one of a first beverage preparation mode using the first control mode and a second beverage preparation mode using the second control mode. In the second control mode the thermal device is unpowered or powered at a powering level that is significantly below a powering level of the thermal device (33) in the first control mode. Upon selection via the selection arrangement (71) of the second beverage preparation mode, the control unit (7) is configured to switch the driving arrangement (5) from the stationary to the driving mode and/or maintain the driving arrangement (5) in the driving mode.

A machine for preparing a beverage (3) from a flavouring ingredient (2) has a beverage processing unit (10,20) with: a holder (10) delimiting a mixing chamber (11) in which the flavouring ingredient is received, held and mixed with water (4) during beverage preparation; and a water inlet (22) configured to guide water (4) into the mixing chamber (11) where it is mixed with the flavouring ingredient (2) to form the beverage (3). The machine (1) has a thermal conditioner (30) that has a body (31) with: a guide (32) for guiding the water (4) towards the beverage processing unit (10,20); and a thermal device (33) that is able to be powered to thermally conditioning the guide (32). The machine (1) has a liquid driving arrangement (5) with: a driving mode to drive the water (4); and a stationary mode. The machine has a control unit (7) to control the thermal device (33) and the driving arrangement (5), the control unit being selectively in: a first control mode in which the thermal device (33) is powered so that the water (4) located along the guide (32) is thermally conditioned; and a second control mode different to the first control mode. The control unit (7) has a selection arrangement for selecting one of a first beverage preparation mode using the first control mode and a second beverage preparation mode using the second control mode. In the second control mode the thermal device is unpowered or powered at a powering level that is significantly below a powering level of the thermal device (33) in the first control mode. Upon selection via the selection arrangement (71) of the second beverage preparation mode, the control unit (7) is configured to switch the driving arrangement (5) from the stationary to the driving mode and/or maintain the driving arrangement (5) in the driving mode.

A capsule for preparation of a beverage includes a container and a beverage ingredient contained therein. The container includes a code adapted for being identified or read by external reading means, and the code is arranged on the container to be read while the capsule is rotated around an axis of rotation traversing the capsule.