A drawer assembly for a capsule based brewing machine includes a housing having at least a one track on an inner side thereof. The drawer assembly includes a platform located within the housing for positioning a capsule puncturing needle. The drawer assembly includes a drawer. The drawer having at least one capsule receptacle therein, slidably engaged with the track of the housing. A method of operating drawer assembly for a capsule based brewing machine includes translating a drawer along a track of a housing from an extracted position to an inserted position, changing a vertical distance between a top surface of the drawer and a lower surface of a platform, and puncturing a capsule with a puncturing needle.

A beverage system for making a beverage based on ingredients in a capsule has a conveying carriage with a capsule carrier, a threaded spindle extending inside a housing of the beverage system and having a drive nut connected to the capsule carrier. A stop element is arranged on the threaded spindle at an ejection position for blocking movement of the drive nut along the threaded spindle. A motor rotates the threaded spindle in a first direction of rotation, in order to move the capsule carrier to a processing position, where a beverage is made based on the ingredients in a capsule; in order to move the capsule carrier further along the threaded spindle to an ejection position; and in order to rotate the capsule carrier at the ejection position about the threaded spindle to eject the capsule from the capsule carrier.

A drawing-type coffee machine for extracting a coffee capsule with an identification pattern, comprising: a main body; a dynamics assembly arranged in the main body; an extraction assembly connected with the dynamics assembly for containing the coffee capsule, the extraction assembly being driven by the dynamics assembly to slide in the main body or slide out the main body; a cutter assembly arranged above the dynamics assembly; and an optical identification assembly arranged in an outer surface of the main body; wherein, when the extraction assembly is exposed out of the main body, the optical identification assembly identify the identification pattern of the coffee capsule and then provides a driving signal according to the identification pattern, the dynamics assembly is driven according to the driving signal, and when the extraction assembly is driven to slide in the main body, the cutter assembly aligns to the coffee capsule.

A dispensing group for an espresso coffee machine is described. The group comprises: a coffee boiler configured to contain pressurized hot water; a supply duct for feeding hot water under pressure towards a puck of coffee powder; and a filter-holder support comprising guides (30) which form at least one sliding surface for slidably supporting a filter holder, wherein said filter-holder support is rotatable between a first position for inserting the filter holder and a second dispensing position and wherein said dispensing group comprises a mechanical locking device for locking the filter-holder support in the second dispensing position.

A coffee machine is provided. The coffee machine may include an electronic control module configured to receive at least one flow set point and at least one temperature set point. The coffee machine may further include a portafilter, a group head configured to receive the portafilter, and at least one water line configured to supply water. The coffee machine may further include at least one syringe pump configured to pressurize the water to attain the at least one flow set point. The coffee machine may further include an in-line heating element configured to control temperature of the water according to the at least one temperature set point. The coffee machine may further include a feedback loop configured to provide the temperature to the electronic control module to enable selectively adjusting the temperature.

The coffee machine has at least one infusion unit and at least one filter holder that is manually connected to and disconnected from the infusion unit for preparation of coffee, and it comprises at least one added support element of the filter holder for keeping it attached to the coffee machine when the filter holder is not connected to the infusion unit, said added support element comprising heating means for heating said filter holder to a predetermined temperature. The additional support element can be implemented also as a standalone element and, therefore, not connected to the coffee machine.

A brewing unit, machine and system for the preparation of a beverage using prepackaged capsules. The brewing unit (1) includes a piercing and liquid-supplying device (23, 34, 35) having points (35) for piercing the top wall (12) of a capsule (C) and a conduit (36) for supplying a flow of pressurized liquid to a brewing chamber above the top wall (12) of the capsule (C) and thereafter inside the capsule (C) through the pierces holes in the top wall. A drawer (3) holds a capsule (C) such that its top wall (12) lies in an inclined plane. A discharge channel (40) is provided in the drawer and in fluid communication with the region above the top wall (12) of the capsule (C) when, after the beverage has been prepared and dispensed, the piercing and liquid-supplying device moves from the extracted work position to the retracted rest position to allow the remaining liquid to be poured into the discharge channel (40).

A coffee brewer contains a brewing unit in which coffee grounds having been poured in are compressed by a plunger driven by an actuator. Heated water flows through the compressed coffee grounds. A control device controls the actuator in accordance with signals of an angle of rotation sensor. The control device first moves the plunger against a stop in an ejection position to calibrate the sensor, then moves the plunger by a predetermined distance in a downwards direction into a pouring-in position. Afterwards the control device moves the plunger by a second distance into the brewing position, a length of the predetermined distance and the second distance corresponds to a number of pulses of the sensor which are stored in the memory. The control device subsequently moves the plunger by a third distance back into the ejection position in which the coffee grounds are removed from the plunger.

A brewing apparatus may include a chassis dimensioned to fit within a compartment of an aircraft galley. The chassis may include a front chassis section and one or more guide rails configured to engage one or more tracks in the aircraft galley compartment. The front chassis section may include a brew head assembly with one or more server restraints or one or more brew cup restraints and a brew cup panel assembly. The brew cup panel assembly may include a hinge assembly configured to engage the brew head assembly and a brew cup panel. The brew cup panel may be coupled to the hinge assembly and may be configured to adjust the brew head assembly in a selected direction via actuation of the hinge assembly.

A coffee brewer contains a brewing unit in which coffee grounds having been poured in are compressed by a plunger driven by an actuator. Heated water flows through the compressed coffee grounds. A control device controls the actuator in accordance with signals of an angle of rotation sensor. The control device first moves the plunger against a stop in an ejection position to calibrate the sensor, then moves the plunger by a predetermined distance in a downwards direction into a pouring-in position. Afterwards the control device moves the plunger by a second distance into the brewing position, a length of the predetermined distance and the second distance corresponds to a number of pulses of the sensor which are stored in the memory. The control device subsequently moves the plunger by a third distance back into the ejection position in which the coffee grounds are removed from the plunger.