The present invention discloses a machine (1) for preparing beverages, in particular aromatic beverages such as for example espresso type coffee, comprising a machine casing (2) that presents at least one first access element (21) on a lateral face of said machine casing (2), adapted so that provides access to the interior region where there are the fluid pressurization means (5), preferentially also a second element access (22) also on a lateral face of said machine casing (2), adapted so that provides access to the interior region where there is provided a milk frothing device (9), thereby enabling its removal for periodic cleaning in ergonomic manner.

A portable, battery-operated vacuum infusion machine includes a top container assembly with a compartment that houses an air pump, a battery, and a controller. The top container assembly couples to the top opening of a separate bottom container. When coupled together, the top and bottom containers are connected by flow holes superimposed by a filter in the top container. An air pump switched on or off by a controller exerts negative pressure in the bottom container by means of a suction port and induces liquid in the top container to enter the bottom container under pressure while the filter in the top container ensures that the infusion residue is separated from the liquid and only the prepared infusion has passage to the bottom container. The bottom container can be opened by means of removing the top container in order to allow for serving the prepared infusion.

A single dose unit (1) for brewed coffee, which comprises an upper layer (3) and a lower layer (4), both of which are filter elements (3a) made from cellulose fibers and other synthetic fibers, and traces of plastic fibers, thus consisting of a fully biodegradable filter element (3a), with the upper and lower layers (3 and 4) sealed in a circular manner, forming a sealing edge (5) with a pouch for ground coffee (CF) between the layers, and an injector device (2) disposed in the center of the upper layer (3) in a specific production process of perforation and sealing, as well as the process of brewing the brewed coffee in a coffee maker, with an upper spreader (15b) and a lower spreader unit (15) both provided with longitudinal grooves (22) in order to obtain brewed coffee without any pressure.

A single dose unit (1) for brewed coffee, which comprises an upper layer (3) and a lower layer (4), both of which are filter elements (3a) made from cellulose fibers and other synthetic fibers, and traces of plastic fibers, thus consisting of a fully biodegradable filter element (3a), with the upper and lower layers (3 and 4) sealed in a circular manner, forming a sealing edge (5) with a pouch for ground coffee (CF) between the layers, and an injector device (2) disposed in the center of the upper layer (3) in a specific production process of perforation and sealing, as well as the process of brewing the brewed coffee in a coffee maker, with an upper spreader (15b) and a lower spreader unit (15) both provided with longitudinal grooves (22) in order to obtain brewed coffee without any pressure.

A coffee maker includes: an extractor that is configured to receive ground coffee and water and that is configured to extract liquid coffee from the ground coffee and the water, and a dispenser configured to supply the water to the ground coffee in the extractor. The dispenser includes an arm that is rotatably disposed above an inlet of the extractor and that includes a nozzle configured to supply the water to the extractor, a first actuator that is disposed at the arm and that is configured to move the nozzle to a position where the nozzle is above the inlet of the extractor, and a second actuator that is disposed at the arm and that is configured to rotate the nozzle to orient the nozzle at a predetermined angle relative to the inlet of the extractor.

A coffee maker includes: an extractor that is configured to receive ground coffee and water and that is configured to extract liquid coffee from the ground coffee and the water, and a dispenser configured to supply the water to the ground coffee in the extractor. The dispenser includes an arm that is rotatably disposed above an inlet of the extractor and that includes a nozzle configured to supply the water to the extractor, a first actuator that is disposed at the arm and that is configured to move the nozzle to a position where the nozzle is above the inlet of the extractor, and a second actuator that is disposed at the arm and that is configured to rotate the nozzle to orient the nozzle at a predetermined angle relative to the inlet of the extractor.

A coffee maker includes an extractor configured to receive ground coffee and water and to extract coffee from the ground coffee, and a dispenser configured to supply water to the ground coffee in the extractor. The dispenser includes an arm that is rotatably disposed vertically above an inlet of the extractor and includes a nozzle configured to supply water to the ground coffee in the extractor, a first actuator configured to rotatably support the arm and to rotate the arm about a center of the inlet along an edge of the inlet, and a second actuator connected to the arm and configured to rotate the arm relative to the first actuator.

A coffee maker includes an extractor configured to receive ground coffee and water and to extract coffee from the ground coffee, and a dispenser configured to supply water to the ground coffee in the extractor. The dispenser includes an arm that is rotatably disposed vertically above an inlet of the extractor and includes a nozzle configured to supply water to the ground coffee in the extractor, a first actuator configured to rotatably support the arm and to rotate the arm about a center of the inlet along an edge of the inlet, and a second actuator connected to the arm and configured to rotate the arm relative to the first actuator.

Disclosed herein are a drip coffee machine and a liquid discharge device used therefor including: a liquid providing module having a discharge pipe discharging liquid to coffee beans; a rotation module having an actuator generating rotational force, a driven gear rotated by receiving the rotational force, and a base plate rotated by being connected to the driven gear, the base plate being configured to move the discharge pipe along a rotation trajectory when rotated; and a translation module including a translation drive unit having an elastic pull member elastically deflecting the discharge pipe along a translation trajectory, an adjustment cam installed to be rotatable with respect to the base plate to adjust the position of the discharge pipe elastically deflected within the translation trajectory by the elastic pull member in the one direction or the other direction opposite to the one direction and having its outer circumferential surface in contact with the discharge pipe, and an intermediate unit transmitting the rotational force generated by the actuator to the adjustment cam , wherein the discharge pipe discharges the liquid while being moved along a discharge trajectory in which the rotation trajectory and the translation trajectory are combined with each other.

Disclosed herein are a drip coffee machine and a liquid discharge device used therefor including: a liquid providing module having a discharge pipe discharging liquid to coffee beans; a rotation module having an actuator generating rotational force, a driven gear rotated by receiving the rotational force, and a base plate rotated by being connected to the driven gear, the base plate being configured to move the discharge pipe along a rotation trajectory when rotated; and a translation module including a translation drive unit having an elastic pull member elastically deflecting the discharge pipe along a translation trajectory, an adjustment cam installed to be rotatable with respect to the base plate to adjust the position of the discharge pipe elastically deflected within the translation trajectory by the elastic pull member in the one direction or the other direction opposite to the one direction and having its outer circumferential surface in contact with the discharge pipe, and an intermediate unit transmitting the rotational force generated by the actuator to the adjustment cam , wherein the discharge pipe discharges the liquid while being moved along a discharge trajectory in which the rotation trajectory and the translation trajectory are combined with each other.