Heat transfer device (10) for heating a fluid or a fluid foam on demand comprising a path (30) through which the fluid or the fluid foam circulates and at least one layer (11) made of a thermally conductive material, the path (30) being in contact with the layer (11) in such a way that when the layer (11) is heated it transmits heat to the fluid or fluid foam as it circulates through the path (30), wherein the path (30) and the part of the layer (11) in contact with said path (30) are detachably configured so that they are made accessible for being cleaned.

The invention relates to a disposable heat transfer device (10) for heating a fluid or a fluid foam on demand comprising a path (30) through which the fluid or the fluid foam circulates and at least one layer (11) made of a thermally conductive material, the path (30) being in contact with the layer (11) in such a way that when the layer (11) is heated it transmits heat to the fluid or fluid foam as it circulates through the path (30).

An electric heater (1) comprising:—a metal body (2);—a first pipe (11) and a second pipe (12) provided in the metal body (2), which are mutually distinct so as to be crossed by two distinct flows of fluid to be heated;—a first heating stretch (21), a second heating stretch (22) and a third heating stretch (23) are arranged in the metal body (2); wherein the first pipe (11) and the second pipe (12) are arranged between the first heating stretch (21) and the second heating stretch (22); wherein the third heating stretch (23) is proximal to the second pipe (12) and distal from the first pipe (11); and wherein second pipe (12) is arranged between the first pipe (11) and the third heating stretch (23).

The present invention provides a heating device, including a heating body. The heating body is provided with a fluid inlet, a fluid outlet and a flow channel, wherein one of the fluid inlet and the fluid outlet is arranged in an edge area of the heating body, and the other one of the fluid inlet and the fluid outlet is arranged in a central area of the heating body. The flow channel is arranged spirally along a circumferential direction of the heating body and communicates the fluid inlet with the fluid outlet. The present invention further provides a coffee machine including the heating device, and the fluid being heated by the heating device is water. The heating device and the coffee machine can improve the stability of the temperature of the outlet water and improve the taste and quality of the brewed coffee.

Method and machine for preparing beverages, in particular infusions, such as coffee or tea, having a liquid supply source supplying a liquid, in particular water, an infusion chamber and an infusion circuit, which connects said supply source to said infusion chamber; the machine having an infusion circuit with a heat exchanger and a dispensing assembly, which is configured to heat the liquid at a predetermined temperature that is lower than the boiling temperature of the liquid, for example at approximately 90°, before the infusion of the liquid itself on the inside of the infusion chamber.

Beverage preparation apparatus for preparing a beverage comprising: —a water tank (2) for storing water, —a brewing unit (3) for receiving a dose of beverage ingredients, —a water in line (5) for supplying water from the water tank to the brewing unit (3) including a pressure pump (4) for supplying pressurized liquid to the brewing unit and a fluid heater (29) for heating liquid, —a control unit (6) for selectively controlling the activation of the pressure pump, wherein it further comprises a fluidic interrupter (7) positionable in fluidic interruption position for interrupting the fluidic communication between the water tank (2) and the water line (5) and, reversely, positionable in fluidic communication position for restoring the fluid communication between the water tank and the water line and wherein the control unit (6) is arranged for automatically activating an anti-freeze mode by activating the fluidic interrupter (7) in fluidic interruption position and by miming the pressure pump (4) to at least partially empty the water line (5) from water contained therein.

Beverage supply apparatus 100 has tank 3, heating device 6 for heating pipe L31 in milk supply pipe L3 through which a beverage (milk or foamed milk) flows, and first pump 7. When the beverage supply is completed, apparatus 100 fills pipe L3 with water, and enters into a standby state. When the standby state continues for a predetermined time, apparatus 100 discharges the water inside pipe L3 through drain pipe L4, and then again fills pipe L3 with water. Additionally, when a supply instruction is input during the standby state, the beverage supply apparatus 100 discharges the water through the drain pipe L4, discharges the beverage from the drain pipe L4 by a predetermined amount, and then delivers the beverage from the beverage delivery port 10 through the outlet pipe L33.

A method for heating water in a machine for making and dispensing beverages, the machine having a device with at least one heating metallic duct and a winding of electromagnetic induction. The device is part of a heating and feeding assembly wherein, by a logical unit, a method is carried out which, for every beverage type the machine can dispense, the temperature of heated water is brought to a specific temperature value that can be selected by the user.

A machine for preparing hot beverages, including a beverage outlet for dispensing a prepared hot beverage, an instantaneous water heater for heating water during preparation of the hot beverage, a flow meter for determining the volume flow of water flowing through the instantaneous water heater, and a drainage valve arranged downstream of the instantaneous water heater in the direction of flow formed as a controlled directional control valve via which water flowing through the instantaneous water heater can be conducted to a waste water line or collection container instead towards the beverage outlet. A control device is provided having a scale detection function for analyzing a scaling level of the instantaneous water heater using measured values of the flow meter. This control device, during scaling level analysis, switches the drainage valve to a switched position in which the fluid flow is conducted from the instantaneous water heater directly to the waste water line or collection container.

An electric heater including a metal body, in which a first pipe and a second pipe are provided in the metal body. The first pipe and second pipe are mutually distinct so as to be crossed by two distinct flows of fluid to be heated. A first heating stretch, a second heating stretch and a third heating stretch are arranged in the metal body. The first pipe and the second pipe are arranged between the first heating stretch and the second heating stretch. The third heating stretch is proximal to the second pipe and distal from the first pipe. The second pipe is arranged between the first pipe and the third heating stretch.