Abstract: An automated beverage preparation apparatus includes: multiple pumps for extracting multiple fluid materials stored in multiple material containers, and pushing the extracted fluid materials to move forward; a fluid output device coupled with the multiple pumps and arranged to operably dispense fluid materials to a beverage container; a user control interface arranged to operably generate a control command; a processing circuit arranged to operably generate a corresponding control signal according to the control command; and a pump control circuit arranged to operably control the multiple pumps according to the control signal. The pump control circuit conducts a sparkling drink making operation under control of the processing circuit to cause the fluid output device to dispense different fluid materials to the beverage container in order, so as to automatically form a sparkling drink/aerated drink with a predetermined flavor within the beverage container.

Abstract: An automated beverage preparation apparatus includes: multiple pumps for extracting multiple fluid materials stored in multiple material containers, and pushing the extracted fluid materials to move forward; a fluid output device coupled with the multiple pumps and arranged to operably dispense fluid materials to a beverage container; a user control interface arranged to operably generate a control command; a processing circuit arranged to operably generate a corresponding control signal according to the control command; and a pump control circuit arranged to operably control the multiple pumps according to the control signal. The pump control circuit conducts a layered drink making operation under control of the processing circuit to cause the fluid output device to dispense different fluid materials to the beverage container, so as to automatically form a layered drink/gradient drink having at least two color layers within the beverage container.

Abstract: A dual-mode fluid connector includes: a hollow connecting element, comprising a chamber inside the hollow connecting element, wherein a protuberant block element is arranged on an inner surface of the chamber; a material tube, positioned on the hollow connecting element and connected through the chamber; a cleaning tube, positioned on the hollow connecting element and connected through the chamber; a head portion, positioned on one terminal of the hollow connecting element and having a connecting opening, wherein the connecting opening can be detachably connected to a material container; a rear portion, positioned on another terminal of the hollow connecting element and having a through hole; and a rod, inserted into the chamber via the through hole and including a sealing portion; wherein after the sealing portion detaches from the block element for a predetermined distance, an output terminal of the outlet check valve becomes a close status.

Abstract: A dual-mode fluid connector includes: a hollow connecting element, comprising a chamber inside the hollow connecting element, wherein a protuberant block element is arranged on an inner surface of the chamber; a material tube, positioned on the hollow connecting element and connected through the chamber; a cleaning tube, positioned on the hollow connecting element and connected through the chamber; a head portion, positioned on one terminal of the hollow connecting element and having a connecting opening, wherein the connecting opening can be detachably connected to a material container; a rear portion, positioned on another terminal of the hollow connecting element and having a through hole; and a rod, inserted into the chamber via the through hole; and a rotatable element, covered on the rear portion and engaged with the rod and comprising a guiding element.

Abstract: A dual-mode fluid connector includes: a hollow connecting element, comprising a chamber inside the hollow connecting element; a material tube, positioned on the hollow connecting element and connected through the chamber; a cleaning tube, positioned on the hollow connecting element and connected through the chamber; a head portion, positioned on one terminal of the hollow connecting element and having a connecting opening, wherein the connecting opening can be detachably connected to a material container; a rear portion, positioned on another terminal of the hollow connecting element and having a through hole; a rod, inserted into the chamber via the through hole; and a rotatable element, covered on the rear portion and comprising a block portion, wherein the block portion is positioned in an interior of the rotatable element and arranged to operably engage with the outer flange.

Abstract: A dual-mode fluid connector includes: a hollow connecting element, comprising a chamber inside the hollow connecting element, wherein a protuberant block element is arranged on an inner surface of the chamber, and the block element divides an interior space of the chamber into a first space and a second space; a material tube, positioned on the hollow connecting element and connected through the chamber; a cleaning tube, positioned on the hollow connecting element and connected through the chamber; a head portion, positioned on one terminal of the hollow connecting element and having a connecting opening, wherein the connecting opening can be detachably connected to a material container; a rear portion, positioned on another terminal of the hollow connecting element and having a through hole; and a rod, inserted into the chamber via the through hole.

Abstract: A dual-mode fluid connector includes: a hollow connecting element, comprising a chamber inside the hollow connecting element; a material tube, positioned on the hollow connecting element and connected through the chamber; a cleaning tube, positioned on the hollow connecting element and connected through the chamber; a head portion, positioned on one terminal of the hollow connecting element and having a connecting opening, wherein the connecting opening can be detachably connected to a material container; a rear portion, positioned on another terminal of the hollow connecting element and having a through hole; and a rod, inserted into the chamber via the through hole; a bended plate, sleeved on the rear portion; and a rotatable element, covered on the rear portion and the bended plate, and engaged with the rod.

Abstract: A dual-mode fluid connector includes: a hollow connecting element, comprising a chamber inside the hollow connecting element; a material tube, positioned on the hollow connecting element and connected through the chamber; a cleaning tube, positioned on the hollow connecting element and connected through the chamber; a head portion, positioned on one terminal of the hollow connecting element and having a connecting opening, wherein the connecting opening can be detachably connected to a material container; a rear portion, positioned on another terminal of the hollow connecting element and having a through hole; a rod, inserted into the chamber via the through hole; and a rotatable element, covered on the rear portion. An outer surface of the rotatable element includes a first area and a second area, and the dual-mode fluid connector operates in a serve mode when the rotatable element is rotated to a status where the first area faces upward.

Abstract: A dual-mode fluid connector includes: a hollow connecting element, comprising a chamber inside the hollow connecting element; a material tube, positioned on the hollow connecting element and connected through the camber; a cleaning tube, positioned on the hollow connecting element and connected through the camber; a head portion, positioned on one terminal of the hollow connecting element and having a connecting opening, wherein the connecting opening can be detachably connected to a material container; a rear portion, positioned on another terminal of the hollow connecting element and having a through hole; and a rod, inserted into the chamber via the through hole.