A fluidic interconnect includes a first interface including a liquid port, a gas port, and a cradle; a second interface including a liquid port, a gas port, and a swing bar to engage the cradle, a weight of a container attached to one of the first or second interfaces to drive the liquid port of the first interface into connection with the liquid port of the second interface and the gas port of the first interface into connection with the gas port of the second interface.

An opening device for a urea water inlet may include a first body configured to be provided on an external side of an inlet of a urea filler neck; a second body disposed at an upper end portion of the first body with a ventilation gap between the first body and the second body, and provided with an internal space to be disposed above the inlet; a cover disposed at an upper end portion of the second body, and configured to receive a force to open the internal space of the second body; an opener provided in the second body, and configured to hold the cover at the upper portion of the second body when the cover is configured to close the internal space, and to release holding of the cover when being pressed toward an interior of the second body; and a membrane disposed between the first body and the second body to pass only air therethrough while covering the ventilation gap.

A thermal controlled hose assembly is provided and includes an adapter which defines an adapter cavity, wherein the adapter is configured to receive a DEF fluid within the adapter cavity, a hose, wherein the hose defines a hose cavity and wherein the hose is connected to the adapter such that the hose cavity is in flow communication with the adapter cavity, a nozzle, wherein the nozzle includes an inlet port and an outlet port and defines a fluid flow channel which communicates the inlet port with the outlet port, and wherein the nozzle is connected with the hose such that the fluid flow channel is in flow communication with the hose cavity and a heating system, wherein the heating system includes a heating element which is configured to be in contact with at least a portion of at least one of the adapter, the hose and the nozzle.

The device for pumping products from a pumping area (2) to an enclosure (3) comprises two tanks, a transfer system (8) which generates a suction of the products from the pumping area (2) to the tanks (4A, 4B) and a transfer of the non-gaseous products from the tanks (4A, 4B) to the enclosure (3), valves (3A, 3B, 3D, 3D, 3I, 4C, 4D, 4I, 4J) to, alternately, allow or block the communication from one tank (4A, 4B) to the pumping area (2) and a communication from the other tank (4A, 4B) to the enclosure (3), and a control system (25). The transfer system (8) comprises a suction unit (13) provided with hydro-ejectors (13A, 13B) connected to each tank (4A, 4B) and generating the suction of the products and a transfer unit (20) provided with a pump connected to the tanks (4A, 4B) to transfer non-gaseous products to the enclosure (3).

A connection apparatus is used to fluidly connect a storage container and another fluidic device. The connection apparatus utilizes a probe that is inserted into the container to extract fluid from inside the container. A connection piece can be used to connect to the other fluidic device. A support is mounted on the container, and includes a spatial coding that is interlocked with a counter-coding structure. The spatial coding is used to ensure that the correct support is used with the container containing a fluid. A ring element codes the system to indicate the fluid or fluid type.

A connection apparatus is used to fluidly connect a storage container and another fluidic device. The connection apparatus utilizes a probe that is inserted into the container to extract fluid from inside the container. A connection piece can be used to connect to the other fluidic device. A support is mounted on the container, and includes a spatial coding that is interlocked with a counter-coding structure. The spatial coding is used to ensure that the correct support is used with the container containing a fluid. A ring element codes the system to indicate the fluid or fluid type.

The disclosure relates to a system and method for the supply and/or acquisition of bulk products, the system comprising: a dispensing device; at least one identification and control module; at least one container; a user interface for providing each user access to a user account; and at least one user identification element, wherein the identification and control module comprises at least one identifying element and at least one control element.

The disclosure relates to a system and method for the supply and/or acquisition of bulk products, the system comprising: a dispensing device; at least one identification and control module; at least one container; a user interface for providing each user access to a user account; and at least one user identification element, wherein the identification and control module comprises at least one identifying element and at least one control element.

Provided is a liquid supply device including: a plug having a plug side liquid channel; and a socket having a socket side liquid channel. The plug has a groove having a fixing groove, the socket has a body having the socket side liquid channel, a gripping unit gripped by a robot, and a sleeve member configured to adjust a position of the body relative to the gripping unit, the tip of the body runs annularly about the socket axis and has lock balls, and the sleeve member switches a state between a connected state where the lock balls are secured in the fixing groove and a released state where the lock balls are not secured in the fixing groove.

Dispenser (10), for the dispensing of drinking water and/or other beverages, comprising: —a cabinet (100); —a user interface (112); —a dispensing compartment (113) having a support surface (1130) for a container (9) to be filled; —at least one nozzle (114) for the dispensing of drinking water and/or other beverages, positioned over said support surface (1130); a washing compartment (1) for said container (9), said washing compartment (1) comprising: —a washing device for dispensing one or more washing fluids inside said container (9), —a drain (60) for draining one or more washing fluids outside said washing compartment (1), wherein said washing compartment (1) for said container (9) comprises: a basket (11) adapted to contain said container (9) to be washed in an upside down setup, said basket (11) being movable between: —a first operating position, wherein said basket (11) is completely inserted inside said washing compartment (1) to enable to wash the container (9) contained therein, —and a second operating position, wherein said basket (11) projects, at least partially, from said washing compartment (1) to enable to insert said container (9) to be washed and pull it out once the washing operations are concluded, said washing device being adapted to provide, alternatively, water and water plus ozone when said basket (11) is located in said first operating position.