A dispenser for dispensing a product, the dispenser comprising a base unit (2) into which a refill (1) containing the product is removably insertable in a fixed position. The refill has a taggant ink (12) on part of its external surface. The base has a light source (13) to illuminate the ink. The light source has a first wavelength and the ink is arranged to cause the ink to emit light at a second different wavelength. A sensor (14) receives light emitted by the ink upon illumination by the light source. A control circuit receives signal indicative of the wavelength of the detected light from the sensor, compares it with stored data, and prevents operation of a dispensing mechanism unless the refill is authentic.

Disclosed is a cosmetic container. The cosmetic container includes: a main body, in which a liquid material is stored; a rod insertion container inserted into the main body and provided with one or more liquid inflow holes, through which the liquid material stored in the main body flows in; a forcibly inserting means for drawing out a brush to the outside; a brush supporting means including a brush support piece mounted with a brush; an elastic member, and a cap. According to the present invention, it is possible to prevent a cosmetic liquid from being hardened inside a container by securing a sealing structure of the cosmetic container. Further, according to the present invention, it is possible to stably keep a cosmetic container, thereby extending a lifespan of a product. Further, according to the present invention, it is possible to enable a user to more conveniently and easily wear nail polish compared to an existing method in using a cosmetic container.

Exemplary two chamber foam pumps, refill units and dispensers utilizing the same are disclosed herein. An exemplary refill unit includes an inverted container having a neck located at the bottom of the container and a foam pump secured neck. The foam pump includes a first air pump chamber, a liquid pump chamber and a second air pump chamber. In addition, the pump includes a piston. The piston has a hollow central portion. A first air inlet aperture is located through a wall of the piston between the first air pump chamber and the hollow central portion. A liquid inlet aperture is located below the first air inlet aperture and between the liquid pump chamber and the hollow central portion. A second air inlet aperture is located through the wall the piston located below the liquid inlet aperture and between the second air pump chamber and the hollow central portion.

A water controller and a water controlling method are provided. The water controller includes: a water tank having a first water outlet; a magnetic control assembly; a water trough having a water inlet, the first water outlet being connected with the water inlet via the magnetic control assembly; an electromagnet configured to switch between a power-on state and a power-off state; wherein when the electromagnet is in a power-on state, a path between the first water outlet and the water inlet is in a connected state under control of the control assembly; and when the electromagnet is in a power-off state, the path between the first water outlet and the water inlet is in a blocking state under the control of the control assembly.

A water controller and a water controlling method are provided. The water controller includes: a water tank having a first water outlet; a magnetic control assembly; a water trough having a water inlet, the first water outlet being connected with the water inlet via the magnetic control assembly; an electromagnet configured to switch between a power-on state and a power-off state; wherein when the electromagnet is in a power-on state, a path between the first water outlet and the water inlet is in a connected state under control of the control assembly; and when the electromagnet is in a power-off state, the path between the first water outlet and the water inlet is in a blocking state under the control of the control assembly.

A spike for dispensing fluids from a flexible bag, wherein the spike includes multiple fluid channels which transfer liquids from the bag to an enclosed dispensing chamber and air from the enclosed chamber to the bag to permit and control fluid flow within the system.

A multi-function water output device includes: a shell, a water ejection head and a core body connected to each other in the shell. On the core body is provided with a first valve hole, a second valve hole, and a third valve hole disposed in sequence along a water flow direction from rear to front. Rear end of the core body is provided with an outer interface, while inside the outer interface is provided with an inner interface. An inner cavity of the inner interface is in communication with a first water input port at bottom of a first valve hole. An upper portion of the first valve hole is provided with first water output port. In the first valve hole is provided with a first valve plug, controlling connection and disconnection of the first water input port and the first water output port.

Environmental friendly automotive fluid dispensing systems and are provided. One disclosed system provides for the controlled dispensing of an automotive fluid selected from multiple automotive fluids. A quantity of fluid to be dispensed can be designated and the system can dispense the designated quantity of the selected fluid. A pump assembly is used to transfer automotive fluid from a selected container to a dispensing gun in a controlled fashion. The product dispensing gun can include a check valve for preventing fluid from exiting the dispensing gun when no fluid is being transferred to the dispensing gun by the pump assembly.

A console for a fuel delivery management system, including a processor, a touch-sensitive display, a plurality of ports configured to facilitate communications with a plurality of lines, tanks, containments, sensors and pumps, and a memory including a plurality of instructions which when executed by the processor cause the console to generate a home screen on the display, the home screen having a quick jump menu icon which when activated by a user, causes the processor to generate a navigation window on the home screen, the navigation window including a plurality of function icons, each corresponding to a function screen, wherein activation of one of the plurality of function icons causes the processor to generate a function screen including a graphic indication of a parameter of one of the plurality of lines, tanks, containments, sensors and pumps.

A method and associated system for managing vehicle fuel safety. Input from at least one sensor is received. The input indicates that a fuel pump nozzle of a fuel pump is disengaged from the fuel pump or inserted into a vehicle's tank enclosure. The vehicle adjacent to the fuel pump is monitored to detect when the vehicle is preparing to move or is starting to move away from the fuel pump. An alarm is activated indicating that the fuel pump nozzle is disengaged from the fuel pump, or inserted into the vehicle's tank enclosure, and the vehicle is preparing to move or is starting to move.