The present invention discloses a handheld device 200 and a method for creating customised cosmetic colours instantly. The handheld device 200 comprises a holder body 202 with two or more slots to house two or more dispensers that dispense two or more base colour liquid lipsticks. The handheld device 200 further comprises a container 212. In order to create customised liquid lipsticks, a user follows a colour recipe chart 600 and dispenses the two or more base colours in the two or more dispensers in predetermined ratios to create a custom colour in the container 212. While the present description focuses on creating liquid lipsticks, it will be apparent to those with ordinary skill in the art that the handheld device 200 and the method can be used to create any other colour cosmetics or artists colours.

The present invention discloses a handheld device 200 and a method for creating customised cosmetic colours instantly. The handheld device 200 comprises a holder body 202 with two or more slots to house two or more dispensers that dispense two or more base colour liquid lipsticks. The handheld device 200 further comprises a container 212. In order to create customised liquid lipsticks, a user follows a colour recipe chart 600 and dispenses the two or more base colours in the two or more dispensers in predetermined ratios to create a custom colour in the container 212. While the present description focuses on creating liquid lipsticks, it will be apparent to those with ordinary skill in the art that the handheld device 200 and the method can be used to create any other colour cosmetics or artists colours.

Apparatus (100, 200, 300, 400, 500, 600) for customized production of a flavoring agent, the apparatus too, (200, 300, 400, 500, 600) comprising: a retainer (110, 210, 310, 610) for retaining at least two containers (10), each container (10) comprising a respective flavoring agent; a collecting and dispensing unit, e g a manipulator (120, 220, 320), for collecting and dispensing flavoring agents; a mixer (130, 230, 330) for mixing flavoring agents for obtaining a new flavoring agent; a control-unit (140) for controlling at least the collecting and dispensing unit (120, 220, 320) and the mixer (130, 230, 330), and a communication unit for communicating with a remote server (41) and/or remote device 20, wherein the control-unit (140) is configured such that the collecting and dispensing unit (120, 220, 320) collects and dispenses a first defined amount of flavoring agent from a first container (10) to the mixer (130, 230, 330), the collecting and dispensing unit (120, 220, 320) collects and dispenses a second defined amount of flavoring agent from a second container (10) to the mixer (130, 230, 330), and the mixer (130, 230, 330) mixes the first and second defined amount of flavoring agents inside of the mixer (130, 230, 330) for producing the new flavoring agent. The invention further relates to a system with such an apparatus, a corresponding process as well as to a container for such an apparatus, system and process.

A material dispensing system can comprise a first and second supply container housing a first and second material, respectively, comprising a first and second fluid, respectively; a first and second metering cylinder fluidly connected to the first and second supply container, respectively, the second metering cylinder configured to move from a first to a second stroke position in unison with the first metering cylinder; a dispensing head configured to receive a first and second liquid of the first and second fluids, respectively; a first recycling valve positioned between the first metering cylinder and the dispensing head; and a second recycling valve positioned between the second metering cylinder and the dispensing head, the first and second recirculating valves configured to draw a portion of the first and second fluids back into the first and second supply containers, respectively, in an open position.

A method of dispensing a particle mixture and a reagent fluid cartridge are presented. The cartridge comprises a first reservoir partially filled with reagent fluid, a second reservoir partially filled with particles, a pumping chamber, a first pumping chamber conduit connecting the first reservoir and the pumping chamber, a second pumping chamber conduit connecting the second reservoir and the pumping chamber, an outlet for dispensing reagent fluid and particles from the cartridge, an outlet conduit connecting the outlet to the pumping chamber, and a valve sealing the outlet conduit. The method comprises closing the valve, applying a force to the plunger to transport a first defined volume of reagent fluid and second defined volume of particles into the pumping chamber to form a mixture of reagent fluid and particles, opening the valve, and forcing the mixture from the pumping chamber using the plunger to dispense the mixture from the outlet.

The invention relates to a proportional volumetric doser (10) comprising a motor (20) to which a pump (30) is connected, which pump (30) comprises a tubular sleeve (80) inside which a cylinder (85) is housed in which a small doser piston (62) slides, mechanically connected to an output shaft of the motor (20), wherein an inner surface of the cylinder (85) and the small piston (62) partially define a dosing chamber (48) of an auxiliary fluid to be mixed in the motor (20) in a prefixed amount with the main fluid, where said cylinder (85) has a threaded outer portion that meshes with a threaded portion of a ring nut (70) so that a rotation of the ring nut (70) causes an axial translation of the cylinder (85) and the variation of the volume of the dosing chamber (48), said proportional volumetric doser (30) being characterized in that the sleeve (80) comprises a locking system (100) configured to mechanically lock the cylinder (85) with respect to the tubular sleeve (80) by creating a shape constraint.

An apparatus for blending liquids, comprising a main body (100) comprising a seating (106) configured to receive a receptacle (200); a support (140) carried by the main body and having a plurality of slots (142, 142), the support being configured to receive a plurality of cartridges (300, 300), each slot (142, 142) of the plurality of slots being configured to receive a cartridge (300, 300) of the plurality of cartridges; a first actuator configured to move one of the support and the seating relative to the other, thereby enabling positioning of any one slot of the plurality of slots in correspondence of the seating; a second actuator (120) configured to act upon a cartridge (300) placed in the slot (142) currently positioned in correspondence of the seating; and a control unit (150) connected to the first and second actuators. The control unit is configured to receive a data set indicative of a sequence of one or more liquids and, for each of the one or more liquids, an associated quantity of liquid; and for each respective liquid of the sequence of one or more liquids to control the first actuator to move the support or the seating relatively to the other such that the slot holding a respective cartridge of the plurality of cartridges is positioned in correspondence of the seating, the respective cartridge containing the respective liquid of the sequence of one or more liquids; and to control the second actuator to act upon the respective cartridge to cause transfer of a respective quantity of liquid from the respective cartridge into a receptacle positioned in the seating, the respective quantity corresponding to the associated quantity of liquid. A process for blending liquids is also provided.

To sum up, by using the shaker for mixing liquids (1-7) (e.g. shampoo, soap, etc) with water right before use, an optimal dose of the liquid is used and appropriate solution is used. A dissolved mixture is applied to the hair/body to most significant part immediatelythe hair roots and the scalp. It works beneficial for the hair, especially the hair ends, preventing dry and split ends as the e.g. shampoo is not applied directly. The mixture is distributed more evenly throughout the hair, without adding additional water and washing out the unused shampoo. The foam evolves quicker and is greater, which makes the washing easier. The shaker enables the user to use multiple liquids at once if needed. The amount of the liquid used is decreased to an optimal dose for the user and is therefore also eco-friendly, as no excessive amount of liquid is used. The invention enables the user to close tap water/shower during use and therefore uses less water and is eco-friendly. With same advantages the shaker is used in pet care and with other liquids.

A gas mixing apparatus includes: a discharge port of gas provided near conduit space through which the high-viscosity material can flow; a piston pump including a cylinder that can communicate with the conduit space through the discharge port, a piston arranged inside the cylinder, and a drive device for moving the piston between a top dead center and a bottom dead center inside the cylinder; a discharge valve that opens and closes the discharge port; and a suction valve that opens and closes a suction port of the gas into a cylinder space, in which the cylinder forms the cylinder space having a predetermined volume when the piston is located at the top dead center, and in which a tip of the piston approaches the discharge port when the piston is moved toward the bottom dead center.

An apparatus for dye dispensing is disclosed herein. The apparatus includes a controller and a tray. The tray communicates with the controller and is configured with at least one opening. At least one canister is configured with an identifier and a dye. The dye is associated with the identifier. A reader communicates with the controller. A dispenser comprises an actuator communicating with the controller and a lever arm. The lever arm is coupled to the actuator and configured with a projection. The reader, based on the identifier, identifies a selected dye in a selected canister associated with a dye formulation. When the selected canister is aligned with a dispensing area, the dispenser applies a downward force on the selected canister and dispenses the selected dye.