This system (1) for mixing a chemical product with water comprises a water inlet port (3) designed to be connected to a pipe for supplying water under pressure, a chemical product inlet port (5) designed to be connected to a chemical product reservoir (100), and a mixture outlet port (7). It comprises a main chamber (11) in which is movable a piston (13) delimiting an upstream part (15) of the main chamber (11) that is fluidly connected to the water inlet port (3) and a downstream part (19) of the main chamber (11) that is connected to the chemical product inlet port (5), wherein the piston (13) is provided with a rod (130) extending in the downstream part (19) of the main chamber (11). The water inlet port (3) is also connected to the mixture outlet port (7), wherein the downstream part (19) of the main chamber (11) is also connected to the mixture outlet port (7). A water flow rate regulating device (60) is interposed between the upstream part (15) of the main chamber (11) and the water inlet port (3). The piston (13) is movable in the main chamber (11) under the action of the water entering the upstream part (15) of the main chamber (11) and the pressure difference created by the rod (130) of the piston (13) in the downstream part (19) of the main chamber (11), so that the chemical product contained in the downstream part (19) of the main chamber (11) is directed towards the mixture outlet port (7).

A portable foam brush includes a soap reservoir, such as optionally in a base or in a wand, a foaming chamber, and an air compressor, such as optionally battery-operated air compressor. The compressor is configured for supplying air to act upon the soap from the reservoir to cause dispensing of soap to the foaming chamber. In some embodiments, the compressor may also supply air to the foaming chamber. In use, the soap and the air in the foaming chamber combine to form an air and soap foam. The brush includes a brush end configured for receiving foam from the foaming chamber and dispensing the foam.

This system (1) for mixing a chemical product with water comprises a water inlet port (3) designed to be connected to a pipe for supplying water under pressure, a chemical product inlet port (5) designed to be connected to a chemical product reservoir (100), and a mixture outlet port (7). It comprises a main chamber (11) in which is movable a piston (13) delimiting an upstream part (15) of the main chamber (11) that is fluidly connected to the water inlet port (3) and a downstream part (19) of the main chamber (11) that is connected to the chemical product inlet port (5), wherein the piston (13) is provided with a rod (130) extending in the downstream part (19) of the main chamber (11). The water inlet port (3) is also connected to the mixture outlet port (7), wherein the downstream part (19) of the main chamber (11) is also connected to the mixture outlet port (7). A water flow rate regulating device (60) is interposed between the upstream part (15) of the main chamber (11) and the water inlet port (3). The piston (13) is movable in the main chamber (11) under the action of the water entering the upstream part (15) of the main chamber (11) and the pressure difference created by the rod (130) of the piston (13) in the downstream part (19) of the main chamber (11), so that the chemical product contained in the downstream part (19) of the main chamber (11) is directed towards the mixture outlet port (7).

Aspects and embodiments of the invention provide methods and systems of infusing liquid into gas. One method according to an aspect of the invention comprises: filling a chamber having a fixed volume with a first gas content at a first pressure: subjecting the gas content to a high-pressure injection of liquid content into the chamber at a second pressure, wherein, the second pressure is higher than a predetermined pressure saturation requirement of the liquid content. One system according to an aspect of the invention comprises: a cylinder (200) comprising at least one chamber of fixed internal volume and having a first end (200a) and a second end (200b); a floating piston (202) arranged within the internal volume of the chamber; a first gas input port that is selectively connected to the first end of the chamber; a second gas input port that is selectively connected to the second end of the chamber; a first liquid input port that is selectively connected to the first end of the chamber; a second liquid input port that is selectively connected to the second end of the chamber; a first exhaust port that is selectively connected to the first end of the chamber; and a second exhaust port that is selectively connected to the second end of the chamber.