A mixing and dispensing device comprising an outer casing including a body portion, a handle portion, and a nozzle portion with a nozzle. A mixing manifold disposed in the body portion including a mixing chamber in fluid communication with the nozzle. Canisters within the body portion each including a valve connected to the mixing manifold movable between preventing and providing fluid communication between the canister and the mixing chamber. A trigger disposed within the handle portion and configured to move from a trigger passive to dispensing position causing the valves of each canister to move from a valve passive position to the valve dispensing position. A pull safety including a central cover and a tail tip removably disposed on the outer casing such that the central cover occludes the nozzle and the tail tip prevents movement of the trigger from the trigger passive position to the trigger dispensing position.

The invention provides a synthetic resin container with a plurality of handgrips on its top face and a manufacturing method for such a container. The plurality of handgrips, as well as an opening, are molded in advance as insertion components. After heating the fusion portions of the insertion components, the insertion components are disposed parallel to the direction in which a parison is to be placed. Thereafter, a parison is placed into dies, and the dies are clamped. Air is blown into the parison through the opening to fuse the parison and the insertion components.

A packing that includes a bottle and/or a bottle and box combination wherein the container has a handle portion and the box has a bottom opening utilized as a grip portion. The handle is pivotally mounted to the top of the container. In addition, the box includes an opening to permit access to the handle and the neck of the container.

Transportable technical container for chemical liquids provided with a container body at least provided with a base wall, with an opposite upper wall and with perimeter walls, said container body realizing a containment chamber, wherein the technical container is provided with a grip handle and with a threaded cylindrical mouth closable by a threaded closing cap, wherein the height of each perimeter wall is in any case lower than the width and length dimensions both of the base wall and of the upper wall in such a way that the technical container assumes a substantially flattened shape so as to be able to be positioned in the space present below a professional oven of the known type.

A closure arrangement for a liquid container comprises a container neck and a cap, a threaded portion and a closure portion for closing a bore of the neck when the cap is closed. The closure portion comprises a plurality of apertures. It engages prevents liquid flow through the apertures when the cap is closed. Another closure arrangement may comprise a first opening and a second opening for venting air into the container; a spout being movably mounted to the container and movable between first and second relative positions; such that in the first position of the spout, the air vent is open and liquid may be poured from the container through the spout and in a second position, the first and second openings are closed by sealing engagement with the spout.

The invention provides a synthetic resin container with a plurality of handgrips on its top face and a manufacturing method for such a container. The plurality of handgrips, as well as a metal cap opening, are molded in advance as insertion components. After heating the fusion portions of the insertion components, the insertion components are disposed parallel to the direction in which a parison is to be placed. Thereafter, a parison is placed into dies, and the dies are clamped. Air is blown into the parison through the metal cap opening to fuse the parison and the insertion components.

A portable fluid tank system can include a mounting assembly for secure and adaptable attachment to external docking assemblies. The portable fluid tank system can include a fluid tank with an internal volume for fluid storage and a fluid actuation system for controlled fluid movement and pressurization. An electronics housing within the portable fluid tank system can accommodate a removable energy storage device, providing power to the actuation system. The mounting assembly can include a first engagement member on the fluid tank, configured to mechanically engage with a complementary second engagement member on an external docking assembly. This engagement facilitates the secure attachment of the portable fluid tank system to the docking assembly. The mounting assembly can include a mounting frame, contoured to match the exterior geometry of the fluid tank and extend around its periphery.

A portable fluid tank system can include a fluid tank with an internal volume for fluid storage and a fluid actuation system for controlled fluid movement and pressurization. An electronics housing within the portable fluid tank system can accommodate a removable energy storage device, providing power to the actuation system. The portable fluid tank system can include an integrated spill face that has an annular rim defining an aperture for fluid transfer into or out of the fluid tank. An upper segment of the rim can be elevated and closer to the housing, guiding fluid overflow away from the electronics housing and thus the electronics. A lower segment of the rim can serve as an egress point during overflows.

A portable fluid tank system can include a fluid tank with an internal volume for fluid storage and a diaphragm pump for fluid pressurization and conveyance. The diaphragm pump can include a body defining a chamber that is in communication with the internal volume of the fluid tank, and a flexible diaphragm for pressure modulation. The portable fluid tank system can include an electronics housing to accommodate a removable energy storage device for providing power to the diaphragm pump.

A container may include a generally hollow body configured for holding a liquid and including a spout. A spout cap may be configured for removable engagement with the spout. The spout cap may include an inner boss and an outer boss in fluid communication with the inner boss. The inner boss may include an annular skirt disposed within an interior space of the spout cap. The outer boss may be configured to receive a connector of a hose assembly. A filter may have a connecting portion configured for removable insertion into the inner boss. The filter and the spout cap may form a fluid flow path from the body through the spout. Related filters, hose assemblies, and kits are also described.