A dosing machine for dosing fluid products includes: containers having vertical longitudinal axes and configured to contain fluid products, rotary stirring elements located inside respective containers and operable in rotation by electric motors, and a dispensing head having nozzles connected to respective containers, where each container is associated with a level measuring device having: a floater containing a permanent magnet and free to move inside the container, a magnetic detector arranged outside the container, and having magnetic sensors spaced apart from each other in a vertical direction and each of which is configured to detect a variation in a magnetic field caused by passage in its proximity of said floater, and a control unit which analyzes signals provided by the magnetic sensors to detect a fluid level inside the container and passage of the floater in a vicinity of one or more of said magnetic sensors.

A vessel configured to contain a powder, semi-solid or liquid product and to dispense predetermined amounts of the product.

A handheld solids dispenser. The dispenser includes a housing defining an inlet passage and an outlet passage. A delivery mechanism is supported within the housing and is positioned between the inlet passage and the outlet passage. Actuation of the delivery mechanism causes the delivery mechanism to transport a desired amount of solids material from the inlet passage to the outlet passage. The delivery member may be in the form of a plunger slidably positioned within the housing. The delivery mechanism may be in the form of a screw conveyor driven by a drive motor.

A fixture for dispensing a powder is disclosed. The fixture has a base and a beam with a first end, a second end, and a fulcrum disposed between the first and second ends and coupled to the base. The fixture also has a load transfer beam having a first end and a second end that is fixedly coupled to the base. A force sensor is coupled to the load transfer beam. The beam can rotate about the fulcrum with respect to the base and the second end of the beam makes a point contact with the first end of the load transfer beam.

A dispenser cap includes a threaded top to mount to a container having a product stored therein, the threaded top having a CAM positioned within an interior; a base engaged with the threaded top; a transfer chamber positioned within an interior of the base and having an opening extending therein, the transfer chamber having a predetermined volume; a baffle ring engaged with the threaded top, the baffle ring having one or more openings to open and close between the threaded top and the transfer chamber such that the product can flow therethrough; and a plunger extending into the base and having an opposing CAM engaged with the CAM such that interaction cause opening and closing of the transfer chamber; rotation of the base relative to the threaded top causes the plunger to extend and contract such that product is loaded into the transfer chamber and dispensed from the transfer chamber.

A system and method for determining when a sand separator should be purged to remove solids from the sand separator. The system can include an acoustic sensor which detects the frequency of audible sound coming from the inner chamber of the vessel and generate a signature signal representative of the frequency of audible sound. There is a processor connected to the acoustic sensor and configured to compare the signature signal with a set frequency range of audible sound which in turn generates a signal indicating when the signature frequency and the set frequency are in overlapping relationship.

A dispensing system comprises a main base with a hopper insertion hole. An upper base, fixed above the main base by spacers, comprises a stirrer insertion hole. A lower base, below the main base, has a hopper insertion hole with an aperture larger than a diameter of a hopper, and is coupled to the main base by a guide. A rotatable hopper, disposed in the insertion hole of the main base, comprises a bottom surface with metering holes. A stirrer, inside the hopper and fixed to the upper base, feeds material into the metering holes. A gate, on a bottom surface of the lower base, comprises a bottom surface with a dispensing hole. The gate diameter is greater than the hopper. A gate spring, between the bottom of the main base and an upper surface of the lower base, is mounted parallel to a sliding motion of the lower base. A vibration device agitates the assembly on the main base.

The dispenser disclosed herein serves a single serving of a powdered nutrient contained within a container having multi-servings of the powdered nutrient. The dispenser has a metering device that operates as a ball valve or guillotine to dispense a single serving of the powdered nutrient into a water container. The dispenser also has a support surface that can be lowered and raised back up in order to fit a water container under the metering device and a distal tip of the metering device into a mouth of the water container so that no powdered nutrient spills out of the water container during transfer of the powdered nutrient from the metering device to the water container.

A module for dispensing a powder is disclosed. The module has a channel having an entry port, a hopper coupled to the entry port and configured to receive the powder, and a piston partially disposed within the channel and configured to reciprocate within the channel. The piston has a retracted position configured to allow the powder to move from the hopper through the entry port into the channel.

A system and method for determining when a sand separator should be purged to remove solids from the sand separator. The system can include an acoustic sensor which detects the frequency of audible sound coming from the inner chamber of the vessel and generate a signature signal representative of the frequency of audible sound. There is a processor connected to the acoustic sensor and configured to compare the signature signal with a set frequency range of audible sound which in turn generates a signal indicating when he signature frequency and the set frequency are in overlapping relationship.