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 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.

A device (10) for dosing a powder, in particular a pulverulent pharmaceutical, having a storage container (24) which has a storage chamber for storing a stored quantity of the powder to be dosed, wherein the storage container has a dosing opening (32), wherein the device has a dosing control element which can be movably driven and which, in a closing position, closes the dosing opening and, in at least one freeing position, frees the dosing opening for the dispensing of powder from the storage container into a target container to be filled, wherein the device has a vibration means which sets the powder in vibration in order to assist with the dispensing of powder, wherein the storage container has two container parts which are movable relative to one another and which delimit mutually connected sub-chambers of the storage chamber and each store a portion of the stored quantity of powder, wherein a first container part (28) has the dosing opening and wherein the vibration means cooperates with the first container part and thus sets the portion of the powder that is disposed in the first container part in vibration, and wherein the vibration means is uncoupled from the second container part (30).

A dynamic mixer dispense valve and metering apparatus suitable for use in mixing and applying high viscosity, disparate viscosity, high ratio, and/or relatively immiscible two part compounds that exhibit short cure times includes a housing supporting a pair of valve assemblies each coupled to respective sources of base and accelerator components. A pair of pneumatic valve actuators control the operation of the valve assemblies to control the flow of components into a mixing chamber. Within the mixing chamber a mixer impeller is rotatably supported and coupled to a source of rotational power. An additional pneumatic valve actuator combination operates a further flow control to prevent undesired material loss following a shot cycle.Note

A dynamic mixer dispense valve and metering apparatus suitable for use in mixing and applying high viscosity, disparate viscosity, high ratio, and/or relatively immiscible two part compounds that exhibit short cure times includes a housing supporting a pair of valve assemblies each coupled to respective sources of base and accelerator components. A pair of pneumatic valve actuators control the operation of the valve assemblies to control the flow of components into a mixing chamber. Within the mixing chamber a mixer impeller is rotatably supported and coupled to a source of rotational power. An additional pneumatic valve actuator combination operates a further flow control to prevent undesired material loss following a shot cycle.Note

Apparatus for feeding doses of fluidisable materials comprising one upper Intel pipe (1′, 1″), one lower outlet pipe (2′, 2″) and a Pausing (6′,6″). and a fluidising element (5′,5″) for controlling outflow of materials through the outlet pipe (2′, 2″), The apparatus further comprising a control volume constituted by a chamber (3′,3″) between the Intel pipe (1′, 8″) and the outlet pipe (2′,2″) and a fluidising element (4′, 4″) for controlling inflow of materials Into the chamber (3′, 3″). A diverter (7′,7″) la arranged between the Inlet pipe (1′, 8″) and the outlet pipe {2′, 2″) defining said chamber (3′, 3″) between said Inlet pipe (1′,8″) diverter (7′,7″) the housing (6′, 6″) and the fluidising element (5′,5″). The Invention also relates to a method for feeding doses of fluidisable materials by the apparatus.

Apparatus for feeding doses of fluidisable materials comprising one upper Intel pipe (1′, 1″), one lower outlet pipe (2′, 2″) and a Pausing (6′,6″). and a fluidising element (5′,5″) for controlling outflow of materials through the outlet pipe (2′, 2″), The apparatus further comprising a control volume constituted by a chamber (3′,3″) between the Intel pipe (1′, 8″) and the outlet pipe (2′,2″) and a fluidising element (4′, 4″) for controlling inflow of materials Into the chamber (3′, 3″). A diverter (7′,7″) la arranged between the Inlet pipe (1′, 8″) and the outlet pipe {2′, 2″) defining said chamber (3′, 3″) between said Inlet pipe (1′,8″) diverter (7′,7″) the housing (6′, 6″) and the fluidising element (5′,5″). The Invention also relates to a method for feeding doses of fluidisable materials by the apparatus.

Solid particulate measuring devices, systems, and methods for using the devices and systems are provided for easier and more accurate measurement of specific volumes. For example, a specific dose of a pharmaceutical multiparticulate composition can be measured out accurately and easily in a variety of settings using the devices and systems described herein.

Solid particulate measuring devices, systems, and methods for using the devices and systems are provided for easier and more accurate measurement of specific volumes. For example, a specific dose of a pharmaceutical multiparticulate composition can be measured out accurately and easily in a variety of settings using the devices and systems described herein.