A doser assembly includes a hopper assembly configured to receive filler material, a vibration transmission assembly coupled to the hopper assembly, and a paddle in a hopper opening that extends through the hopper assembly. The vibration transmission assembly includes a shaft that is configured to rotate around a central rotation axis, an eccentric that is fixed to the shaft and has a center that is radially offset from the central rotation axis, a connecting rod that is pivotably connected to the center of the eccentric, and a bracket that is pivotably connected to the connecting rod. A first end of the paddle is pivotably coupled to the hopper assembly at a paddle pivot joint. The paddle is fixed to the bracket of the vibration transmission assembly separately from the hopper assembly. The vibration transmission assembly is configured to cause the paddle to reciprocatingly pivot around the paddle pivot joint.

A doser assembly includes a hopper assembly configured to receive filler material, a vibration transmission assembly coupled to the hopper assembly, and a paddle in a hopper opening that extends through the hopper assembly. The vibration transmission assembly includes a shaft that is configured to rotate around a central rotation axis, an eccentric that is fixed to the shaft and has a center that is radially offset from the central rotation axis, a connecting rod that is pivotably connected to the center of the eccentric, and a bracket that is pivotably connected to the connecting rod. A first end of the paddle is pivotably coupled to the hopper assembly at a paddle pivot joint. The paddle is fixed to the bracket of the vibration transmission assembly separately from the hopper assembly. The vibration transmission assembly is configured to cause the paddle to reciprocatingly pivot around the paddle pivot joint.

A processing liquid used in a substrate liquid processing apparatus can be supplied in a constant amount with high accuracy. A substrate liquid processing apparatus A1 includes a storage line 61 configured to store a processing liquid therein; an introduction line 62 configured to introduce the processing liquid into the storage line 61; a discharge line 63 configured to discharge the processing liquid from the storage line 61; and a gas supply unit 65 configured to perform a strickling of the processing liquid by jetting a gas to a surface of the processing liquid stored in the storage line 61.

Device for metering powder, in particular in clean-rooms, which includes a vessel containing powder and a sealing head with a septum for the vessel, wherein the sealing head is connectable powder-tight with the vessel and the septum powder-tight with the sealing head and the device further includes a vessel holder, which serves to hold the sealing head of the vessel, and the vessel with its opening points downwards, so that the powder can flow out of the vessel, wherein a gap is provided between the sealing head and a holding bowl of the vessel holder, in which a gas flow between the holding bowl and the sealing head can be created. The invention also relates to a use of the device and a metered addition method.

Device for metering powder, in particular in clean-rooms, which includes a vessel containing powder and a sealing head with a septum for the vessel, wherein the sealing head is connectable powder-tight with the vessel and the septum powder-tight with the sealing head and the device further includes a vessel holder, which serves to hold the sealing head of the vessel, and the vessel with its opening points downwards, so that the powder can flow out of the vessel, wherein a gap is provided between the sealing head and a holding bowl of the vessel holder, in which a gas flow between the holding bowl and the sealing head can be created. The invention also relates to a use of the device and a metered addition method.

A system for dispensing fluid includes a reservoir chamber for receiving a liquid dose, said reservoir chamber in fluid flow connection with a liquid supply line via a first valve; a measuring chamber arranged in fluid flow connection with said reservoir chamber, said measuring chamber having a sensor for outputting a signal indicative of a volume of liquid in said measuring chamber; and a processor to control the operation of the first valve, based on the signal from the sensor. The system may also be used to determine liquid pressure in a liquid supply line and a volume flow rate of the liquid supply line.

Device for metering powder, in particular in clean-rooms, which includes a vessel containing powder and a sealing head with a septum for the vessel, wherein the sealing head is connectable powder-tight with the vessel and the septum powder-tight with the sealing head and the device further includes a vessel holder, which serves to hold the sealing head of the vessel, and the vessel with its opening points downwards, so that the powder can flow out of the vessel, wherein a gap is provided between the sealing head and a holding bowl of the vessel holder, in which a gas flow between the holding bowl and the sealing head can be created. The invention also relates to a use of the device and a metered addition method.

The present general inventive concept provides, for example, an oil infuser and metered dispenser for creating botanical extracts, and in particular cannabis-infused oil for use in consumable products such as foodstuffs. The dispenser comprises an infusing compartment and a filter disposed therein for receiving one or more botanical pods. A pump draws a base oil from a heated infusing compartment through the filter and botanical pods, and out the filter back into the infusing compartment. The oil continues circulating in this fashion until the concentration of the infusion reaches a desired level at which time the oil is pumped into a dispensing compartment. The filter prevents particulate matter from accumulating in the infused oil. A sensor is included for measuring predetermined amounts of infused oil. Flavored botanical pods are provided for infusing seasoning, herbs, and other flavors into the base oil in addition to cannabis floral material.

A calibration unit is for a capacitive measuring system in a metering installation, or a metering installation for in particular solid pharmaceutical dosage units, and to an associated method for metering. The calibration unit includes a test body, a drive for the test body, and a guide for the test body. The guide has a first terminal position, a second terminal position, and a guided section that runs between the two terminal positions. The drive is configured for moving the test body along the guided section in a reciprocating manner between the two terminal positions. The capacitive measuring system is calibrated via the calibration unit. The dosage units are then metered via the metering installation and checked for a properly metered mass via the calibrated capacitive measuring system.

The present invention is about a volume-measuring device installed inside a box that used to store a liquid. The measuring device is placed at the bottom of the box dispensing the liquid, and displays via a measuring tower a measure of the volume of the liquid still in the box. The device is comprised of a receptacle or sealed pouch connected to a measuring tower. As the pressure from the weight of the liquid changes, the receptacle reacts by moving the measuring marker to reflect such change, thus measuring the current liquid volume in the dispensing box.