A method for processing pharmaceutical powders, which comprises providing a feeder module including a plurality of feeder units each with a storage hopper, a weighing cell, a conveyer, and a discharge end, connecting the storage hopper to a refilling system with a refilling valve, connecting the refilling valve to a level or weight indicator disposed above the refilling valve, connecting the discharge end to a common receiving container, refilling the storage hopper with a powder intermittently 40 to 80 times per hour, storing data during refilling, transporting powder from the storage hopper with the respective conveyer, and discharging powder from each feeder unit into the common receiving container. During each refilling of the storage hopper, the refilling valve dispenses powder into the storage hopper and, during the step of transporting the powder from the storage hopper, the conveyer is operated according to the data collected during previous refills.

A method is provided for measuring an energy efficiency of a quantitative weighing device. A data measurement part is formed by: recording a control time of fast charging, recording a control time of slow charging, recording a comparison prohibition time, and recording weighing data. A current device reliability parameter, a fast charging feed flow, and a slow charging feed flow are calculated, based on the comparison prohibition time and the control time of slow charging. The fastest feed time under a requirement of a target reliability parameter is calculated as the difference between the target reliability parameter and the calculated control reliability parameter. By using the method, application data, such as capability of a quantitative control device and energy efficiency of the quantitative weighing device, can be intuitively obtained. This facilitates commissioning, maintenance, and use of the quantitative weighing control device.

A packer scale comprises a weighing hopper which is supplied with objects dropped from above, holds the objects for a specified period and discharges the objects downward; first to fourth load cells having shaft-like load application sections, respectively; and first to fourth suspending units which suspend the weighing hopper such that the weighing hopper is mounted to the load application sections of the first to fourth load cells; the weighing hopper includes a hopper body having a tubular shape with a rectangular cross-section, in a plan view; and the first to fourth suspending units are mounted to an upper portion of the hopper body, in locations which are in the vicinity of corner portions of the tubular shape.

A packer scale comprises a weighing hopper which is supplied with objects dropped from above, holds the objects for a specified period and discharges the objects downward; first to fourth load cells having shaft-like load application sections, respectively; and first to fourth suspending units which suspend the weighing hopper such that the weighing hopper is mounted to the load application sections of the first to fourth load cells; the weighing hopper includes a hopper body having a tubular shape with a rectangular cross-section, in a plan view; and the first to fourth suspending units are mounted to an upper portion of the hopper body, in locations which are in the vicinity of corner portions of the tubular shape.

A material handling machine dispenses uniformly metered charges of smoking material from a bulk supply, by means of a metered material feeder that has a first hopper with an opening disposed over a first horizontal chute. The first chute is mounted on slanted springs and has a dispensing end above a second chute also mounted upon slanted springs. The second chute discharges onto a tippable weighing tray above a set of nested hoppers in which one is fixed and the other is vertically movable. A weight sensor may be attached to the tippable tray or the fixed hopper, or both. The move-able hopper may comprise a forming belt indenter to form a trough in a cigarette rolling apparatus. The first hopper may include an agitator that has at least one vertical rod for stirring the bulk material. The dispensing end of the first chute may also include a rotating rake.

The present invention relates to a signal processing method for weight signals (W) of scales, in particular combination scales (K).

Signal processing is performed using preprocessed discrete values (W(i)) of the weight signal (W), which are supplied to at least one artificial neural network. With the help of this at least one artificial neural network, an estimated value (SW) for the actual weight is determined, for example in a weighing device of a combination scale. This is performed faster than if waiting for the actual weight signal. The estimated values (SW) are forwarded to the combination scale (KW), which uses them to form combinations.

A metering unit for flowable solids including an outlet nozzle of flexibly elastic material having at one end an inlet opening for fixing on the outlet of a storage container and at its other end a slot-shaped outlet opening formed between two opposite sealing lips and elastically preloaded in the closed position and can be transferred against elastic preloading to an open position as a result of compressive forces. The slot-shaped outlet opening is elastically preloaded into its closed position by a separate clamp made from a flexibly elastic material, which can be applied releasably to the outer circumference of the sealing lips, wherein the legs of the clamp rest on the outside of the sealing lips in the mounted state and are elastically preloaded in the direction in which they are close together and can be moved elastically away from one another as a result of the compressive forces.

A coffee-specific electronic scale comprising an electronic scale. The electronic scale comprises a base; a main control chip is provided on the base; wires are provided on the main control chip; No. 1 scale device and No. 2 scale device are provided in the base; a pour-over coffee stand is provided on the No. 2 scale device; and a filter device is provided on the pour-over coffee stand; the No. 1 scale device and the No. 2 scale device are separately connected to the main control chip by means of wires; an operating panel, which is connected with the main control chip by conducting wires, is set on the external wall of the base. The coffee-specific electronic scale can accurately weigh real-time total water pouring amount in the process of making drip coffee, thus helping to more accurately regulate the water pouring rate, reducing errors in calculating the concentration of coffee, and ensuring the taste of the coffee.

The method according to the invention provides a way to continue gravimetric weighing of bulk material during refilling of a gravimetric metered dispensing unit, and to determine the mass of the refilled bulk material using a refilling container during the filling operation material and so determine the actual mass flow discharged during refilling in real time or on average in order to adjust it to a target mass flow.

A metering apparatus (1) for metering frozen piece goods, comprising a housing (10) which defines a refrigerated chamber (11), wherein a piece goods container (3), a first conveyor unit (4), and a weighing unit (5) are arranged in the refrigerated chamber (11), wherein piece goods can be transported from the piece goods container (3) via the first conveyor unit (4) to the weighing unit (5), wherein an airlock (13) is arranged below the weighing unit (5), through which piece goods can pass out of the refrigerated chamber (11).