Abstract: A filling machine for filling capsules a product comprises a plurality of operative stations for carrying out operations on the capsules, a movement device provided with seats for housing and moving the capsules through the operative stations; and a weighing station to weigh of the capsules and comprising a weighing unit and a transfer system to transfer the capsules from the movement device to the weighing unit and vice versa. The weighing unit comprises a gripping element coupled with a weighing cell and provided with a housing for receiving and holding the capsule to be weighed. The transfer system include a first transfer element to remove the capsule from the seat of the movement device and insert it in the housing to measure its weight, and a second transfer element to remove the body from the housing and insert it in the seat of the movement device, after the measurement.

Abstract: The present invention relates to an intelligent market automatic clearing system comprises a device part and a system part, wherein the device part comprises commodity electronic price tags, a self-service weighing apparatus, a shopping ring, a mobile phone, a shopping basket and a market automatic clearing device. The system part comprises intelligent market automatic clearing APP software, an intelligent market clearing system and an intelligent market clearing system data cloud service platform. The market automatic clearing device comprises a shopping basket moving frame, a visual recognition apparatus, a mechanical commodity picking apparatus, a bar code and RFID recognition apparatus table, an anti-theft decoding apparatus, a mechanical packaging apparatus table, a clearing table, an anti-theft detection door and an automatic channel door.

Abstract: A product display surface supports at least one product being offered for sale thereon. This product display surface has a weight-sensitive RFID tag associated therewith. This tag has at least one transmission element that moves with respect to a remaining portion of the tag as a function of weight being supported by the product display surface. So configured, the weight-sensitive RFID tag transmits at a first level when there are no products (or only a few products) on the product display surface and at a second level when there are at least a predetermined number of products on the product display surface, the first transmission level being less than the second transmission level. An RFID-tag reader reads the weight-sensitive RFID tag and a control circuit determines when the first product display surface lacks sufficient displayed inventory as a function, at least in part, of the weight-sensitive RFID tag's transmission strength.

Abstract: A method and apparatus for checking the weighing one or more objects in a vibratory apparatus comprising the steps of accepting product into an in-line feeder to a discharge feeder without being weighed, determining an angle of decline of a fixed chute and a rotating chute based upon the flowing characteristics of the free flowing material being transferred, generating a sampling signal by a control system, the sampling signal causing the air cylinder to rotate the rotating chute in the position to capture the free flowing material and weighing the in-line sample for comparison purposes with the calculated weight.

Abstract: A cashierless shopping store includes a plurality of shopping carts into which selected items to be purchased are placed by shoppers. Each of the shopping carts includes a weight detector to measure the weight of items placed therein and a transmitter to transmit the measured weights over a wireless communications link. A portable wireless shopping terminal accompanies each of the shopping carts. Each shopping terminal reads item price and item weight data from each selected item to be purchased and receives the measured weight of each selected item transmitted over the wireless communication link by the transmitter. The shopping terminal compares the read item weight data with the transmitted measured weight to determine if the read item weight data and the transmitted measured weight for each selected item correlate.

Abstract: This invention relates to a device for measuring the flow rate of spoil from a drilling brought to the surface by means of a drilling fluid. The device comprises means of collecting the spoil and means of continuously measuring the weight of spoil collected. The means of collecting the spoil comprise a receptacle in the shape of bucket articulated about a spindle and means of tilting the receptacle in such a way that the bucket is emptied. The measurement means comprise a measuring cell connected to the tilting means in order to measure a stress proportional to the weight of the spoil collected. The invention also relates to a method for the application of a measurement of the spoil flow rate from a drilling.

Abstract: A scale system for the continuous weighing of a series of packages on a conveyor. The packages are run over a series of synchronized belts on tables, one of which records the weight on a section of the conveyor at intervals timed to assure that no single package will be weighed more than once.

Abstract: A combinational weighing or counting apparatus designed to increase the probability of selection of combinations. This combinational weighing or counting apparatus includes a plurality of weighing hoppers (6.sub.i), and a plurality of driving feeders (3.sub.i) for supplying articles (M) from an upstream side towards the corresponding weighing hoppers (6.sub.i) when the driving feeders (3.sub.i) are driven. In this combinational weighing or counting apparatus, the value at which the probability of occurrence of the combinational calculated weight or count, attains a maximum value is chosen to be greater than the target combined weight T.sub.M, but falling within an allowance of an lower limit T.sub.MIN to an upper limit T.sub.MAX of the target combined weight T.sub.M.

Abstract: In a combinational weighing apparatus or a combinational counting apparatus, in order to obtain a combinational weighing result generally equal to or close to the target combined value, different values are employed for target supply values T.sub.i to which articles are to be supplied into respective weighing hoppers 6.sub.i.

Abstract: A process and apparatus for in-line capsule check weighing envisages that the capsules to be weighed be fed to a device which separates them and feeds them over a transfer surface. The capsules are positioned over the transfer surface so that their longitudinal axes are horizontal and transversal to the direction of feed and are fed to the checkweigher pans, which have seats in the transfer surface and are attached to checkweigher transducers. The weight reading for the capsules and of the relative pans is obtained at the moment in which the capsules come to rest on the pans. Finally, the weight of the pans is determined after the capsules have been moved away, so that the net weight of the capsules may be calculated.

Abstract: The mass of rod-shaped articles of the tobacco processing industry is ascertained by advancing a multi-layer mass flow of plain or filter cigarettes or analogous rod-shaped articles of the tobacco processing industry over one or more stationary and/or mobile weighing devices which generate signals denoting the combined weight of articles in successive increments of the mass flow. Such signals are processed with signals denoting the numbers of articles in the respective increments and/or with signals denoting the speed of advancement of the mass flow to generate signals denoting the average mass of discrete articles in successive increments of the mass flow.

Abstract: A new device and method for measuring large production flows of e.g., one to fifty tons per hour with products such as mill products having unfavorable flow behavior. The production flow is directed intermittently into an upright weighing container for a brief time and is compulsorily discharged from the latter substantially horizontally so as to be controlled with respect to speed. The production flow is periodically monitored volumetrically and gravimetrically by means of differential weighing.The use of the method suggests that the production flow in a mill be measured by means of differential weighing for the purpose of controlling, e.g., monitoring the work process prior to wetting, e.g. as mill input capacity, e.g. for monitoring in the milling process, e.g. for the flour weigher.

Abstract: An electronic coupled-in-motion railroad track scale is disclosed and comprises four track logic switches for detecting forward or backward train axle movement, a programmable digital voltmeter connected to load cells for effecting the weighing of the train cars, and a computer (CPU) for controlling the voltmeter as well as the track logic switches, and for correlating the axle numbers to the weight determined for each particular car. The four track switches are situated such that two switches are located in close proximity on either end of the weighbridge and the train track interface. Together with the logic circuits, the switches indicate when an axle comes on or goes off the weighbridge, and in which direction the axle is moving. In this manner, if reweighing is desired, the train may be backed up or forwarded to the particular car in question without reweighing the entire train.