Abstract: A volumetric feeder made of a plurality of independent feeder elements 20a, 20b. Each of the feeder elements is provided with a stationary portion 21 and a movable volumetric measure 22 that moves back and forth in the stationary portion 21. Each movable volumetric measure is provided with a measure portion 23 for accommodating a predetermined volume of powdery or granular material. The movable volumetric measure in the feeder elements are capable of moving independently of one another between a charging position at which the measure portions 23 coincide with charging apertures 24 of the stationary portion 21, and a discharging position at which the measure portions 23 coincide with discharging apertures 26 of the stationary portion 21.
Abstract: A mixing-weighing combination weigher of the present invention comprises a plurality of kind-based groups (G1-G8) each of which is made up of a plurality of combination hoppers (4, 5) fed with objects to be weighed, the kind-based groups being fed with different kinds of objects to be weighed; and a control means (11); and the control means (11) is configured to carry out a process in which combination calculation is performed to find combination weight values for each of the kind-based groups, and combination weight values of a selection number predetermined for each kind are selected from the combination weight values based on a predetermined kind-based combination selection condition; a process in which combination calculation is performed in such a manner that one combination weight value is selected for each kind from the combination weight values selected in this process and selected combination weight values are combined to find one all-kind combination total value within an allowable range; and a disc
Abstract: A combination weigher of the present invention comprises a plurality of weighing hoppers (4) each of which includes two weighing chambers (4a, 4b) and is capable of weighing objects to be weighed which have been fed to the two weighing chambers, the weighing chambers being capable of independently discharging the objects to be weighed; a plurality of feeding hoppers (3) which are disposed above the weighing hoppers to respectively correspond to the weighing hoppers, for selectively feeding the objects to be weighed to each of the two weighing chambers of the corresponding weighing hopper; and a control unit (10) which is configured to perform combination calculation based on weight of the objects to be weighed which have been fed into the weighing chambers of each of the weighing hoppers (4) to select weighing chambers (4a, 4b) forming a combination which have been fed with the objects to be weighed whose total weight falls within a predetermined weight range, and is configured to cause the selected weighing
Abstract: A visceral fat determining device is disclosed which can be used easily at home for example and can obtain information on visceral fat. The visceral fat determining device comprises input means for inputting personal data that represents vital characteristics of the patient; a data processing unit capable of performing various calculations; and a display device capable of displaying the personal data and results of the calculations. Upon inputting of a waist size which is a girth of the trunk of the patient, and a hip size which is a girth of the buttocks of the patient, quantitative information on abdominal visceral fat of the patient is given through a calculation based on WHR which is a ratio of the waist size to the hip size (waist size/hip size).
Abstract: A combination weigher of the present invention has a relationship with the packaging machine in which, a bag accommodating time required to accommodate the objects to be weighed falling from the collecting hopper (4) into the bag in a case where the gate of the collecting hopper (4) is always kept open, is longer than a seal stopping time after completion of sealing a lower end of any one of the bags successively manufactured by the packaging machine (21) before start of sealing an upper end of the bag, wherein the control unit (10) causes the gate of the collecting hopper (4) to be closed immediately before any portion of the objects to be weighed discharged from the weighing hoppers (1) arrives at the collecting hopper (4) at the latest, and causes the gate of the collecting hopper (4) to be opened before all of the objects to be weighed arrive at the collecting hopper (4) and after a specified time that elapses from when the gate of the collecting hopper (4) is closed, such that by keeping the gate of the