Mixing device 1, dosing container and mixing hopper for mixing a synthetic starting material with an additive, in particular a granular additive or additive in powder form, comprising a mixing housing 10 with an inlet 14 for allowing the substances into a mixing chamber 12 bounded by the mixing housing and an outlet 16 for discharging the substances from the mixing chamber in mixed form, wherein a rotor body 11 is provided on a rotatable shaft 17 in the mixing chamber and comprises on a side a number of rotor arms 18 extending parallel to the shaft in the direction of an opposite wall of the mixing housing 10, and wherein the opposite wall of the mixing housing is provided with a number of stator arms 19 extending parallel to the shaft in the direction of the rotor body, and wherein a mixing hopper is provided having an infeed side for receiving a flow of the substances for mixing and an outfeed side which is in open communication with the inlet of the mixing housing 10, and wherein a dividing body is provided between the infeed side and outfeed side in order to divide the flow of the substances for mixing into a number of at least substantially equal part-flows.

A presence sensor combined to a first storage carrier for detecting a presence of a second storage carrier. A load cell measures the weight of the material expelled from the first storage carrier. A scale controller in communication with the presence sensor responds to the presence of the second storage carrier by recording of the weight measurement from the load cell.

A presence sensor combined to a first storage carrier for detecting a presence of a second storage carrier. A load cell measures the weight of the material expelled from the first storage carrier. A scale controller in communication with the presence sensor responds to the presence of the second storage carrier by recording of the weight measurement from the load cell.

A combination weighing apparatus (1) according to an embodiment includes: a dispersion table (10) that receives and conveys an article that has been supplied from an outside; a driving unit (20) that applies conveyance force to the dispersion table (10), the conveyance force causing the article to be conveyed; a plurality of conveyors (11) that receives the article from the dispersion table (10), and conveys the article toward a downstream side; a plurality of hoppers (13) that temporarily receives a plurality of the articles that has been discharged from the plurality of conveyors (11), and discharges the plurality of the articles to the downstream side; an obtaining unit (30) that obtains a weight value of the article that is retained in each of the plurality of hoppers (13); and a controller (31) that performs combination calculation on a basis of the weight value that has been obtained by the obtaining unit (30). On a surface on which the article is conveyed in the dispersion table (10), a plurality of inclined faces (10S) is disposed, the plurality of inclined faces (10S) rising along a circumferential direction (D2) or a radiation direction (D1).

A combination weighing apparatus (1) according to an embodiment includes: a dispersion table (10) that receives and conveys an article that has been supplied from an outside; a driving unit (20) that applies conveyance force to the dispersion table (10), the conveyance force causing the article to be conveyed; a plurality of conveyors (11) that receives the article from the dispersion table (10), and conveys the article toward a downstream side; a plurality of hoppers (13) that temporarily receives a plurality of the articles that has been discharged from the plurality of conveyors (11), and discharges the plurality of the articles to the downstream side; an obtaining unit (30) that obtains a weight value of the article that is retained in each of the plurality of hoppers (13); and a controller (31) that performs combination calculation on a basis of the weight value that has been obtained by the obtaining unit (30). On a surface on which the article is conveyed in the dispersion table (10), a plurality of inclined faces (10S) is disposed, the plurality of inclined faces (10S) rising along a circumferential direction (D2) or a radiation direction (D1).

[Problem] To provide a combination weighing apparatus that reduces power consumption during opening and closing operations of a hopper gate. [Solution] In a combination weighing apparatus 1, a control unit 70 controls a stepping motor 60 via a control signal that is input to the stepping motor 60. The control signal that is input to the stepping motor 60 is a voltage value corresponding to a desired current value. The control unit changes the control signal to the stepping motor 60 in conjunction with a change in the settings of the opening and closing speed of the gate 20. As a result, it becomes possible to supply power needed for the operation of the gate 20, and power can be saved.

[Problem] To provide a combination weighing apparatus that reduces power consumption during opening and closing operations of a hopper gate. [Solution] In a combination weighing apparatus 1, a control unit 70 controls a stepping motor 60 via a control signal that is input to the stepping motor 60. The control signal that is input to the stepping motor 60 is a voltage value corresponding to a desired current value. The control unit changes the control signal to the stepping motor 60 in conjunction with a change in the settings of the opening and closing speed of the gate 20. As a result, it becomes possible to supply power needed for the operation of the gate 20, and power can be saved.

A scale controller system and method of using the system is disclosed. The scale controller is adapted for use with a grain cart or similar implement that includes a discharge opening and conveyor. The system includes a scale and a plurality of sensors that work together to automate numerous functions that are typically performed manually. For example, the present invention discloses a system that automatically records the amount of material loaded or unloaded by continuously monitoring the load on a scale and the RPMs of a power take-off shaft that drives a conveyor.

A scale controller system and method of using the system is disclosed. The scale controller is adapted for use with a grain cart or similar implement that includes a discharge opening and conveyor. The system includes a scale and a plurality of sensors that work together to automate numerous functions that are typically performed manually. For example, the present invention discloses a system that automatically records the amount of material loaded or unloaded by continuously monitoring the load on a scale and the RPMs of a power take-off shaft that drives a conveyor.

A weighing system for weighing particulate material such as powders, granules and the like, and particularly particulate foodstuffs. The system includes: a weighing device (9); a vibrator unit (11); a transfer receptacle (7) having an opening; a robotic arm (5) arranged to move the transfer receptacle (7); and a control system (13) arranged to control the robotic arm (5) and the vibrator unit (11); wherein the transfer receptacle (7) is arranged to receive a quantity of the particulate material through the opening; the control system (13) is arranged to actuate the robotic arm (5) to move the transfer receptacle adjacent the weighing device (9), and to actuate the vibrator unit (11) to vibrate the transfer receptacle (7) thereby causing particulate material located in the transfer receptacle (7) to dispense from the transfer receptacle onto the weighing device (9).