One object is to provide a particulate material supply apparatus of a simple configuration provided with leakage preventing portions configured to receive a particulate material falling out from a feed port during stop of supply of the particulate material and not to interfere with the supply of the particulate material from the feed port during supply of the particulate material. There is provided a particulate material supply apparatus of the present disclosure comprising a main body; a plurality of stockers; and a plurality of leakage preventing portions. The stocker comprises a charging port configured to cause the particulate material to be charged into inside of the stocker; and a feed portion configured to supply the particulate material stored inside of the stocker from a feed port. The leakage preventing portion comprises a receiving member and a driving portion.

A precision measurement dispenser provides for storage of a granular bulk material in a storage container that is preferably airtight. The granular material is held in a storage container which feeds a dispensing section that is preferably positioned within the storage container. The dispensing section selectively dispenses the ingredient by gravity to a weighting tray of a scale. The ingredient is dispensed by weight. The storage dispensing unit may also include a display and keypad for entry of a desired quantity of ingredient to be dispensed, and optionally which of plural ingredients to be dispensed. A controller can convert a requested volumetric measure to an equivalent weight measure, and dispense by weight in place of volume. The storage dispensing unit further optionally includes pressure control, temperature control, and/or humidity control on the storage container. The dispensing section uses screw, roll, vibration, or shuttle mechanisms for precise dispensing of material.

A method is provided for optimizing the time required for a scale to weigh a set of ingredients. A weighing tolerance is obtained for each ingredient in the set. Based on the weighing tolerance, a readability parameter is determined for each ingredient. Based on the determined readability parameter, the scale is configured before each ingredient is weighed.

A method is provided for optimizing the time required for a scale to weigh a set of ingredients. A weighing tolerance is obtained for each ingredient in the set. Based on the weighing tolerance, a readability parameter is determined for each ingredient. Based on the determined readability parameter, the scale is configured before each ingredient is weighed.

A weight-based kitchen assistant in the form of a voice-assisted electronic scale allows a user to quickly convert weight measurements to volumetric measurements, determine accurate nutritional information of a food item based on its weight, and follow the steps of a recipe hands-free while cooking or baking in the kitchen. When connected to peripheral storage vessels, the weight-based kitchen assistant allows the user to manage and locate where ingredients are stored. The weight-based kitchen assistant also provides the user with the ability to measure accurate serving sizes and perform personalized dietary tracking.

A weight-based kitchen assistant in the form of a voice-assisted electronic scale allows a user to quickly convert weight measurements to volumetric measurements, determine accurate nutritional information of a food item based on its weight, and follow the steps of a recipe hands-free while cooking or baking in the kitchen. When connected to peripheral storage vessels, the weight-based kitchen assistant allows the user to manage and locate where ingredients are stored. The weight-based kitchen assistant also provides the user with the ability to measure accurate serving sizes and perform personalized dietary tracking.

A method is provided for optimizing the time required for a scale to weigh a set of ingredients. A weighing tolerance is obtained for each ingredient in the set. Based on the weighing tolerance, a readability parameter is determined for each ingredient. Based on the determined readability parameter, the scale is configured before each ingredient is weighed.

A method is provided for optimizing the time required for a scale to weigh a set of ingredients. A weighing tolerance is obtained for each ingredient in the set. Based on the weighing tolerance, a readability parameter is determined for each ingredient. Based on the determined readability parameter, the scale is configured before each ingredient is weighed.

A system for weighing ingredients of food and drink for a recipe application, which comprises a weighing device for use with blenders and food processors that can wirelessly communicate weight measurements and other data to the recipe application on a mobile device or computer. The weighing device can be removably attached to or integrated with the blender or food processor.

A system for weighing ingredients of food and drink for a recipe application, which comprises a weighing device for use with blenders and food processors that can wirelessly communicate weight measurements and other data to the recipe application on a mobile device or computer. The weighing device can be removably attached to or integrated with the blender or food processor.