A precision balance including a weighing chamber (16); a draft shield (18, 20, 22), which surrounds the weighing chamber (16); a climate module (34), which is detachably disposed in the weighing chamber (16); a processor (32) and a data input unit, which both form part of the overall precision balance; and a data transmission path, over which data is exchanged between the climate module (34) and the processor (32). Also disclosed is a climate module for a precision balance. The climate module (34) forms a self-contained modular unit and includes an air pressure sensor (62), an air humidity sensor (54) and an air temperature sensor (52) The climate module also includes a data transmission path configured to transmit data to a processor external to the climate module, and a mounting mechanism configured to secure the climate module detachably to a weighing module (10).

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 mass comparator including a weighing chamber (16); a draft shield (18, 20, 22), which surrounds the weighing chamber; a climate module (34), which is detachably disposed in the weighing chamber; a processor (32), a data input unit, and a data transmission path, over which data is exchanged between the climate module and the processor. The processor is programmed to use the air pressure, the air humidity and the air temperature in the weighing chamber to determine, based on the density of a substance to be weighed, an air buoyancy of at least one test sample and/or a buoyancy correction factor. Also disclosed are a climate module configured to electrically yet detachably couple to a mass comparator, and a method for operating a mass comparator including determining the air buoyancy and/or the buoyancy correction factor.

A dosing device with a balance, which includes a weighing chamber (16); a processor (32); a climate module (34), which is disposed in the weighing chamber (16); a data transmission path, over which data is exchanged between the climate module (34) and the processor (32); and a mixing formulation display (30). Also disclosed are a climate module configured to electrically couple to a dosing device in a detachable manner, wherein the climate module (34) forms a self-contained modular unit and includes various sensors (52, 54, 62) and a path over which data is transmitted to a processor external to the climate module, and a method for mixing a formulation, using a dosing device, wherein ambient conditions are detected during dosage of the substances to be combined, and the mixing ratio is adjusted in accordance with the detected ambient conditions.

A balance including a weighing chamber (16); a draft shield (23), which surrounds the weighing chamber; a climate module (34), which is detachably disposed in the weighing chamber; a processor (32), which is programmed to provide an evaporation rate correction value; a data input unit; and a data transmission path, over which data is exchanged between the climate module and the processor. Also disclosed are a climate module configured to electrically yet detachably couple to a balance, wherein the climate module forms a self-contained modular unit and includes various sensors (52, 54, 62) and a path over which data is transmitted to an external processor, and to a method for calibrating a pipette using a balance, wherein an evaporation rate is determined during the calibration process, and the measurement is corrected in accordance with the determined evaporation rate.

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 food processing system includes a food slicing machine having a control arrangement for regulating a thickness of slices cut by the machine so that they are cut according to a current value of a slice size parameter. An under-weight signal is generated which is responsive to generation of any under-weight groups of slices by the slicing machine, and an end-of-line weighing device monitors the weight of groups of slices outputted by the system and generates an end-of-line weight signal responsive thereto. The system identifies any under-weight groups of slices so that their weight can be increased by addition of a further slice before being outputted by the system. The control arrangement receives the two signals and determines the value of the slice size parameter having regard to them. The slice size parameter may be adjusted to minimize give-away by the system.

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.

A substance feeding device includes: a buffer member, a conveying assembly, a weight meter, and a control assembly. The buffer member is configured to store a substance; one end of the conveying assembly is connected with the buffer member; the conveying assembly has at least two conveying ports; the conveying port is configured to connect with a target device; the weight meter is connected with the buffer member and is configured to detect a weight of the substance in the buffer member; each conveying port is provided with one control assembly; the control assembly is configured to control communication and cutoff of a pipeline between the conveying port and the corresponding target device; the control assembly includes a back pressure valve; and the back pressure valve is disposed on the conveying port and capable of being connected with the target device.