The invention relates to a system (100) for measurement quality verification (MQV) that forms part of an installation (10) located at a site that manufactures rubber mixtures, the system including: a weighing platform (102) having a scale (104) for determining a weight loss of the metered raw materials; a metering device (106) including: a metering hopper (108) that receives the raw materials required for performing one or more rubber mixing processes; and a metering means that meters the raw materials into the metering hopper in real time; an application and removal system that allows for application and removal of one or more calibration weights (118) relative to the weighing platform (102); and a motion system that facilitates reciprocating vertical movement of the metering device. The invention also relates to an installation (10) that incorporates the disclosed system and to a continuous metering process performed by the installation.

Powder dispensing and sensing apparatus and methods are provided. The powder dispensing and sensing apparatus includes a tray support structure to receive a cartridge tray holding cartridges, a powder dispenser assembly including powder dispenser modules to dispense powder into respective cartridges of a batch of cartridges in the cartridge tray, a powder transport system to deliver powder to the powder dispenser modules, a sensor module including sensor cells to sense respective fill states, such as the weights, of each of the cartridges in the batch of cartridges, and a control system to control the powder dispenser modules in response to the respective sensed fill states of each of the cartridges of the batch of cartridges.

Powder dispensing and sensing apparatus and methods are provided. The powder dispensing and sensing apparatus includes a tray support structure to receive a cartridge tray holding cartridges, a powder dispenser assembly including powder dispenser modules to dispense powder into respective cartridges of a batch of cartridges in the cartridge tray, a powder transport system to deliver powder to the powder dispenser modules, a sensor module including sensor cells to sense respective fill states, such as the weights, of each of the cartridges in the batch of cartridges, and a control system to control the powder dispenser modules in response to the respective sensed fill states of each of the cartridges of the batch of cartridges.

A combination weighing apparatus includes a timing hopper, a frame, and a support member. The support member is a member attached to the frame and moves a position of the timing hopper between (1) a first mounting position at which the timing hopper receives and retains objects to be weighed and (2) a second mounting position related to attachment and detachment of the timing hopper without changing a fixed state of the timing hopper with respect to the support member. A movement direction in which the timing hopper moves from the first mounting position to the second mounting position intersects a removing direction in which the timing hopper fixed at the predetermined position is removed from the support member.

A combination weighing apparatus includes a timing hopper, a frame, and a support member. The support member is a member attached to the frame and moves a position of the timing hopper between (1) a first mounting position at which the timing hopper receives and retains objects to be weighed and (2) a second mounting position related to attachment and detachment of the timing hopper without changing a fixed state of the timing hopper with respect to the support member. A movement direction in which the timing hopper moves from the first mounting position to the second mounting position intersects a removing direction in which the timing hopper fixed at the predetermined position is removed from the support member.

A combination weighing device includes a conveying unit configured to convey articles, a controller configured to perform combination weighing of the articles, and an interface configured to receive an input of information from an operator. The controller has a first operation mode including a first control parameter that defines a conveying operation of the conveying unit and is automatically set in the device, and a second operation mode including a second control parameter that defines the conveying operation of the conveying unit and is set based on the information input from the interface, and when the interface receives an input of the information during an operation of the conveying unit in the first operation mode, the controller makes a transition from the first operation mode to the second operation mode, and controls the operation of the conveying unit using the second control parameter.

A drive device (125) is adapted for use in combination with a weighing balance (100). The drive device has a receiving unit (130), an insertion unit (U) and a locking unit (140). The receiving unit is configured to receive the insertion unit. The locking unit is movable between a locking position, in which the insertion unit is constrained from movement, and an unlocking position, in which the movement is not constrained. The locking unit is coupled to the receiving unit in a biasing manner to predispose the locking unit into the locking position. The locking unit is slidably engaged with the receiving unit to allow the locking unit to slide relative to the receiving unit when an external force is applied to move the locking unit into the unlocking position.

A drive device (125) is adapted for use in combination with a weighing balance (100). The drive device has a receiving unit (130), an insertion unit (U) and a locking unit (140). The receiving unit is configured to receive the insertion unit. The locking unit is movable between a locking position, in which the insertion unit is constrained from movement, and an unlocking position, in which the movement is not constrained. The locking unit is coupled to the receiving unit in a biasing manner to predispose the locking unit into the locking position. The locking unit is slidably engaged with the receiving unit to allow the locking unit to slide relative to the receiving unit when an external force is applied to move the locking unit into the unlocking position.

A multihead weigher with a collector for feeding, weighing and collecting solid food products with a sticky coating. The multihead weigher has a number of receptacles for weighing the solid food products and discharging the solid food product to the collector. Each receptacle having a scraper for scraping the surface of the receptacle when the solid food product is being discharged from the receptacle into the collector.

A combination weighing device includes: a storage unit that stores time-series measurement values sequentially acquired by the measurement hoppers; a time measurement unit that measures an elapsed time from a timing corresponding to supply of the products to the measurement hoppers until a timing at which the time-series measurement values enter a region considered to be stabilized when the time-series measurement values stored in the storage unit converge to the region considered to be stabilized as a stabilization time until the measurement values become stabilized; and a selection unit that acquires the stabilization times by the time measurement unit over a plurality of cycles and can select a recommended stabilization time that is the stabilization time in which a predetermined measurement accuracy can be maintained based on a standard deviation of the acquired stabilization times for the plurality of cycles.