A combine harvester includes (i) a grain tank for storing separated grain and having a bottom end and a top end, and (ii) a grain tank level sensor array for detecting a level of grain in the grain tank. The grain tank level sensor array includes a plurality of sensors, wherein the grain tank level sensor array extends between the bottom end and the top end of the grain tank. The sensors are spaced apart between the bottom end and the top end. A spacing between adjacent sensors decreases in a direction towards the top end of the grain tank.

An arrangement for testing or treating a dosing valve of a dosing device of a dosing system in a vehicle includes connecting an electrical test drive to an electrical connector of the dosing device and connecting a dosing tester to a liquid inlet of the dosing device. Thereafter, an outlet valve of the dosing tester is opened to provide liquid under pressure to a liquid inlet of the dosing device. After a first given time, the electrical test drive provides pulses to repeatedly attempt to open the dosing valve. Upon a reduction in liquid level of liquid within the dosing tester in response to opening of the dosing valve, an operator closes the outlet valve of the dosing tester to discontinue the treatment.

An arrangement for testing or treating a dosing valve of a dosing device of a dosing system in a vehicle includes connecting an electrical test drive to an electrical connector of the dosing device and connecting a dosing tester to a liquid inlet of the dosing device. Thereafter, an outlet valve of the dosing tester is opened to provide liquid under pressure to a liquid inlet of the dosing device. After a first given time, the electrical test drive provides pulses to repeatedly attempt to open the dosing valve. Upon a reduction in liquid level of liquid within the dosing tester in response to opening of the dosing valve, an operator closes the outlet valve of the dosing tester to discontinue the treatment.

In one aspect, a system for monitoring crop fill-levels of transport receptacles, includes a crop transport receptacle defining a storage volume including at least a first sub-region and a second sub-region. The system also includes first and second fill-level sensors having fields of view directed towards harvested crops contained within the first and second sub-regions of the storage volume, respectively. In addition, the system includes a computing system configured to determine a first fill-level value associated with a fill-level of the first sub-region based on data received from the first fill-level sensor and a second fill-level value associated with a fill-level of the second sub-region based on data received from the second fill-level sensor. The computing system is further configured to determine an estimated fill-level value associated with at least a portion of the storage volume including the sub-regions based on the first and second fill-level values.

In one aspect, a system for monitoring crop fill-levels of transport receptacles, includes a crop transport receptacle defining a storage volume including at least a first sub-region and a second sub-region. The system also includes first and second fill-level sensors having fields of view directed towards harvested crops contained within the first and second sub-regions of the storage volume, respectively. In addition, the system includes a computing system configured to determine a first fill-level value associated with a fill-level of the first sub-region based on data received from the first fill-level sensor and a second fill-level value associated with a fill-level of the second sub-region based on data received from the second fill-level sensor. The computing system is further configured to determine an estimated fill-level value associated with at least a portion of the storage volume including the sub-regions based on the first and second fill-level values.

A chemical analyzer includes a slide transport mechanism having a slide track adapted to hold a plurality of reagent test slides, a sample metering device, an incubator formed as a part of the slide transport mechanism to precisely maintain the temperature of the reagent test slides, a slide ejector mechanism to remove the slides from the slide transport mechanism, a sample preparation station, which includes a centrifuge, and associated electronics and software. The slide transport mechanism holds a plurality of trapezoidally-shaped reagent test slides about its circumference, which slides are loaded onto the transport mechanism by the slide inserter mechanism. The slide transport mechanism positions the reagent test slides under the sample metering device, which device deposits a predetermined volume of sample onto each slide. The slide transport mechanism also carries the slides above a reflectometer. After testing has been completed, the slide ejector mechanism automatically removes the reagent test slides from the slide transport mechanism.

A chemical analyzer includes a slide transport mechanism having a slide track adapted to hold a plurality of reagent test slides, a sample metering device, an incubator formed as a part of the slide transport mechanism to precisely maintain the temperature of the reagent test slides, a slide ejector mechanism to remove the slides from the slide transport mechanism, a sample preparation station, which includes a centrifuge, and associated electronics and software. The slide transport mechanism holds a plurality of trapezoidally-shaped reagent test slides about its circumference, which slides are loaded onto the transport mechanism by the slide inserter mechanism. The slide transport mechanism positions the reagent test slides under the sample metering device, which device deposits a predetermined volume of sample onto each slide. The slide transport mechanism also carries the slides above a reflectometer. After testing has been completed, the slide ejector mechanism automatically removes the reagent test slides from the slide transport mechanism.

A support arrangement for a fluid monitoring system is provided, configured for being secured within a vertical shaft and for facilitating positioning of a fluid monitor suspended therefrom. The support arrangement includes an attachment arrangement to be secured to a vertical access shaft of an open channel fluid transport system, a cross rail assembly including a cross rail and being configured to be mounted to the attachment arrangement for being supported thereby, and a lifting assembly mounted on the cross rail and configured for suspension therefrom of the fluid monitor along a vertically-extending suspension axis. The cross rail is configured to be rotatable about a vertical axis when at least partially received within the attachment arrangement. The lifting assembly is configured to be selectively secured to one of a plurality of lateral positions along the length of the cross rail.

In some embodiments, systems, apparatuses, and methods are provided herein useful to provide an indication of a stock level of a product support member. Compressed air is directed through a plurality of bores extending through the product support member. A sensor reading of the compressed air can be utilized to determine whether there are products stocked on the product support member due to the products blocking one or more of the bores.

The present disclosure relates to a fluid level sensing system for sensing a fluid level in a well. The system has an upper housing in communication with a lower housing, with the lower housing having a first bore in communication with a fluid in the well, and a second bore isolated from the first bore and in communication with at least one of a vacuum gauge or an external vacuum source. The upper and lower housings house a first flexible bag and a second flexible bag, with the first bag housed within the second bag. A portion of the first bag communicates with the first bore and is responsive to a change in pressure within the first bore caused by a changing fluid level in the well. A portion of the second bag communicates with the second bore and exerts a reference pressure on the first bag. A sensing subsystem senses expanding and contracting movement of the bags and generates a signal indicative of a change in a level of the fluid in the well.