An auger system having an auger with an internal measurement system that is contained within the auger. The measurement system has a power source located within the auger and a sensor for measuring at least one condition within the auger. The measurement system is connected to the power source and a transmitter is powered by the power source to transmit a signal from the sensor. A receiver receives the signal from the transmitter and is spaced from the transmitter. The signal is then sent to a control system that compares the signal to a predetermined value to determine whether the condition measured is within an acceptable range. The control system may alter inputs into components for moving the auger until said condition is within an acceptable range.

A bin sweep auger unplugging system for unplugging a central unloading sump in a storage bin. The bin sweep auger unplugging system generally includes an auger having a driven shaft with auger fighting, a drive unit having a drive shaft, and a clutch connected between the drive shaft and the driven shaft. The clutch selectively transfers the rotation of the drive shaft to the driven shaft of the auger. The drive shaft includes a clump breakup component that breaks up the clump of granular material above the unloading sump when the drive shaft is rotated. The clutch is disengaged when breaking up a clump of granular material to prevent the rotation of the auger.

A multi-reservoir feeding/dosing apparatus for the delivery of at least two substances in discrete form includes first and second conveying elements in which the discharge end thereof are a close fit in a discharge bushing thereby to ensure that the correct dosage of each substance is discharged on a consistent basis. Each conveying element is in its respective reservoir. At least one motor drives both conveying elements, with each rotational direction of the motor actuating a corresponding one of the conveying elements.

A method includes determining a first temperature of paving material, determining a first location of a paving machine corresponding to the first temperature, determining a second temperature of the paving material, and determining a second location of the paving machine corresponding to the second temperature. The method also includes generating a paving material map based at least partly on the first and second temperatures, and the first and second locations. The method further includes causing at least part of the paving material map to be displayed. The displayed at least part of the paving material map including visual indicia indicating the first temperature and the second temperature.

A method includes determining a first temperature of paving material, determining a first location of a paving machine corresponding to the first temperature, determining a second temperature of the paving material, and determining a second location of the paving machine corresponding to the second temperature. The method also includes generating a paving material map based at least partly on the first and second temperatures, and the first and second locations. The method further includes causing at least part of the paving material map to be displayed. The displayed at least part of the paving material map including visual indicia indicating the first temperature and the second temperature.

A transporter system with a cargo container and an automatically actuated unloading system, such as to provide more efficient intermodal transportation, guaranteeing that the cargo placed inside the shipping container is transferred to the next mode in a very short period of time, comprising a cargo container, a mechanical unloading system, composed of motors which are actuated such as to move screws and an independent hydraulic/electric unit, being possible for said transporter to be mounted on a road-vehicle, ship, aircraft or stationary base, and it may also be self-propelled, and allow the automatic unloading of materials deposited inside the cargo container by means of the unloading system via remote control.

The invention provides a product leveling system within at least one tank or particulate material supply compartment that helps to encourage uniform movement of an agricultural product out of the bottom of the compartment. More specifically, the invention relates to a product leveling system that helps monitor areas in which agricultural product is prone to starving and also prone to accumulation, such that quantities of the agricultural product can be diverted from the areas prone to accumulation to the areas prone to starving. For instance, at least one leveling device having a driving shaft and a helical coil may be rotatably mounted within the compartment and rotated to encourage agricultural product to be moved from areas of accumulation to areas where the agricultural product is more quickly removed, resulting in starving. The product leveling system may include three coils mounted about the compartment.

A dispensing hopper (1) for dispensing particulate material comprises a base (3) having a pair of inclined base portions (11) inclining downwardly inwardly towards a dispensing channel (14) of semi-circular transverse cross-section. A dispensing auger (18) located in the dispensing channel (14) urges powder material along the dispensing channel (14) through a dispensing outlet port (15). Agitating discs (30), which are rotatably mounted on the inclined base portions (11), are each provided with a plurality of circumferentially spaced apart gear teeth (36) extending radially from the outer periphery (35) thereof. The gear teeth (36) of the agitating discs (30) engage a flight (21) of the dispensing auger (18) so that as the dispensing auger (18) rotates the agitating discs (30) are rotated. The gear teeth (36) of the agitating discs (30) act on the powder material in the hopper (1) in order to prevent bridging of the powder material over the auger (18). An electrically powered geared motor (23) drives the dispensing auger (18).

A dispensing hopper (1) for dispensing particulate material comprises a base (3) having a pair of inclined base portions (11) inclining downwardly inwardly towards a dispensing channel (14) of semi-circular transverse cross-section. A dispensing auger (18) located in the dispensing channel (14) urges powder material along the dispensing channel (14) through a dispensing outlet port (15). Agitating discs (30), which are rotatably mounted on the inclined base portions (11), are each provided with a plurality of circumferentially spaced apart gear teeth (36) extending radially from the outer periphery (35) thereof. The gear teeth (36) of the agitating discs (30) engage a flight (21) of the dispensing auger (18) so that as the dispensing auger (18) rotates the agitating discs (30) are rotated. The gear teeth (36) of the agitating discs (30) act on the powder material in the hopper (1) in order to prevent bridging of the powder material over the auger (18). An electrically powered geared motor (23) drives the dispensing auger (18).

A bin sweep auger unplugging system for unplugging a central unloading sump in a storage bin. The bin sweep auger unplugging system generally includes an auger having a driven shaft with auger fighting, a drive unit having a drive shaft, and a clutch connected between the drive shaft and the driven shaft. The clutch selectively transfers the rotation of the drive shaft to the driven shaft of the auger. The drive shaft includes a clump breakup component that breaks up the clump of granular material above the unloading sump when the drive shaft is rotated. The clutch is disengaged when breaking up a clump of granular material to prevent the rotation of the auger.