A cleaning device for a residue contaminated conveyor belt includes a roller arranged below the conveyor belt such that the lateral surface thereof contacts a lower strand of the conveyor belt, and a cleaning belt is arranged below the roller. The lateral surface of the roller contacts an upper strand of the cleaning belt, which is tilted relative to a main conveying direction at the upper strand relative to a longitudinal roller axis. A dispensing device on and/or above the cleaning belt feeds a solvent thereon. The dispensing device and the cleaning belt are relatively arranged such that the solvent from the cleaning belt is conveyed by a conveying movement of the cleaning belt into a region in which the cleaning belt contacts the roller, which via a rotational movement, at least partially picks up the solvent located on the cleaning belt and dispenses it onto the conveyor belt.

A cleaning device for a residue contaminated conveyor belt includes a roller arranged below the conveyor belt such that the lateral surface thereof contacts a lower strand of the conveyor belt, and a cleaning belt is arranged below the roller. The lateral surface of the roller contacts an upper strand of the cleaning belt, which is tilted relative to a main conveying direction at the upper strand relative to a longitudinal roller axis. A dispensing device on and/or above the cleaning belt feeds a solvent thereon. The dispensing device and the cleaning belt are relatively arranged such that the solvent from the cleaning belt is conveyed by a conveying movement of the cleaning belt into a region in which the cleaning belt contacts the roller, which via a rotational movement, at least partially picks up the solvent located on the cleaning belt and dispenses it onto the conveyor belt.

We disclose an apparatus for maintaining a flow of grain moving toward a rotating sweep conveyor. A rake extends longitudinally along the sweep. The rake is disposed along the leading sidewall of the sweep such that the rake is in the path of movement of the sweep as the sweep rotates within the bin. The rake has a plurality of projections that protrude from a shaft. A reciprocating drive assembly is connected to the driven roller and to the shaft. The reciprocating drive assembly causes the shaft to move forward and backward along the longitudinal axis of the sweep. The reciprocating shaft movement causes the projections to engage grain piles in the path of the sweep, causing the pile to collapse into a flowable particulate to be received by the sweep.

We disclose an apparatus for maintaining a flow of grain moving toward a rotating sweep conveyor. A rake extends longitudinally along the sweep. The rake is disposed along the leading sidewall of the sweep such that the rake is in the path of movement of the sweep as the sweep rotates within the bin. The rake has a plurality of projections that protrude from a shaft. A reciprocating drive assembly is connected to the driven roller and to the shaft. The reciprocating drive assembly causes the shaft to move forward and backward along the longitudinal axis of the sweep. The reciprocating shaft movement causes the projections to engage grain piles in the path of the sweep, causing the pile to collapse into a flowable particulate to be received by the sweep.

A system for cleaning a media transport device includes a cleaning substrate sized and configured to fit within at least a portion of a media travel pathway of the transport device. The cleaning substrate includes a cleaning face and a locking member that secures the cleaning substrate in a substantially fixed position within the transport device while the transport device is operated. The cleaning substrate also may include scarifying holes that scrape debris from media conveyors of the transport device, and flaps that fit under and clean belts of the transport device. Cleaning the transport device may include opening a section, positioning the cleaning substrate in the section without operating the media conveyors' motor, closing the section and then operating the transport device so that the media conveyors move, contact the cleaning substrate and are cleaned while the cleaning substrate remains substantially fixed within the transport device.

A system for cleaning a media transport device includes a cleaning substrate sized and configured to fit within at least a portion of a media travel pathway of the transport device. The cleaning substrate includes a cleaning face and a locking member that secures the cleaning substrate in a substantially fixed position within the transport device while the transport device is operated. The cleaning substrate also may include scarifying holes that scrape debris from media conveyors of the transport device, and flaps that fit under and clean belts of the transport device. Cleaning the transport device may include opening a section, positioning the cleaning substrate in the section without operating the media conveyors' motor, closing the section and then operating the transport device so that the media conveyors move, contact the cleaning substrate and are cleaned while the cleaning substrate remains substantially fixed within the transport device.

A scraper conveyor chain tensioning device having a sweeping function, comprising a transmission device (2), a steering chain wheel (3), scraper chains (4), and ledges (5), wherein a chain tensioning device (1) is arranged above the scraper chains (4) arranged at the side of the steering chain wheel (3), the chain tensioning device (1) is provided with a sweeping device (12), the chain tensioning device (1) comprises a slider-crank mechanism and two chutes (13) symmetrically fixed to the ledges (5) on two sides at an inclined angle, a tensioning shaft (19) is arranged between the two chutes (13), the tensioning shaft (19) is arranged on a bearing seat (18) via a bearing, and the middle part of the tensioning shaft (19) is provided with a tensioning chain wheel (11) matching with a transmission chain; and the sweeping device (12) comprises a tensioning shaft sleeve (12-3), a plurality of groups of sweeping heads (12-2) is arranged on the circumference of the tensioning shaft sleeve (12-3) at intervals, and the sweeping heads (12-2) are fixed to the tensioning shaft sleeve (12-3) via springs (12-1). Caking coal on a scraper can be swept via scraping teeth on sweeping heads (12-2), the problems of friction, chain jumping and jamming caused by the caking coal on the scraper are solved, the scraper conveyor chain tensioning device is applicable to a middle double-chain scraper conveyor, the change on an original scraper conveyor is small, and pure mechanical transmission is adopted, thereby being simple in mechanism, convenient to assemble and disassemble, and reliable in operation.

The subject of the invention is a method for regulating the operation of a stripping device on a conveyor belt (1) of a conveyor belt system for transported material (6), wherein, in order to strip transported material (6) adhering to the conveyor belt (1), a stripping segment (9) of the stripping device (8) is advanced onto the conveyor belt (1) with its stripping edge (10) by an advancing drive (13) and at least the advancing force with which the advancing drive (13) advances the at least one stripping segment (9) onto the conveyor belt (1) is regulated as a regulating variable by an electronic controller (14) on the basis of the value, determined by at least one sensor (15), of at least one guide variable. This method is optimized in that the output signal of an optical sensor (15, 15, 15) that is embodied as an image processing electronic system is used as a guide variable, said sensor optically capturing the state of the conveyor belt (1) or of the stripping segment (9), and/or in that the output signal of at least one acoustic sensor (16) embodied as a microphone and/or as an electronic sound converter is used as a guide variable.

The subject of the invention is a method for regulating the operation of a stripping device on a conveyor belt (1) of a conveyor belt system for transported material (6), wherein, in order to strip transported material (6) adhering to the conveyor belt (1), a stripping segment (9) of the stripping device (8) is advanced onto the conveyor belt (1) with its stripping edge (10) by an advancing drive (13) and at least the advancing force with which the advancing drive (13) advances the at least one stripping segment (9) onto the conveyor belt (1) is regulated as a regulating variable by an electronic controller (14) on the basis of the value, determined by at least one sensor (15), of at least one guide variable. This method is optimized in that the output signal of an optical sensor (15, 15, 15) that is embodied as an image processing electronic system is used as a guide variable, said sensor optically capturing the state of the conveyor belt (1) or of the stripping segment (9), and/or in that the output signal of at least one acoustic sensor (16) embodied as a microphone and/or as an electronic sound converter is used as a guide variable.

Provided is a conveyor belt wear monitoring system including a non-contact sensor arranged facing a surface of an upper cover rubber. A distance to the surface of the upper cover rubber is detected using the non-contact sensor in a predetermined range in a belt width direction of the upper cover rubber of the traveling conveyor belt. An amount of wear of the upper cover rubber is obtained by comparing the detection data with pre-stored reference data.