The present invention discloses an anti-stalling circuit, an anti-stalling system composed of same and an anti-stalling method. The anti-stalling circuit includes a motor main circuit and a control circuit; the anti-stalling system includes a substrate rotating synchronously with a passive end and the passive end anti-stalling circuit, the substrate is provided with a notch, the angle of the notch ranges from 150° to 170°, and the proximity switch SQ1 and the proximity switch SQ2 are installed at 180° on both sides of the substrate; and the passive end anti-stalling method is applied to the passive end anti-stalling system. The present invention can greatly reduce the probability of major failures caused by the stalling of a passive end of drive equipment at a limited cost.

A standardized modular drive assembly includes: a gear unit module, which includes a gear unit mounted on a gear unit base plate, the gear unit having an output shaft which is adapted to be coupled with a conveyor device pulley shaft; and a motor module, which includes an electric motor mounted on a motor base plate, the motor base plate being able to be joined and connected to the gear unit base plate in an exchangeable manner, and the motor module having a torque link which is adapted to be coupled with a conveyor device support structure.

A standardized modular drive assembly includes: a gear unit module, which includes a gear unit mounted on a gear unit base plate, the gear unit having an output shaft which is adapted to be coupled with a conveyor device pulley shaft; and a motor module, which includes an electric motor mounted on a motor base plate, the motor base plate being able to be joined and connected to the gear unit base plate in an exchangeable manner, and the motor module having a torque link which is adapted to be coupled with a conveyor device support structure.

A plate conveyor for moving walkways contains a track system having tracks, which track system is formed by track elements, and a central track serving as a guide for plate conveyor elements of the plate conveyor. The length of the track system can be adjusted. For this purpose, substantially triangular openings which are delimited by bars are provided between track elements that adjoin one another. Triangular or trapezoidal length adjusting pieces are inserted into the openings and are pushed in to such an extent that the oblique edges of the length adjusting pieces abut the edges of the openings formed by the bars. The central tracks of the track elements that adjoin one another are connected to one another by coupling pieces.

A system and method for a rotary drive for a curved track section of a conveyor. The system includes: a rotary motor; a wheel provided to the curved track section and driven by the rotary motor, the wheel includes an engagement mechanism configured to engage with a moving element; and a control system configured to control the wheel/rotary motor, such that the engagement mechanism engages a moving element adjacent a beginning of the curved track section and controls the moving element through the curved track section and releases the moving element adjacent an end of the curved track section. The method includes: moving a moving element toward the curved track section; controlling at least one of the moving element and a wheel such that the moving element and the wheel engage; controlling the moving element on the curved track section; and releasing the moving element.

A system and method for a rotary drive for a curved track section of a conveyor. The system includes: a rotary motor; a wheel provided to the curved track section and driven by the rotary motor, the wheel includes an engagement mechanism configured to engage with a moving element; and a control system configured to control the wheel/rotary motor, such that the engagement mechanism engages a moving element adjacent a beginning of the curved track section and controls the moving element through the curved track section and releases the moving element adjacent an end of the curved track section. The method includes: moving a moving element toward the curved track section; controlling at least one of the moving element and a wheel such that the moving element and the wheel engage; controlling the moving element on the curved track section; and releasing the moving element.

An apparatus for storage of a carrying material, includes: a body frame; a plurality of loading members installed on the body frame and disposed such that a carrying material forms a plurality of layers in upper and lower directions; a driving unit connected to at least one of the plurality of loading members; and an auxiliary coupling unit provided in a portion of the plurality of loading members for attachment and detachment to and from a neighboring loading member, wherein the plurality of loading members are provided with a plurality of first loading members fixedly installed at a lower end portion of the body frame, and a plurality of second loading members disposed above the first loading member and movably installed on the body frame, wherein the driving unit is connected to at least one of the plurality of second loading members, wherein the auxiliary coupling unit includes an electromagnet installed at one end of the second loading members, and a magnetic body installed at the other end of the second loading members and the body frame to correspond to the electromagnet.

An apparatus for storage of a carrying material, includes: a body frame; a plurality of loading members installed on the body frame and disposed such that a carrying material forms a plurality of layers in upper and lower directions; a driving unit connected to at least one of the plurality of loading members; and an auxiliary coupling unit provided in a portion of the plurality of loading members for attachment and detachment to and from a neighboring loading member, wherein the plurality of loading members are provided with a plurality of first loading members fixedly installed at a lower end portion of the body frame, and a plurality of second loading members disposed above the first loading member and movably installed on the body frame, wherein the driving unit is connected to at least one of the plurality of second loading members, wherein the auxiliary coupling unit includes an electromagnet installed at one end of the second loading members, and a magnetic body installed at the other end of the second loading members and the body frame to correspond to the electromagnet.

The present invention relates to a drive station for a device for conveying bulk material, the drive station comprising: - a housing, which has a base plate and side walls, at least one side wall having at least one opening for the passage of a conveying means for conveying the bulk material along a passage path; and — a drive for moving the conveying means, the drive being disposed in the housing. A preferably movable intermediate base having openings is disposed below the passage path and above the base plate in the vertical direction.

The present invention relates to a drive station for a device for conveying bulk material, the drive station comprising: - a housing, which has a base plate and side walls, at least one side wall having at least one opening for the passage of a conveying means for conveying the bulk material along a passage path; and — a drive for moving the conveying means, the drive being disposed in the housing. A preferably movable intermediate base having openings is disposed below the passage path and above the base plate in the vertical direction.