The invention relates to a transport device (1) and a method for distributing a plurality of similarly shaped and dimensioned articles (10).

The transport device (1) comprises an infeed (2) for conveying a plurality of similarly shaped and dimensioned articles (10) in a mass flow; a distribution section (3) downstream of the infeed (2), which distribution section (3), in the conveying direction (FR) of the articles (10), leads into a row transport (4), in which distribution section (3) the articles (10) are conveyed onwards or transported away in at least two separate parallel rows (5).

The transport device (1) also comprises at least one sensor device (6, 8, 11) for detecting and monitoring the mass flow within the infeed (2), within the distribution section (3) or within the rows (5), which at least one sensor device (6, 8, 11) is signal-coupled to a motor-driven actuator (14), which actuator (14) is assigned to the distribution section (3) for influencing a transverse distribution of the articles (10); wherein, in the event of detected gaps, interruptions or in the event of a detected termination of the article flow within the infeed (2) or within the distribution section (3) or within the rows (5), the actuator (14) moves a movable steering device (16), which steering device (16) is adjoining the article flow at least on one side.

A frictional force monitoring system for middle troughs of a scraper conveyor, comprising a scraper conveyor system and a sensing detection system. The scraper conveyor system consists of a machine body, middle troughs, thrust lugs, scrapers, a double chain, a sprocket, a speed reducer, an electric motor and a frequency converter. The sensing monitoring system consists of force receiving modules, a three-dimensional force sensor, and a pre-embedded temperature sensor. The frictional force monitoring system is able to monitor impact loads, frictional forces, friction coefficients, temperature, etc. between an annular chain, coal bulk, and middle troughs of the scraper conveyor under complex and severe operating conditions, and to provide the technical means for the design, safety early-warning and health evaluation of the scraper conveyor, and can provide a data basis for studying friction wear and fatigue breaking mechanism of middle troughs of a scraper machine.

A frictional force monitoring system for middle troughs of a scraper conveyor, comprising a scraper conveyor system and a sensing detection system. The scraper conveyor system consists of a machine body, middle troughs, thrust lugs, scrapers, a double chain, a sprocket, a speed reducer, an electric motor and a frequency converter. The sensing monitoring system consists of force receiving modules, a three-dimensional force sensor, and a pre-embedded temperature sensor. The frictional force monitoring system is able to monitor impact loads, frictional forces, friction coefficients, temperature, etc. between an annular chain, coal bulk, and middle troughs of the scraper conveyor under complex and severe operating conditions, and to provide the technical means for the design, safety early-warning and health evaluation of the scraper conveyor, and can provide a data basis for studying friction wear and fatigue breaking mechanism of middle troughs of a scraper machine.

An installation for sorting containers, in particular medicine bottles, comprising a star wheel having a multiplicity of pockets. The pockets each accommodate a container, and therefore the latter can be transported by virtue of the star wheel being rotated. The installation comprises a first and a second exit, wherein the containers can be fed either to the first exit or to the second exit by the retracting and extending action of a first diverter and a second diverter, which are located opposite one another on a transporting path. The first and the second diverters are designed to be capable of extending and retracting with respect to a base region of the transporting path.

An automated system for transferring articles from a container. An item transfer system includes a rotatable tray rotary assembly, a translatable and rotatable intermediate rotary assembly, and a translatable and rotatable output rotary assembly. The system is configured to transfer articles from the tray to processing equipment by an automated process including rotationally transferring the articles from the tray to the intermediate rotary assembly and rotationally transferring the articles from the intermediate rotary assembly to the output rotary assembly. The output rotary assembly can move to align with a shelf or other input of the processing equipment and a paddle assembly can slide the items from the output rotary assembly onto the shelf or other input of the processing equipment.

A frictional force monitoring system for middle troughs of a scraper conveyor, comprising a scraper conveyor system and a sensing detection system. The scraper conveyor system consists of a machine body, middle troughs, thrust lugs, scrapers, a double chain, a sprocket, a speed reducer, an electric motor and a frequency converter. The sensing monitoring system consists of force receiving modules, a three-dimensional force sensor, and a pre-embedded temperature sensor. The frictional force monitoring system is able to monitor impact loads, frictional forces, friction coefficients, temperature, etc. between an annular chain, coal bulk, and middle troughs of the scraper conveyor under complex and severe operating conditions, and to provide the technical means for the design, safety early-warning and health evaluation of the scraper conveyor, and can provide a data basis for studying friction wear and fatigue breaking mechanism of middle troughs of a scraper machine.

A frictional force monitoring system for middle troughs of a scraper conveyor, comprising a scraper conveyor system and a sensing detection system. The scraper conveyor system consists of a machine body, middle troughs, thrust lugs, scrapers, a double chain, a sprocket, a speed reducer, an electric motor and a frequency converter. The sensing monitoring system consists of force receiving modules, a three-dimensional force sensor, and a pre-embedded temperature sensor. The frictional force monitoring system is able to monitor impact loads, frictional forces, friction coefficients, temperature, etc. between an annular chain, coal bulk, and middle troughs of the scraper conveyor under complex and severe operating conditions, and to provide the technical means for the design, safety early-warning and health evaluation of the scraper conveyor, and can provide a data basis for studying friction wear and fatigue breaking mechanism of middle troughs of a scraper machine.

An apparatus for transporting objects, preferably containers, which has a transporting device. The transporting device is designed to transport objects. The apparatus also has a railing which is designed to guide the objects transported on the transporting device. The railing has a guide element which is designed to guide the objects. In addition, the railing has a plurality of reinforcing segments which are arranged adjacent to the guide element and are designed to reinforce the guide element.

An apparatus (5) for conveying long pasta (2) between at least one production station (3) and at least one weighing and packaging station (4), comprising at least one rectilinear conveyor belt (6) and at least one curved conveyor belt (7), the long pasta (2) being arranged directly on the belts (61, 71) orthogonally with respect to the advancing direction. (FIG. 3).

Embodiments relate to a conveying storage device for containers, comprising: a first/second drivable conveyor which can convey containers on a first/second conveying surface in a first/second direction, the first and the second conveyor being positioned parallel to one another such that containers are transferable from the first to the second conveying surface; a transfer device, which is movable along the conveyor, for transferring containers from the first to the second conveying surface; a guide body which is movable along a region between the first and the second conveyor above the first and the second conveying surface; and a guide railing for guiding and separating containers, said guide rail extending at an angle to the second direction and above the second conveying surface. The guide railing is variable in length and cooperates with the guide body such that the length of the guide railing and the angle can be varied.