A particular embodiment of the invention relates to a conveyor system (10) for conveying material (for example: particulate material such as a catalyst) from a particular storage area (such as drum (18)) to a second location (such as a reactor (13)). In accordance with the present embodiment of the invention, the conveyor system (10) is adapted to isolate from the environment the particular material to be conveyed; thus, avoiding that the particular material enters in contact with, for example, the atmosphere. Isolating the particular material is particular advantageous; because, for example, the isolation process suppresses activation of the material (such as the catalyst) due to coming in direct contact with the oxygen and moisture content of the atmosphere.

A particular embodiment of the invention relates to a conveyor system (10) for conveying material (for example: particulate material such as a catalyst) from a particular storage area (such as drum (18)) to a second location (such as a reactor (13)). In accordance with the present embodiment of the invention, the conveyor system (10) is adapted to isolate from the environment the particular material to be conveyed; thus, avoiding that the particular material enters in contact with, for example, the atmosphere. Isolating the particular material is particular advantageous; because, for example, the isolation process suppresses activation of the material (such as the catalyst) due to coming in direct contact with the oxygen and moisture content of the atmosphere.

A loading device for loading a container with packages, comprising a transport channel for transport of the packages in the direction of the container. The transport channel has an upper inlet to supply packages into the transport channel and a lower outlet to supply packages into the container. At least one upper, and at least one lower, finger position each with at least one finger element are provided in the transport channel. The at least one of the finger elements of the upper and lower finger positions in each case have at least two flexible flank elements extending from one end to the opposing end of the finger element. In each case, the at least two flexible flank elements are flexibly connected via a plurality of webs. The finger elements in each case may be adjusted from at least one curved position into at least one extended position and back.

The present application relates to a spherical object falling buffer device including a flow-limiting pipe assembly and a central column assembly; wherein the flow-limiting pipe assembly includes a flow-limiting pipe, a redirecting joint and a sphere outlet pipe; a diameter of the flow-limiting pipe is greater than that of the sphere outlet pipe, and an inner surface of the redirecting joint is a conical surface; the central column assembly includes at least a central column arranged in the flow-limiting pipe; a flow-guiding region is provided between the flow-limiting pipe and the central column, and a plurality of gravity flow guide grooves are provided on an outer peripheral surface of the central column. The spherical object falling buffer device may restrict, guide and buffer spherical objects during falling, and avoids collision damage of the spherical objects or the stock bin due to the excessive falling speed of the spherical objects.

The present application relates to a spherical object falling buffer device including a flow-limiting pipe assembly and a central column assembly; wherein the flow-limiting pipe assembly includes a flow-limiting pipe, a redirecting joint and a sphere outlet pipe; a diameter of the flow-limiting pipe is greater than that of the sphere outlet pipe, and an inner surface of the redirecting joint is a conical surface; the central column assembly includes at least a central column arranged in the flow-limiting pipe; a flow-guiding region is provided between the flow-limiting pipe and the central column, and a plurality of gravity flow guide grooves are provided on an outer peripheral surface of the central column. The spherical object falling buffer device may restrict, guide and buffer spherical objects during falling, and avoids collision damage of the spherical objects or the stock bin due to the excessive falling speed of the spherical objects.

The present invention provides a particle packing apparatus which can pack uniformly particles of catalyst, etc. without breaking the particles. The particle packing apparatus for packing particles into a vessel, comprises: a base held at a fixed position with respect to the vessel; a distributor which is rotational symmetrical to a central axis extended vertically and distributes the particles; a bearing fixed to the base and holding the distributor rotatably; a particle supplying unit fixed to the base, being rotational symmetrical to the central axis, having a bottom opening being smaller than an inner diameter of the bearing and supplying the particles to the distributor through the bottom opening; and a motor rotating the distributor.

A fall impact reducing apparatus for reducing an impact on a falling chip component includes a wire assembly which is formed by stacking a plurality of wire jigs. The wire jig includes a plurality of wires arranged parallel to each other at intervals which allows the chip component C to pass through the wire jig, and the wire jig is formed of an integral body by working a base material having a predetermined thickness, the integral body constituted of a pair of frame portions and the plurality of wires extending parallel to each other between the frame portions. When the chip component is made to fall on the wire assembly, the chip component collides with the wire of any one of wire jigs.

A mechanical rocker-arm type vertical feeding cushioning device, consisting of two identical cushioning units and a box body (7). The two cushioning units are respectively arranged with a certain height difference on the inner side of the box body (7). Each cushioning unit consists of a cushioning mechanism and a fixing hinge mechanism. The cushioning mechanism is composed of a cushioning plate (1), a spring (5) and a balance weight (6). The fixing hinge mechanism is composed of a hinge plate (2), a right angle circular rod (3) and an elastic limiting device (4). The cushioning plate (1) is fixed to the hinge plate (2) via connection holes and using bolts. The hinge plate (2) is welded to the right angle circular rod (3). The elastic limiting device (4) consists of two elastic limiting plates and a hollow iron ring in a welded manner. The right angle circular rod (3) is connected to the elastic limiting device (4) in a sleeved manner via the hollow iron ring of the elastic limiting device (4). An upper end of the spring (5) is connected to the right angle circular rod (3), and the balance weight (6) is suspended at a lower end of the spring (5). Material is fed to the cushioning plates via a feeding pipe, and falls down after being cushioned twice by the cushioning plates (1). The cushioning device repeatedly cushions and recovers under the joint effect of the cushioning plates (1) and the cushioning balances (6).

A system and a method for gently loading, transporting and unloading frangible products using totes is provided. The system includes a loading station at a first location, an unloading station at a second location and a plurality of totes for use in storing the frangible products for transportation from the first location to the second location. The totes include an interior space that is upwardly curved and concave for gently receiving the frangible products therein as they are laterally discharged off of a lateral discharge portion of the reciprocating conveyor. Two or more totes can be sequentially loaded along the lateral discharge portion of the reciprocating conveyor using backpressure caused by accumulation of frangible product along the edge of the lateral discharge portion of the reciprocating conveyor to redirect incoming frangible products towards a downstream section of the lateral discharge portion of the reciprocating conveyor.

A system and a method for gently loading, transporting and unloading frangible products using totes is provided. The system includes a loading station at a first location, an unloading station at a second location and a plurality of totes for use in storing the frangible products for transportation from the first location to the second location. The totes include an interior space that is upwardly curved and concave for gently receiving the frangible products therein as they are laterally discharged off of a lateral discharge portion of the reciprocating conveyor. Two or more totes can be sequentially loaded along the lateral discharge portion of the reciprocating conveyor using backpressure caused by accumulation of frangible product along the edge of the lateral discharge portion of the reciprocating conveyor to redirect incoming frangible products towards a downstream section of the lateral discharge portion of the reciprocating conveyor.