Abstract: A grain loading and spreading device has a tapered housing with a grain flow restrictor valve assembly that will cause a uniform discharge of grain around the perimeter of a lower discharge opening. The valve assembly has upper and lower cam elements on a downwardly extending motor drive shaft. The lower cam element is fixed to the shaft, and the upper cam element is not fixed to the shaft. The cam elements are releasably engaged with each other. A horizontal plate with vertical baffles on the upper surface is secured to the upper cam element. When grain flow restricts the rotation of the plate and baffles, the upper cam element will be moved upwardly with respect to the lower cam element, to enlarge the width of the grain passageway between the perimeters of the plate and the side wall of the tapered housing.
Abstract: This invention relates to a top loading, top unloading bottom discharge, ring drive silo unloader that is adapted for use with a hexapod suspension. The unloader features a stationary support frame with an open center concept. The support frame includes three main support members joined together to form a triangular frame. Three bracing members are added to the support frame to form an interior perimeter with a generally hexagon shape that delineates the open central area. A rotating drive ring is suspended from the support frame. An electric motor drives a chain loop that engages the exterior surface of the drive ring and causes it to rotate. A gathering mechanism that includes a subframe with a telescoping tubular support is suspended from the rotating drive ring. An auger is suspended from the tubular support.
Abstract: A method of producing a silage removal channel. The method comprises the steps of disposing an inflatable tube within an empty silo, inflating the tube, filling the silo with feedstuff, deflating the tube and then withdrawing the same from the interior of the silo to create the silage removal channel within the feedstuff. The created channel is disposed from the uppermost surface of the feedstuff to a discharge port disposed in the exterior wall of the silo. When required feedstuff is introduced into the mouth of the channel, it gravitates through the channel to the discharge port where it may be removed from the silo.
Abstract: A catalyst trough containing multiple guide tubes in registry with the tubes of a multi-tube catalytic reactor is utilized to unload catalysts therefrom with maximum dust containment and maximum catalyst recovery. The catalyst recovery trough contains an outlet collar connected to an outlet line and a positive fastening system whereby the trough is fixedly but detachably connected to the tube sheet of the reactor. The guide tubes extend vertically upwardly from the bottom of the trough and are open in the bottom so as to allow the provision of flexible steel rods or "fish tapes", which may or may not be equipped with high-fluid pressure tubes as air-lances for feeding into the tubes of the reactor, which are on center with the guide tubes of the trough. In this manner any catalytic material which is stuck or bridged across the catalytic tubes may be dislodged so as to fall by gravity into the recovery trough and into an outlet line for recovery.
Abstract: A catalyst trough containing multiple guide tubes in registry with the tubes of a multi-tube catalytic reactor is utilized to unload catalysts therefrom with maximum dust containment and maximum catalyst recovery. The catalyst recovery trough contains an outlet collar connected to an outlet line and a positive fastener whereby the trough is fixedly but detachably connected to the tube sheet of the reactor. The guide tubes extend vertically upwardly from the bottom of the trough and are open in the bottom so as to allow the provision of flexible steel rods or "fish tapes", which may or may not be equipped with high-fluid pressure tubes as air-lances for feeding into the tubes of the reactor, which are on center with the guide tubes of the trough. In this manner any catalytic material which is stuck or bridged across the catalytic tubes may be dislodged so as to fall by gravity into the recovery trough and into an outlet line for recovery.
Abstract: A silage-tunneling apparatus (1) including a skid (2) on which is mounted an electric motor (30) arranged to drive a drive shaft (44) that has its axis arranged horizontally. Inner and outer hinged rigid cutter arms (45) are attached to the drive shaft and flexible chain cutter arms (60) are attached to the drive shaft between the hinged rigid cutter arms. Silage cutting elements (54, 63) are attached to the outer ends of the cutter arms. The apparatus forms a vertical tunnel (71) in silage (72) stored in a silo (70) upon being moved upwardly along the inside surface of the wall of the silo, the tunnel providing an opening for the discharge of silage through the bottom of the silo.