Described are systems for a materials handling facility to emit air from a floor which is used to generate an air cushion upon which one or more totes may move. The floor may contain one or more apertures which receive air from an air reservoir which is supplied by an air source such as a compressor. Air emitted by these apertures is constrained by a deck of the tote, forming an air cushion upon which the tote rests. In some implementations the air cushion may be maintained while a user is within a threshold distance, and discontinued when the user is beyond the threshold distance.

Described are systems for a materials handling facility to emit air from a floor which is used to generate an air cushion upon which one or more totes may move. The floor may contain one or more apertures which receive air from an air reservoir which is supplied by an air source such as a compressor. Air emitted by these apertures is constrained by a deck of the tote, forming an air cushion upon which the tote rests. In some implementations the air cushion may be maintained while a user is within a threshold distance, and discontinued when the user is beyond the threshold distance.

A film member stacking device includes a block having a bottom surface portion provided with an outer end configured to contact with an inner end of an opening of a first film member. The outer end of the bottom surface portion of the block is larger than the inner end of the opening of the first film member. The film member stacking device further includes a member configured to uniformly force the first film member in a direction of the bottom surface portion of the block. The inner end of the opening of the first film member is positioned by the block, and the first film member is stacked on a second film member. The block is configured to resist deformation upon contact between the outer end of the bottom surface portion of the block and the inner end of the opening of the first film member.

A film member stacking device includes a block having a bottom surface portion provided with an outer end configured to contact with an inner end of an opening of a first film member. The outer end of the bottom surface portion of the block is larger than the inner end of the opening of the first film member. The film member stacking device further includes a member configured to uniformly force the first film member in a direction of the bottom surface portion of the block. The inner end of the opening of the first film member is positioned by the block, and the first film member is stacked on a second film member. The block is configured to resist deformation upon contact between the outer end of the bottom surface portion of the block and the inner end of the opening of the first film member.

A powder feeder for a cold spray system includes a rotatable drum body, a housing surrounding the drum body, and a support structure. The support structure couples to the housing and supports the housing such that the drum body rotates about a rotation axis to provide in-situ blending of powder disposed within an interior of the drum body.

A meter roller for an agricultural metering system includes a spindle having a driven shaft, a first ring, and a second ring. The first ring and the second ring are rigidly coupled to the driven shaft, and the driven shaft is configured to engage a drive shaft to facilitate rotation of the spindle. The meter roller also includes a sealing ring longitudinally disposed between the first ring and the second ring. An outer diameter of the sealing ring is less than or equal to an outer diameter of the first ring and an outer diameter of the second ring, and the sealing ring is formed from a material having sufficient resilience to enable the sealing ring to stretch to facilitate disposition of the sealing ring between the first ring and the second ring.

A hot melt adhesive supply system is disclosed. The hot melt adhesive supply system includes an outer container defining an upper cavity and a lower cavity. The upper cavity includes an inner container having a top opening to receive unmelted hot melt adhesive pieces and a bottom aperture. The system also includes a dispensing mechanism between the upper cavity and the lower cavity. The dispensing mechanism regulates the dispensing of the unmelted hot melt adhesive pieces from the upper cavity to the lower cavity. The dispensing mechanism includes a base plate and one or more rotating members that rotate to move the unmelted hot melt adhesive pieces through a gap defined between the base plate and the bottom aperture. The system also includes a transfer conduit that communicates the unmelted hot melt adhesive pieces from the lower cavity to a hot melt adhesive melter.

An assembly designed to encourage fish to enter a Coanda effect fish pumping system head first to allow delicing through the pump. The assembly includes a funnel shaped tube made of spaced bars and a water distribution system that provides a current that fish will swim toward. Once within the funnel shaped tube, wall spacing allows the current to dissipate where a suction current of the pump further transfers the fish. The current changes within the Coanda effect pump provide delicing of the fish by orientating the fish in a forward direction as the fish pass through the pump.

An elongate apparatus is disclosed and comprises a material passage and one or more fluid passages. The material passage receives material therethrough. The one or more fluid passages are in fluid communication with the material passage. The material passage and the one or more fluid passages extend substantially parallel throughout the apparatus. A method comprises transferring material in a material passage and further comprises injecting a fluid into the material passage via one or more injection points located along a length of the material passage.

An elongate apparatus is disclosed and comprises a material passage and one or more fluid passages. The material passage receives material therethrough. The one or more fluid passages are in fluid communication with the material passage. The material passage and the one or more fluid passages extend substantially parallel throughout the apparatus. A method comprises transferring material in a material passage and further comprises injecting a fluid into the material passage via one or more injection points located along a length of the material passage.