Kiln design that uses a series of at least two subsections with airflow in constant but alternating directions instead of using bi-directional fans that periodically reverse directions. The uninterrupted alternating air flow may be used in continuous drying kilns (CDK) with two sets of carriages carrying spaced stacks of lumber travel in opposite directions through a sequence of chambers. The uninterrupted alternating air flow may be used with a set of at least one pathway for carriages carrying lumber to be dried where all carriages move from a first end of the kiln to a second end of the kiln.

A 3D printing consumables drying machine is disclosed. The top of the base is provided with a accommodation cavity. The rolling mechanism, heating mechanism and drive mechanism are installed in the accommodating cavity. The rolling mechanism is used to carry the reel. The heating mechanism is installed in the accommodating cavity. The driving mechanism is installed in the accommodating cavity. The driving mechanism is used to drive the rolling mechanism to rotate and to drive the reel on the rolling mechanism to rotate. The problem with many 3D printing consumables dryers on the market is that the internal reel remains static during drying. This causes uneven heating of the consumables. Which resulting in inconsistent drying across the consumables. Moreover, the consumables close to the heating device are prone to deformation, melting, and other undesirable effects due to excessive heat.

A 3D printing consumables drying machine is disclosed. The top of the base is provided with a accommodation cavity. The rolling mechanism, heating mechanism and drive mechanism are installed in the accommodating cavity. The rolling mechanism is used to carry the reel. The heating mechanism is installed in the accommodating cavity. The driving mechanism is installed in the accommodating cavity. The driving mechanism is used to drive the rolling mechanism to rotate and to drive the reel on the rolling mechanism to rotate. The problem with many 3D printing consumables dryers on the market is that the internal reel remains static during drying. This causes uneven heating of the consumables. Which resulting in inconsistent drying across the consumables. Moreover, the consumables close to the heating device are prone to deformation, melting, and other undesirable effects due to excessive heat.

Embodiments provide a conveyor for conveying loads of lumber through a lumber kiln or other structure without the use of lumber carts or pushers. The conveyor may include a plurality of rollers arranged to form a flow path through the lumber kiln. Groups of the rollers may be driven by separate drives that are configured to rotate the rollers in opposite rotary directions and/or at variable speeds. Some or all of the drives may be operable independently of the other drives to transport loads of lumber at different speeds/directions in adjacent areas of the lumber kiln. In the event of a fire or a shut-down, the rollers in the proximal half of the kiln and those in the distal half of the kiln can be rotated in opposite directions to evacuate loads quickly from both ends.

Embodiments provide a conveyor for conveying loads of lumber through a lumber kiln or other structure without the use of lumber carts or pushers. The conveyor may include a plurality of rollers arranged to form a flow path through the lumber kiln. Groups of the rollers may be driven by separate drives that are configured to rotate the rollers in opposite rotary directions and/or at variable speeds. Some or all of the drives may be operable independently of the other drives to transport loads of lumber at different speeds/directions in adjacent areas of the lumber kiln. In the event of a fire or a shut-down, the rollers in the proximal half of the kiln and those in the distal half of the kiln can be rotated in opposite directions to evacuate loads quickly from both ends.

A facility for controlling moisture in grains provided with a grain storage silo conveniently installed on a hard flat floor and inside of which a raised floor drilled with air passageways is provided, determining an air chamber inside the silo and below the perforated floor, into which previously conditioned air is blown by an air heater, wherein the control of hot air blowing times is determined based on modeling and calculating carried out by a programmable controller operatively connected to an ambient air temperature sensor located outside the silo, an ambient relative humidity sensor located outside the silo and a temperature air sensor located into the air chamber inside the silo, thereby causing the application of different stages of drying, rewetting and maintenance of the first bottom layer of grain, ranging between an upper and lower moisture limits narrowing around the desired moisture while the drying progress, leading to an homogeneous final moisture content of all the grain bulk.

A facility for controlling moisture in grains provided with a grain storage silo conveniently installed on a hard flat floor and inside of which a raised floor drilled with air passageways is provided, determining an air chamber inside the silo and below the perforated floor, into which previously conditioned air is blown by an air heater, wherein the control of hot air blowing times is determined based on modeling and calculating carried out by a programmable controller operatively connected to an ambient air temperature sensor located outside the silo, an ambient relative humidity sensor located outside the silo and a temperature air sensor located into the air chamber inside the silo, thereby causing the application of different stages of drying, rewetting and maintenance of the first bottom layer of grain, ranging between an upper and lower moisture limits narrowing around the desired moisture while the drying progress, leading to an homogeneous final moisture content of all the grain bulk.

This utility model relates to a shed for the air drying and curing of tobacco and the growth and production of seedlings, comprising: (i) a plurality of columns (2) which can be positioned at spaced intervals; (ii) a structure (4) mounted on the said columns; (iii) a removable flexible roof (5) stretched over the said structure (4); (iv) removable flexible side panels (3) extending between the said columns; (v) fixing elements (8) to attach the said side panels (3) and the flexible roof (5).

This utility model relates to a shed for the air drying and curing of tobacco and the growth and production of seedlings, comprising: (i) a plurality of columns (2) which can be positioned at spaced intervals; (ii) a structure (4) mounted on the said columns; (iii) a removable flexible roof (5) stretched over the said structure (4); (iv) removable flexible side panels (3) extending between the said columns; (v) fixing elements (8) to attach the said side panels (3) and the flexible roof (5).

A bin and method of use for containment and delivery of particulate materials has: a) a housing; b) a particulate materials support plate within the housing, the support plate having a porous structure allowing air flow therethrough; c) the support plate having a central area elevated away from the bottom of the housing and surrounding sides; d) an air flow area between the bottom of the housing and the support plate; e) a particle drop region surrounding the sides of the support plate; and f) a sealing and/or opening component within the particle drop region that seals and opens a particle drop path between the support plate and the side walls of the housing.

The sealing and opening component has an expanded position when sealing the particle drop region and is in a retracted position when opening the particle drop region to particulate material passage.