Systems, methods, and apparatuses are disclosed for helical container conveyance. In one embodiment, an example container conveyance system may include a set of rails having a first rail and a second rail, the set of rails configured to guide a container from an upright position at a first point along the set of rails to an inverted position at a second point along the set of rails. The system may include a drive mechanism configured to propel the container along the set of rails, and a conveyor disposed under a portion of the set of rails corresponding to the second point.

A conveyor belt is arranged in tiers at spiral stack conveyor unit. A ceiling is positioned over the spiral stack(s). A circulation fan draws thermal processing medium laterally from the tiers of the spiral stack, up the exterior of the stack and across the ceiling and through a heat exchanger. The treated thermal processing medium is then routed across the remainder of the diameter of the spiral stack and then down the side of the spiral stack diametrically opposite to the circulating fan to enter the spiral stack in a lateral direction diametrically toward the circulating fan. The thermal processing medium flows into an opening formed in the ceiling downstream of the heat exchanger and into the interior of the conveyor drive hub and then into the spiral stack through openings in the drive hub outer wall.

An apparatus for transporting products on a respective path, particularly including at least one curved length or a corresponding spiral route, including respective support means of a conveyor belt, particularly including a plurality of mutually articulated meshes, in which preferably the respective mesh has a respective small transversally extending plate defining a resting surface for said product, and, on the perpendicular side opposite the same resting surface of the product, a portion for supporting said small plate and articulating the mesh to the adjacent meshes of the conveyor belt, which mesh supporting and articulating portion is slidable on a corresponding elongated block for supporting and guiding said means for supporting the apparatus. The conveyor belt, particularly the respective mesh thereof, includes volving friction sliding means that are adapted to engage said supporting and guiding elongated block at a corresponding perpendicular face thereof which faces the outer side of the bend.

A spiral conveyor system may include a drum associated with a motor, wherein the drum extends from a drum bottom to a drum top. In addition, the system may include a conveyor belt traveling helically about the drum from an entrance end of the drum to an exit end of the drum. Further, the system may include a rib associated with the drum, wherein the rib extends radially from a surface of the drum, and at least one drive face positioned on the rib. The conveyor belt may include at least one belt surface configured to engage the at least one drive face. The length of the rib extends along the length of the drum from a first end of the rib to a terminus of the rib proximate the entrance end of the drum. In addition, the drum includes a ring that extends between the terminus of the rib and the entrance end of the drum.

The invention relates to a conveyor belt including a repeating interconnected arrangement of: rods spaced apart in a longitudinal direction and each extending in a lateral direction and connecting links arranged on both ends of the rods. Each link includes a nose section extending in lateral direction and two legs arranged on either side of the nose section, the legs extending in longitudinal direction. The nose section and the two legs provide a U-shaped structure. Laterally aligned first openings are arranged in each of the legs adjacent to the nose section for reception of a rod. Laterally aligned second openings are arranged in each of the legs adjacent the free ends of the legs. The first openings of a first link are aligned with the second openings of a second link for reception of a rod thereinto.

Embodiments disclosed herein generally relate to systems and methods for emptying and/or cleaning a tray within in an assembly line grow pod. In one embodiment, a sanitizer component for cleaning a tray coupled to a cart in an assembly line grow pod is disclosed. The sanitizer component is coupled to a track such that the cart and the tray are received in the sanitizer component via the track. The sanitizer component comprises a first actuator arm positioned underneath the track and extendable through an opening in the track and an aperture at a bottom end of the cart to contact the tray such that the tray rotates in a first direction. The sanitizer component further includes an actuator motor coupled to the first actuator arm for extending the first actuator arm and a controller. The controller is communicatively connected to the actuator motor in the sanitizer component.

The present invention relates to an oven comprising: ?a first and a second chamber and one heater per chamber to heat a gas which cooks a product, ?at least one gas circulation means, which establishes a gas circulation in one chamber, ?endless conveyor means for transporting products from an inlet through the chambers to the outlet, wherein the conveyor means are at least partially arranged in a helical path, ?separation means to separate the first and second chamber, wherein the conveyor means pass through the separation means, ?natural smoke gaseous supply which supplies gaseous smoke to at least one of the chambers, wherein the smoke supply is provided upstream from the circulation means.

A spiral conveyor system with a positive drive system includes a rotating drum with at least one rib that is attached to drum. The rib includes a drive face for engaging a conveyor belt. The height of the rib above of the surface of the drum varies along a length of the drive element. The rib may be directly attached to the drum or may be a part of a drive element attached to the drum. The conveyor belt includes at least one belt surface configured to engage the at least one drive face, such as a protruding tab with a flat surface.

A helical conveyor for transporting products in downward direction by means of gravity comprises a frame and a helical track extending around an upright centerline. The helical track is supported by the frame and comprises a bottom for bearing a product. The bottom has an inclination angle in a direction (X) along the helical track. At least a portion of the bottom is formed by a transport surface of a drivable conveying system such that the transport surface has a predefined speed in downward direction (X) along the helical track. The inclination angle at an inner bend of the transport surface of the conveying system is larger than 20?.

A helical conveyor for conveying piece goods comprises a frame and an endless conveyor belt which is drivable with respect to the frame along a helical track which extends about a centerline. The conveyor belt comprises discrete supporting members each comprising a substantially rigid slat and a roller. The slats follow a first helical path including a first inclination angle along the first helical path with respect to a base plane extending perpendicularly to the centerline and a second helical path including a second inclination angle along the second helical path with respect to the base plane. Each of the rollers is mounted to the corresponding slat such that the difference of an angle between the rolling direction and the base plane and the second inclination angle is smaller than the difference between the first and second inclination angles.