A spiral conveyor construction comprises an endless conveyor belt guided on a conveying path. At least a part of the conveying path surrounds a drive tower. Spaced along the periphery of the drive tower are arranged vertical engagement members. Additionally on a lower section of the drive tower adjacent blocks are provided, radially projecting further from the drive tower than the engagement members, and where the blocks are provided with a radially extending secondary rib.

A system is provided for conveying dough along a conveying section, and the system comprises an elongate dough-conveying element that defines the conveying section. The dough-conveying element comprises a dough-supporting region that forms a supporting surface for dough conveyable or to be conveyed by means of the system, and at least one lateral region extending laterally along the dough-supporting region in the longitudinal direction of the dough-conveying element. The at least one lateral region is movably disposed or formed, in particular pivotally disposed or formed, relative to the dough-supporting region. Furthermore, the dough-conveying element exhibits flexurally-rigid material behavior in the vicinity of the dough-supporting region and resiliently-extensible material behavior in the vicinity of the at least one lateral region.

A system is provided for conveying dough along a conveying section, and the system comprises an elongate dough-conveying element that defines the conveying section. The dough-conveying element comprises a dough-supporting region that forms a supporting surface for dough conveyable or to be conveyed by means of the system, and at least one lateral region extending laterally along the dough-supporting region in the longitudinal direction of the dough-conveying element. The at least one lateral region is movably disposed or formed, in particular pivotally disposed or formed, relative to the dough-supporting region. Furthermore, the dough-conveying element exhibits flexurally-rigid material behavior in the vicinity of the dough-supporting region and resiliently-extensible material behavior in the vicinity of the at least one lateral region.

A torque transmission device (1) is provided for a crossbelt-sorter-cart (200) comprising a crossbelt (210). The torque transmission device (1) comprises a rotatable drive end (10) configured to be coupled to a drive (13, 120) for driving the crossbelt (210) of the crossbelt-sorter-cart (200). A rotatable crossbelt end (20) is configured to be coupled to the crossbelt (210) of the crossbelt-sorter-cart (200). An unrotatable support (30) is configured to be fixed to the crossbelt-sorter-cart (200). A coupling (40) connects the drive end (10) to the crossbelt end (20) at the support (30). The coupling (40) allows a transmission of a drive torque originating from the rotating drive end (10) to the crossbelt end (20) and inhibits a belt torque originating from the rotating crossbelt end (20).

A torque transmission device (1) is provided for a crossbelt-sorter-cart (200) comprising a crossbelt (210). The torque transmission device (1) comprises a rotatable drive end (10) configured to be coupled to a drive (13, 120) for driving the crossbelt (210) of the crossbelt-sorter-cart (200). A rotatable crossbelt end (20) is configured to be coupled to the crossbelt (210) of the crossbelt-sorter-cart (200). An unrotatable support (30) is configured to be fixed to the crossbelt-sorter-cart (200). A coupling (40) connects the drive end (10) to the crossbelt end (20) at the support (30). The coupling (40) allows a transmission of a drive torque originating from the rotating drive end (10) to the crossbelt end (20) and inhibits a belt torque originating from the rotating crossbelt end (20).

Disclosed is a chain disk corner. In certain embodiments, the chain disk corner includes a bi-directional orientation independent chain disk corner wheel. In particular, the wheel is molded and devoid of moving parts. In certain embodiments, the chain disk corner includes a window portion. In particular, a bottom housing subassembly includes a bottom body of an opaque material and a hingedly attached window portion. In certain embodiments, the chain disk corner includes a reinforcing washer. In particular, a top washer is attached by injection molding to an interior of the top body, and/or a bottom washer is attached by injection molding to an interior of the bottom body. In certain embodiments, the chain disk corner includes a top surface devoid of pockets. In particular, a top body includes a plurality of ribs positioned at an interior surface of the top body.

Disclosed is a chain disk corner. In certain embodiments, the chain disk corner includes a bi-directional orientation independent chain disk corner wheel. In particular, the wheel is molded and devoid of moving parts. In certain embodiments, the chain disk corner includes a window portion. In particular, a bottom housing subassembly includes a bottom body of an opaque material and a hingedly attached window portion. In certain embodiments, the chain disk corner includes a reinforcing washer. In particular, a top washer is attached by injection molding to an interior of the top body, and/or a bottom washer is attached by injection molding to an interior of the bottom body. In certain embodiments, the chain disk corner includes a top surface devoid of pockets. In particular, a top body includes a plurality of ribs positioned at an interior surface of the top body.

A method of and system for producing Class-A fire-protected oriented strand board (OSB) sheets. Each Class-A fire-protected OSB sheet has: a core medium layer made of wood pump, binder and/or adhesive materials; a pair of OSB layers bonded to the core medium layer; a clean fire inhibiting chemical (CFIC) coating on the surface of each OSB layer, made from CFIC liquid applied to the surface by dipping the OSB sheet into the CFIC liquid in a dipping tank, allowing shallow surface absorption into the OSB layers and ends of the core medium layer at atmospheric pressure; and a moisture, fire and UV protection coating spray coated over the CFIC coating to provide protection against moisture, fire and UV radiation from Sunlight, which is quickly dried by passing through a drying tunnel on the production line.

A method of and system for producing Class-A fire-protected oriented strand board (OSB) sheets. Each Class-A fire-protected OSB sheet has: a core medium layer made of wood pump, binder and/or adhesive materials; a pair of OSB layers bonded to the core medium layer; a clean fire inhibiting chemical (CFIC) coating on the surface of each OSB layer, made from CFIC liquid applied to the surface by dipping the OSB sheet into the CFIC liquid in a dipping tank, allowing shallow surface absorption into the OSB layers and ends of the core medium layer at atmospheric pressure; and a moisture, fire and UV protection coating spray coated over the CFIC coating to provide protection against moisture, fire and UV radiation from Sunlight, which is quickly dried by passing through a drying tunnel on the production line.

In a lumber factory, an automated laminated veneer lumber (LVL) process supported by a lumber production line employing a cross-cutting and rip-sawing stage, a dip-coating stage, a spray-coating stage, a print-marking stage, and a stacking, packaging and wrapping stage. At the dip-coating stage, cross-cut and rip-sawed LVL product is automatically transported and submerged through a dipping reservoir containing clean fire inhibiting chemical (CFIC) liquid, and then wet-stacked and set aside to dry. Once dried, the dip-coated LVL products are returned to the production line and sprayed coated with a moisture, fire and UV protective coating at the spray-coating stage, and then passed through a drying tunnel for quick drying of the spray-coating to produce Class-A fire-protected LVL products. The Class-A fire-protected LVL products are stacked, packaged and wrapped at the stacking, packaging and wrapping stage into a package of Class-A fire-protected LVL products, ready for shipping.