A roasting and glazing apparatus includes a roaster, an agitator mounted within the roaster bowl for mixing a mixture of nuts and sugar during a roasting or glazing operation, a heater controlled to heat the roaster bowl during the roasting or glazing operation, and a cover removably mounted to the roaster bowl. The cover includes a reservoir for receiving water from a user and restricting water flow from the reservoir into the mixture of nuts and sugar in the roaster bowl. The cover and the roaster bowl together define a vent on a side of the cover opposite the reservoir. The vent is configured to direct steam out of the roaster bowl in a direction away from the reservoir.

A roasting and glazing apparatus includes a roaster, an agitator mounted within the roaster bowl for mixing a mixture of nuts and sugar during a roasting or glazing operation, a heater controlled to heat the roaster bowl during the roasting or glazing operation, and a cover removably mounted to the roaster bowl. The cover includes a reservoir for receiving water from a user and restricting water flow from the reservoir into the mixture of nuts and sugar in the roaster bowl. The cover and the roaster bowl together define a vent on a side of the cover opposite the reservoir. The vent is configured to direct steam out of the roaster bowl in a direction away from the reservoir.

A tank, such as a fermentation tank, includes a scraper blade assembly slideably coupled to a bottom surface of the tank. The scraper blade assembly includes a blade arranged to displace solids deposited on the bottom surface of the tank out through an aperture arranged flush with the bottom surface of the tank.

A tank, such as a fermentation tank, includes a scraper blade assembly slideably coupled to a bottom surface of the tank. The scraper blade assembly includes a blade arranged to displace solids deposited on the bottom surface of the tank out through an aperture arranged flush with the bottom surface of the tank.

A compaction station and method with a compacting device for compacting open-mouth bags filled with bulk materials includes a container with a tubular inner wall and a takeup space for taking up a filled open-mouth bag, and a support unit on a height-displaceable lifting device, wherein when the lifting device is in a lowered position the support unit is supported from beneath and when in an elevated position, it is suitable to take over a filled open-mouth bag from an adjacent conveyor device. A pressure plug that can be lowered from above is included which, when in a lowered position acts on the bulk material from above, and in an elevated position allows takeover of a filled open-mouth bag from an adjacent conveyor device.

A compaction station and method with a compacting device for compacting open-mouth bags filled with bulk materials includes a container with a tubular inner wall and a takeup space for taking up a filled open-mouth bag, and a support unit on a height-displaceable lifting device, wherein when the lifting device is in a lowered position the support unit is supported from beneath and when in an elevated position, it is suitable to take over a filled open-mouth bag from an adjacent conveyor device. A pressure plug that can be lowered from above is included which, when in a lowered position acts on the bulk material from above, and in an elevated position allows takeover of a filled open-mouth bag from an adjacent conveyor device.

A robot includes a truss assembly, a walking assembly, a power unit, and a rack including a guide pillar, a second link. The truss assembly is disposed on the top of the rack. The walking assembly is disposed in the rack and fixedly connected to the rack through a bearing. The power unit is disposed on the rear end of the rack. An oil tank is provided with a hole. The truss assembly is configured to place the robot into the oil tank through the hole. The walking assembly is configured to drive the robot to move along the axis of the oil tank and to prevent the robot from toppling in the oil tank. The power unit is configured to clean the inside of the oil tank. The walking assembly includes two active walking assemblies, a drive assembly, and a folding assembly.

The present disclosure provides for a portable drying mechanism. The mechanism may comprise a grip, shaft, neck, drying panels, and a tip. The shaft may comprise a button to modify the configuration of the portable drying mechanism. The button may release interchangeable components of the portable drying mechanism. The button may allow the shaft to extend. The button may activate an electrical or manual drying response such as, but not limited to, a water vacuum or rotating drying material. The shaft may comprise a hollow cavity for material retention. The shaft may comprise a telescoping aspect that allows for extension and retraction. The neck may comprise a flexible portion to dry containers with complex shapes. The tip may comprise a sensor to verify dryness within a container. The drying panels may comprise a predetermined shape and material that allow the drying panels to dry containers and hard-to-reach areas.

A method of roasting nuts comprises placing water and a mixture of nuts and sugar in a roaster bowl, mixing the water and mixture, heating the roaster bowl during mixing to roast and sugar coat the nuts, covering the roaster bowl with a cover after roasting and sugar coating, adding water to a reservoir disposed within the cover wherein the reservoir includes at least one metering hole, flowing through the metering hole, from the reservoir to the roaster bowl, the water added to the reservoir, glazing the nuts during the flowing of water into the roaster bowl from the reservoir, and removing the cover from the roaster bowl after glazing the nuts. The measured flow of water through the reservoir results in well coated glazed nuts and prevents the formation of a large burst of steam, thus protecting the operator against being scalded during glazing of the roasted nuts, as well as providing other benefits.

A method of roasting nuts comprises placing water and a mixture of nuts and sugar in a roaster bowl, mixing the water and mixture, heating the roaster bowl during mixing to roast and sugar coat the nuts, covering the roaster bowl with a cover after roasting and sugar coating, adding water to a reservoir disposed within the cover wherein the reservoir includes at least one metering hole, flowing through the metering hole, from the reservoir to the roaster bowl, the water added to the reservoir, glazing the nuts during the flowing of water into the roaster bowl from the reservoir, and removing the cover from the roaster bowl after glazing the nuts. The measured flow of water through the reservoir results in well coated glazed nuts and prevents the formation of a large burst of steam, thus protecting the operator against being scalded during glazing of the roasted nuts, as well as providing other benefits.