A slicing apparatus for slicing food products into slices comprises a feeding unit configured to feed products along a feeding direction into a cutting region in which a blade for slicing the products into slices is arranged, wherein the feeding unit comprises a moving device that is configured to move the products into the cutting region, and wherein the moving device comprises a transporting member that is configured to apply a pressure onto an upper product side while the product is fed into the cutting region.

Disclosed is a first dispenser module with a product holder for holding a plurality of beverage cans and a dispensing mechanism for dispensing one beverage can of the plurality of beverage cans at a time in a dispensing direction from the product holder, wherein the product holder is arranged for holding the plurality of beverage cans with their central axes parallel to said product orientation direction. The dispensing mechanism has a retaining cam that is movable with at least a vector component in the production orientation direction between a retaining position for retaining the plurality of beverage cans and a release position for releasing the beverage cans from the product holder, wherein the retaining cam, in the retaining position, is arranged to be in the path of the top rim or the bottom rim of one of the beverage cans in the dispensing direction.

Disclosed is a first dispenser module with a product holder for holding a plurality of beverage cans and a dispensing mechanism for dispensing one beverage can of the plurality of beverage cans at a time in a dispensing direction from the product holder, wherein the product holder is arranged for holding the plurality of beverage cans with their central axes parallel to said product orientation direction. The dispensing mechanism has a retaining cam that is movable with at least a vector component in the production orientation direction between a retaining position for retaining the plurality of beverage cans and a release position for releasing the beverage cans from the product holder, wherein the retaining cam, in the retaining position, is arranged to be in the path of the top rim or the bottom rim of one of the beverage cans in the dispensing direction.

An earplug dispenser for contactless operation by a user having a container portion for receiving a plurality of earplugs. A dispensing portion is coupled to the container portion. The dispensing portion has a motor and a rotor coupled to the motor. The rotor has a plurality of rotor openings to receive individual earplugs in each rotor opening. The dispensing portion also has a dispensing opening. The motor rotates the rotor to dispense earplugs through the dispensing opening.

An earplug dispenser for contactless operation by a user having a container portion for receiving a plurality of earplugs. A dispensing portion is coupled to the container portion. The dispensing portion has a motor and a rotor coupled to the motor. The rotor has a plurality of rotor openings to receive individual earplugs in each rotor opening. The dispensing portion also has a dispensing opening. The motor rotates the rotor to dispense earplugs through the dispensing opening.

An automated carrier system is disclosed for moving objects to be processed. The automated carrier system includes a base structure of a carrier on which an object may be supported, and at least two wheels mounted to at least two motors to provide at least two wheel assemblies, the at least two wheel assemblies being pivotally supported on the base structure for pivoting movement from a first position to a second position to effect a change in direction of movement of the carrier.

Provided is a belt conveyor type dispensing mechanism for an article vending machine, in which an associated component other than a belt can be easily and compactly installed. The dispensing mechanism for the article vending machine includes a drive section that is disposed in an article storing shelf 13 and on which articles arranged in a front-rear direction are carried, the drive section being configured to drive based on a vending command, and a belt conveyor unit 57 that sequentially dispenses the articles forward, the belt conveyor unit 57 includes two belt conveyors 71 moving forward and arranged away from each other in a right-left direction, and a detection unit 100 of an article detection device and a gear to drive a rear rotary shaft over which belts of the belt conveyors 71 are looped are arranged between the two belt conveyors 71.

Provided is a belt conveyor type dispensing mechanism for an article vending machine, in which an associated component other than a belt can be easily and compactly installed. The dispensing mechanism for the article vending machine includes a drive section that is disposed in an article storing shelf 13 and on which articles arranged in a front-rear direction are carried, the drive section being configured to drive based on a vending command, and a belt conveyor unit 57 that sequentially dispenses the articles forward, the belt conveyor unit 57 includes two belt conveyors 71 moving forward and arranged away from each other in a right-left direction, and a detection unit 100 of an article detection device and a gear to drive a rear rotary shaft over which belts of the belt conveyors 71 are looped are arranged between the two belt conveyors 71.

A system for movement of products is described. The system uses a facility which contains warehouse shelves, each shelf includes various devices to move products within the shelf. Some rollers on the shelf are active, others passive. Power is transferred to the active rollers from an end of arm tool.

A bolt supply device includes a slide plate inclined to a vertical direction; and a groove portion formed in the slide plate and having a width that allows passing of a screw portion of a bolt and prevents passing of a flange portion of the bolt. The groove portion includes a first groove configured such that an angle formed between a line extending in an up-down direction along the slide plate and the first groove is a first angle; and a second groove connected to a lower end of the first groove and configured such that an angle formed between the line extending in the up-down direction along the slide plate and the second groove is a second angle smaller than the first angle. The bolt take-out portion is set in the groove portion at a lower end or below the lower end of the second groove.