A separating device for separating holding adapters in a conveying device for conveying hanging objects, wherein the separating device comprises two separating elements that are each designed as a disk having a plurality of entrainment elements, designed as pinion teeth, and which are mounted so as to be able to rotate in opposite directions with respect to one another in a plane and are arranged spaced apart from one another in such a manner that holding adapters can be conveyed through the separating elements, where, in one possible rotational position of the separating elements on an imaginary line between an axis of rotation of a first separating element and an axis of rotation of a second separating element, a pinion tooth of the first separating element and a pinion tooth of the second separating element are located with their end faces opposite one another.

A separating device for separating holding adapters in a conveying device for conveying hanging objects, wherein the separating device comprises two separating elements that are each designed as a disk having a plurality of entrainment elements, designed as pinion teeth, and which are mounted so as to be able to rotate in opposite directions with respect to one another in a plane and are arranged spaced apart from one another in such a manner that holding adapters can be conveyed through the separating elements, where, in one possible rotational position of the separating elements on an imaginary line between an axis of rotation of a first separating element and an axis of rotation of a second separating element, a pinion tooth of the first separating element and a pinion tooth of the second separating element are located with their end faces opposite one another.

A connection adapter for a connection of profile segments of a rail profile in a conveying device for conveying hanging objects. The connection adapter has, on its inside, a running surface for the mounting of holding adapters mounted such as on rollers, where the running surface is disposed in an inclined manner with respect to a profile extension direction of the connection adapter in such a way that a cross-section of an inner space of the connection adapter, which is defined by the running surface, is larger at a first end face of the connection adapter than at a second end face of the connection adapter.

A connection adapter for a connection of profile segments of a rail profile in a conveying device for conveying hanging objects. The connection adapter has, on its inside, a running surface for the mounting of holding adapters mounted such as on rollers, where the running surface is disposed in an inclined manner with respect to a profile extension direction of the connection adapter in such a way that a cross-section of an inner space of the connection adapter, which is defined by the running surface, is larger at a first end face of the connection adapter than at a second end face of the connection adapter.

An interchangeable hook-and-bracket system for a manufacturing process is disclosed. The interchangeable hook-and-bracket system may be configured to cooperate with a vertical conveying system of a food-processing system. Interchangeable hooks of the conveyor system may comprise hook portions and bracket portions that may be configured to releasably attach to one another. The bracket portions may be made substantially of a structurally robust material such as a metal and may be non-releasably attached to the conveyor system, and the hook portions may be made substantially of a flexible material such as a polymer-based material. More than one hook portion may correspond to a bracket portion, each hook portion having a configuration corresponding to a particular product, casing, throughput, and/or process condition.

An automated parking system of the present disclosure includes a rotatable vertical structure having a plurality of hubs (i.e., parking spots), wherein each hub is equipped with at least one electric car charger and a plurality of sensors and IoT devices for guiding vehicles and managing parking spaces. The system can be underground, ground, above ground or halfway above ground and can be configured to connect to one or more tunnels. The structure is designed to rotate to allow for cars to enter a hub. The system can be used for a dual purpose as parking and as highway, street, or tunnel exits. Once cars are parked in several hubs, a few hubs will remain vacant to allow cars to enter the structure from the tunnel and exit the tunnel as the rotary conveyor mechanism transports the hubs from one level to another.

An automated parking system of the present disclosure includes a rotatable vertical structure having a plurality of hubs (i.e., parking spots), wherein each hub is equipped with at least one electric car charger and a plurality of sensors and IoT devices for guiding vehicles and managing parking spaces. The system can be underground, ground, above ground or halfway above ground and can be configured to connect to one or more tunnels. The structure is designed to rotate to allow for cars to enter a hub. The system can be used for a dual purpose as parking and as highway, street, or tunnel exits. Once cars are parked in several hubs, a few hubs will remain vacant to allow cars to enter the structure from the tunnel and exit the tunnel as the rotary conveyor mechanism transports the hubs from one level to another.

A device for interconnecting a first line (1 a) and a second line (1 b) of an overhead conveying system for conveying parts to be treated through a processing apparatus by means of at least one product carrier (7) comprising a transporter (19) and a part depending downwards from the transporter (19), in use, the transporter (19) comprising at least one runner (36,37) supported on at least one track (10a,b) comprises a main support structure (47). The device further comprises a movable support structure (48), at least indirectly supported by and movable relative to the main support structure (47) between at least a first position and a second position. The movable support structure (48) comprises at least one track segment (50a,b) for supporting at least one runner (36,37) of a transporter (19) in a support direction (z). Each track segment (50a,b) is alignable with a respective track (10a,b) of the first line (1a) in the first position and with a respective track (10a,b) of the second line (1 b) in the second position such that an end of the track segment (50a,b) adjoins an end of the aligned track (10a,b) to allow a runner (36,37) to cross over between the aligned track (10a,b) and track segment (50a,b). The movement between the first position and the second position comprises a rotation about an axis (54) parallel to the support direction (z) and a translation with at least a component in axial direction. The at least one track segments (50a,b) comprise at least two track segments (50a,b), spaced apart in lateral direction. The movable support structure (48) defines a space for receiving at least part of a product carrier (7). The space is open at a top between the spaced-apart track segments (50a,b) and at opposite ends in longitudinal direction.

A device for interconnecting a first line (1 a) and a second line (1 b) of an overhead conveying system for conveying parts to be treated through a processing apparatus by means of at least one product carrier (7) comprising a transporter (19) and a part depending downwards from the transporter (19), in use, the transporter (19) comprising at least one runner (36,37) supported on at least one track (10a,b) comprises a main support structure (47). The device further comprises a movable support structure (48), at least indirectly supported by and movable relative to the main support structure (47) between at least a first position and a second position. The movable support structure (48) comprises at least one track segment (50a,b) for supporting at least one runner (36,37) of a transporter (19) in a support direction (z). Each track segment (50a,b) is alignable with a respective track (10a,b) of the first line (1a) in the first position and with a respective track (10a,b) of the second line (1 b) in the second position such that an end of the track segment (50a,b) adjoins an end of the aligned track (10a,b) to allow a runner (36,37) to cross over between the aligned track (10a,b) and track segment (50a,b). The movement between the first position and the second position comprises a rotation about an axis (54) parallel to the support direction (z) and a translation with at least a component in axial direction. The at least one track segments (50a,b) comprise at least two track segments (50a,b), spaced apart in lateral direction. The movable support structure (48) defines a space for receiving at least part of a product carrier (7). The space is open at a top between the spaced-apart track segments (50a,b) and at opposite ends in longitudinal direction.

A device for transferring units of goods has a suspended conveyor system on which conveyor units can be conveyed in a suspended manner along a continuous conveyor path. In an entry region, supplied conveyor units can be provided for further processing. Downstream of said entry region, a transfer device is provided in a transfer region, with which units of goods can be transferred into and/or out of a conveyor unit located in the transfer region. Downstream of said transfer region, processed conveyor units can be provided in an exit region for further use. The absolute alignment in space of a conveyor unit in the entry region and in the transfer region are substantially the same, and the relative alignment in relation to the conveying direction in the entry region and the transfer region are substantially different. Alternatively or additionally, the absolute alignment in space of a conveyor unit in the transfer region and in the exit region are substantially the same, and the relative alignment in relation to the conveying direction in the transfer region and in the exit region are substantially different.