A case orienting system comprising a frame having a reference datum a traverse transport pivotally coupled to the frame about a traverse pivot axis, the traverse transport including a substantially continuous movable platform configured to support and transport at least one case in a case traverse direction along a traverse axis. The substantially continuous movable platform pivots about the traverse pivot axis to orient the case traverse direction to another traverse direction and a bias support disposed adjacent to and opposing the traverse transport and being movably coupled to the frame to move relative to the frame in opposition to the traverse transport, the bias support being configured to engage and seat against a seating surface of the at least one case to support the at least one case in a first orientation relative to the reference datum.

A case orienting system comprising a frame having a reference datum a traverse transport pivotally coupled to the frame about a traverse pivot axis, the traverse transport including a substantially continuous movable platform configured to support and transport at least one case in a case traverse direction along a traverse axis. The substantially continuous movable platform pivots about the traverse pivot axis to orient the case traverse direction to another traverse direction and a bias support disposed adjacent to and opposing the traverse transport and being movably coupled to the frame to move relative to the frame in opposition to the traverse transport, the bias support being configured to engage and seat against a seating surface of the at least one case to support the at least one case in a first orientation relative to the reference datum.

A loading system (e.g., in a warehouse or other item-fulfillment environment) can include a rotary hub that supports one or more chambers. In a first orientation of the rotary hub, one of the chambers may be in a first position aligned for item receipt (e.g., through an open top of the chamber by feeding from a conveyor belt or other feeding system). The rotary hub can rotate to a second orientation in which the chamber is in a second position aligned for item discharge (e.g., through an open end of the chamber and into a receiving zone of a packaging machine or other system).

A system for grouping and rotating packages (101) includes a first conveyor (102) configured to drive a stream of packages from a first end (102A) to a second end (102B) at a predefined first speed, an actuation section (104) situated at the second end (102B) of the first conveyor (102) configured to receive the stream of packages from the first conveyor (102) and actuate the stream of packages to an orienting section (108) at a predefined second speed, wherein the second speed is less than the first speed, and a plurality of lugs (106) adjacent to the actuation section (104) configured to actuate forward packages in the stream of packages forming groups (105) of two or more packages (101).

The present invention relates to a horizontal-flow-type apparatus for automatically transporting reagent cartridges. The apparatus includes: a magazine (110) in which a plurality of reagent cartridges (1) is stacked; a conveyer belt (120) having a plurality of separating projections (121) arranged in a conveying direction to horizontally separately convey the reagent cartridges (1); a driving motor (130) for driving the conveyer belt (120); a feeding unit (140) for feeding the reagent cartridges (1) stacked in the magazine (110) onto the conveyer belt (120); an examining unit (150) disposed over the front end of the conveyer belt (120) to examine the reagent cartridges (1); and reagent cartridge aligning members (161, 162) disposed in the conveying line of the conveyer belt (120), opposite to the examining unit (150), to align the reagent cartridges (1) in position.

The present invention relates to a horizontal-flow-type apparatus for automatically transporting reagent cartridges. The apparatus includes: a magazine (110) in which a plurality of reagent cartridges (1) is stacked; a conveyer belt (120) having a plurality of separating projections (121) arranged in a conveying direction to horizontally separately convey the reagent cartridges (1); a driving motor (130) for driving the conveyer belt (120); a feeding unit (140) for feeding the reagent cartridges (1) stacked in the magazine (110) onto the conveyer belt (120); an examining unit (150) disposed over the front end of the conveyer belt (120) to examine the reagent cartridges (1); and reagent cartridge aligning members (161, 162) disposed in the conveying line of the conveyer belt (120), opposite to the examining unit (150), to align the reagent cartridges (1) in position.

The present invention discloses a material integrating device, which comprises a material transferring mechanism, an integrating mechanism and a conveying mechanism that are linked to a control system signal, wherein the material transferring mechanism is used to place the material to be integrated on the integrating mechanism and transfer the integrated material to the conveying mechanism, a vacuum adsorption platform is installed on a manipulator and is used to adsorb materials; the integrating mechanism comprises a vacuum negative pressure worktable, an angle adjusting platform and an electric push rod, the angle adjusting platform is slidably provided on the top surface of the vacuum negative pressure worktable and is located on the side of the material to be integrated, and the electric push rod is used to push the material to be integrated to be level; and the conveying mechanism comprises a conveyor belt for placing the integrated material.

A device and a method for providing a product stream with mutually aligned food products on product substrates are described According thereto, a first conveyor belt for the supply transport and mutual transverse alignment of the food products to each other, a second conveyor belt that adjoins in the direction of transport at a gap-shaped belt transition and can be controlled separately for the discharge transport and mutual longitudinal alignment of the food products to each other, and a substrate placement device for supplying the product substrates from below through the belt transition in front of/under the food products that are respectively transported across the belt transition. This enables the alignment and substrate placement in a particularly compact and reliable configuration at a single belt transition.

A system is provided comprising a carton conveyor and a bypass carton accumulator adjacent to, and interfaced with, the carton conveyor. The bypass carton accumulator may comprise: a carton pick apparatus comprising a carton pick head; at least one stop device comprising a stopper movable between a first and a second position; and a storage apparatus. When in the first position, the stopper does not interfere with the flow of cartons along the conveyor and when in the second position, the stopper engages with a carton to stop a flow of cartons along the conveyor. The carton pick apparatus may be configured to pick up via the carton pick head a set of cartons from a pick-up zone of the carton conveyor after the stopper has moved to its second position and place the set of cartons in the storage apparatus.

A processing and buffering device compatible with various conveying lines is disclosed and includes a fixing and installation mechanism, a jacking component and a clamping component. The fixing and installation mechanism is used for fixing the processing and buffering device on a lateral side of a conveying line. The jacking component is disposed on the fixing and installation mechanism, and includes a jacking cylinder and a connection element, wherein the jacking component is allowed moving up and down in a vertical direction under the action of the jacking cylinder. The clamping component is disposed on the fixing and installation mechanism, connected to the jacking component through the connection element, and includes a horizontal displacement cylinder and two clamping elements. The clamping component is driven by the jacking component to move. The clamping elements are driven by a horizontal displacement cylinder to perform a clamping operation or a releasing operation.