A highly-efficient components supplying system for transporting and feeding multiple components includes a platform unit which has a placement surface, a vibration generating unit including a plurality of vibration actuating members which are spaced apart from each other to be operative to vibrate the placement surface, and a centrifugal actuating unit operative to make synchronous rotation of the base seat, the vibration generating unit and the platform unit. When the vibration actuating members vibrate the placement surface, the components are moved upwardly away from the placement surface. With the rotation of the platform unit by the centrifugal actuating unit, the components falling on the placement surface are moved again and turned to facilitate further disentangling and separation thereof and to have a required posture for feeding processes. An optimized operation can be selected according to the characteristics and distribution of the components.

A vibration device for an arrangement for producing a nonwoven fabric web, wherein the vibration device is configured to be arranged in a transverse direction of the arrangement under a conveyor belt for fibers from which the nonwoven fabric web is produced, wherein the vibration device is configured to cause the conveyor belt and the fibers transported thereon to vibrate, and wherein the vibration device includes a beam whose top side is configured to contact a bottom side of the conveyor belt at least temporarily, wherein the beam is supported or only excited or excitable by the vibration device so that the beam essentially performs or permits no vibrations in a conveying direction of the arrangement.

Systems, methods, and apparatuses are disclosed for automated container shaking systems. In one embodiment, an example container shaking system may include a first support disposed at a first side of a first container slot, a second support disposed at a second side of the first container slot, and a first moveable platform disposed on the first support and the second support. The first moveable platform may be configured to slide on the first support and the second support, and the first moveable platform may be configured to receive a first container. The system may include a first actuator coupled to the first moveable platform, the first actuator configured to push and pull the first moveable platform, and an optional first sensor configured to detect an item deposited into the first container. Feedback from the first sensor may optionally be used to trigger the first actuator.

Devices, systems, and methods for autonomously packing unfolded laundry articles into a box are described. The system includes a box configured to receive the laundry articles, a movable surface for receiving the box, and at least one actuator for imparting at least one of a shaking, twisting, vibrating, oscillating, shushling, and tilting motion to the box. A plunger is configured to compress the articles within the box and at least one sensor is configured to detect that the mass of articles is flattened and substantially level across a top surface. A controller in communication with drive motors, actuators, and at least one sensor is configured to determine whether the articles are flattened sufficiently for delivery to a packing station for receipt of folded laundry articles placed atop the plurality of unfolded laundry articles.

A sediment capping system is adapted to create, and distribute, a homogenized mixture of capping material. Where distributing the capping material, the system is configured to militate against the capping material forming clumps of a size and weight that would disturb the sediment on a bottom of a body of water. This in turn militates against the sediment being disturbed, and a disturbing of pollutants and toxins into the water surrounding the sediment. The sediment capping system militates against the clumping of capping material through a vibrating spreader and baffle system, producing a sediment cap with a more consistent depth that will minimally disturb the sediment on the floor of the body of water where the sediment cap is being deposited.

A sediment capping system is adapted to create, and distribute, a homogenized mixture of capping material. Where distributing the capping material, the system is configured to militate against the capping material forming clumps of a size and weight that would disturb the sediment on a bottom of a body of water. This in turn militates against the sediment being disturbed, and a disturbing of pollutants and toxins into the water surrounding the sediment. The sediment capping system militates against the clumping of capping material through a vibrating spreader and baffle system, producing a sediment cap with a more consistent depth that will minimally disturb the sediment on the floor of the body of water where the sediment cap is being deposited.

The disclosure relates to a method for producing a wooden composite material board, in particular an MDF or HDF board, wherein a cake made of wood chips or wood fibres wetted with a binder is spread, which is subsequently pressed in a hot press to form a board of a desired thickness, wherein, before the pressing, a mixed powder made of colour pigments and a second binder is spread onto an upper side of the cake as a primer, wherein the cake is sprayed with water after the spreading of the mixed powder.

The invention relates to a machine for handling waste material, the machine comprising an upper conveyor member with a conveying portion of a first width, a downstream lower conveyor member with a receiving portion of equal or greater width and an apparatus for distributing material from the upper conveyor member to the downstream lower conveyor member, wherein the apparatus comprises oscillating means, a drive mechanism connected to the oscillating means; and a protruding element attached to the oscillating means for oscillatory movement thereof, wherein the protruding element is a reciprocating attachment adapted to oscillate in a direction transverse to the direction in which it extends, wherein the apparatus is mountable between the conveying portion of the upper conveyor member and the receiving portion of the downstream lower conveyor member such that the protruding element extends substantially in the direction of conveyance of the downstream conveyor member; and wherein in use the osciallating protruding element agitates material being transferred from the upper conveyor member to the downstream lower conveyor member.

The present invention relates to a system (1) for arranging items in containers comprising a plurality of processing stations (11) for filling removable containers, wherein each of the processing station (11) is able to house a single of the removable containers and comprises a movable tray (211), able to support a respective of the removable containers, moving means of the movable tray (211) with respect to the processing station (11) and a conveyor (111), provided with an entry portion (111′) and with an exit portion (111″) of the items, wherein the conveyor (111) is arranged at a distance from the movable tray (211) such that the exit portion (111″) remains above the opening of a respective of the removable containers, wherein the moving means are able to operate a shaking of the movable tray (211) at least along opposite directions of a predefined axis of shaking to arrange the items in the removable container in a homogeneous way.

The invention relates to a machine for handling waste material, the machine comprising an upper conveyor member with a conveying portion of a first width, a downstream lower conveyor member with a receiving portion of equal or greater width and an apparatus for distributing material from the upper conveyor member to the downstream lower conveyor member, wherein the apparatus comprises oscillating means, a drive mechanism connected to the oscillating means; and a protruding element attached to the oscillating means for oscillatory movement thereof, wherein the protruding element is a reciprocating attachment adapted to oscillate in a direction transverse to the direction in which it extends, wherein the apparatus is mountable between the conveying portion of the upper conveyor member and the receiving portion of the downstream lower conveyor member such that the protruding element extends substantially in the direction of conveyance of the downstream conveyor member; and wherein in use the oscillating protruding element agitates material being transferred from the upper conveyor member to the downstream lower conveyor member.