In-feed device (1) for feeding objects onto a grading apparatus (13) for grading sensitive products. The in-feed device (1) comprises a new type of sliding plates (4, 5) and vibrating motors (7) to arrange the objects and to rinse small particles from the objects to be graded.

An object orientation device includes a shaking stand and a slide provided on the shaking stand; the slide includes a sliding groove and a retaining member on the sliding groove. A retaining member is parallel to and extends along a sliding direction, and has a retaining surface parallel to a side wall of the sliding groove. The retaining surface and the side wall form an orientation space which is parallel to the sliding direction. After asymmetric objects are on the slide and shaken by the shaking stand, each object has a first end restricted into the orientation space, and has a seat orientation and moves towards a predetermined direction. Such object orientation device allows objects to be aligned in the slide and have consistent seat orientations; a printing equipment can print on the same position of each object. Additionally, a system and a method of orientation and printing are provided.

A feeder that feeds objects to be picked up by a robot, includes an object container unit having a first planar portion including a first planar surface in which the objects are thrown, and a groove portion including a plurality of grooves extending in a first direction from the first planar portion as seen from a normal direction in which a normal of the first planar surface extends, and a vibrator unit that applies vibration to the object container unit, wherein the vibrator unit has a first vibration mode in which the objects are moved in the first direction.

An object of the present invention is to provide a stepped pin loading mechanism which can be used for loading stepped pins, comprising a vibrator bowl. A spirally rising discharge track is connected to an outer side of a hopper of the vibrator bowl, and a swivel plate is provided on the discharge track, and several receiving slots are provided on the swivel plate. The strip-shaped receiving slot consists of an inner segment and an outer segment, and the width of the outer segment is greater than that of the inner segment. A front baffle and a rear baffle, both of which are provided with a through opening, are provided on the discharge track, an arc-shaped side baffle, which is located between the front baffle and the rear baffle to form a semi-enclosed structure, is provided on an outer circumferential side of the swivel plate. One end of the side baffle deviates from the through opening of the rear baffle, and the height of an upper edge of the side baffle gradually increases from the rear baffle to the front baffle so that an upper edge at the other end of the side baffle is as high as an upper side of the through opening of the front baffle.

A flexible feeding system including a tray configured to orient, segregate and singulate objects. The tray is operatively coupled to a multi-directional vibratory platform for causing movement of the objects in multiple different directions on the tray. The tray includes an orienting region having orienting slots for orienting the objects, and a divider that separates the orienting region from a singulating region of the tray. The divider includes openings that correspond with the orienting slots. The openings are configured to permit the objects which are oriented in the slots to pass across the divider into the singulating region, while restricting the misoriented objects from passing across the divider. The tray may include an upstream bulk region for containing a plurality of the objects in bulk form. The tray also may include a downstream pick region for confining the oriented objects at predetermined locations in each of the slots.

A system is disclosed for controlling the disgorging of objects. The system includes a container system including a container for containing objects, rotation means for rotating the container to a disgorgement angle, and movement means for moving at least a portion of the container system in a repetitious manner with a net zero distance of travel of the at least the portion of the container system such that the objects are disgorged from the container at a controlled rate of disgorgement.

A method and an apparatus for feeding electronic components are capable of increasing a rate of filling accommodation holes with electronic components. An accommodation plate including accommodation holes, respective openings of which are distributed over a main surface of the accommodation plate, is prepared, and electronic components are loaded onto the main surface of the accommodation plate. A horizontal vibration in an X-axis direction and/or a Y-axis direction and a vertical vibration in a Z-axis direction are applied to the accommodation plate with the main surface of the accommodation plate level. The horizontal and vertical vibrations have an equal number of vibrations and a prescribed phase difference therebetween. The accommodation plate is vibrated so that each of the electronic components is fed into one of the accommodation holes while moving over the main surface of the accommodation plate.

A method and an apparatus for feeding electronic components are capable of increasing a rate of filling accommodation holes with electronic components. An accommodation plate including accommodation holes, respective openings of which are distributed over a main surface of the accommodation plate, is prepared, and electronic components are loaded onto the main surface of the accommodation plate. A horizontal vibration in an X-axis direction and/or a Y-axis direction and a vertical vibration in a Z-axis direction are applied to the accommodation plate with the main surface of the accommodation plate level. The horizontal and vertical vibrations have an equal number of vibrations and a prescribed phase difference therebetween. The accommodation plate is vibrated so that each of the electronic components is fed into one of the accommodation holes while moving over the main surface of the accommodation plate.

A method and an apparatus for feeding electronic components are capable of increasing a rate of filling accommodation holes with electronic components. An accommodation plate including accommodation holes, respective openings of which are distributed over a main surface of the accommodation plate, is prepared, and electronic components are loaded onto the main surface of the accommodation plate. A horizontal vibration in an X-axis direction and/or a Y-axis direction and a vertical vibration in a Z-axis direction are applied to the accommodation plate with the main surface of the accommodation plate level. The horizontal and vertical vibrations have an equal number of vibrations and a prescribed phase difference therebetween. The accommodation plate is vibrated so that each of the electronic components is fed into one of the accommodation holes while moving over the main surface of the accommodation plate.

An apparatus for supplying a welding tip of a welder and an apparatus for replacing the same include a fixed bracket secured to a support. The apparatus includes an actuator coupled to the fixed bracket and a first moving member moved by the actuator. A second moving member is coupled to the first moving member and hingedly coupled to the fixed bracket. A third moving member is hingedly coupled to the second moving member. A first welding tip removal member is coupled to the third moving member to separate a welding tip coupled to a shank. A fourth moving member is disposed opposite to the first moving member. A fifth moving member is coupled to the fourth moving member and hingedly coupled to the fixed bracket. A sixth moving member is coupled to the fifth moving member. A second welding tip removal member is coupled to the sixth moving member.