The present invention relates to a sweep conveyor assembly for use in a silo or granary (70) having a floor (71) and a generally cylindrical wall (72) upstanding from the floor (71) and a discharge apparatus (1) for discharging material (74) from a centre of the floor (71) to an exterior location, the sweep conveyor (S) assembly comprising: a sweep conveyor (S) for transporting material (74) inside the silo (S) or granary towards the centre of the floor (71) where it can be discharged by the discharge apparatus (1), a holder (H), a link mechanism (8) for connecting the sweep conveyor (S) to the holder (H), said link mechanism (8) comprising a connection link (L) having a first end (83) and a second end (84), said first end (83) being configured to be connected to the holder (H) at a fixed pivot point and the sweep conveyor (S) being configured to be connected to the second end (84) of the connection link (L) at a movable pivot point, wherein the connection link (L) is arranged to rotate about the fixed pivot point, forming a first angle (+) between the connection link (L) and the holder (H) and wherein further the sweep conveyor (S) is arranged to rotate about the movable pivot point, forming a second angle () between the sweep conveyor (S) and the connection link (L), and wherein the link mechanism (8) is arranged to control a relation between the first angle () and the second angle (), and a magnitude of the first angle () and second angle () is controlled by an angular position of the sweep conveyor (S).

The present invention relates to a sweep conveyor assembly for use in a silo or granary (70) having a floor (71) and a generally cylindrical wall (72) upstanding from the floor (71) and a discharge apparatus (1) for discharging material (74) from a centre of the floor (71) to an exterior location, the sweep conveyor (S) assembly comprising: a sweep conveyor (S) for transporting material (74) inside the silo (S) or granary towards the centre of the floor (71) where it can be discharged by the discharge apparatus (1), a holder (H), a link mechanism (8) for connecting the sweep conveyor (S) to the holder (H), said link mechanism (8) comprising a connection link (L) having a first end (83) and a second end (84), said first end (83) being configured to be connected to the holder (H) at a fixed pivot point and the sweep conveyor (S) being configured to be connected to the second end (84) of the connection link (L) at a movable pivot point, wherein the connection link (L) is arranged to rotate about the fixed pivot point, forming a first angle (+) between the connection link (L) and the holder (H) and wherein further the sweep conveyor (S) is arranged to rotate about the movable pivot point, forming a second angle () between the sweep conveyor (S) and the connection link (L), and wherein the link mechanism (8) is arranged to control a relation between the first angle () and the second angle (), and a magnitude of the first angle () and second angle () is controlled by an angular position of the sweep conveyor (S).

Disclosed is a continuous feeding mechanism including a transfer mechanism, wherein the transfer mechanism includes a rotatable indent roller circumferentially provided with a plurality of blanking grooves; a post pin is arranged in each blanking groove; the post pin is connected with a spring; the spring is arranged towards the interior of the indent roller; and the post pin can move along the blanking grooves; a feeding box, wherein the bottom of the feeding box is hollow, and the bottom is arranged above the indent roller or the bottom is fixedly connected with the indent roller; the continuous feeding mechanism is arranged above one side of the transfer mechanism; and an electromagnetic heating mechanism which includes a supporting frame, wherein the transfer mechanism is arranged in the supporting frame, and an electromagnetic coil is circumferentially arranged outside the supporting frame.

Disclosed is a continuous feeding mechanism including a transfer mechanism, wherein the transfer mechanism includes a rotatable indent roller circumferentially provided with a plurality of blanking grooves; a post pin is arranged in each blanking groove; the post pin is connected with a spring; the spring is arranged towards the interior of the indent roller; and the post pin can move along the blanking grooves; a feeding box, wherein the bottom of the feeding box is hollow, and the bottom is arranged above the indent roller or the bottom is fixedly connected with the indent roller; the continuous feeding mechanism is arranged above one side of the transfer mechanism; and an electromagnetic heating mechanism which includes a supporting frame, wherein the transfer mechanism is arranged in the supporting frame, and an electromagnetic coil is circumferentially arranged outside the supporting frame.

This present invention provides an automatic pot seedlings feeding mechanism for semi-automatic transplanter, comprising a transmission mechanism, a slider-crank mechanism, a stop lever, a side plate, a resetting mechanism and a bearing with bearing support. The transmission mechanism includes a transmission shaft I, a driving wheel, a transmission shaft II, a transmission shaft III and a conveyor belt. Under the performance of the conveyor belt, the pot seedlings are transported forward to the position of the stop lever. The slider-crank mechanism comprises a crank, a slider bar and a sliding chute, the crank and the driving wheel are connected through a revolute pair A, which is on the driving wheel, but not at the center of the driving wheel. The slider is securely connected with the resetting mechanism.

A feeder management system includes a storage section configured to store component information including a type of a component loaded in a bulk feeder and cleaning information providing an execution history of cleaning including, as its cleaning target, at least a conveyance path along which the component is conveyed in the bulk feeder in association with the bulk feeder, and a determination section configured to determine whether the cleaning is executed before an update request for the component information is made based on the cleaning information when the update request for the component information is received.

A feeder management system includes a storage section configured to store component information including a type of a component loaded in a bulk feeder and cleaning information providing an execution history of cleaning including, as its cleaning target, at least a conveyance path along which the component is conveyed in the bulk feeder in association with the bulk feeder, and a determination section configured to determine whether the cleaning is executed before an update request for the component information is made based on the cleaning information when the update request for the component information is received.

A bulk feeder includes a feeder main body, a track member provided vibratably with respect to the feeder main body and formed with a conveyance path through which multiple components are conveyed, an excitation device configured to apply vibration to the track member so that the multiple components are conveyed along the conveyance path, and a vibration sensor configured to detect a vibration value indicating a vibration state of the track member that vibrates by the excitation of the excitation device.

A bulk feeder includes a feeder main body, a track member provided vibratably with respect to the feeder main body and formed with a conveyance path through which multiple components are conveyed, an excitation device configured to apply vibration to the track member so that the multiple components are conveyed along the conveyance path, and a vibration sensor configured to detect a vibration value indicating a vibration state of the track member that vibrates by the excitation of the excitation device.

A bulk feeder includes a feeder main body, a receiving member provided on the feeder main body and formed with a receiving region configured to receive a component discharged from a component case accommodating multiple components, a track member provided to be vibratable with respect to the feeder main body and formed with a conveyance path through which the multiple components are conveyed and a supply region that communicates with the conveyance path and opens upward to collect the multiple components, an excitation device configured to apply vibration to the track member so that the multiple components are conveyed along the conveyance path, and a connection member having flexibility and configured to connect between the receiving region and the conveyance path so that the multiple components flows through.