Chip feeder

What is claimed is: 1. A chip feeder comprising: a feed pallet including an accommodating portion in which a chip is to be accommodated; a suction unit configured to perform suction through the accommodating portion and help the chip to be fed into the accommodating portion; a vibration application unit configured to apply vibration to the feed pallet; and a control unit configured and programmed to periodically switch between a state where suction is being performed by the suction unit through the accommodating portion and a state where suction is not performed in a state where the chip has been supplied on the feed pallet, and where vibration has been applied to the feed pallet by the vibration application unit; wherein the chip, which has been supplied on the feed pallet, is fed into the accommodating portion by vibration that is applied to the feed pallet by the vibration application unit and suction that is performed by the suction unit through the accommodating portion; the state where suction is being performed and the state where suction is not performed are synchronized with a predetermined period of the vibration; and the control unit is configured and programmed to perform control in such a manner that, during one period of the vibration, which is applied to the feed pallet by the vibration application unit, the suction, which is performed by the suction unit through the accommodating portion, is started at least once, and the suction is stopped at least once. 2. The chip feeder according to claim 1 , wherein the control unit is configured and programmed to perform control in such a manner that a negative pressure in the accommodating portion that is generated by the suction reaches a maximum range when an amplitude is maximum, and that the negative pressure reaches a minimum range when the amplitude is minimum. 3. The chip feeder according to claim 2 , further comprising: a sensor configured to detect an amplitude; wherein the suction unit is configured to operate at a timing at which the negative pressure reaches a maximum range when the amplitude is maximum. 4. The chip feeder according to claim 1 , wherein the chip has a rectangular or substantially rectangular parallelepiped shape and is configured to be accommodated in the accommodating portion while, when a thickness, a width, a length of the chip are T, W, and L, respectively, a WT surface that is a surface defined by the thickness T and the width W is facing upward; a suction port is provided on a bottom surface of the accommodating portion; and an opening area of the suction port is about 1% to about 30% of an area of the WT surface. 5. The chip feeder according to claim 4 , wherein the thickness T, the width W, and the length L of the chip have a relationship of L>W>T. 6. The chip feeder according to claim 4 , wherein the opening area of the suction port is about 12% of the area of the WT surface. 7. The chip feeder according to claim 1 , further comprising an oscillation unit configured to cause the feed pallet to oscillate. 8. The chip feeder according to claim 7 , wherein the oscillation unit includes an oscillation shaft configured to cause the feed pallet to be inclined at a predetermined angle. 9. The chip feeder according to claim 1 , wherein the chip is one of a capacitor, an inductor and a composite component. 10. The chip feeder according to claim 1 , wherein the control unit is configured and programmed to control the suction unit to generate a predetermined negative pressure in the accommodating portion at a same time that the vibration unit applies the vibration. 11. The chip feeder according to claim 1 , wherein the control unit is configured and programmed to perform synchronous control of the periodic switching between the state where suction is being performed by the suction unit and the state where suction is not performed. 12. The chip feeder according to claim 11 , wherein the synchronous control is performed by the control unit based on a signal from a position detection sensor. 13. The chip feeder according to claim 11 , wherein the synchronous control is performed by the control unit by setting a vibration period and a switching period of ON and OFF states of suction to a fixed period. 14. The chip feeder according to claim 1 , wherein the accommodating portion is one of rectangular, substantially rectangular, circular or substantially circular. 15. The chip feeder according to claim 1 , wherein the feed pallet includes a step configured to help the chip to be fed and located at an area of an upper opening of the accommodating portion.