Device For Producing Cleaned Crushed Product Of Polycrystalline Silicon Blocks, and Method For Producing Cleaned Crushed Product Of Polycrystalline Silicon Blocks Using Same

1 . A device for producing cleaned crushed polycrystalline silicon blocks comprising, a) a conveyor for crushed polycrystalline silicon blocks, b) a gas blower placed above a travel surface of a conveying belt of said conveyor, and said gas blower is for blowing away fine powders mixed in the crushed polycrystalline silicon blocks, and c) a scattering prevention mesh for said crushed polycrystalline silicon blocks which is placed between said travel surface of said conveying belt and the gas blower placed above the travel surface. 2 . The device for producing cleaned crushed polycrystalline silicon blocks as set forth in claim 1 , wherein said conveying belt is a mesh form. 3 . The device for producing cleaned crushed polycrystalline silicon blocks as set forth in claim 2 , wherein said gas blower is also placed below said travel surface of said conveying belt of mesh form. 4 . The device for producing cleaned crushed polycrystalline silicon blocks as set forth in claim 2 , wherein said gas blowers are placed at least at three positions: a first one of them is placed above said travel surface at upstream of running direction of said conveying belt, a second one of them is placed below said travel surface at downstream therefrom, and a third one of them is placed above said travel surface at further downstream therefrom. 5 . The device for producing cleaned crushed polycrystalline silicon blocks as set forth in claim 2 , wherein at least one gas blower is respectively placed above and below of said travel surface of said conveying belt at the same positions with respect to the running direction of said conveying belt. 6 . The device for producing cleaned crushed polycrystalline silicon blocks as set forth in claim 1 comprising a mechanism to move said gas blower in the width direction of said conveying belt while blowing the gas. 7 . The device for producing cleaned crushed polycrystalline silicon blocks as set forth in claim 1 , wherein long diameter of 90 mass % accumulation of said cleaned crushed polycrystalline silicon blocks at least satisfies a range of 2 to 160 mm. 8 . The device for producing cleaned crushed polycrystalline silicon blocks as set forth in claim 1 , wherein said gas blowers have the blowing amount per blower opening unit area of mm 2 of 8 to 82 L/min. 9 . The device for producing cleaned crushed polycrystalline silicon blocks as set forth in as set forth in any claim 1 , wherein an ionized gas discharger for removing the static electricity of the crushed polycrystalline silicon blocks is placed at further upstream than said gas blowers in the running direction of said conveying belt. 10 . The device for producing cleaned crushed polycrystalline silicon blocks as set forth in claim 1 , wherein at a position where said gas blowers are placed, and at a part where a gas from said gas blowers contacts to said conveying belt are housed in a case comprising an outlet at a wall part. 11 . A method of producing cleaned crushed polycrystalline silicon blocks using the device for producing cleaned crushed polycrystalline silicon blocks as set forth in claim 1 comprising blowing a gas to said crushed polycrystalline silicon blocks placed on running conveying belt, and removing said fine powders mixed in the crushed polycrystalline silicon blocks. 12 . (canceled)