Photoelectric coal and gangue sorting device and sorting method therefor

The invention claimed is: 1. A photoelectric coal and gangue sorting device, comprising a support frame ( 1 ), a coal and gangue separation screen body ( 2 ), a sealing upper cover ( 3 ), a sieving mechanism ( 4 ), a driving mechanism ( 5 ), a separating and conveying mechanism ( 6 ), a positioning plate ( 7 ) and a sorting unit ( 8 ), wherein the coal and gangue separation screen body ( 2 ), on the top of which is provided with the sealing upper cover ( 3 ) and inside of which is provided with the separating and conveying mechanism ( 6 ), is fixedly installed on one side of the support frame ( 1 ) by means of bolts; the side wall of the positioning plate ( 7 ), which is arranged above the separating and conveying mechanism ( 6 ), is fixed to the inner wall of the coal and gangue separation screen body ( 2 ) by means of spot welding; the sorting unit ( 8 ) is installed on the right side of the separating and conveying mechanism ( 6 ) inside the coal and gangue separation screen body ( 2 ); and the top of the support frame ( 1 ) is provided with the sieving mechanism ( 4 ) at the bottom of which the driving mechanism ( 5 ) is installed; an arc hole ( 11 ), into which a linkage rod ( 12 ) is inserted, is formed on the top of the support frame ( 1 ), a reset spring ( 13 ) is welded to the outer wall of the linkage rod ( 12 ), the top of the reset spring ( 13 ) is welded to the top of the arc hole ( 11 ), and a reinforcing plate ( 14 ) is welded to the inner side of the support frame ( 1 ); the sieving mechanism ( 4 ) comprises a sieving hopper ( 41 ) with one end welded to an end face of the linkage rod ( 12 ) and the other end connected to a top corner of the coal and gangue separation screen body ( 2 ) by means of a shaft lever, a sieve ( 42 ) is welded at the middle position of the inner wall of the sieving hopper ( 41 ), and a leakage hole ( 43 ) is formed at the bottom of the sieving hopper ( 41 ); the driving mechanism ( 5 ) comprises shaft brackets ( 51 ) symmetrically welded to an upper end face of the reinforcing plate ( 14 ), a rotating shaft ( 52 ) is arranged between the two shaft brackets ( 51 ) and cams ( 53 ) are symmetrically welded to the outer wall of the rotating shaft ( 52 ), a first motor ( 54 ) is arranged on one side of the shaft bracket ( 51 ) and fixed on an upper end face of the reinforcing plate ( 14 ) by means of a motor fixing frame, and an output shaft of the first motor ( 54 ) is connected to the rotating shaft ( 52 ) by means of a synchronous belt; the separating and conveying mechanism ( 6 ) comprises fixing side plates ( 61 ) bolted to the bottom end inside the coal and gangue separation screen body ( 2 ), driving discs ( 63 ) are symmetrically welded to the outer wall of a rotating shaft ( 62 ) arranged between the two fixing side plates ( 61 ), semicircular grooves are provided on outer walls of the driving discs ( 63 ) at equal intervals in a circumferential direction, an upper end of the semicircular grooves is provided with a drive rod ( 64 ) of which the outer wall is sleeved with supporting assemblies ( 69 ) side by side, ends of any two adjacent drive rods ( 64 ) are connected by means of a rubber block ( 65 ), driving gears ( 66 ) are welded to outer walls of the two rotating shafts ( 62 ) and connected by means of a driving chain ( 67 ), the second motor ( 68 ) is fixed on the outer wall of the coal and gangue separation screen body ( 2 ) by means of a motor fixing frame, and the output shaft of the second motor ( 68 ) penetrates through the coal and gangue separation screen body ( 2 ) and is connected to the rotating shaft ( 62 ); a supporting assembly ( 69 ) comprises one or more supporting blocks ( 691 ) sleeved on the outer wall of the drive rod ( 64 ) side by side, a tension spring ( 694 ) is arranged between rectangular grooves ( 693 ) symmetrically provided on two side walls of the one or more supporting blocks ( 691 ), T-shaped rods ( 697 ) are arranged on inner walls of convex grooves ( 696 ) formed at the top of a bearing block ( 691 ) at equal intervals, supporting springs ( 698 ) are symmetrically provided on one end of the T-shaped rod ( 697 ) located in the convex grooves ( 696 ), a supporting plate ( 695 ) is welded to the top of the T-shaped rod ( 697 ), a connecting plate ( 692 ) is inserted into the gap between a lower end face of the supporting plate ( 695 ) and an upper end face of the one or more supporting blocks ( 691 ), a through hole is formed in the T-shaped rod ( 697 ) and located at the gap between the supporting plate ( 695 ) and the one or more supporting blocks ( 691 ), and a linkage unit ( 699 ) is provided on the inner wall of the through hole; a track groove ( 6951 ) is formed at the top of the supporting plate ( 695 ) located at the extreme ends of the drive rod ( 64 ), and an arc track plate ( 71 ) is welded to the inner wall of the positioning plate ( 7 ) and forms a matching structure with the track groove ( 6951 ); when the supporting assembly ( 69 ) moves to a certain distance, the track groove ( 6951 ) at the top of the supporting plate ( 695 ) located at the extreme ends of the drive rod ( 64 ) will drive into the arc track plate ( 71 ), which then applies an axial tension to the rotating supporting plate ( 695 ); as the track groove ( 6951 ) drives away from the arc track plate ( 71 ), the one or more supporting blocks ( 691 ) will be driven to reset along the drive rod ( 64 ) under the action of the resilience force generated by the elongation of the tension spring ( 694 ). 2. The photoelectric coal and gangue sorting device according to claim 1 , wherein a rectangular hole ( 6921 ), inside which the T-shaped rod ( 697 ) is located, is provided at the internal center of the connecting plate ( 692 ), and triangular extrusion blocks ( 6922 ) are welded to the inner wall of the rectangular hole ( 6921 ) at equal intervals. 3. The photoelectric coal and gangue sorting device according to claim 2 , wherein the linkage unit ( 699 ) comprises a positioning block ( 6991 ) fixedly installed at the top of the through hole by spot welding, a linkage plate ( 6992 ) is hinged on one side of the positioning block ( 6991 ), and a roller shaft ( 6993 ) is installed at the bottom of the linkage plate ( 6992 ). 4. The photoelectric coal and gangue sorting device according to claim 3 , wherein a limiting block ( 6911 ) is welded to the top, close to the rectangular hole ( 6921 ), of the connecting plate ( 692 ), and a limiting groove ( 6912 ) is arranged at the joint between a lower end face of the supporting plate ( 695 ) and the limiting block ( 6911 ). 5. The photoelectric coal and gangue sorting device according to claim 1 , wherein a positioning groove ( 91 ) is provided in the one or more supporting blocks ( 691 ) located at the middlemost position of the drive rod ( 64 ), and a disc ( 92 ) is welded to the joint between the outer wall of the drive rod ( 64 ) and the positioning groove ( 91 ). 6. The photoelectric coal and gangue sorting device according to claim 1 , wherein the photoelectric coal and gangue sorting device is configured to be used in a sorting method comprising the following steps: S 1 . sieving of pulverized coal: the photoelectric coal and gangue sorting device is erected below coal mining conveying equipment, the driving mechanism ( 5 ) is manually controlled to drive the sieving mechanism ( 4 ), and a mixture of coal, gangue and pulverized coal is conveyed to; the sieving mechanism ( 4 ) by conveying equipment, through which pulverized coal is sieved; S 2 . material transfer: after S 1 , the remaining coal and gangue slide along the sieving mechanism ( 4 ) onto the separating and conveying mechanism ( 6 ), while part of coal and gangue are stacked on the separating and conveying mechanism ( 6 ); S 3 . separating and spreadin