Cylindrical-component grinding device, and workpiece advancing apparatus and grinding method thereof

We claim: 1. A cylindrical-component grinding device, comprising: a loading apparatus ( 7 ), a power system ( 8 ), and a workpiece advancing apparatus ( 2 ), a grinding disc apparatus ( 1 ), a workpiece and grinding fluid separating apparatus ( 5 ), a workpiece cleaning apparatus ( 6 ) and a workpiece mixing apparatus ( 4 ), which are all connected to a workpiece conveying apparatus ( 3 ) in sequence, the loading apparatus ( 7 ) configured for loading the grinding disc apparatus ( 1 ), the power system ( 8 ) configured for driving the grinding disc apparatus ( 1 ), wherein: the grinding disc apparatus ( 1 ) comprises a first grinding disc ( 11 ) and a second grinding disc ( 12 ), the second grinding disc ( 12 ) and the first grinding disc ( 11 ) rotating relative to each other, the second grinding disc ( 12 ) having a rotation axis OO′ relative to the first grinding disc ( 11 ), a surface of the first grinding disc 11 , opposite to the second grinding disc ( 12 ) is planar, which is a working surface ( 111 ) of the first grinding disc ( 11 ), and a set of radial straight grooves ( 121 ) are provided on a surface of the second grinding disc ( 12 ) opposite to the first grinding disc ( 11 ), the straight groove ( 121 ) having a groove surface functioning as a working face ( 1211 ) of the second grinding disc ( 12 ), the working face ( 1211 ) of the second grinding disc ( 12 ) having a cross-section outline in an arcuate shape or a V shape or a V shape with an arc; during grinding process, a processing workpiece ( 9 ) is arranged in the straight groove ( 121 ) along a groove extending direction, and meanwhile, an outer cylindrical surface of the processing workpiece ( 9 ) contacts with the working face ( 1211 ) of the second grinding disc ( 12 ); the straight groove ( 121 ) has a reference plane, a plane that passes through an axis/of the processing workpiece arranged in the straight groove, and is perpendicular to the working face ( 111 ) of the first grinding disc ( 11 ); there is an angle θ between a normal plane at a contacting point or a midpoint of a contacting arc between the processing workpiece ( 9 ) and the straight groove ( 121 ), and the reference plane of the straight groove ( 121 ), the angle θ ranging in 30˜60°; one end of the straight groove ( 121 ) close to a center of the second grinding disc ( 12 ) is a propulsion port, and the other end of the straight groove ( 121 ) is a discharge outlet; an eccentric distance e exists between the reference plane of the straight groove ( 121 ) and the rotation axis OO′, and the value of e is larger than or equal to zero, and smaller than a distance from the rotation axis OO′ to the discharge outlet of the straight groove ( 121 ); when the value of the eccentric distance e is zero, the straight groove ( 121 ) is arranged in a radial arrangement; and the second grinding disc ( 12 ) has a central position with a mounting portion of the workpiece advancing apparatus ( 2 ) provided thereon; under a condition of a grinding pressure and grinding lubrication, a friction coefficient between materials of the first grinding disc's working face ( 111 ) and materials of the processing workpiece is f1, a friction coefficient between materials of the second grinding disc's working face ( 1211 ) and materials of the processing workpiece is f2, and f1>f2, so as to ensure the processing workpiece to achieve spinning in the grinding process; the workpiece advancing apparatus ( 2 ) comprises a main body, a plurality of material-pushing mechanisms ( 22 ) and a plurality of material storage hoppers ( 23 ) are arranged on the main body, and the number of the material-pushing mechanism ( 22 ) and the number of the material storage hopper ( 23 ) are the same with that of the straight grooves ( 121 ) in the grinding disc apparatus, each of the material-pushing mechanisms ( 22 ) respectively cooperating with one material storage hopper ( 23 ); the material storage hopper ( 23 ) has a bottom provided with a push rod inlet ( 231 ) and a discharge port ( 232 ); the material-pushing mechanism ( 22 ) comprises a through hole ( 225 ) provided at the main body's bottom, the through hole ( 225 ) is coaxial with a line connecting a center of the push rod inlet ( 231 ) and a center of the discharge port ( 232 ); a push rod ( 224 ) and a stopper structure of the push rod ( 224 ) are formed inside the through hole ( 225 ); there is a one-to-one correspondence between the discharge port of the material storage hopper ( 23 ) and the propulsion port of the straight groove ( 121 ), and all of the push rods ( 224 ) are driven one and the same intermittent reciprocating mechanism to pass the processing workpiece ( 9 ) in the material storage hopper ( 23 ) into the straight groove ( 121 ). 2. The cylindrical-component grinding device as described according to claim 1 , wherein, the stopper structure, of the push rod consists of a positioning shaft shoulder provided on the push rod ( 224 ), a positioning step provided in the through hole, and a spring ( 223 ) sheathing the push rod ( 224 ). 3. The cylindrical-component grinding device as described according to claim 1 , wherein, the intermittent reciprocating mechanism employs a disc cam mechanism or a conical cam mechanism. 4. A cylindrical-component grinding method, wherein, the method adopts the cylindrical-component grinding device according to claim 1 and comprises following steps that: step 1 is workpiece feeding, in which the workpiece conveying apparatus ( 3 ) feeds the processing workpiece into the material storage hopper ( 23 ) of the workpiece advancing apparatus ( 2 ), and under the drive of the intermittent reciprocating mechanism, the push rod ( 224 ) pushes the processing workpiece ( 9 ) in the material storage hopper ( 23 ) from the bottom of the material storage hopper to the straight groove ( 121 ), until all the straight grooves are fulfilled with the processing workpiece ( 9 ): step 2 is grinding processing, in which, the loading apparatus ( 7 ) provides loading for the grinding disc apparatus ( 1 ), the workpiece ( 9 ) contacts with the first grinding disc's working face ( 111 ) and the second grinding disc's working face ( 1211 ); the power system ( 8 ) drives the grinding disc apparatus ( 1 ), the second grinding disc ( 12 ) rotates relative to the first grinding disc ( 11 ), with a joint cooperation of the first grinding disc ( 11 ) and the second grinding disc ( 12 ), the processing workpiece ( 9 ) spins along its axis, and at the same time, the processing workpiece ( 9 ) performs translational slide motion from the propulsion port of the straight groove ( 121 ) towards the discharge outlet; during the motion, under the effect of free grinding particles in a grinding fluid, a micro material removal of the processing workpiece ( 9 ) is achieved, until the processing workpiece ( 9 ) has been discharged from the discharge outlet of the straight groove ( 121 ); Step 3 is workpiece cleaning, in which the workpiece and grinding fluid separating apparatus ( 5 ) separates the workpiece grinded in step 2 from the grinding fluid, and after filtration and precipitation, the grinding fluid is then in reuse; and after the workpiece is cleaned by the workpiece cleaning apparatus ( 6 ), the method goes on to step 4; step 4 is that after the workpieces have been disordered by the workpiece mixing apparatus ( 4 ), the method goes back to step 1; and after a period of continuous cycle grinding processing, a sampling inspection of the workpiece is made, and if a process requirements are met, the grinding processing ends, or otherwise, the grinding processing continues. 5. A cylindrical-component grinding method, wherein, the method adopts the cylindrical-component grinding device according to claim 2 and comprises following steps that: step 1 is workpiece feeding,