Direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels

The invention claimed is: 1. A direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels, the direct-read meter comprising N permanent magnet rotary wheels and N corresponding biaxial magnetic angle sensors, the i th magnetic angle sensor sensing, along an X axis and a Y axis perpendicular to each other, a linear superposition of an intended magnetic field produced by the i th permanent magnet rotating wheel and interfering magnetic fields produced by the other N−1 permanent magnet rotating wheels, the permanent magnet rotating wheel producing the interfering magnetic field being the j th permanent magnet rotating wheel, and j≠i, wherein the direct-read meter comprises: a sampling element, configured to high-speed sample all the raw output sine/cosine signals of the N biaxial magnetic angle sensors, respectively, to form a N*1 raw signal matrix [V/V p ]k(i) raw , a storage element, configured to store an N*N correction matrix [C ij ], and a computation element, configured to perform arithmetical operation [V/V p ] k Corr(i)=[V/V p ] k (i) raw −sum{C(i, j)*[V/V p ] k (j) raw } to eliminate the interfering magnetic field and obtain a rotation angle of the permanent magnet rotating wheel, wherein k=x or y, the element in the raw signal matrix [V/V p ] k (i) raw is V xi /V pxi , or V yi /N pyi , V xi and V yi respectively correspond to two axial output raw signals of the i th biaxial magnetic angle sensor along the X axis and the Y axis, V pxi and V pyi respectively correspond to peak values of the two axial output raw signals of the i th biaxial magnetic angle sensor along the X axis and the Y axis, and [V/V p ] k (i) raw and [V/V p ] k corr(i) are respectively the N*1 raw signal matrix and the correction signal matrix of the biaxial magnetic angle sensor. 2. The direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels according to claim 1 , wherein the raw signals V xi , V pxi and V yi , V pyi are respectively numerical values of two output sine/cosine signal curves of the biaxial magnetic angle sensor after offset processing. 3. The direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels according to claim 1 , wherein the correction matrix [C ij ] is obtained by finite element calculation, or obtained by direct measurement data calculation. 4. The direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels according to claim 1 , wherein correction coefficients of the correction matrix [C ij ] depend on geometrical parameters of the permanent magnet rotating wheels, relative positions of the permanent magnet rotating wheels and the biaxial magnetic angle sensors, and magnetization directions and magnetization intensities of the permanent magnet rotating wheels; wherein when the geometrical parameters and magnetization states of the permanent magnet rotating wheels are the same, the correction coefficients of the correction matrix [C ij ] are the same. 5. The direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels according to claim 1 , wherein, in the direct-read meter, there is no soft magnetic shielding material between the permanent magnet rotating wheels. 6. The direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels according to claim 1 , wherein the permanent magnet rotating wheels are cylindrical, magnetization directions of the permanent magnet rotating wheels are parallel to directions of the permanent magnet rotating wheels passing through the diameter, or are along directions perpendicular to bottom surfaces of the permanent magnet rotating wheels, and there are anti-parallel magnetization directions in two half cylinders. 7. The direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels according to claim 1 , wherein the biaxial magnetic angle sensors are X-Y biaxial angle sensors. 8. The direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels according to claim 1 , wherein the biaxial magnetic angle sensors are AMR, GMR or TMR magnetic angle sensors. 9. The direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels according to claim 1 , wherein components output by non-linear voltage signals acting upon the biaxial magnetic angle sensors are reduced to improve precision of the measurement after correction. 10. The direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels according to claim 9 , wherein, when the biaxial magnetic angle sensors are GMR or TMR spin-valve sensors, magnetic field intensities of the permanent magnet rotating wheels are reduced, thus reducing rotation magnitude of pinning layers of the biaxial magnetic angle sensors to reduce non-linear components of curves of magnetic field measurement angles of the biaxial magnetic angle sensors versus magnetic field rotation angles, thus reducing non-linear components of the raw sine/cosine output voltage signals and improving the precision after correction. 11. The direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels according to claim 9 , wherein the magnetic design of the permanent magnet rotating wheels is to maintain constant magnitude of rotating magnetic fields at positions of the biaxial magnetic angle sensors, thus reducing the non-linear components of the raw sine/cosine output voltage signals and improving the precision after correction. 12. The direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels according to claim 9 , wherein the intended magnetic field is higher than the interfering magnetic fields to improve the precision after correction. 13. The direct-read meter capable of eliminating magnetic interference of adjacent rotating wheels according to claim 9 , wherein the biaxial magnetic angle sensors are close to rotating shafts of the permanent magnet rotating wheels to improve the precision after correction. 14. A method for eliminating magnetic interference of adjacent rotating wheels in a direct-read water meter, wherein the direct-read water meter comprises N permanent magnet rotating wheels and N corresponding biaxial magnetic angle sensors, the method comprising: sensing a magnetic field using an i th magnetic angle sensor, wherein the magnetic field sensed using the i th magnetic angle sensor is a superposition of an intended magnetic field for an i th permanent magnet rotating wheel to be detected and interfering magnetic fields for other N−1 j th (j≠i) permanent magnet rotating wheels; using raw output sine/cosine signals of the N biaxial magnetic angle sensors to form a N*1 raw signal matrix [V i /V pi ] raw , and V xi , V pxi and V yi , V pyi respectively corresponding to two axial raw output signals of the biaxial magnetic angle sensor along an X axis and a Y axis and peak values thereof; forming an N*1 signal correction matrix [V i /V pi ] correct by multiplying the N*1 raw signal matrix [V i /V pi ] raw by an N*N correction matrix [C ij ]; and calculating rotation angles of the permanent magnet rotating wheels using the N*1 signal correction matrix [V ix /V pi ] correct and the N*N correction matrix [V iy /V ypi ] correct . 15. The method according to claim 14 , further comprising performing a finite element calculation to obtain the correction matrix [C ij ]. 16. The method according to claim 14 , further comprising performing a direct measurement data calculation to obtain the c