Magnetic position detection device and magnetic position detection method

The invention claimed is: 1. A magnetic position detection device comprising: a magnetic scale constituted by a first magnetic scale on which N magnetic poles and S magnetic poles of a uniform length λ1 are arranged alternately in a movement direction, and a second magnetic scale which is provided parallel to the first magnetic scale, and on which N magnetic poles and S magnetic poles of a uniform length λ2 are arranged alternately in the movement direction; a magnetism sensing device that is disposed opposite the first magnetic scale and the second magnetic scale via respective air gaps, and that moves in the movement direction relative to the first magnetic scale and the second magnetic scale through magnetic fields formed respectively by the first magnetic scale and the second magnetic scale while maintaining the air gaps, and measures using magnetism sensing elements variation in the magnetic fields during the relative movement; and a position calculation device in which signal patterns of the magnetism sensing elements and information indicating absolute positions of the magnetism sensing elements relative to the magnetic scale are stored in association with each other in advance, and which calculates the absolute positions of the magnetism sensing elements relative to the magnetic scale based on output values of the magnetism sensing elements, output by the magnetism sensing device, wherein a total number of magnetic poles obtained by adding together respective numbers of the N magnetic poles and the S magnetic poles included on the first magnetic scale is k, and a total number of magnetic poles obtained by adding together respective numbers of the N magnetic poles and the S magnetic poles included on the second magnetic scale is k+2, a difference between the respective numbers of magnetic poles being 2, the magnetism sensing device comprises: a first magnetism sensing element group constituted by one or more magnetism sensing elements for detecting variation in the magnetic field formed by the first magnetic scale; and a second magnetism sensing element group constituted by one or more magnetism sensing elements for detecting variation in the magnetic field formed by the second magnetic scale, the magnetism sensing device outputs measurement results indicating variation in the magnetic fields during the relative movement in parallel by the respective magnetism sensing elements constituting the first magnetism sensing element group and the second magnetism sensing element group, a ratio of a number n of magnetism sensing elements in the first magnetism sensing element group to a number m of magnetism sensing elements in the second magnetism sensing element group is equal to a ratio of an inverse of the number k of magnetic poles on the first magnetic scale to an inverse of the number k+2 of magnetic poles on the second magnetic scale, and the magnetism sensing elements are arranged by setting an arrangement interval between the magnetism sensing elements of the first magnetism sensing element group at P1 so that output waveforms of signals output respectively by the magnetism sensing elements of the first magnetism sensing element group deviate from each other successively by a phase P1=λ1/n obtained by dividing the length λ1 of one magnetic pole of the first magnetic scale equally by the number n of magnetism sensing elements, and setting an arrangement interval between the magnetism sensing elements of the second magnetism sensing element group at P2 so that output waveforms of signals output respectively by the magnetism sensing elements of the second magnetism sensing element group deviate from each other successively by a phase P2=λ2/m obtained by dividing the length λ2 of one magnetic pole of the second magnetic scale equally by the number m of magnetism sensing elements, or, in a case where one of the number n of magnetism sensing elements in the first magnetism sensing element group and the number m of magnetism sensing elements in the second magnetism sensing element group is an even number and the other is an odd number, the magnetism sensing elements are arranged by halving the even number of magnetism sensing elements. 2. The magnetic position detection device according to claim 1 , wherein either the number n of magnetism sensing elements in the first magnetism sensing element group is multiplied by a value i so as to be set at a number n multi , or the number m of magnetism sensing elements in the second magnetism sensing element group is multiplied by a value j so as to be set at a number m multi , or the number n of magnetism sensing elements in the first magnetism sensing element group and the number m of magnetism sensing elements in the second magnetism sensing element group are multiplied respectively by the value i and the value j so as to be set at the number n multi and the number m multi , the value i and the value j being natural numbers, when the number n of magnetism sensing elements in the first magnetism sensing element group is set at the number n multi , an arrangement interval P1 multi between the magnetism sensing elements in the first magnetism sensing element group is set at a uniform interval and at a value that is in inverse proportion to the arrangement interval P1 prior to multiplication by the value i, when the number m of magnetism sensing elements in the second magnetism sensing element group is set at the number m multi , an arrangement interval P2 multi between the magnetism sensing elements in the second magnetism sensing element group is set at a uniform interval and at a value that is in inverse proportion to the arrangement interval P2 prior to multiplication by the value j, and when the number n of magnetism sensing elements in the first magnetism sensing element group and the number m of magnetism sensing elements in the second magnetism sensing element group are set respectively at the number n multi and the number m multi , the arrangement interval P1 multi between the magnetism sensing elements in the first magnetism sensing element group is set at a uniform interval and at a value that is in inverse proportion to the arrangement interval P1 prior to multiplication by the value i, and the arrangement interval P2 multi between the magnetism sensing elements in the second magnetism sensing element group is set at a uniform interval and at a value that is in inverse proportion to the arrangement interval P2 prior to multiplication by the value j. 3. The magnetic position detection device according to claim 1 , wherein a position detection length over which the positions of the magnetism sensing elements in the first magnetism sensing element group relative to the first magnetic scale are detected is set at L1, a position detection length over which the positions of the magnetism sensing elements in the second magnetism sensing element group relative to the second magnetic scale are detected is set at L2, one of the value i and the value j is a divisor of the other, and when a position detection resolution at which the positions of the magnetism sensing elements in the first magnetism sensing element group relative to the first magnetic scale are detected is set at δ 1 multi and a position detection resolution at which the positions of the magnetism sensing elements in the second magnetism sensing element group relative to the second magnetic scale are detected is set at δ2 multi , the number n multi , the number m multi , the arrangement interval P1 multi , the arrangement interval P2 multi , the position detection resolution δ1 multi , and the position detection resolution δ2 multi respectively satisfy n multi =( k+ 2)/2× i, m multi =k/ 2× j, P 1 multi =L 1/ n/k/i, P 2 multi =L 2/ m /( k+ 2)/ j, δ1 multi =L 1/ n/k/i , and δ2 multi =L 2/