Conveyance Apparatus, Sample Analysis System Including the Same, and Sample Preprocessing Apparatus

1 .- 18 . (canceled) 19 . A conveyance apparatus comprising: a first magnetic body that is provided on a conveyance target object side; two or more magnetic circuits, each including a core formed of a second magnetic body and a winding wound around an outer periphery of the core; two or more drive circuits that are provided to correspond to the magnetic circuits one by one, each supplying a current to the winding; two or more current detection units, each detecting a value of a current flowing in the winding; and a computation unit that computes a position of the first magnetic body based on the current value detected by each of the current detection units, and controls the current supplied from each of the drive circuits to the winding on the basis of position information of the first magnetic body obtained by the computation, wherein each of the current detection units is a resistor connected to the winding, and the computation unit controls the drive circuit to apply a pulse voltage having at least two or more different frequencies and detects a current from a voltage value of the resistor, sets the pulse voltage applied to compute the position of the first magnetic body in the pulse voltage applied by the drive circuit, to be equal to or lower than a voltage used to drive the first magnetic body, stores, in advance, a relational expression for determining a relation between a current waveform generated by the pulse voltage, and a distance, or table data for determining the relation between the current waveform and the distance, and detects inductance from the current waveform and computes the position of the first magnetic body from any one or more of a difference in inductance between the adjacent windings, a slope of the inductance of each of the windings, and a value of the inductance. 20 . The conveyance apparatus according to claim 19 , wherein the computation unit computes the position of the first magnetic body from a rising time of the current waveform. 21 . The conveyance apparatus according to claim 19 , wherein the frequency of the pulse voltage having a highest frequency in the pulse voltage that is applied by the drive circuit and has the different frequencies is set to be equal to or more than five times the frequency of the pulse voltage having a lowest frequency. 22 . The conveyance apparatus according to claim 19 , wherein the computation unit controls the drive circuit to apply positive and negative pulse voltages. 23 . The conveyance apparatus according to claim 19 , wherein a frequency of the pulse voltage applied to compute the position of the first magnetic body in the pulse voltage applied by the drive circuit is set to be equal to or less than 10000 Hz. 24 . The conveyance apparatus according to claim 23 , wherein the frequency of the pulse voltage applied to compute the position of the first magnetic body is set to be equal to or more than 100 Hz. 25 . The conveyance apparatus according to claim 19 , wherein the computation unit computes the position of the first magnetic body by using the current value when the pulse voltage is applied to the windings wound around the two adjacent cores. 26 . The conveyance apparatus according to claim 19 , wherein a gap between the first magnetic body and the core is equal to or less than 10 mm. 27 . The conveyance apparatus according to claim 19 , wherein a number of turns of the winding is equal to or more than 100 turns. 28 . The conveyance apparatus according to claim 19 , wherein the first magnetic body is a permanent magnet. 29 . A sample analysis system comprising: the conveyance apparatus according to claim 19 . 30 . A sample preprocessing apparatus comprising: the conveyance apparatus according to claim 19 . 31 . The conveyance apparatus according to claim 19 , wherein the computation unit stores, in advance, any one or more of the relation between the inductance and the distance and information for determining a relation between a rising time of the current and the distance, as the relational expression, and information for determining the relation between the inductance and the distance and the information for determining the relation between the rising time of the current and the distance, as the table data.