Wireless power transmission apparatus, conveyance system employing the apparatus and method of controlling the apparatus

What is claimed is: 1. A wireless power transmission apparatus comprising: a high-frequency power generator configured to generate high-frequency power; a power-transmitting electrode configured to transmit the high-frequency power generated by the high-frequency power generator; a plurality of power-receiving electrodes each of which is capable of being opposed to the power-transmitting electrode and wirelessly receiving the high-frequency power from the power-transmitting electrode via electric field coupling using capacitance between the power-transmitting electrode and the power-receiving electrode; a switchable matching device electrically connected with the power-transmitting electrode and including one or more matching circuits; a detection circuit electrically connected between the high-frequency power generator and the switchable matching device to detect, based on output of reflected power from the power-transmitting electrode, whether or not the generation of the high-frequency power by the high-frequency power generator and the transmission of the high-frequency power at the power-transmitting electrode match each other, the reflected power being part of the high-frequency power which is not transmitted from the power-transmitting electrode to the power-receiving electrodes and returns from the power-transmitting electrode to the high-frequency power generator side, the output of the reflected power from the power-transmitting electrode depending on the number of the power-receiving electrodes actually opposed to and receiving the high-frequency power from the power-transmitting electrode; and a controller that controls, at least, operation of the high-frequency power generator and the switchable matching device, wherein the controller switches the one or more matching circuits of the switchable matching device depending on a detection result of the detection circuit. 2. The wireless power transmission apparatus as set forth in claim 1 , wherein when the detection result of the detection circuit is that the generation of the high-frequency power by the high-frequency power generator and the transmission of the high-frequency power at the power-transmitting electrode do not match each other, the controller changes impedance of the switchable matching device stepwise by switching electrical connection between the one or more matching circuits of the switchable matching device and the power-transmitting electrode. 3. The wireless power transmission apparatus as set forth in claim 2 , wherein when the detection result of the detection circuit is that the generation of the high-frequency power by the high-frequency power generator and the transmission of the high-frequency power at the power-transmitting electrode do not snatch each other, the controller first stops the high-frequency power generator, then switches the electrical connection between the one or more matching circuits of the switchable matching device and the power-transmitting electrode, and thereafter restarts the high-frequency power generator. 4. A conveyance system comprising: the wireless power transmission apparatus as set forth in claim 1 ; and a plurality of moving bodies each of which has one of the power-receiving electrodes of the wireless power transmission apparatus provided therein, wherein the power-transmitting electrode of the wireless power transmission apparatus is plate-shaped and provided in part of a track along which the moving bodies move, and the output of the reflected power from the power-transmitting electrode changes depending on the number of the moving bodies having the respective power-receiving electrodes actually opposed to and receiving the high-frequency power from the power-transmitting electrode. 5. A method of controlling a wireless power transmission apparatus, wherein the wireless power transmission apparatus comprises: a high-frequency power generator configured to generate high-frequency power; a power-transmitting electrode configured to transmit the high-frequency power generated by the high-frequency power generator; a plurality of power-receiving electrodes each of which is capable of being opposed to the power-transmitting electrode and wirelessly receiving the high-frequency power from the power-transmitting electrode via electric field coupling using capacitance between the power-transmitting electrode and the power-receiving electrode, each of the power-receiving electrodes being provided in one of a plurality of moving bodies; and a switchable matching device electrically connected with the power-transmitting electrode and including one or more matching circuits, the method comprising the steps of: setting the number of the moving bodies having the respective power-receiving electrodes actually opposed to and receiving the high-frequency power from the power-transmitting electrode to an initial value; setting impedance of the switchable matching device according to the initial value by setting the one or more matching circuits of the switchable matching device; detecting whether or not the generation of the high-frequency power by the high-frequency power generator and the transmission of the high-frequency power at the power-transmitting electrode match each other; changing the initial value when the generation of the high-frequency power by the high-frequency power generator and the transmission of the high-frequency power at the power-transmitting electrode do not match each other; and stopping the high-frequency power generator when the generation of the high-frequency power by the high-frequency power generator and the transmission of the high-frequency power at the power-transmitting electrode still do not match each other after the changing of the initial value.