Sheet material thickness detection device, sheet material anomaly detection device, sheet material feeding device, and image forming device

What is claimed is: 1. A sheet material thickness detection device comprising: a guide member to guide one side of a sheet material being conveyed; a non-rotating pressing member to press the sheet material against the guide member in a manner displaceable in accordance with a thickness of the sheet material; a magnetic or electric sensor configured to magnetically or electrically detect a displaced amount of the non-rotating pressing member, displaced in accordance with the thickness of the sheet material; and at least one processor configured to calculate the thickness of the sheet material based on an output signal of the magnetic or electric sensor, wherein the magnetic or electric sensor includes a coil to form a magnetic circuit so as to pass through a space in which magnetic permeability of the coil changes in accordance with a displacement of the non-rotating pressing member against the guide member, and an oscillation circuit, wherein an oscillation frequency of the oscillation circuit changes in accordance with an inductance of the coil, the magnetic or electric sensor being configured to output a signal corresponding to the oscillation frequency of the oscillation circuit. 2. The sheet material thickness detection device according to claim 1 , further comprising: a driving rotor; and a driven rotor arranged so as to sandwich the sheet material with the driving rotor. 3. The sheet material thickness detection device according to claim 1 , further comprising: a plurality of driving rotors provided in a shaft direction of a driving shaft; and a plurality of driven rotors arranged so that the sheet material is sandwiched between the plurality of driving rotors and the plurality of driven rotors, wherein the magnetic or electric sensor and the non-rotating pressing member are arranged near a center in a width direction perpendicular to the sheet material conveyance direction between two of the plurality of driving rotors that are adjacent to each other. 4. The sheet material thickness detection device according to claim 1 , wherein the magnetic or electric sensor includes a plurality of sensors and wherein the plurality of the sensors are provided in a width direction perpendicular to a sheet material conveyance direction, the non-rotating pressing member is partitioned into a plurality of sections in the width direction so as to correspond to the plurality of the sensors, respectively, and the sheet material thickness detection device further comprises a comparator configured to compare values corresponding to thicknesses of a plurality of portions in the sheet material corresponding to the plurality of sensors with one another based on output signals from the plurality of the sensors. 5. The sheet material thickness detection device according to claim 4 , wherein the plurality of sensors includes three sensors provided so as to correspond to three portions of the sheet material at both ends and a center in the width direction, and the non-rotating pressing member is partitioned into three in the width direction so as to correspond to the three sensors. 6. A sheet material feeding device comprising the sheet material thickness detection device according to claim 1 . 7. An image forming device comprising: a first sheet feeder configured to feed a first sheet material to be subjected to image formation; a second sheet feeder configured to feed a second sheet material including an image to be formed; an image reader configured to read the image of the second sheet material fed by the second sheet feeder; and an imaging device configured to form an image on the first sheet material based on the image read by the image reader, wherein the second sheet feeder is the sheet material feeding device according to claim 6 . 8. An image forming device comprising: the sheet material thickness detection device according to claim 1 ; and an imaging device configured to form an image on the sheet material. 9. The sheet material thickness detection device according to claim 1 , wherein the magnetic or electric sensor is a magnetic permeability sensor. 10. The sheet material thickness detection device according to claim 1 , wherein the magnetic or electric sensor includes a Colpitts LC oscillator. 11. A sheet material thickness detection device comprising: a guide member to guide one side of a sheet material being conveyed; a non-rotating pressing member to press the sheet material against the guide member in a manner displaceable in accordance with a thickness of the sheet material; a magnetic or electric sensor configured to magnetically or electrically detect a displaced amount of the non-rotating pressing member, displaced in accordance with the thickness of the sheet material; at least one processor configured to calculate the thickness of the sheet material based on an output signal of the magnetic or electric sensor; a driving rotor; and a driven rotor arranged so as to sandwich the sheet material with the driving rotor, wherein a pressing position of the non-rotating pressing member that is pressing the sheet material corresponds to a position at which the driving rotor and the rotary-driven driven rotor are opposed to each other or a position downstream of the opposed position in a conveyance direction of the sheet material. 12. The sheet material thickness detection device according to claim 11 , wherein the magnetic or electric sensor includes a coil to form a magnetic circuit so as to pass through a space in which magnetic permeability of the coil changes in accordance with a displacement of the non-rotating pressing member against the guide member, and an oscillation circuit, wherein an oscillation frequency of the oscillation circuit changes in accordance with an inductance of the coil, the magnetic or electric sensor being configured to output a signal corresponding to the oscillation frequency of the oscillation circuit. 13. The sheet material thickness detection device according to claim 12 , further comprising: a plurality of driving rotors provided in a shaft direction of a driving shaft; and a plurality of driven rotors arranged so that the sheet material is sandwiched between the plurality of driving rotors and the plurality of driven rotors, wherein the magnetic or electric sensor and the non-rotating pressing member are arranged near a center in a width direction perpendicular to the sheet material conveyance direction between two of the plurality of driving rotors that are adjacent to each other. 14. A sheet material feeding device comprising the sheet material thickness detection device according to claim 11 . 15. An image forming device comprising: a first sheet feeder configured to feed a first sheet material to be subjected to image formation; a second sheet feeder configured to feed a second sheet material including an image to be formed; an image reader configured to read the image of the second sheet material fed by the second sheet feeder; and an imaging device configured to form an image on the first sheet material based on the image read by the image reader, wherein the second sheet feeder is the sheet material feeding device according to claim 14 . 16. An image forming device comprising: the sheet material thickness detection device according to claim 11 ; and an imaging device configured to form an image on the sheet material. 17. The sheet material thickness detection device according to claim 11 , wherein the magnetic or electric sensor is a magnetic permeability sensor.