Input device

What is claimed is: 1 . An input device comprising: a housing; a strain-generating body including a cylindrical portion with an upper end surface, the strain-generating body being secured to the housing; and four strain sensors, the four strain sensors being secured around the cylindrical portion of the strain-generating body; and an operation panel having a lower surface, the operation panel including a shaft, the shaft being situated on the lower surface and at a central portion of the operation panel, and the shaft being inserted into the cylindrical portion of the strain-generating body to be secured to the strain-generating body, wherein the upper end surface of the cylindrical portion of the strain-generating body and the lower surface of the operation panel are in contact with each other, and wherein the shaft has a top end that protrudes from the cylindrical portion, and the top end of the shaft faces the housing so as not to contact the housing. 2 . The input device according to claim 1 , wherein the strain-generating body includes four beams, the four beams respectively linearly extending from the cylindrical portion in different four directions, and an outer peripheral portion connected to outer ends of the four beams, and wherein the four strain sensors are secured onto the four beams, respectively. 3 . The input device according to claim 1 , wherein the lower surface of the operation panel includes a contact surface having an annular shape that surrounds the shaft, the contact surface being offset relative to the lower surface toward the strain-generating body, and the contact surface of the operation panel being in contact with the upper end surface of the cylindrical portion of the strain-generating body, and wherein the shaft of the operation panel fits the cylindrical portion of the strain-generating body, and wherein the contact surface of the operation panel has an outer diameter less than an outer diameter of the upper end surface of the cylindrical portion in the strain-generating body. 4 . The input device according to claim 1 , wherein the operation panel has an outer peripheral edge, wherein a space is provided between the outer peripheral edge of the operation panel and the housing, and wherein the outer peripheral edge of the operation panel is configured to contact the housing upon occurrence of a condition in which the operation panel is elastically deformed. 5 . The input device according to claim 1 , wherein the shaft of the operation panel has a fixed thickness. 6 . The input device according to claim 2 , wherein the strain-generating body includes an annular outer peripheral portion, the outer peripheral portion and the cylindrical portion being coupled to each other by the four beams, and the annular outer peripheral portion being screwed and secured to the housing, and wherein a space is provided between the housing and the strain-generating body at the cylindrical portion and the four beams. 7 . The input device according to claim 2 , further comprising: a flexible line board on which the four strain sensors are provided, wherein the four strain sensors are respectively secured to the four beams, while being secured to the line board. 8 . The input device according to claim 1 , wherein the operation panel has an upper surface, and includes a recess at the upper surface and at the central portion. 9 . The input device according to claim 1 , further comprising a control circuit, the control circuit being configured to determine a vector of a strain amount in the strain-generating body, based on detected strain values by the four strain sensors, and detect, based on the vector, (i) a first timing at which the operation panel is pressed and (ii) a second timing at which the pressed operation panel is released, wherein the control circuit is configured to determine, as a first threshold, a value that is obtained by multiplying a peak value of the vector by a predetermined coefficient, after the first timing is detected, and detect, as the second timing, a timing at which the vector is below the first threshold. 10 . The input device according to claim 9 , wherein the control circuit is configured to detect, as a subsequent first timing, a timing at which a change from decreasing to increasing of the vector is detected after the first timing is detected. 11 . The input device according to claim 9 , wherein the control circuit is configured to determine that a rotation operation of the operation panel is performed, upon occurrence of a condition in which a magnitude of the vector is maintained above a fixed value, in conjunction with a condition in which a change in a direction of the vector is detected. 12 . The input device according to claim 9 , wherein the control circuit is configured to determine a pressing force on the operation panel, based on the detected strain values by the four strain sensors, and determine that a rotation operation of the operation panel is performed upon occurrence of a condition in which a change in a direction of the vector is detected, in conjunction with a condition in which the pressing force is maintained above a fixed value. 13 . The input device according to claim 1 , wherein the housing is a housing of an earpiece.