Retainer for photoelectric sensor and photoelectric pulse wave measuring apparatus including the same

What is claimed is: 1. A photoelectric sensor retainer comprising: a sensor mounting unit on which a photoelectric sensor having a light-receiving surface is attachable and detachable, the light-receiving surface facing a measuring direction; a pressing unit configured to press an upper surface of the sensor mounting unit in the measuring direction to apply pressure to the sensor mounting unit; a pedestal comprising a seating plate configured to support the pressing unit, the seating plate having a principal plane perpendicular to a pressing direction of the pressing unit; and a suspension device configured to support the sensor mounting unit, wherein the suspension device comprises: a frame disposed to face the sensor mounting unit with the seating plate therebetween; and links configured to connect the frame and the sensor mounting unit, and pass through the seating plate. 2. The photoelectric sensor retainer of claim 1 , wherein the pressing unit is a screw combined with the seating plate, and an edge of the pressing unit is configured to press the upper surface of the sensor mounting unit while the pressing unit is rotated to adjust a distance between the seating plate and the upper surface of the sensor mounting unit. 3. The photoelectric sensor retainer of claim 1 , further comprising coil springs surrounding the links between the seating plate and the frame, the coil springs being configured to repulse the sensor mounting unit in a direction opposite to the measuring direction. 4. The photoelectric sensor retainer of claim 1 , wherein the links comprise four or more links, and the links surround the pressing unit. 5. A photoelectric sensor retainer comprising: a sensor mounting unit on which a photoelectric sensor having a light-receiving surface is attachable and detachable, the light-receiving surface facing a measuring direction; a pressing unit configured to press an upper surface of the sensor mounting unit in the measuring direction to apply pressure to the sensor mounting unit; a pedestal; and a band connected to the pedestal, wherein the pedestal comprises: a seating plate configured to support the pressing unit, the seating plate having a principal plane perpendicular to a pressing direction of the pressing unit; adjusting units, each of the adjusting units being configured to adjust an angle between the principal plane and a plane of the band; and wings disposed on respective edges of the seating plate, ends of the band are connected to the respective wings, the measuring direction are oriented inside a ring that is formed by the band and the pedestal, and the pedestal is configured to rotate around each of the wings with respect to the band. 6. The photoelectric sensor retainer of claim 5 , wherein the adjusting units are disposed on the respective wings, and each of the adjusting units is configured to adjust a distance between a rotational axis of a respective one of the wings and the principal plane. 7. The photoelectric sensor retainer of claim 6 , further comprising pins, each of the pins forming the rotational axis, wherein each of the adjusting units comprises holes having respective distances from the principal plane, and each of the pins is configured to be attached to and detached from a respective one of the holes. 8. The photoelectric sensor retainer of claim 1 , wherein the sensor mounting unit comprises: a base unit; a sensor supporting unit disposed on a side of the base unit in the measuring direction, the sensor supporting unit comprising a sensor supporting surface disposed to face the measuring direction; and a piezoelectric element disposed between the base unit and the sensor supporting unit. 9. A photoelectric sensor retainer comprising: a sensor mounting unit on which a photoelectric sensor having a light-receiving surface is attachable and detachable, the light-receiving surface facing a measuring direction; a pressing unit configured to press an upper surface of the sensor mounting unit in the measuring direction to apply pressure to the sensor mounting unit; a pedestal comprising a seating plate configured to support the pressing unit, the seating plate having a principal plane perpendicular to a pressing direction of the pressing unit; a stage configured to support the pedestal; a forearm supporter disposed on a side of the sensor mounting unit in the measuring direction, the forearm supporter being configured to support a forearm so that a radial artery of the forearm faces the sensor mounting unit; and supporting columns configured to support the stage, the supporting columns being connected to the forearm supporter, wherein the stage is configured to move in the measuring direction and in a direction opposite to the measuring direction with respect to the supporting columns. 10. The photoelectric sensor retainer of claim 9 , wherein the stage is configured to rotate around a rotational axis perpendicular to a plane parallel with a length direction of the forearm supporter and the measuring direction. 11. The photoelectric sensor retainer of claim 10 , wherein the stage comprises protrusion portions extending in a direction of the rotational axis toward the supporting columns, the supporting columns comprise respective grooves corresponding to the respective protrusion portions, and the protrusion portions are connected to the respective supporting columns by respective fixing elements configured to fix locations of the respective protrusion portions on the respective supporting columns and rotating locations of the respective protrusion portions with respect to the rotational axis. 12. A photoelectric pulse wave measuring apparatus comprising: the photoelectric sensor retainer of claim 8 ; and a photoelectric sensor having the light-receiving surface and a substrate surface on a side opposite to the light-receiving surface, the photoelectric sensor disposed on the sensor supporting surface, wherein the substrate surface is disposed to face the sensor supporting surface.