Hinge mechanism and panel apparatus

The invention claimed is: 1. A hinge mechanism that turnably couples a fixed member and a turning member to each other, and that holds the turning member at a predetermined first angle with respect to the fixed member, and that turns the turning member from the first angle to hold the turning member at an arbitrary second angle, the hinge mechanism comprising: a support shaft fixed to the turning member; a fixed portion fixed to the fixed member to rotatably support the support shaft, the fixed portion including a recessed portion provided in one side surface at a position corresponding to the first angle; an elastically deformable click plate that turns integrally with the support shaft, and that includes a projecting portion to be brought into press contact with the one side surface of the fixed portion to generate a sliding resistance, and fitted in and detached from the recessed portion; and an elastically deformable friction plate that turns integrally with the support shaft and the click plate, and that is provided with a pressing portion that applies a pressing force to a back side of the projecting portion of the click plate, wherein the pressing portion of the friction plate does not abut on the back side of the projecting portion at the first angle at which the projecting portion of the click plate is fitted into the recessed portion of the fixed portion, and abuts on the back side of the projecting portion which has been elastically deformed to generate the pressing force at an angle other than the first angle. 2. The hinge mechanism according to claim 1 , wherein the click plate has a dent provided on the back side of the projecting portion to accommodate the pressing portion of the friction plate. 3. The hinge mechanism according to claim 1 , wherein a spring constant of the friction plate is larger than a spring constant of the click plate. 4. The hinge mechanism according to claim 1 , wherein the fixed portion has a holding projecting portion provided on the one side surface at a position corresponding to the second angle to be brought into press contact with the projecting portion of the click plate. 5. The hinge mechanism according to claim 4 , wherein in a case where the turning member is positioned further toward a gravity direction than the support shaft at the first angle, and positioned further toward a direction opposite to the gravity direction than the support shaft at the second angle, the holding projecting portion has a tapered portion that slopes downward in a direction in which the turning member turns from the first angle to the second angle in a range of the second angle. 6. The hinge mechanism according to claim 1 , wherein the fixed portion has a second recessed portion provided in the one side surface, the second recessed portion being positioned axially symmetrically with respect to the recessed portion about the support shaft and being different in radial distance from the support shaft from the recessed portion; the click plate has a second projecting portion to be brought into press contact with the one side surface of the fixed portion to generate a sliding resistance, and fitted in and detached from the second recessed portion, the second projecting portion being positioned axially symmetrically with respect to the projecting portion about the support shaft and being different in radial distance from the support shaft from the projecting portion; and the friction plate has a second pressing portion that applies a pressing force to the back side of the second projecting portion of the click plate, the second pressing portion being positioned axially symmetrically with respect to the pressing portion about the support shaft and being different in radial distance from the support shaft from the pressing portion. 7. The hinge mechanism according to claim 6 , wherein the fixed portion has a holding projecting portion provided on the one side surface at a position corresponding to the second angle to be brought into press contact with the projecting portion of the click plate, and a second holding projecting portion provided on the one side surface to be brought into press contact with the second projecting portion of the click plate, the second holding projecting portion being positioned axially symmetrically with respect to the holding projecting portion about the support shaft and being different in radial distance from the support shaft from the holding projecting portion; and one of the holding projecting portion and the second holding projecting portion has a tapered portion that slopes downward in a direction in which the turning member turns from the first angle to the second angle in a range of the second angle. 8. The hinge mechanism according to claim 6 , wherein the click plate has ring-shaped arms on which the projecting portion and the second projecting portion are formed, and a sliding projecting portion provided further toward an inner side than the arms to be brought into press contact with the one side surface of the fixed portion to generate a sliding resistance. 9. The hinge mechanism according to claim 8 , wherein the fixed portion has an escape hole which the sliding projecting portion of the click plate is fitted in and detached from, the escape hole being provided in the one side surface at a position corresponding to the first angle and further toward an inner side than the recessed portion and the second recessed portion. 10. A panel apparatus that uses a hinge mechanism to turnably couple a main body unit and a panel unit having a monitor screen to each other, the monitor screen being held at a first angle at which the monitor screen is closed to the main body unit side when not in use, and held at an arbitrary second angle at which the panel unit is turned from the first angle to open the monitor screen when in use, wherein the hinge mechanism includes: a support shaft fixed to the panel unit; a fixed portion fixed to the main body unit to rotatably support the support shaft, the fixed portion including a recessed portion provided in one side surface at a position corresponding to the first angle; an elastically deformable click plate that turns integrally with the support shaft, and that includes a projecting portion to be brought into press contact with the one side surface of the fixed portion to generate a sliding resistance, and fitted in and detached from the recessed portion; and an elastically deformable friction plate that turns integrally with the support shaft and the click plate, and that is provided with a pressing portion that applies a pressing force to a back side of the projecting portion of the click plate, and wherein the pressing portion of the friction plate does not abut on the back side of the projecting portion at the first angle at which the projecting portion of the click plate is fitted into the recessed portion of the fixed portion, and abuts on the back side of the projecting portion which has been elastically deformed to generate the pressing force at an angle other than the first angle.