A foldaway mirror assembly has a support; an arm pivotally connected to the support, a mirror member pivotally connected to the arm, the arm having two portions that are rotatably connected so that the mirror member can be rotated and pivoted, first and second pivot connections connecting the respec
A foldaway mirror assembly has a support; an arm pivotally connected to the support, a mirror member pivotally connected to the arm, the arm having two portions that are rotatably connected so that the mirror member can be rotated and pivoted, first and second pivot connections connecting the respective support and mirror members to the arm and each comprising a click-stop mechanism for establishing a plurality of firm but movable pivot positions for the arm on the support and for the mirror member on the arm, a non-magnifying mirror on one side of the mirror member, a magnifying mirror on an opposite side of the mirror member, at least one light source mounted to the mirror member for illuminating the mirrors and a power supply in the support and electrically connected to the light source for powering the light source.
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1. A foldaway mirror assembly comprising: a support member having a lower surface for being supported on a support surface, and an upper surface having a perimeter;a support arm having with one end pivotally connected to the support member on a lower portion of the support arm near the perimeter of
1. A foldaway mirror assembly comprising: a support member having a lower surface for being supported on a support surface, and an upper surface having a perimeter;a support arm having with one end pivotally connected to the support member on a lower portion of the support arm near the perimeter of the upper surface and at a first pivot connection;a mirror member having opposite surfaces and a perimeter around the opposite surfaces, the mirror member being pivotally connected to an opposite end of the support arm on an upper portion of the support arm, near the perimeter of the mirror member and at a second pivot connection;the upper and lower portions of the support arm being rotatably connected to each other so that the mirror member can be rotated and pivoted with respect to the support member;the first and second pivot connections each comprising a click-stop mechanism for establishing a plurality of firm but movable pivot positions for the support arm on the support member and for the mirror member on the support arm;a non-magnifying mirror on one of the opposite surfaces of the mirror member leaving a first exposed perimeter surface;a magnifying mirror on the other of the opposite surfaces of the mirror member leaving a second exposed perimeter surface;at least one light source mounted to the mirror member for illuminating the first and second exposed perimeter surfaces; anda power supply in the support member and electrically connected to the light source for powering the light source to illuminate the exposed perimeter surfaces. 2. The foldaway mirror assembly of claim 1, wherein each click-stop mechanism comprises a semi-cylindrical portion connected to either the support arm or the mirror member with a plurality of circumferentially spaced stop tabs thereon, and a resiliently mounted stop boss connected to either the support arm or the support member, for engaging between a pair of said stop tabs to establish each pivot position. 3. The foldaway mirror assembly of claim 1, wherein the click-stop mechanism of the first pivot connection comprises a semi-cylindrical portion connected to the lower portion of the support arm with a plurality of circumferentially spaced stop tabs thereon, and a resiliently mounted stop boss connected to the support member, for engaging between a pair of stop tabs of the first pivot connection to establish each pivot position between the support arm and the support member, and wherein the click-stop mechanism of the second pivot connection comprises a semi-cylindrical portion connected to the mirror member with a plurality of circumferentially spaced stop tabs thereon, and a resiliently mounted stop boss connected to the upper portion of the support arm, for engaging between a pair of stop tabs of the second pivot connection to establish each pivot position between the mirror member and the support arm, the semi-cylindrical portion of the mirror member being pivotally mounted between ears at the ends of the upper portion of the support arm. 4. The foldaway mirror assembly of claim 1, wherein the upper and lower portions of the support arm are rotatably connected to each other for relative rotation of up to 270 degrees. 5. The foldaway mirror assembly of claim 1, wherein each of the upper and lower portions of the support arm have cylindrical parts engaging each other, each cylindrical part having a circumferentially located rotation stop for engaging each other so that relative rotation between the upper and lower portions is limited to up to 270 degrees. 6. The foldaway mirror assembly of claim 1, wherein the mirror and support members are each substantially cylindrical with convex outer perimeters and substantially equal diameters and thicknesses. 7. The foldaway mirror assembly of claim 1, wherein the upper surface of the support member has a trough sized to receive the support arm therein when the support arm is pivoted to the support member, and at least one storage bin next to the trough. 8. The foldaway mirror assembly of claim 1, wherein the upper surface of the support member has a trough sized to receive the support arm therein when the support arm is pivoted to the support member, and at least one storage bin next to the trough, the upper and lower portions of the support arm tapering outwardly toward each end of the support arm, the trough also tapering outwardly to closely receive the support arm. 9. The foldaway mirror assembly of claim 1, including a plurality of said at least one light source mounted in the mirror member between opposite translucent perimeter walls extending on the opposite surfaces of the mirror member, and within an outer opaque perimeter wall extending around an outer perimeter of the mirror member, for illuminating the translucent perimeter walls at the first and second exposed perimeter surfaces, and a switch in one of the mirror member, support member and support arm, for closing a circuit connecting the power supply in the support member and the light sources. 10. The foldaway mirror assembly of claim 1, including a plurality of said at least one light source mounted in the mirror member, circumferentially spaced on an inner cylindrical core of the mirror member, between opposite translucent perimeter walls extending on the opposite surfaces of the mirror member, and within an outer opaque perimeter wall extending around an outer perimeter of the mirror member, for illuminating the translucent perimeter walls at the first and second exposed perimeter surfaces, and a switch in one of the mirror member, support member and support arm, for closing a circuit connecting the power supply in the support member and the light sources. 11. A foldaway mirror assembly comprising: a support member;a support arm pivotally connected to the support member;a mirror member pivotally connected to the support arm;the support arm having upper and lower portions that are rotatably connected to each other so that the mirror member can be rotated and pivoted with respect to the support member;first and second pivot connections connecting the respective support member and mirror member, to the support arm and each comprising a click-stop mechanism for establishing a plurality of firm but movable pivot positions for the support arm on the support member and for the mirror member on the support arm;a non-magnifying mirror on one side of the mirror member;a magnifying mirror on an opposite side of the mirror member;at least one light source mounted to the mirror member for illuminating the mirrors; anda power supply in the support member and electrically connected to the light source for powering the light source. 12. The foldaway mirror assembly of claim 11, wherein each click-stop mechanism comprises a semi-cylindrical portion connected to either the support arm or the mirror member with a plurality of circumferentially spaced stop tabs thereon, and a resiliently mounted stop boss connected to either the support arm or the support member, for engaging between a pair of said stop tabs to establish each pivot position. 13. The foldaway mirror assembly of claim 11, wherein the click-stop mechanism of the first pivot connection comprises a semi-cylindrical portion connected to the lower portion of the support arm with a plurality of circumferentially spaced stop tabs thereon, and a resiliently mounted stop boss connected to the support member, for engaging between a pair of stop tabs of the first pivot connection to establish each pivot position between the support arm and the support member, and wherein the click-stop mechanism of the second pivot connection comprises a semi-cylindrical portion connected to the mirror member with a plurality of circumferentially spaced stop tabs thereon, and a resiliently mounted stop boss connected to the upper portion of the support arm, for engaging between a pair of stop tabs of the second pivot connection to establish each pivot position between the mirror member and the support arm, the semi-cylindrical portion of the mirror member being pivotally mounted between ears at the ends of the upper portion of the support arm. 14. The foldaway mirror assembly of claim 11, wherein the upper and lower portions of the support arm are rotatably connected to each other for relative rotation of up to 270 degrees. 15. The foldaway mirror assembly of claim 11, wherein each of the upper and lower portions of the support arm have cylindrical parts engaging each other, each cylindrical part having a circumferentially located rotation stop for engaging each other so that relative rotation between the upper and lower portions is limited to up to 270 degrees. 16. The foldaway mirror assembly of claim 11, wherein the mirror and support members are each substantially cylindrical with convex outer perimeters and substantially equal diameters and thicknesses. 17. The foldaway mirror assembly of claim 11, wherein the upper surface of the support member has a trough sized to receive the support arm therein when the support arm is pivoted to the support member, and at least one storage bin next to the trough. 18. The foldaway mirror assembly of claim 11, wherein the upper surface of the support member has a trough sized to receive the support arm therein when the support arm is pivoted to the support member, and at least one storage bin next to the trough, the upper and lower portions of the support arm tapering outwardly toward each end of the support arm, the trough also tapering outwardly to closely receive the support arm. 19. The foldaway mirror assembly of claim 11, including a plurality of said at least one light source mounted in the mirror member between opposite translucent perimeter walls extending on the opposite surfaces of the mirror member, and within an outer opaque perimeter wall extending around an outer perimeter of the mirror member, for illuminating the translucent perimeter walls at the first and second exposed perimeter surfaces, and a switch in one of the mirror member, support member and support arm, for closing a circuit connecting the power supply in the support member and the light sources. 20. The foldaway mirror assembly of claim 11, including a plurality of said at least one light source mounted in the mirror member, circumferentially spaced on an inner cylindrical core of the mirror member, between opposite translucent perimeter walls extending on the opposite surfaces of the mirror member, and within an outer opaque perimeter wall extending around an outer perimeter of the mirror member, for illuminating the translucent perimeter walls at the first and second exposed perimeter surfaces, and a switch in one of the mirror member, support member and support arm, for closing a circuit connecting the power supply in the support member and the light sources.
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