WO2011038664A1 - Spectacle frame assembly, telescopic spectacle frame assembly and stereoscopic vision spectacle frame assembly - Google Patents

Abstract

A spectacle frame assembly (100) comprises a main frame (110) and a sub-frame (120). Lenses (130) are inserted into grooves (121) in the sub-frame (120), and the sub-frame (120) is inserted into a groove (111) in the main frame (110). Magnetic components (140) are further disposed at the connection portions between the sub-frame (120) and the main frame (110). A telescopic spectacle frame assembly (200) and a stereoscopic vision spectacle frame assembly (300) are also provided.

Description

 Glasses, telescope glasses and stereoscopic video frame assembly The application is filed on September 29, 2009, and the Chinese Patent Office, application number 200920236657.2, the invention name is "glasses, telescope glasses and stereoscopic glasses frame components" Priority of Chinese Patent Application, the entire contents of which is incorporated herein by reference. BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a structure for quickly fixing and separating a lens and a lens frame, and more particularly to a eyepiece mirror, a telescopic eyeglass, and a stereoscopic eyeglass frame assembly. Background technique

 The lens of the ordinary glasses is fixed on the frame, and cannot be replaced freely, which is inconvenient to use. At present, there are two kinds of frame frames including the mother frame and the sub frame. There are two main structural forms: The first one is to magnetically connect the bridged left and right lens frames to the frame mother frame, and some of them have no external force structure. There are hidden dangers in safety; some have changed the bridging part of the lens sub-frame and the bridge frame of the frame to the hook-connected magnet structure. The production process is more complicated, which is not conducive to mass production, and there are still hidden dangers. The second method is to magnetically connect the lens to the eyeglass frame separately, and the structural change of the outer edge of the lens is required; the magnetic structure is additionally attached to the lens frame, and then connected to the frame female frame, and the frame mother frame is required to have a complicated structure. Magnet structure; This method requires complicated manufacturing processes, which is easy to cause lens damage, which is not conducive to mass production and safety hazards.

 Based on the above problems, the use of the existing multi-frame is greatly limited. Whether it is ordinary glasses, telescopic glasses, stereo mirrors and other special mirrors, the structure of the lens and the frame is still mainly used. The fixing and separation of the lens and the frame are not convenient enough, and the lens cannot be freely matched with the lens to form a new one. Features. Summary of the invention

 In view of this, the utility model aims to provide a safe and practical frame assembly which is flexible and can be used for ordinary glasses, stereo glasses, special eyeglass systems such as telephoto glasses and stereoscopic glasses. New functions can also be formed by freely matching the lenses.

In order to solve the above technical problem, the present invention provides a spectacle frame assembly, comprising a frame female frame and a lens sub-frame; the lens sub-frame is provided with an inner EJ slot, wherein the lens is respectively embedded; the frame female frame is recessed a slot into which the lens sub-frame is inserted. a magnetic attraction structure is disposed at a joint portion between the lens sub-frame and the frame female frame, wherein: the inner edge of the frame female frame and the outer edge of the lens sub-frame are respectively provided with a plurality of magnetic components, and the two The corresponding magnetic components are positioned opposite each other and the magnetic poles are opposite.

 In the magnetic component, at least one of the magnetic poles is aligned with the acupuncture point of the human eye.

 In addition, the present invention also provides a telescope frame assembly, including a frame mother frame, a eye frame frame and a object mirror holder; the eye mirror frame is provided with an EJ slot in the eyepiece, wherein the eyepiece is embedded; The rear end is provided with an installation disk, and the front end is provided with an inner groove, wherein the objective lens is embedded; the frame mother frame is provided with double inner W slots, and the eye mirror frame and the object mirror seat mounting plate are respectively inserted.

 a magnetic attraction structure is respectively disposed between the inner edge of the frame mother frame and the outer edge of the eyepiece frame, the inner edge of the frame mother frame and the outer edge of the object mirror mounting plate, wherein: The inner edge of the frame female frame, the outer edge of the eyepiece frame and the outer edge of the mirror mounting plate are respectively provided with a plurality of magnetic components; between the inner edge of the frame female frame and the outer edge of the eyepiece frame The corresponding magnetic members between the inner edge of the frame mother frame and the outer edge of the object mirror mounting plate are opposite in position and opposite in magnetic poles.

 In addition, the present invention also provides a stereoscopic video frame assembly, including a frame mother frame, a mirror holder and a mirror holder; the bottom of the eyepiece holder is provided with a mounting plate, and the side is provided with an annular buckle, and the inner mosaic plane a mirror having a mirror surface that is at an angle of 45 degrees to a bottom surface of the eyepiece holder; an annular card slot is disposed on the inner side of the mirror holder, and a planar mirror is embedded therein, which is opposite to the plane mirror in the eyepiece holder The frame mother frame is grooved and inserted into the eyepiece mount mounting plate.

 Also included is a lens sub-frame having an edge EJ slot in which a plano-convex lens or a convex lens is embedded; the frame mother frame opening another groove into which the lens sub-frame is inserted.

 a magnetic attraction structure is respectively disposed between the inner edge of the frame mother frame and the outer edge of the eyepiece mount mounting plate, and the joint between the inner edge of the frame female frame and the outer edge of the lens sub-frame, wherein: The inner edge of the frame female frame, the outer edge of the eyepiece mounting plate and the outer edge of the lens sub-frame are respectively provided with a plurality of magnetic components; the inner edge of the frame female frame and the outer edge of the eyepiece mounting plate Between the inner edge of the frame mother frame and the outer edge of the lens sub-frame mounting disk, the corresponding magnetic components are opposite in position and the magnetic poles are opposite.

 The object mirror window is arranged outside the mirror seat, and the window slot is arranged at the edge.

A rotating mechanism is mounted inside the mirror holder to adjust the angle of the plane mirror in the mirror holder. A rotating mechanism is mounted inside the mirror holder to adjust the angle of the plane mirror in the mirror holder. Compared with the prior art, the sub-frame and the female frame of the spectacle frame assembly of the present invention are provided with grooves to ensure that the lens is reliably embedded in the sub-frame, and the sub-frame is inserted into the female frame. Since the magnetic structure is arranged at the joint portion between the sub-frame and the female frame, the sub-frame and the female frame can be tightly combined, so that the external force impact can be better prevented, and the relative movement between the two can be avoided. With this fast, safe and practical lens and frame assembly structure, the glasses system function can be easily extended as needed, and is suitable for promotion in various eyewear systems. DRAWINGS

 Figure 1 is a perspective rear elevational view of the eyepiece frame assembly of the first embodiment of the present invention;

 Figure 2 is an exploded view of the spectacle frame assembly of Figure 1;

 Figure 3a is a front elevational view of the frame female frame of Figure 2;

 Figure 3b is a rear elevational view of the frame female frame of Figure 2;

 Figure 3c is a plan view of the frame female frame of Figure 2;

 Figure 3d is a bottom view of the frame female frame of Figure 2;

 Figure 4a is a front elevational view of the right lens sub-frame of Figure 2;

 Figure 4b is a rear elevational view of the right lens sub-frame of Figure 2;

 Figure 4c is a front elevational view of the left lens sub-frame of Figure 2;

 Figure 4d is a rear elevational view of the left lens sub-frame of Figure 2;

 Figure 5 is a schematic view showing the assembling process of the lens sub-frame and the frame female frame of Figure 1;

 Figure 6a is a rear view of the finished product of the first structural frame female frame and the lens sub-frame; Figure 6b is a rear view of the second structural frame female frame;

 Figure 6c is a front view of the third structural frame female frame;

 Figure 6d is a front view of the frame structure of the fourth structural form;

 Figure 6e is a rear view of the frame structure of the fourth structural form;

 Figure 7 is a schematic view showing the position of the magnetic component of Figure 2 corresponding to the acupuncture point of the human eye; Figure 8 is a schematic view of the telescopic eyeglass frame assembly of the second embodiment of the present invention;

 9 is a schematic view of a stereoscopic eyeglass frame assembly according to a third embodiment of the present invention; FIG. 10 is a perspective view of the eyepiece holder of FIG. 9 connected to the mirror holder;

Figure 11 is a schematic view showing the process of adjusting the angle of the plane mirror in the mirror holder of Figure 9; Figure 12 is a schematic view showing the adjustment process of the mirror holder of Figure 9; 13 is a schematic diagram of viewing a stereo pair image of a left and right format with the stereoscopic video frame assembly of FIG. 9. FIG. 14 is a schematic diagram of viewing a stereo pair image of the top and bottom format with the stereoscopic video frame assembly of FIG. 9. FIG. The stereoscopic frame assembly views a schematic view of a stereo pair picture or a stereoscopic film assembly configuration. detailed description

 The basic concept of the present invention is generally applied to myopia glasses, presbyopic glasses, sunglasses, telescopic glasses, complementary color stereo glasses, polarized stereo glasses, and stereoscopic glasses, etc., which will be specifically described below with reference to the accompanying drawings and embodiments.

 Example 1

 The purpose of the magnetic suction principle is to provide the eyewear manufacturer with a process cartridge and a flexible eyeglass system. At the same time, it also provides users with a multi-purpose eyewear system that can be flexibly loaded and unloaded and freely matched.

 Referring also to FIG. 1 and FIG. 2, it is a common spectacle frame assembly 100, including a frame mother frame 110 and a mirror sub-frame 120, wherein:

 The lens sub-frame 120 defines an inner groove 121, respectively embedded in the lens 130;

 The frame female frame 110 defines an inner groove 111 and is inserted into the lens sub-frame 120. A guiding baffle 112 is further disposed outside the inner groove 111, so that the lens sub-frame 120 is fixed in the frame female frame groove 111, and does not Flip inside or outside;

 At the same time, a magnetic structure is arranged at the joint between the lens sub-frame 120 and the frame female frame 110, so that the two are tightly combined to prevent external impact and prevent relative movement between the two.

 Referring to FIGS. 3a-3d and 4a-4d, a plurality of magnetic members 140 are respectively disposed at the inner edge of the frame female frame 110 and the outer edge of the lens sub-frame 120, and can be set as follows: the lens sub-frame 120 and the frame female frame 110 is inlaid with a permanent magnet; or, the lens sub-frame 120 is inlaid with a permanent magnet, the frame mother frame 110 contains a material that can be magnetically attracted; or, the lens sub-frame 120 contains a material that can be magnetically attracted, the frame mother frame 110 Inlaid with permanent magnets. At the same time, the position of the corresponding magnetic member 140 between the lens sub-frame 120 and the frame mother frame 110 is opposite, and the magnetic poles are opposite; thereby generating a magnetic force, the inner edge of the frame mother frame 110 and the lens sub-frame 120 are closely attracted together.

Referring to FIG. 5, a schematic diagram of the assembly of the spectacle frame assembly 100, the lens 130 is embedded in the lens sub-frame 120 along the lens sub-frame groove 121; and the lens sub-frame 120 having the lens 130 mounted thereon is mirrored. The frame mother groove 111 is introduced into the frame mother frame 110 and fixed by magnetic attraction.

 In the present invention, the frame female frame groove 111 can have different setting methods, so that the lens sub-frame 120 is inserted into the frame female frame groove 111 from different directions, as described below:

 (1) The first structural form

 Referring to Fig. 6a, the lens sub-frame 120 is introduced into the frame mother frame 110 from the left or right along the mother frame groove 111. The guide frame 112 is disposed outside the female frame groove 111, so that the lens sub-frame 120 is fixed in the female frame groove 112 to prevent it from falling inward or outward.

 (2) The second structural form

 Referring to FIG. 6b, the frame mother frame 110 has a groove 111 on one side of the face, and a magnetic member (permanent magnet) 140 is embedded in the inner edge of the mother frame. The lens sub-frame 120 is oriented upward from the guide plate 112. The mother frame groove 111 is introduced downward.

 (3) The third structural form

 Referring to Fig. 6c, the frame mother frame 110 is opened on the outer side of the groove 111, and a permanent magnet 140 is embedded in the inner edge of the mother frame, and the lens sub-frame 120 is guided from the top to the bottom of the guide frame 112 into the female frame groove 111.

 (4) The fourth structural form

 Referring to Figures 6d-6e, the frame female frame 120 is provided with a double groove: the first frame is opened on the side of the female frame near the face, and the magnetic member 140 is embedded in the inner edge of the female frame, and the lens sub-frame 120 is The frame frame 110 is introduced upward and downward; at the same time, the frame mother frame 110 is opened to the outside by the second groove 111. The inner edge of the mother frame is embedded with a magnetic component 140, and the female frame groove 111 is introduced into the lens from the top to the bottom. Block 120.

 In this embodiment, functions such as myopia glasses, reading glasses, stereoscopic glasses, and sunglasses can be configured correspondingly by arranging the lenses. Further, by appropriately setting the position of the magnetic member 140, it is easy to expand into the health-care functional glasses, which are described as follows:

Referring to FIG. 7, the magnetic component 140 or the magnetic material corresponds to a corresponding acupuncture point around the human eye, specifically: the magnetic component 140a corresponds to the silkworm hole/jianming hole; the magnetic component 140b corresponds to the Jianming hole/fish upper hole/fish waist hole; the magnetic component 140c corresponds to 攒竹穴/健明穴/上眼明穴; magnetic component 140d magnet corresponds to eye point; magnetic component 140e corresponds to Jianming point/lower eye point; magnetic component 140f corresponds to Chengqi point/four white point; magnetic component 140g corresponds to ball The magnetic component 140h corresponds to the scorpion acupoint. Thereby, the magnetic poles of the magnetic members are aligned and act on the corresponding acupuncture points of the human eye, so that the glasses have a magnetic health care function. Example 2

 Designed to provide users with interchangeable eyepieces, objective lenses, telescopic distance adjustment, and multi-purpose telescopic eyewear systems for easy access.

 Referring to FIG. 8, the telescope glasses adopt a Galileo optical system or a Kepler optical system, and the telescope frame assembly 200 includes a frame mother frame 210, an eye mirror frame 220 and a object mirror holder 230, wherein: the eye mirror frame 220 An intraocular lens is provided, in which an eyepiece (concave lens or convex lens) 240 is embedded; the mirror holder 230 has a cylindrical structure, a mounting plate 231 is disposed at the rear end, and an inner groove 232 is defined at the front end, and the objective lens (convex lens or plano-convex lens) is embedded therein. The frame mother frame 210 is provided with double inner grooves 211, which are respectively inserted into the eye mirror frame 220 and the object mirror seat mounting plate 231. At the same time, a magnetic attraction structure is respectively arranged between the inner edge of the frame mother frame 210 and the outer edge of the eyepiece frame 220, the inner edge of the frame mother frame 210 and the outer edge of the object mirror mounting plate 231, thereby The frame frame 210 and the eyepiece frame 220 are tightly coupled between the frame mother frame 210 and the object mirror holder 230 to prevent relative motion when an external force is applied.

 Specifically, a plurality of magnetic members (at least a part of which are permanent magnets) are respectively disposed at the inner edge of the frame mother frame 210, the outer edge of the eyepiece frame 220, and the outer edge of the mirror holder mounting plate 231. In particular, the corresponding magnetic members between the inner edge of the frame mother frame 210 and the outer edge of the eyepiece frame 220, the inner edge of the frame mother frame 210 and the outer edge of the mirror holder mounting plate 231 are opposite in position and opposite in magnetic poles. As a result, the eyepiece frame 220 and the mirror holder 230 are closely attracted to the frame mother frame 210 without relative displacement.

 The assembly process is: inserting the eyepiece 240 into the eyepiece frame 220 along the groove of the eyepiece frame; then inserting the objective lens 250 into the mirror holder 230 along the object mirror groove 232; and then, the eyepiece that has the eyepiece 240 installed The frame 220 is introduced into the lens frame 210 along the inner groove 211 of the frame mother frame. Finally, the object mirror holder 230 having the objective lens 250 is inserted into the frame female frame 210 along the outer frame groove 211 of the frame. Since the magnetic member in the mirror frame 220 and the magnetic member in the mirror holder 230 correspond to the magnetic members of the frame female frame 230 and the magnetic poles are opposite, a magnetic attraction force is generated to cause the mirror frame 220 and the mirror holder 230. It is assembled in combination with the frame mother frame 210 to form a Galileo optical system or a Kepler telescope optical system.

 Example 3

The utility model aims to provide the user with an operation tube, multi-function, and can simultaneously be used for viewing the left and right format stereo pair images, the upper and lower format stereo pair images, the stereoscopic photographic film, and the stereo pair image. Multi-functional stereoscopic glasses system for body imaging products.

 Referring to Fig. 9, a stereoscopic video frame assembly 300 includes a frame female frame 310, an eyepiece holder 320, and a mirror holder 330, wherein:

 The eyepiece holder 320 has a cylindrical structure, a mounting plate 321 is arranged at the bottom, an annular buckle (outer protrusion) 322 is arranged on the side, and a plane mirror (eyepiece) 340 is embedded in the interior, and the mirror surface is 45 degrees from the bottom surface of the mirror holder 320. bevel.

 The mirror holder 330 has a cylindrical hemispherical structure, and an annular card groove (inner groove) 331 is disposed on the inner side; an objective lens window 332 is opened on the outer side, and a window slot 333 is opened at three edges thereof; and an inlaid plane mirror (objective lens) 350 is disposed inside. It is opposite to the plane mirror 340 in the mirror holder 320. In addition, the objective mirror holder 330 is internally mounted with an objective lens adjustment knob 360, which is used as a rotation mechanism to control the rotation of the objective lens, and adjusts the angle of the visible surface or the left and right parallax by adjusting the angle of the objective lens ( Horizontal parallax).

 The frame mother frame 310 defines a groove 311, and is inserted into the eyepiece holder mounting plate 321; and a joint structure between the inner edge of the frame mother frame 310 and the outer edge of the eyepiece holder mounting plate 321 is respectively provided with a magnetic structure, and the corresponding magnetic component (such as permanent magnets) are opposite in position and opposite in magnetic poles, ensuring that the two are reliably attracted to avoid relative displacement when subjected to external forces.

 Referring to Fig. 10, the annular snap 322 on the side of the mirror mount 320 is combined with the annular slot 331 of the mirror mount 330 to form a mirror mount rotation mechanism such that the mirror mount 330 can surround the annular snap 322 of the mirror mount. The center is rotated; thereby, the relative position of the eyepiece window 323 and the objective window 332 can be adjusted to adjust the upper and lower parallax (vertical parallax).

 Referring to Figure 11, for the objective lens adjustment process, the objective lens adjustment knob 360 rotates clockwise A- A clockwise or counterclockwise to adjust the angle of the plane mirror (objective lens) 350 to adjust the angle of the visible surface or horizontal parallax.

 Referring to Fig. 12, the object mirror holder 330 is rotated clockwise or counterclockwise in the direction of rotation BB such that the object mirror holder 330 rotates around the center of the annular buckle 322 of the mirror holder 320; thereby, by adjusting the eyepiece window 323 and the objective window 332 The relative position allows the vertical parallax to be adjusted.

In the assembly process, the eyepiece holder 320 is first introduced into the frame female frame 310 along the outer frame 311 of the frame, and then the mirror holder 330 is fastened to the eyepiece holder 320. Like a stereo pair of pictures or a stereo pair of negatives. Referring to FIG. 13, when viewing the stereo pair image in the left and right format, the objective lens adjusting knob 360 on the left and right objective lens rotating mechanisms are respectively rotated clockwise or counterclockwise, so that the visible surfaces of the left and right eyes become larger or larger. small. Since there is a difference in the light R emitted from the left picture P1 and the right picture P2, a stereoscopic effect is finally formed. Referring to FIG. 14, when viewing the stereo pair image in the upper and lower format, the left mirror holder rotation mechanism is adjusted to the left eye to see one of the pictures P3 of the upper and lower format stereo pair image, and the right object mirror rotation mechanism is adjusted to the right eye to see the upper and lower format stereo. For another picture P4 of the image, the picture seen by the left eye is horizontally flush with the picture seen by the right eye; then the horizontal parallax is adjusted by rotating the left and right objective adjustment knobs 360; until the stereoscopic effect is presented.

 Referring to FIG. 15, a lens sub-frame 370 is further provided, which defines an edge groove in which a plano-convex lens (or convex lens) 380 is embedded; the frame mother frame 310 opens another groove, and is inserted into the lens sub-frame 370; A magnetic attraction structure is respectively disposed at a joint portion between the edge and the outer edge of the lens sub-frame. Specifically, a plurality of magnetic components are respectively disposed on the inner edge of the frame female frame 310 and the outer edge of the lens sub-frame 370, and the corresponding magnetic components are opposite in position and opposite in magnetic poles to ensure close contact between the two.

 When viewing the stereo pair picture or the stereo pair film, the lens sub-frame 370 embedded with the plano-convex lens (or convex lens) 380 is introduced into the frame mother frame and the groove 311 is fixed, and the left object view window slot 333 is inserted into the stereo pair picture. (or negative film) left picture (or left film) P5, right object lens window slot 333 is inserted into the right picture (or right film) of the stereo pair picture (or film) P6, using the mirror mirror rotation mechanism to adjust to the stereo effect Presented.

 The above is only a preferred embodiment of the present invention. It should be noted that the above-described preferred embodiments are not to be construed as limiting the scope of the present invention. The scope of the present invention should be determined by the scope defined by the claims. It will be apparent to those skilled in the art that a number of modifications and refinements may be made without departing from the spirit and scope of the invention, and such modifications and refinements are also considered to be within the scope of the present invention.

Claims

Rights request

 1 . A spectacle frame assembly, comprising: a frame female frame and a lens sub-frame; wherein the lens sub-frame defines an inner EJ slot, wherein the lens is respectively embedded in the lens; the frame mother frame defines an inner EJ slot, and the insertion frame The lens sub-frame.

 The spectacle frame assembly according to claim 1, wherein a magnetic attraction structure is disposed at a joint portion between the lens sub-frame and the frame female frame, wherein: the inner edge of the frame mother frame and The outer edges of the lens sub-frames are respectively provided with a plurality of magnetic components, and the corresponding magnetic components between the two are opposite in position and opposite in magnetic poles.

 3. A spectacle frame assembly according to claim 2, wherein at least one of the magnetic members is aligned with acupuncture points of the human eye.

 4 . A telescope frame assembly, comprising: a frame mother frame, a eye frame frame and a object mirror seat; wherein the eye mirror frame is provided with a W slot in the eyepiece, wherein the eyepiece is embedded; The end plate is provided with an inner groove, and the front end defines an inner groove, wherein the objective lens is embedded; the frame mother frame defines a double inner EJ groove, and the eyepiece frame and the object mirror seat mounting plate are respectively inserted.

 The telescope frame assembly according to claim 4, wherein an inner edge of the frame mother frame and an outer edge of the eyepiece frame, an inner edge of the frame mother frame, and the object a magnetic attraction structure is respectively disposed at a joint portion between the outer edges of the mirror mounting plate, wherein: the inner edge of the frame female frame, the outer edge of the eyepiece frame, and the outer edge of the mirror mounting plate are respectively provided with a plurality of magnetic components The corresponding magnetic members between the inner edge of the frame mother frame and the outer edge of the eyepiece frame, the inner edge of the frame mother frame and the outer edge of the object mirror mounting plate are opposite in position, and the magnetic poles are opposite.

 6. A stereoscopic video frame assembly, comprising: a frame mother frame, a eye mirror holder and a object mirror holder; the bottom of the eyepiece holder is provided with a mounting plate, the side is provided with an annular buckle, and the inner mosaic plane reflection a mirror having a mirror surface that is at an angle of 45 degrees to the bottom surface of the eyepiece holder; an annular card slot is disposed on the inner side of the mirror holder, and an in-plane mirror is embedded therein, which is obliquely opposite to the plane mirror in the eyepiece holder; The frame mother frame is provided with a groove and is inserted into the eyepiece holder mounting plate.

 The stereoscopic optical frame assembly according to claim 6, further comprising a lens sub-frame, wherein an edge EJ slot is defined, wherein the plano-convex lens or the convex lens is embedded; and the frame mother frame defines another groove. The lens sub-frame is inserted.

8. A stereoscopic optical frame assembly according to claim 7 wherein: said mirror a magnetic attraction structure is respectively disposed between the inner edge of the female frame and the outer edge of the eyepiece mounting plate, the inner edge of the frame female frame and the outer edge of the lens sub-frame, wherein: the mirror a magnetic member is disposed on an inner edge of the female frame, an outer edge of the eyepiece mounting plate, and an outer edge of the lens sub-frame; and an inner edge of the frame female frame and an outer edge of the mounting plate of the eyepiece holder; The corresponding magnetic members between the inner edge of the frame mother frame and the outer edge of the lens sub-frame mounting disk are opposite in position and opposite in magnetic poles.

 The stereoscopic video frame assembly according to claim 6, wherein the object mirror window is disposed outside the mirror holder, and the window slot is disposed at an edge thereof.

 10. A stereoscopic video frame assembly according to any one of claims 6-9, wherein a rotating mechanism is mounted inside the object mirror mount to adjust the angle of the planar mirror in the mirror mount.