CN2775704Y

CN2775704Y - Stereoscope imaging lens stereoscopic viewing lens

Info

Publication number: CN2775704Y
Application number: CN 200520016766
Authority: CN
Inventors: 田宪文
Original assignee: Individual
Current assignee: Individual
Priority date: 2005-04-13
Filing date: 2005-04-13
Publication date: 2006-04-26
Anticipated expiration: 2015-04-13

Abstract

The utility model discloses a stereoscopic imaging mirror and a stereoscopic viewing mirror which is matched with the stereoscopic imaging mirror. The stereoscopic imaging mirror comprises two identical structures, each of which is composed of a first convex column lens, a concave column lens, a first reflecting mirror, a second reflecting mirror and a second convex column lens which are orderly fixed on a casing; the stereoscopic viewing mirror comprises two identical structures, each of which is composed of a convex column lens, a first reflecting mirror, a second reflecting mirror and a concave column lens which are orderly fixed on the casing. The structure of the stereoscopic imaging mirror and the structure of the stereoscopic viewing mirror are simple, and column-shaped lenses are respectively adopted by the stereoscopic imaging mirror and the stereoscopic viewing mirror to carry out compression or magnification for an image in one direction; the pixel can be effectively utilized, and simultaneously, the distortion of the image can be reduced. The stereoscopic imaging mirror can be used for shooting stereoscopic television programs, and the programs can be played on a common television; when people wear the stereoscopic viewing mirror, the people can watch the stereoscopic television programs which are shot by the stereoscopic imaging mirror.

Description

Three-dimensional imaging mirror and three-dimensional viewing len

Affiliated technical field

The utility model relates to a kind of optical frames, especially for the additional mirror of stereo camera shooting and the specialized mirror of watching this stereo-picture.

Background technology

Stereo-picture has true to nature and lively effect.For many years, the new technology of being devoted to study three-dimensional imaging emerges in an endless stream, and this just can see from patent database.But yet there are no so far for the technology of on general television set, watching stereoscopic picture plane and to be applied.See that by patent retrieval existing close technology mainly contains the special electronics capture apparatus of employing and carries out reverse shot left and right sides picture; Adopt two video cameras to take left and right sides picture; Take stereoscopic picture plane with laser hologram; Adopt the grating branch to resemble method shooting picture or the like in addition.But mostly there is complex structure in above technology, and cost is higher, and have image is synthesized and decomposes is complicated, and what also have can not take the image that moves.Known unit is taken the technology of two picture images, the imaging of main employing spherical convex lens, to become image be the indeformable image of full compression, therefore screen or egative film about, left and right sides clearance spaces is bigger, the utilization factor of pixel is lower, and the stereo-picture of its shooting can only be limited on the special display and play, and can not play on general television set.When watching stereo-picture, normal special electronic glasses and the structure of adopting of prior art reaches stereoeffect than the complicated mechanical rotational transform, electronic glasses needs the signal synchronous with the frame frequency of televisor, otherwise can not watch stereoscopic picture plane, and mechanical rotation formula complicated in mechanical structure often, weight is big, uses inconvenience.

Summary of the invention

The purpose of this utility model is to overcome the defective that above-mentioned prior art exists, provide a kind of simple in structure, effectively utilize image pixel, the imaging mirror that the degree of distortion of picture is lower and matching used with it simple in structure, easy to use, as the lower viewing len of degree of distortion.

The utility model three-dimensional imaging mirror is achieved through the following technical solutions, and it is by the two groups of identical structures forming by the first projection lens, concave cylindrical lens, first catoptron, second catoptron and the second projection lens successively that are fixed on the housing.

The three-dimensional viewing len of the utility model, it is by the two groups of identical structures forming by concave cylindrical lens, first catoptron, second catoptron and projection lens successively that are fixed on the housing.

Because the utility model three-dimensional imaging mirror and all lens of three-dimensional viewing len all adopt the post lens, only in the horizontal direction or carry out the compression of a direction on the vertical direction to image, the utilization factor of pixel is higher, and the post lens compare handling ease with spherical lens, as degree of distortion lower.

Description of drawings

Fig. 1 is the structural representation of the utility model three-dimensional imaging mirror;

Fig. 2 is the structural representation of the three-dimensional viewing len of the utility model.

Embodiment

Below in conjunction with drawings and embodiments the utility model is described in further detail.Shown in Figure 1, the utility model three-dimensional imaging mirror is formed two groups of identical structures by the first projection lens (1), concave cylindrical lens (2), first catoptron (3), second catoptron (4) and the second projection lens (5) successively according to the direction of propagation of light.All eyeglasses all are fixed in the mirror shell and in the eyeglass end face corresponding grooves, the three-dimensional imaging mirror of Zu Chenging is fixed on the front of common camera camera lens thus, promptly can be used for taking stereo-picture.Image being shot enters by two camera lenses of three-dimensional imaging mirror simultaneously during shooting, by being compressed in the horizontal direction behind protruding, the concave cylindrical lens (1) (2) (5), and do not compress on the vertical direction, obtain two independently perpendicular long images, optimum compression ratio on horizontal direction and the vertical direction is 2 to 1, it is unified picture that the imaging surface of two images is combined, and pixel energy farthest is used like this, and has also reduced image fault owing to the pixel of vertical direction is not compressed.The image of compression is concentrated after through first and second catoptrons to send into camera lens, is recorded on the tape.

Shown in Figure 2, the three-dimensional viewing len of the utility model is formed two groups of identical structures by projection lens (1), first catoptron (3), second catoptron (2) and concave cylindrical lens (4) successively according to the direction of propagation of light.All eyeglasses all are fixed in the mirror shell and in the eyeglass end face corresponding grooves, also can load onto turning axle on second catoptron (2), regulate the image quality of picture.Also projection lens (1) or concave cylindrical lens (4) can be made the camera lens that can adjust focal length.The three-dimensional viewing len of Zu Chenging is exclusively used in and the supporting use of three-dimensional imaging mirror thus.When on televisor, playing, put on three-dimensional viewing len and can see stereo-picture by the image of three-dimensional imaging mirror production.Its principle is: what the image of playing on the televisor was seen by naked eyes is the perpendicular long image of two separation, what put on that left eye is seen behind the three-dimensional viewing len is left image on the televisor, right eye is seen is right image on the televisor, after these images pass through post projection lens (1) and concave cylindrical lens (4), pixel is amplified in the horizontal direction, its enlargement factor is the horizontal compression multiple of three-dimensional imaging mirror, and in the vertical direction is constant, this sampled images obtains reduction, becomes stereo-picture after the image overlay that left eye and right eye are seen.

Claims

1. three-dimensional imaging mirror, it is characterized in that: it is by the two groups of identical structures forming by the first projection lens 1, concave cylindrical lens 2, first catoptron 3, second catoptron 4 and the second projection lens 5 successively that are fixed on the housing.

2. three-dimensional viewing len, it is characterized in that: it is by the two groups of identical structures forming by projection lens 1, first catoptron 3, second catoptron 2 and concave cylindrical lens 4 successively that are fixed on the housing.