TWM352201U - Projection auxiliary device for rapid adjustment of 3-D stereoscopic image - Google Patents

Description

M352201 VIII. New description: [New technical field] The present invention relates to a projection auxiliary device, in particular to a 3D stereoscopic image quick calibration projection auxiliary device. [Previous Art] Referring to FIG. 1, a conventional stereoscopic projection device 1 includes a two-phase spaced projection camera 11, two polar polarizers 12 disposed in front of the two projectors 11, and one disposed on the two projections. Projection screen 13 in front of machine 11. The existing stereoscopic projection device 1 projects two images of different viewing angles through the two projectors 11 , and the polarizing plate 12 disposed in front of the two projectors 11 polarizes the image and then focuses on the projection. On the screen 3, because the two images produce different polarization directions and are perpendicular to each other, the stereo glasses 14 worn by the viewer 100 are matched so that the scenes reflected by the projection screen 13 are 'viewer 1 respectively. The left and right eyes of the cockroach are received so that the viewer's left and right eyes can see images of different viewing angles, and then the brain combines to produce a visual effect of the erect image. The existing stereoscopic projection device 1 manually adjusts the projection direction for each of the projectors 11 manually before the projection, so that the two projectors 11 can focus the focus on the projection screen 13 at the same time, because if the two projections The image projected by the machine 11 cannot be simultaneously focused on the projection screen 13, which may cause image misalignment or unequal focal length, resulting in deterioration of imaging quality affecting the effect of the stereoscopic image, but the range that can be adjusted by the existing projector U is projection. When the machine u is shipped from the factory, it is limited to 'adjust the projection direction. It is often necessary to increase the adjustable range by means of external items, such as books, boxes, etc. Not only does it cause difficulties in adjusting the existing projector 5 M352201 11 'more because the stability of external objects is low and it is easy to be offset or slipped by external force, which causes the projector u that may have been adjusted to be deflected twice. The effect of the domain (4) is stable, and there is room for improvement. [New content] The purpose of the present invention is to provide a 3D stereoscopic image quick calibration projection aid with a wide range of adjustment and stability. · The new 3D stereoscopic image rapid calibration projection aid is used for stereoscopic projection of the polarimeter φ light sheet in front of the corresponding projector, and the 3D stereo image quick calibration projection aid The 疋 contains a plurality of support columns, a load bearing unit, and an adjustment unit. The 3H carrying unit includes two carrier plates spaced apart and detachably disposed on the support column. The adjustment unit includes two adjustment plates respectively adjustably disposed on the two carrier boards, and a positioning frame corresponding to the two adjustment boards, wherein the two projectors are respectively placed on the two adjustment boards, And the positioning frame is located in front of the two projectors for respectively positioning the two polar polarizers in front of the corresponding projector. The new effect of Ruben is to use the two projectors respectively on the adjustment plate of the adjustment unit, and the two polar polarizers are respectively located in front of the corresponding projectors by using the positioning frame to increase the two projectors. The range of adjustment makes the images projected by the two projectors easier to calibrate, and the adjusted projector is not easy to shift or slide 'to make the imaging effect of stereoscopic image projection more stable. [Embodiment] 6 M352201 The foregoing and other technical contents, features and effects of the present invention will be clearly described in the detailed description of the two preferred embodiments of the present invention. Before the present invention is described in detail, it is noted that in the following description, like elements are denoted by the same reference numerals. Referring to Figures 2 and 3, the first preferred embodiment of the novel 3D stereoscopic image quick calibration projection assisting device 2 comprises a plurality of support columns 3, a carrying unit 4, an adjusting unit 5, and a fixed unit stone. The carrier unit 4 includes two carrier plates 41 that are spaced apart and detachably disposed on the support column 3, and each of the support columns 3 can be divided into a first column 31 sandwiched between the two carrier plates 41, and A second column 32 disposed in a stack corresponding to the first cylinder η. The side fixing unit 6 includes a plurality of fixing bolts 61 which are respectively disposed on the first and second cylinders 31 and 32 of each of the support columns 3 and the two carrier plates 41, and are respectively screwed to each of the fixing bolts 61 to protrude from each of the fixing bolts 61. A fixing member 62 at one end of the supporting column 3 is used to fasten the first and second cylinders 31, 32 of each supporting column 3 and the two supporting plates 41 by fixing members 62 screwed to each fixing bolt 61. Referring to FIG. 2 and FIG. 4, the adjusting unit 5 includes two adjusting plates 51 respectively adjustably disposed on the two carrying plates 41, a positioning frame 52 corresponding to the two adjusting plates 51, and a plurality of adjusting frames. The adjusting module 53 of the adjusting plate 51 has a plate body 511 and a plurality of elastic members 512 embedded in the plate body 511. In the preferred embodiment, each of the adjustment plates 51 and the carrier plate 41 has an adjustment module 53' opposite each of the adjustment plates 53'. The adjustment plate also has three springs! The raw member 512, of course, the adjustment The number and position of the module 53 and the elastic member 512 may be increased or changed as needed, and should not be limited by the disclosure of the embodiment. Each adjusting module 53 has an adjusting screw 531 which is disposed on the supporting plate 41 and the adjusting plate 51, and is screwed on the adjusting screw 531 for coupling the adjusting screw 531 and the supporting plate. A combined screw 's a 532 of 41, a lifting nut 533 movable on the adjusting screw 531 to adjust each adjusting plate 51, and a retaining spring 534 sleeved on each adjusting screw 5si. The retaining ring 534 is located between the adjusting nut 533 of each adjusting module 53 and the elastic member 512 of the adjusting plate 51. The positioning frame 52 has two clamping members 521 which are respectively spaced apart from the lower adjusting plate 51, and two positioning plates 522 respectively disposed on the corresponding clamping members 521, wherein each positioning plate 522 is formed with a plug. Slot 523. Referring to FIGS. 3 and 4, two projectors 2 are respectively disposed on the two adjustment plates 51, so that the two projectors 2 are arranged at an upper and lower intervals, and the two projectors 200 are arranged. The lens 201 faces the square of the positioning frame 52 and then inserts two polar polarizers 202 between the slots 523 of the positioning plate 522 of the positioning frame 52, so that the two polar polarizers 202 are respectively located. In front of the lens 201 of the second projector 200, the second projector 200 is started to perform projection 'immediately observing the projected image, and each adjustment plate 51 is adjusted relative to the corresponding direction according to the direction indicated by the arrow 7 in FIG. The position of the carrying plate 41 is adjusted to adjust the projected image so that the size, angle and focal length of the image projected by the two projectors 200 are the same. Since the clamping member 521 is clamped on the adjusting plate 51 below the M352201, The polar polarizer 202 can be kept in front of the lens 201 of the corresponding projector 200, and the polar polarizer 202 can be adjusted together with the two projectors 200, which is more convenient for adjustment. When the image size, the angle and the focal length projected by the two projectors 200 are the same, the adjusting nut 533 of each adjusting module 53 is rotated, so that each adjusting nut 533 is abutted against the retaining ring 534. Forcing the retaining ring 534 against the bottom surface of the plate body 511 of each adjusting plate 51, thereby positioning the position and the inclined state of each adjusting plate 51, and maintaining each adjusting plate 51 as shown in FIG. The position, and thus the projection position and angle of the projector 200 disposed on each of the adjustment plates 51, make the imaging effect of the 3D stereoscopic image projection more stable. With the above structural design, the new 3D stereoscopic image quick calibration projection assisting device 2 has the following advantages: 1. Wide adjustment range: by setting the two projectors 200 on the two adjusting plates 51, the adjusting mode is utilized. The adjusting screw 531 of the group 53 and the adjusting nut 533 adjust and position the position and the inclined shape of the adjusting plate 51 with respect to the corresponding supporting plate 41, so that the projector 200 can be adjusted except for the range that can be adjusted by itself. The adjustment range of the adjustment screw 531 is further increased, so that the projection adjustment range of the projector 200 is wider. 2. Convenient adjustment: Continuing the above, since the adjusting screw 531 and the adjusting nut 533 of the adjusting module 53 can be used to adjust and position the position and the inclined shape of the adjusting plate 51 with respect to the corresponding supporting plate 41. It is not necessary to find a suitable replacement object when adjusting the projection effect, which makes the adjustment of the projector 200 M3 52201 more convenient and simple. 3. High stability: Continuing the above, with the adjustment mode of the adjusting screw 5M of the adjusting module 53 and the adjusting nut 533 (four), the overall structure is more stable than the adjustment method by using the substitute object, thereby effectively avoiding the influence of external force. The adjusted projection (4) is deflected again, so that the stability after adjustment is higher, and the effect of the projection is more stable. 4. Disassembly is convenient: after the use of the new 3D stereoscopic image quick calibration projection assisting device 2, only the fixing member 62 on each fixing bolt 61 of the fixing unit 6 needs to be loosened, and each supporting column 3 can be disassembled. The first and second cylinders 31 and 32, and the two carrier plates 41, and then the adjusting screw 531 and the coupling nut 532 of each adjusting module 53 are loosened, so that the plate body of the adjusting plate 51 is 5 ΐ 与The carrier plates 41 are separated from each other to facilitate storage. It should be particularly noted that the elastic member 512 embedded in the plate body 511 of the adjusting plate 51 can effectively prevent the plate body 511 of the adjusting plate 51 from interacting with each adjusting screw 531 during disassembly and assembly. The friction causes wear, and the retaining ring 534 between the adjusting nut 533 of each adjusting module 53 and the elastic member 512 of the two adjusting plates 51 can provide a larger between the adjusting nut 533 and the two adjusting plates 51. The contact area effectively disperses the weight of the two adjustment plates 51, so that the stability of the two adjustment plates 51 is higher. Referring to Figures 5 and 6, the second preferred embodiment of the present 3D stereoscopic image quick calibration projection assisting device 2 is substantially the same as the first preferred embodiment, and the similarities are no longer in common, and the differences are not the same. The utility model further comprises an adjusting seat 8 for supporting the supporting column 3, the adjusting seat 8 comprises a seat body 81' disposed on a plane, and a branch 10 M352201 movably disposed on the seat body 81. a support plate 3, the support column 3 is standing on the support plate 82, and the support plate 82 is at abutment position against the base 81 with respect to the base 81, and a seat body The 81-phase separated adjustment position moves, and the support plate 82 can move between the abutting position and the adjusted position, thereby effectively increasing the projection adjustment range of the projector 2〇〇 placed on the adjustment plate 51. Make adjustments more convenient. In summary, the 3D stereoscopic image quick calibration projection auxiliary device φ 2 of the present invention adjusts and positions the adjustment plate 51 by using the adjusting screw 531 and the adjusting nut 533 of each adjustment module 53. In the state, the range that can be adjusted by the projector 200 is increased, so that the dual images projected by the second projector 2 are more easily calibrated, and the adjusted projector 2 is not easily offset or slid, so that the 3D stereoscopic image is projected. The imaging effect is more stable, so it can achieve the purpose of this new type. However, the above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, that is, the simple equivalent change made by the patent application (4) and the new description content is Modifications are still within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a conventional stereoscopic projection device; FIG. 2 is an exploded perspective view showing a first preferred embodiment of the novel 3D stereoscopic image rapid calibration technical aid device; 1 is a cross-sectional view, and FIG. 4 is a cross-sectional view showing the modified embodiment. FIG. 5 is a side view showing the second 3D stereo image quick calibration and 11 M352201 shadow assisting device. The preferred embodiment is in an abutment position; and Figure 6 is a side elevational view of the second preferred embodiment in an adjusted position. 12 M352201

[Main component symbol description] 2 3D stereo image fast 531 Calibration projection aid 532 3 Support column 533 31 First cylinder 534 32 Second cylinder 6 4 Carrying unit 61 41 Carrier plate 62 5 Adjustment unit 7 51 Adjustment plate 8 511 Plate 81 512 Elastic member 82 52 Positioning frame 200 521 Clamping member 201 522 Positioning plate 202 523 Slot 53 Adjustment module adjustment screw combined nut adjustment nut retaining ring fixing unit fixing bolt fixing member arrow adjustment seat body support plate Projector lens polar polarizer 13

Claims (1)

M352201 IX. Patent application scope: 1 _ 3D stereo image quick calibration projection auxiliary device for stereo projection with two projectors and two polar polarizers respectively in front of the corresponding projector. The 3D stereo image is fast. The calibration projection auxiliary device comprises: a plurality of support columns; a carrying unit comprising: two carrier plates spaced apart from each other and detachably disposed on the support columns; and an adjustment unit comprising two adjustable adjustments respectively disposed on the two carrier plates An adjustment plate, and a positioning frame corresponding to the two adjustment plates, wherein the two projectors are respectively placed on the two adjustment plates, and the positioning frame is located in front of the two projectors for making the two The polar polarizers are respectively located in front of the corresponding projectors. 2. The 3D stereoscopic image quick calibration projection auxiliary device according to the scope of the patent application scope, wherein the adjustment unit further comprises a plurality of adjustment modules for adjusting the two adjustment plates, each adjustment module having a simultaneous An adjusting screw that is disposed on the carrying plate of the carrying unit and an adjusting plate disposed on the carrying plate, and a screw that taps on the adjusting screw for combining the adjusting screw and the carrying plate, and a coupling nut Move on the adjustment screw to adjust the adjustment nut of each adjustment plate. 3_ According to t, please refer to (4) the 3D stereoscopic image quick calibration projection auxiliary device described in item 2, where the positioning frame of the adjustment unit has two clamping members and two separate clamping members on one of the adjusting plates. In the positioning plate on the corresponding clamping member, "in, each positioning plate is formed with a slot for the 14 M352201 to be inserted into the two-polar polarizer. 4. According to the third paragraph of the patent scope, the 3D stereoscopic image quick calibration projection auxiliary device 'where each adjustment plate has a plate body, and most of the elastic members embedded in the plate body, and each- The adjusting screw of the adjusting module is disposed in the corresponding elastic member, and each adjusting module further has a set of retaining rings disposed on each adjusting screw, wherein the retaining ring is located in each adjusting die. Between the adjustment nut of the set and the elastic member of the plate. 5. According to t, please select the 3D stereoscopic image of the 3D stereoscopic image to quickly calibrate the projection aid device, and the support column can be divided into the first cylinder sandwiched between the two carrier plates. And a second column stacked corresponding to the first column, and the fixing unit includes a plurality of fixing bolts respectively penetrating the first and second columns and the two carrier plates of each support column, and a plurality of Screws are respectively screwed to the fixing members of each of the fixing bolts protruding from one end of each of the support columns. 6. The 3D stereoscopic image quick calibration according to item 4 of the scope of the patent application _ projection auxiliary device further includes an adjustment seat for supporting the support column, the adjustment seat comprising a seat body disposed on a plane And a support plate movably disposed on the base body, the support column is disposed on the support plate, and the support plate is opposite to the seat body at abutment position of the base body And moving between the adjusted positions separated from the seat. 15