CN207439649U - AR optical surface eyeglass detection devices - Google Patents

Abstract

The utility model discloses a kind of AR optical surfaces eyeglass detection devices, belong to detection device technical field, including stent, display screen and semi-transparent semi-reflecting eyeglass are installed on the stent, the stent includes being capable of the lens supports of horizontal positioned eyeglass to be measured, the display screen is vertically provided at the one side of the lens supports, and the semi-transparent semi-reflecting eyeglass is inclined at the top of the lens supports, and at an acute angle between the display screen and the lens supports respectively.The design detection time is short, and detection result is good, can carry out subjective full inspection and objective full inspection to optical surface eyeglass, can effectively avoid the outflow of defective products and reach the standard grade, the device is simple, portable, and not damaged to product, does not influence the follow-up use of eyeglass.

Description

AR optical surface eyeglass detection devices

Technical field

The utility model belongs to detection device technical field, and in particular to a kind of AR optical surfaces eyeglass detection device.

Background technology

With the development of economic technology, got over using the crowd of augmented reality (Augmented Reality, abbreviation AR) equipment Come more extensive so that AR equipment Markets flourish, but since current AR industries are at the early-stage, for optical surface eyeglass into As the detection method of effect is also in the stage of fumbling.The method of most of detection optics curve lens be by measuring apparatus of arbitrary shape come The curvature of optical surface eyeglass is measured, this is measurement indirectly, it is impossible to directly detect its imaging effect；This apparatus measures cycle Long, measuring apparatus is expensive, and for optical grade eyeglass, after measurement, product can only scrap processing, so sampling Detection is at most used as, It can not achieve the full inspection of product.

Utility model content

Technical problem to be solved in the utility model is：A kind of AR optical surfaces eyeglass detection device, Neng Gouzhi are provided The imaging effect of detection eyeglass is connect, detection time is short, can realize the full inspection of product, and not damaged to product, does not influence eyeglass Follow-up use.

In order to solve the above technical problems, the technical solution of the utility model is：

AR optical surface eyeglass detection devices, including stent, are equipped with display screen and semi-transparent semi-reflecting eyeglass on the stent, The stent includes being capable of the lens supports of horizontal positioned eyeglass to be measured, and the display screen is vertically provided at the lens supports One side, the semi-transparent semi-reflecting eyeglass are inclined at the top of the lens supports, and respectively with the display screen and the mirror It is at an acute angle between plate rack.

Further, the lens supports be two supporting tables being oppositely arranged on the bracket, the eyeglass to be measured Both ends be individually positioned in two supporting tables.

Further, reclinate arc sections are respectively equipped in two supporting tables.

Further, two downwardly projecting arc sections are respectively equipped in two supporting tables, positioned at the same side Two arc sections are structure as a whole.

Further, the eyeglass to be measured includes left eyeglass to be measured and right eyeglass to be measured, left side eyeglass to be measured and described Right eyeglass to be measured is individually positioned in two arc sections in left side and two arc sections on right side, the left side mirror to be measured The edge of piece and the right side eyeglass to be measured fits together.

Further, the stent includes：Bottom plate, opposite both sides two first support connected vertically with the bottom plate Plate, first support plate are ladder structure of right angle, and the upper bottom edge and bottom of the right-angled trapezium are each perpendicular to the bottom plate； The second support plate is provided between the bottom of two first support plates；The supporting table is arranged on two first support plates Upper bottom edge between away from the bottom plate one end.

Further, the upper end of first support plate is connected with installing plate, and the semi-transparent semi-reflecting eyeglass is mounted on described Between installing plate and the supporting table being connected in first support plate.

Further, the installing plate is described aobvious with being connected to the 3rd support plate on the outside of second support plate Display screen is mounted between two the 3rd support plates, and the 3rd support plate is connected with the baffle on the outside of the display screen.

Further, the surface of the eyeglass to be measured is equipped with photographing device, the photographing device and image analyzer electricity Connection.

Further, it is coated with or is pasted with semi-transparent semi-reflecting film on the inside of the semi-transparent semi-reflecting eyeglass.

After employing above-mentioned technical proposal, the beneficial effects of the utility model are：

Due to the AR optical surface eyeglass detection devices of the utility model, including stent, be equipped on stent display screen and Semi-transparent semi-reflecting eyeglass, stent include being capable of the lens supports of horizontal positioned eyeglass to be measured, and display screen is vertically provided at lens supports One side, semi-transparent semi-reflecting eyeglass is inclined at the top of lens supports, and the Cheng Rui between display screen and lens supports respectively Angle.When detecting optics curve lens, display screen recalls test pictures, reflection through semi-transparent semi-reflecting eyeglass and eyeglass to be measured and wears It is the imaging effect that eyeglass to be measured can be observed in the surface of eyeglass to be measured, detection time is short, energy after crossing semi-transparent semi-reflecting lens piece Enough realize the full inspection of product, the device is simple, portable, and not damaged to product, does not influence its using effect.

Since lens supports are two supporting tables being oppositely arranged on stent, the both ends of eyeglass to be measured are individually positioned in two In supporting table, the contact area of eyeglass to be measured and lens supports can be effectively reduced, avoids generating cut to eyeglass to be measured, and conveniently Eyeglass to be measured picks and places.

Since the surface of eyeglass to be measured is equipped with photographing device, photographing device is electrically connected with image analyzer.It can use and clap It takes pictures according to equipment to imaging effect, picture is then imported into image analyzer, the analysis of picture is sentenced by image analyzer Disconnected imaging effect, i.e., by imaging effect digitization, objectify, can avoid subjective impact, reach higher examination criteria.

In conclusion the AR optical surface eyeglass detection devices of the utility model, detection time is short, and detection result is good, can To carry out subjective full inspection and objective full inspection to optical surface eyeglass, it can effectively avoid the outflow of defective products and reach the standard grade, the device is simple Easily, it is portable and not damaged to product, the follow-up use of eyeglass is not influenced.

Description of the drawings

Fig. 1 is the three-dimensional cutaway view of the utility model AR optical surface eyeglass detection devices；

Fig. 2 is the fundamental diagram of the utility model AR optical surface eyeglass detection devices；

In figure, 1- stents, 11- supporting tables, 12- arc sections, 13- bottom plates, the first support plates of 14-, the second support plates of 15-, 16- installing plates, the 3rd support plates of 17-, 2- display screens, the semi-transparent semi-reflecting eyeglasses of 3-, 4- eyeglasses to be measured, 5- photographing devices.

Specific embodiment

The utility model is further illustrated with reference to the accompanying drawings and examples.

In the description, it is inside close to the one side of this detection device center, away from this detection device center One side be outside.

As shown in Figure 1, AR optical surface eyeglass detection devices, including stent 1, display screen 2 and semi-transparent is installed on stent 1 Semi-reflective mirror piece 3, stent 1 include being capable of the lens supports of horizontal positioned eyeglass 4 to be measured, and display screen 2 is vertically provided at lens supports One side, semi-transparent semi-reflecting eyeglass 3 is inclined at the top of lens supports, and respectively between display screen 2 and lens supports into Acute angle.Lens supports are two supporting tables 11 being oppositely arranged on stent 1, and the both ends of eyeglass 4 to be measured are individually positioned in two It supports on platform 11.

As shown in Figure 1, be respectively equipped with two reclinate arc sections 12 in two supporting tables 11, the radian of arc sections 12 with The radian at 4 both ends of eyeglass to be measured of standard is consistent, and two arc sections 12 positioned at the same side are structure as a whole.Eyeglass 4 to be measured includes Left eyeglass to be measured and right eyeglass to be measured, left eyeglass to be measured and right eyeglass to be measured are individually positioned in two arc sections, 12 He positioned at left side In two arc sections 12 on right side, wherein, the edge of left eyeglass to be measured and right eyeglass to be measured fits together.

If Fig. 1 and Fig. 2 are jointly shown, stent 1 includes bottom plate 13 and the opposite both sides connected vertically two the with bottom plate 13 One support plate 14, the first support plate 14 are ladder structure of right angle, and the upper bottom edge and bottom of right-angled trapezium are each perpendicular to bottom plate 13； The second support plate 15 is provided between the bottom of two first support plates 14；Supporting table 11 is arranged on the upper of two first support plates 14 One end away from bottom plate 13 between base.The upper end of first support plate 14 is connected with installing plate 16, and semi-transparent semi-reflecting eyeglass 3 is mounted on Between installing plate 16 and the supporting table 11 being connected in the first support plate 14.The outside difference of 16 and second support plate 15 of installing plate The 3rd support plate 17 is connected with, display screen 2 is mounted between two the 3rd support plates 17, and the 3rd support plate 17 is connected with positioned at display The baffle in 2 outside of screen, baffle can set one respectively in two the 3rd support plates 17, also can only set two the 3rd support plates 17 In any one on, can prevent display screen 2 from not in place and display screen 2 being installed and is skidded off between two the 3rd support plates 17.Its In, bottom plate 13, the first support plate 14, the second support plate 15, supporting table 11,16 and the 3rd support plate 17 of installing plate are integrated knot Structure.

As shown in Fig. 2, when the present apparatus detects, display screen 2 recalls test pictures, and image is reflected into through semi-transparent semi-reflecting eyeglass 3 It on eyeglass 4 to be measured, is then reflected into through eyeglass 4 to be measured on semi-transparent semi-reflecting eyeglass 3, parts of images is transmitted through semi-transparent semi-reflecting eyeglass 3 Afterwards, tester can observe the imaging effect of eyeglass 4 to be measured in the surface of eyeglass 4 to be measured.

If Fig. 1 and Fig. 2 are jointly shown, photographing device 5, photographing device 5 and image point are equipped in the surface of eyeglass 4 to be measured Analyzer is electrically connected.It is taken pictures with photographing device 5 to imaging effect, picture is then imported into image analyzer, pass through graphical analysis Instrument judges imaging effect to the analysis of picture.

The inside of semi-transparent semi-reflecting eyeglass 3 is coated with or is pasted with semi-transparent semi-reflecting film, can need to adjust according to test semi-transparent semi-reflecting The transmissivity and reflectivity of eyeglass 3 so that be ultimately imaged achieve the effect that it is best.

The AR optical surface eyeglass detection devices of the utility model, by observing the imaging effect of optical surface eyeglass come straight The quality of detection optics curve lens is connect, detection time is short, and detection result is good, and subjective full inspection can be carried out to optical surface eyeglass And objective full inspection, it can effectively avoid the outflow of defective products and reach the standard grade, the device is simple, portable, and not damaged to product, does not influence The follow-up use of eyeglass.

Although the foregoing describe specific embodiment of the present utility model, it should be appreciated by those skilled in the art, Described embodiment is only the part of the embodiment of the utility model, and instead of all the embodiments, these are only to lift Example explanation, the scope of protection of the utility model is to be defined by the appended claims.Those skilled in the art is without departing substantially from this It, can be to these embodiments under any performing creative labour of no process on the premise of the principle and essence of utility model Various changes or modifications are made, but these change and modification each fall within the scope of protection of the utility model.

Claims (10)

1.AR optical surface eyeglass detection devices, which is characterized in that including stent, display screen and semi-transparent is equipped on the stent Semi-reflective mirror piece, the stent include being capable of the lens supports of horizontal positioned eyeglass to be measured, and the display screen is vertically provided at described The one side of lens supports, the semi-transparent semi-reflecting eyeglass are inclined at the top of the lens supports, and respectively with the display It is at an acute angle between screen and the lens supports.

2. AR optical surfaces eyeglass detection device according to claim 1, which is characterized in that the lens supports are two The supporting table being oppositely arranged on the bracket, the both ends of the eyeglass to be measured are individually positioned in two supporting tables.

3. AR optical surfaces eyeglass detection device according to claim 2, which is characterized in that in two supporting tables respectively Equipped with reclinate arc sections.

4. AR optical surfaces eyeglass detection device according to claim 3, which is characterized in that in two supporting tables respectively If there are two the downwardly projecting arc sections, two arc sections positioned at the same side are structure as a whole.

5. AR optical surfaces eyeglass detection device according to claim 4, which is characterized in that the eyeglass to be measured includes a left side Eyeglass to be measured and right eyeglass to be measured, the left side eyeglass to be measured and the right side eyeglass to be measured are individually positioned in positioned at described in the two of left side In arc sections and two arc sections on right side, the edge of the left side eyeglass to be measured and the right side eyeglass to be measured fits together.

6. AR optical surfaces eyeglass detection device according to claim 2, which is characterized in that the stent includes：

Bottom plate,

Opposite both sides two first support plate connected vertically with the bottom plate, first support plate are ladder structure of right angle, The upper bottom edge and bottom of the right-angled trapezium are each perpendicular to the bottom plate；

The second support plate is provided between the bottom of two first support plates；

The supporting table is arranged on one end away from the bottom plate between the upper bottom edge of two first support plates.

7. AR optical surfaces eyeglass detection device according to claim 6, which is characterized in that first support plate it is upper End is connected with installing plate, and it is described in first support plate with being connected to that the semi-transparent semi-reflecting eyeglass is mounted on the installing plate Between supporting table.

8. AR optical surfaces eyeglass detection device according to claim 7, which is characterized in that the installing plate and described the The 3rd support plate is connected on the outside of two support plates, the display screen is mounted between two the 3rd support plates, described 3rd support plate is connected with the baffle on the outside of the display screen.

9. AR optical surfaces eyeglass detection device according to claim 1, which is characterized in that the eyeglass to be measured just on Side is equipped with photographing device, and the photographing device is electrically connected with image analyzer.

10. the AR optical surface eyeglass detection devices according to claim 1 to 9 any claim, which is characterized in that institute It states and is coated with or is pasted with semi-transparent semi-reflecting film on the inside of semi-transparent semi-reflecting eyeglass.