CN204786177U - Optical modulex debugs device - Google Patents

Abstract

The utility model discloses an optical modulex debugs device, including cavity and the Z axle adjustment mechanism who sets up at the cavity both ends, being equipped with a plurality of Y axle adjustment mechanism on the Z axle adjustment mechanism, be equipped with X axle adjustment mechanism on the Y axle adjustment mechanism, structural a plurality of LED carriers of installing are adjusted to the X axle, are equipped with LED light source and lens on the LED carrier in proper order. X axle adjustment mechanism, Y axle adjustment mechanism and Z axle adjustment mechanism can be adjusted respectively to this device to adjust the LED light source in X axle direction, Y axle direction and Z axle direction respectively, thereby realize the regulation of X axle LED light source distance, Y axle LED light source distance and mixed light distance. The utility model discloses simple structure can realize the verification debugging of scheme in a poor light fast, shortened the proving period greatly and reduced the verification cost, but the wide application is in optical modulex's debugging verification field.

Description

A kind of optics module debugging apparatus

Technical field

The utility model relates to optics module debugging technique field, particularly a kind of optics module debugging apparatus.

Background technology

Along with the development of flat panel TV industry, in order to adapt to different market demands, backlight module, as television set important component part, optical index, cost structure constantly changes.

Traditional backlighting scheme adjustment needs to make backboard cavity palm, etches the RF4 corresponding with backlighting scheme or aluminium base simultaneously, then fixes corresponding LED light source and lens by SMT.In traditional backlighting scheme, light mixing distance, X-axis LED light source Distance geometry Y-axis LED light source range direction are fixing, cannot regulate.If scheme needs adjustment, the manufacturing process of above backboard cavity and lamp bar also needs to re-start once.In the development process of each type television set, on average need adjustment 3 backlighting scheme, the backlighting scheme that each customization is new, the expense of backboard cavity is 1000 yuan, the expense of drawing a design of lamp bar is 800 yuan ~ 1000 yuan, and fabrication cycle is 5 days ~ 7 days.Therefore, the cycle that often overlapping ripe backlighting scheme locking needs is 15 days ~ 21 days, and the sample expense of project setting is 3400 yuan ~ 4000 yuan.The proof procedure of traditional backlighting scheme, have that production process is many, checking costly, the drawback such as the project setting cycle is long.

Same, concerning the LED light assembly of lighting field etc., when needing checking light mixing distance, X-axis LED light source Distance geometry Y-axis LED light source distance, also have that production process is many, checking costly, the project setting cycle drawback such as to grow.

Utility model content

In order to solve above-mentioned technical problem, the purpose of this utility model is to provide a kind of optics module debugging apparatus.

The utility model solves the technical scheme that its technical problem adopts:

A kind of optics module debugging apparatus, comprise cavity and be arranged on the Z axis governor motion at cavity two ends, described Z axis governor motion is provided with multiple Y-axis governor motion, described Y-axis governor motion is provided with X-axis governor motion, described X-axis adjustment structure is provided with multiple LED carrier, described LED carrier is provided with LED light source and lens successively.

Further, described Z axis governor motion comprises slide plate and multiple draw-in groove being positioned at differing heights, and described slide plate is arranged on arbitrary draw-in groove.

Further, described Z axis governor motion is provided with the first rule in draw-in groove end.

Further, described slide plate is provided with the second rule.

Further, described Y-axis governor motion comprises carrier strip and is arranged on the guide groove at carrier strip two ends, and described carrier strip is slidably connected by guide groove and slide plate.

Further, described X-axis governor motion is be arranged on the gathering sill in the middle of carrier strip, and described LED carrier is slidably mounted in gathering sill.

Further, described carrier strip is also provided with three rule parallel with gathering sill.

Further, spring contact conducting is passed through between described LED carrier and gathering sill, between carrier strip and slide plate and between slide plate and draw-in groove.

Further, the reflector plate that the light for sending LED light source reflects also is installed in described cavity.

The beneficial effects of the utility model are: a kind of optics module debugging apparatus of the present utility model, comprise cavity and be arranged on the Z axis governor motion at cavity two ends, Z axis governor motion is provided with multiple Y-axis governor motion, Y-axis governor motion is provided with X-axis governor motion, X-axis adjustment structure is provided with multiple LED carrier, LED carrier is provided with LED light source and lens successively.This device can regulate X-axis governor motion, Y-axis governor motion and Z axis governor motion respectively, thus in X-direction, Y direction and Z-direction, LED light source is regulated respectively, thus realize the adjustment of X-axis LED light source distance, Y-axis LED light source Distance geometry light mixing distance.The utility model structure is simple, can realize the verifying and debugging of backlighting scheme rapidly, substantially reduces proving period and reduces checking cost.

In addition, the utility model is applied to the fields such as lighting field, also can realize the verifying and debugging of light source package rapidly, greatly shortens proving period and reduces checking cost.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail.

Fig. 1 is the first structural representation of a kind of optics module debugging apparatus of the present utility model;

Fig. 2 is the second structural representation of a kind of optics module debugging apparatus of the present utility model;

Fig. 3 is the partial cutaway schematic of Fig. 2;

Fig. 4 is the 3rd structural representation of a kind of optics module debugging apparatus of the present utility model;

Fig. 5 is the structural representation of the carrier strip of a kind of optics module debugging apparatus of the present utility model;

Fig. 6 is the enlarged diagram of part A in Fig. 5;

Fig. 7 is the cross-sectional view in B-B direction in Fig. 6.

Detailed description of the invention

See figures.1.and.2, the utility model provides a kind of optics module debugging apparatus, comprise cavity 1 and be arranged on the Z axis governor motion at cavity 1 two ends, described Z axis governor motion is provided with multiple Y-axis governor motion, described Y-axis governor motion is provided with X-axis governor motion, described X-axis adjustment structure is provided with multiple LED carrier 4, described LED carrier 4 is provided with successively LED light source 5 and lens 6.X-axis governor motion, Y-axis governor motion and Z axis governor motion can regulate LED light source 5 in X-direction, Y direction and Z-direction respectively, thus realize the adjustment of X-axis LED light source distance, Y-axis LED light source Distance geometry light mixing distance.

Be further used as preferred embodiment, with reference to Fig. 3, described Z axis governor motion comprises slide plate 3 and multiple draw-in groove 12 being positioned at differing heights, and described slide plate 3 is arranged on arbitrary draw-in groove 12.

Be further used as preferred embodiment, with reference to Fig. 4, described Z axis governor motion is provided with the first rule 11 in draw-in groove 12 end.

Be further used as preferred embodiment, described slide plate 3 is provided with the second rule 31.

Be further used as preferred embodiment, described Y-axis governor motion comprises carrier strip 2 and is arranged on the guide groove 23 at carrier strip 2 two ends, and described carrier strip 2 is slidably connected by guide groove 23 and slide plate 3.

Be further used as preferred embodiment, with reference to Fig. 5 and Fig. 6, described X-axis governor motion is be arranged on the gathering sill 22 in the middle of carrier strip 2, and described LED carrier 4 is slidably mounted in gathering sill 22.

Be further used as preferred embodiment, described carrier strip 2 be also provided with three rule 21 parallel with gathering sill 22.

Be further used as preferred embodiment, between described LED carrier 4 and gathering sill 22, between carrier strip 2 and slide plate 3 and between slide plate 3 and draw-in groove 12, pass through spring contact conducting.Gathering sill 22 belongs to a part for carrier strip 2, and therefore LED carrier 4 and gathering sill 22 conducting are equivalent to LED carrier 4 and carrier strip 2 conducting, and with reference to shown in Fig. 7, LED carrier 4 is by spring contact 41 and carrier strip 2 conducting.

Be further used as preferred embodiment, the reflector plate 7 that the light for sending LED light source 5 reflects also is installed in described cavity 1.

Below in conjunction with a specific embodiment, the utility model is elaborated.

See figures.1.and.2, a kind of optics module debugging apparatus, comprise cavity 1 and be arranged on the Z axis governor motion at cavity 1 two ends, Z axis governor motion is provided with multiple Y-axis governor motion, Y-axis governor motion is provided with X-axis governor motion, X-axis adjustment structure is provided with on multiple LED carrier 4, LED carrier 4 and is provided with LED light source 5 and lens 6 successively, the reflector plate 7 that the light for sending LED light source 5 reflects also is installed in cavity 1.X-axis governor motion, Y-axis governor motion and Z axis governor motion can regulate LED light source 5 in X-direction, Y direction and Z-direction respectively, thus realize the adjustment of X-axis LED light source distance, Y-axis LED light source Distance geometry light mixing distance.

The effect of LED carrier 4 be by STM by LED light source 5 and lens 6 fixed thereon, then be arranged on X-axis governor motion, thus regulate X-axis governor motion, Y-axis governor motion and Z axis governor motion can realize the movement of LED light source 5 on X, Y and Z tri-directions respectively.

With reference to Fig. 3 and Fig. 4, in the present embodiment, Z axis governor motion comprises slide plate 3 and multiple draw-in groove 12 being positioned at differing heights, and slide plate 3 is arranged on arbitrary draw-in groove 12, Z axis governor motion is provided with the first rule 11 in draw-in groove 12 end, and slide plate 3 is provided with the second rule 31.Y-axis governor motion comprises carrier strip 2 and is arranged on the guide groove 23 at carrier strip 2 two ends, and carrier strip 2 is slidably connected by guide groove 23 and slide plate 3.Carrier strip 2 can be slided along slide plate 3 by the guide groove 23 of end, thus along Y direction slip any distance, realizes LED light source 5 distance adjustment in the Y-axis direction; Slide plate 3 can be fixed on the draw-in groove 12 of differing heights, thus realizes LED light source 5 distance adjustment in the Z-axis direction, it is noted that the slide plate 3 at cavity 1 two ends is fixed on sustained height.The adjustable range in Z axis and Y-axis can be informed in respectively by the first rule 11 and the second rule 31.

Preferably, with reference to Fig. 5 and Fig. 6, X-axis governor motion is that gathering sill 22, the LED carrier 4 be arranged in the middle of carrier strip 2 is slidably mounted in gathering sill 22, carrier strip 2 is also provided with three rule 21 parallel with gathering sill 22.LED carrier 4 can slide arbitrarily along X-direction at gathering sill 22, thus realizes LED light source 5 distance adjustment in the X-axis direction.

Therefore, this device is fixed on the draw-in groove 12 of the differing heights at cavity 1 two ends to realize the adjustment of light mixing distance by adjustment slide plate 3, realized the adjustment of X-axis LED light source Distance geometry Y-axis LED light source distance by slip carrier strip 2 and LED carrier 4, the quantity of carrier strip 2 and LED carrier 4 can adjust according to the needs of backlighting scheme.This device can realize the verifying and debugging of backlighting scheme rapidly, substantially reduces proving period, also greatly reduces checking cost.And this device also can be applicable to the optical fields such as illumination, debugging checking is carried out to any optics module.

And by the LED light source on replacing LED carrier 4 and lens, the quick switching of LED component can be realized, thus rapidly debugging checking is carried out to different LED assembly.

Preferably, spring contact conducting is passed through between LED carrier 4 and gathering sill 22, between carrier strip 2 and slide plate 3 and between slide plate 3 and draw-in groove 12.Gathering sill 22 belongs to a part for carrier strip 2, and therefore LED carrier 4 and gathering sill 22 conducting are equivalent to LED carrier 4 and carrier strip 2 conducting, and with reference to shown in Fig. 7, LED carrier 4 is by spring contact 41 and carrier strip 2 conducting.

More than that better enforcement of the present utility model is illustrated, but the invention is not limited to embodiment, those of ordinary skill in the art also can make all equivalent variations or replacement under the prerequisite without prejudice to the utility model spirit, and these equivalent modification or replacement are all included in the application's claim limited range.

Claims (9)

1. an optics module debugging apparatus, it is characterized in that, comprise cavity and be arranged on the Z axis governor motion at cavity two ends, described Z axis governor motion is provided with multiple Y-axis governor motion, described Y-axis governor motion is provided with X-axis governor motion, described X-axis adjustment structure is provided with multiple LED carrier, described LED carrier is provided with LED light source and lens successively.

2. a kind of optics module debugging apparatus according to claim 1, is characterized in that, described Z axis governor motion comprises slide plate and multiple draw-in groove being positioned at differing heights, and described slide plate is arranged on arbitrary draw-in groove.

3. a kind of optics module debugging apparatus according to claim 2, it is characterized in that, described Z axis governor motion is provided with the first rule in draw-in groove end.

4. a kind of optics module debugging apparatus according to claim 2, it is characterized in that, described slide plate is provided with the second rule.

5. a kind of optics module debugging apparatus according to claim 2, it is characterized in that, described Y-axis governor motion comprises carrier strip and is arranged on the guide groove at carrier strip two ends, and described carrier strip is slidably connected by guide groove and slide plate.

6. a kind of optics module debugging apparatus according to claim 5, is characterized in that, described X-axis governor motion is be arranged on the gathering sill in the middle of carrier strip, and described LED carrier is slidably mounted in gathering sill.

7. a kind of optics module debugging apparatus according to claim 6, is characterized in that, described carrier strip is also provided with three rule parallel with gathering sill.

8. a kind of optics module debugging apparatus according to claim 6, is characterized in that, passes through spring contact conducting between described LED carrier and gathering sill, between carrier strip and slide plate and between slide plate and draw-in groove.

9. a kind of optics module debugging apparatus according to claim 6, is characterized in that, being also provided with the reflector plate that the light for sending LED light source reflects in described cavity.