CN210894133U - Fluorescent film check out test set - Google Patents

Abstract

The utility model discloses a fluorescent film check out test set. The fluorescent film detection equipment is provided with a substrate; the material box mounting part is connected to the base plate through a first vertical sliding rail and can move along the first vertical sliding rail in the vertical direction; the material box mounting part is used for placing and fixing a material box; the material taking part is connected to a first horizontal guide rail through a second vertical guide rail, and the first horizontal guide rail is fixed on the supporting part; the material loading part is used for placing a fluorescent film to be tested; the material taking part can convey the fluorescent film to the material loading part along the first horizontal guide rail; the material taking part takes the fluorescent film from the material box, and the horizontal height of the fluorescent film is equal to that of the material loading part; the distance of the material taking part moving along the second vertical guide rail is smaller than the distance between two adjacent fluorescent films in the material box; get material portion and follow vertical direction position parameter few, be convenient for guarantee to get the position of material portion vertical direction, strengthen fluorescent film check out test set's stability.

Description

Fluorescent film check out test set

Technical Field

The utility model relates to a fluorescent film check out test set.

Background

The fluorescent film is a light-transmitting structure formed by coating fluorescent powder on the transparent film; the thickness and uniformity of the fluorescent powder on the fluorescent film affect the light transmission quality; the motion height of the existing material taking part in the vertical direction is smaller than that of the fluorescent film taken from the material carrying part when the fluorescent film is put into a material box, so that the material taking part has at least two vertical displacement heights, the reset height of the material taking part is inconsistent, and the use of the material carrying part is influenced.

SUMMERY OF THE UTILITY MODEL

Get the motion height that material portion got the material from the magazine in order to reduce and be different from the vertical height of getting the material from the material loading portion, the utility model provides a fluorescent film check out test set.

The technical scheme of the utility model is that: the fluorescent film detection device is provided with a fluorescent film detection device,

a substrate;

the material box mounting part is connected to the base plate through a first vertical sliding rail and can move along the first vertical sliding rail in the vertical direction; the material box mounting part is used for placing and fixing a material box;

the material taking part is connected to a first horizontal guide rail through a second vertical guide rail, and the first horizontal guide rail is fixed on the supporting part;

the material loading part is used for placing a fluorescent film to be tested; the material taking part can convey the fluorescent film to the material loading part along the first horizontal guide rail;

the material taking part takes the fluorescent film from the material box, and the horizontal height of the fluorescent film is equal to that of the material loading part; the distance of the material taking part moving along the second vertical guide rail is smaller than the distance between two adjacent fluorescent films in the material box.

Further, the fluorescent film detection device further comprises,

a detection light source connected to the substrate;

and the integrating sphere is connected to the substrate and the light receiving port is positioned right above the detection light source.

Further, the detection light source can emit blue light.

Further, the material loading part comprises a transparent material placing part and a motion connecting part; the motion connecting part is connected to the base plate through an XY guide rail; the transparent discharging part is used for placing a fluorescent film and is connected to the motion connecting part through a plurality of vertical stand columns.

Further, the material loading part can move along the XY guide rails to enable the transparent discharging part to be located between the detection light source and the integrating sphere.

Further, the detection light source is connected to the substrate through a horizontal extension arm, and the plurality of vertical columns are arranged along positions far away from the horizontal extension arm.

Further, the cartridge mounting part includes,

the bottom plate is connected to the first vertical sliding rail;

the first blocking part, the second blocking part and the third blocking part are all arranged on the bottom plate;

the movable blocking part is arranged on the bottom plate; the first blocking part, the second blocking part, the third blocking part and the movable blocking part respectively abut against four side surfaces of a material box placed on the bottom plate.

Further, the movable blocking part comprises a movable blocking part,

a base;

the stop block is rotatably connected to the first position of the base;

a rotation control part which is rotatably connected with the second position of the base part;

the first connecting part is rotationally connected with the stop block and the rotation control part; the rotation control part rotates around the base part and drives the stop block to rotate through the first connecting part.

Furthermore, the first connecting portion is provided with a first limiting portion, and when the first limiting portion abuts against the stop block along the first direction a, the stop block abuts against the material box.

The beneficial effects of the utility model reside in that: when the material taking part is positioned at a lower position, the operation of taking/placing the fluorescent film from/into the material box/taking/placing the fluorescent film from/into the material loading part is performed for the material taking part; thereby it is few to get material portion along vertical direction position parameter, is convenient for guarantee to get the position of material portion vertical direction, strengthens fluorescent film check out test set's stability.

Drawings

FIG. 1 is a schematic structural view of a fluorescent film detection device of the present invention;

FIG. 2 is a schematic view of a cartridge mounting portion;

FIG. 3 is a schematic view of the movable blocking portion;

FIG. 4 is a schematic view of the interconnection among the base, the stopper and the first connecting portion;

fig. 5 is a schematic view of the stopper structure.

Detailed Description

In order to facilitate the understanding of the technical solutions of the present invention for those skilled in the art, the technical solutions of the present invention will be described in further detail with reference to specific embodiments.

As shown in fig. 1, a fluorescent film inspection apparatus 100 is used for inspecting a light transmission parameter and uniformity of a fluorescent film, the fluorescent film inspection apparatus 100 is provided with,

the substrate 20 is used for installing and fixing corresponding parts and components, and the structural stability of the fluorescent film detection device 100 is enhanced;

a cartridge mounting part 30 connected to the base plate 20 by a first vertical slide rail 31, the cartridge mounting part 30 being movable in a vertical direction along the first vertical slide rail 31; the magazine mounting part 30 is used for placing and fixing the magazine 3011; the height of the material box 301 can move along the first vertical slide rail 31, so that the moving height of the material taking part 40 is reduced, namely the material taking part 40 takes materials to a set fixed height every time, and the material box mounting part 30 moves along the vertical direction to meet the requirement of the material taking height;

the material taking part 40 is connected to a first horizontal guide rail 42 through a second vertical guide rail 41, and the first horizontal guide rail 42 is fixed on a support part 43; enabling the material taking part 40 to move along a first horizontal guide rail 42 together with a second vertical guide rail 41, and enabling the material taking part 40 to move vertically along the second vertical guide rail 41; so that the take-out section 40 can move in a vertical plane defined by the first horizontal guide rail 42 and the second vertical guide rail 41;

a material loading part 50 for placing a fluorescent film to be tested; the material taking part 40 can convey the fluorescent film to the material loading part 50 along the first horizontal guide rail 42; the material taking part 40 can convey the fluorescent film in the material box 301 to the material loading part 50 for testing, so that the fluorescent film feeding is automated; when the process is operated reversely, the material taking part 40 can put the fluorescent film on the material loading part 50 back to the material box 301; the material taking part 40 is provided with a plurality of suction nozzles for adsorbing fluorescent films;

the material taking part 40 takes the fluorescent film from the material box 301 with the horizontal height equal to the horizontal height of the material carrying part 50, and the displacement of the material taking part 40 moving along the vertical direction has only one value, so that the material taking part 40 is convenient to reset, the vertical moving position of material taking or material placing is convenient to ensure, the material taking part 40 takes the fluorescent film from the material box 301 with the descending height, the ascending height after taking the fluorescent film, the descending height for placing the fluorescent film on the material carrying part 50 and the height for taking the fluorescent film on the material carrying part 50 are the same; the distance of the material taking part 40 moving along the second vertical guide rail 41 is smaller than the distance between two adjacent fluorescent films in the material box 3011, the moving distance of the material taking part 40 is reduced as much as possible, and the detection efficiency of the fluorescent films is improved.

By adopting the technical scheme, the material taking part 40 has only two positions in the vertical direction; when the material taking section 40 is located at a higher position, the material taking section 40 can move along the first horizontal guide rail 42; when the material taking part 40 is located at a lower position, the operation of taking/placing the fluorescent film from/into the material box 301/taking/placing the fluorescent film from/into the material loading part 50 for the material taking part 40 is performed; thereby it is few to get material portion 40 along vertical direction position parameter, is convenient for guarantee to get the position of material portion 40 vertical direction, strengthens fluorescent film check out test set 100's stability.

As shown in fig. 1, the fluorescent film inspection apparatus 100 further includes,

a detection light source 61 connected to the substrate 20; the light source is used for providing a stable light source for the light transmission of the fluorescent film;

an integrating sphere 62 connected to the substrate 20 and having a light receiving opening 621 located right above the detection light source 61; the fluorescent powder collecting device is used for collecting light rays of the fluorescent film, is convenient for analyzing optical parameters to judge whether the distribution of the fluorescent powder on the fluorescent film is even or not, and is convenient for judging whether the fluorescent film meets the use requirement or not.

As shown in fig. 1, the detection light source 61 can emit blue light.

As shown in fig. 1, the loading part 50 includes a transparent discharging part 51 and a moving connecting part 52; the motion connection portion 52 is connected to the base plate 20 through an XY guide; the transparent discharging part 51 is used for placing a fluorescent film, and the transparent discharging part 51 is connected to the motion connecting part 52 through a plurality of vertical columns 53; the material loading part 50 can move along XY guide rails to enable the transparent discharging part 51 to be positioned between the detection light source 61 and the integrating sphere 62, and the detection light source 61 can be accommodated between the transparent discharging part 51 and the movement connecting part 52, so that a stable and reliable light source can be provided for the detection of the fluorescent film; the transparent discharging part 51 reduces the interference on the detection of the fluorescent film, and the fluorescent film is made of flexible materials, so that the transparent discharging part 51 is adopted instead of a through hole structure, and the influence on the detection due to the unevenness of the fluorescent film is reduced for enhancing the supporting effect on the fluorescent film.

As shown in fig. 1, the detection light source 61 is connected to the base plate 20 through a horizontal extension arm 611, and the plurality of vertical pillars 53 are disposed along a position away from the horizontal extension arm 611; the detection light source 61 can reach the position below the fluorescent film on the material loading part 50, so that the test requirement on the fluorescent film is met; thereby reducing the interference of the vertical column 53 with the detection light source 61.

As shown in fig. 1 and 2, the cartridge mounting part 30 includes,

a bottom plate 32 connected to the first vertical slide rail 31;

the first blocking part 33, the second blocking part 34 and the third blocking part 35 are all arranged on the bottom plate 32;

a movable stopper 36 provided on the bottom plate 32; the first blocking part 33, the second blocking part 34, the third blocking part 35 and the movable blocking part 36 respectively stop against four side surfaces of the material box 3011 placed on the bottom plate 32; the material box 301 is limited, the material box 301 can move to a set position along the first vertical slide rail 31 conveniently, and the position change of the fluorescent film caused by the movement of the material box 301 relative to the material box mounting part 30 can be avoided.

As shown in fig. 1, 2 and 3, the moving catch 36 includes,

a base 361;

a stopper 362 rotatably coupled to the base 361 at a first position 3611;

a rotation control part 363 rotatably connected to the base 361 at a second position 3612;

the first connection portion 364 is rotatably connected to the stopper 362 and the rotation control portion 363; the rotation control part 363 rotates around the base part 361 and drives the stopper 362 to rotate through the first connecting part 364; the movable blocking part 36 is convenient to operate.

As shown in fig. 1, 2, 3 and 4, the first connecting portion 364 is provided with a first position-limiting portion 3641, and when the first position-limiting portion 3641 abuts against the stopper 362 along the first direction a, the stopper 362 abuts against the magazine 301.

As shown in fig. 1, 2, 3 and 4, when the stopper 362 abuts against the magazine 301, the axes of the first connection portion 364 and the stopper 362, the axes of the first connection portion 364 and the rotation control portion 363, and the axes of the rotation control portion 363 and the base portion 361 are coplanar; therefore, at this time, the force is applied from the stopper 362, and the force applied to the rotation control part 363 by the stopper 362 is in the opposite direction of the force applied to the rotation control part 363 by the base 361, so that the rotation control part 363 cannot be rotated by the stopper 362 regardless of the force applied, thereby enhancing the stability of the stopper 362 against the cartridge 301.

As shown in fig. 3, the base 361 is provided with a limiting protrusion 3613 for limiting the movement of the rotation control part 363 in a second direction, which is opposite to the first direction a.

As shown in fig. 1, 2, 3 and 4, the stopper 362 includes a second connecting portion 3621 and an adjustable stopping portion 3622, the second connecting portion 3621 is provided with a positioning chute 3623, the adjustable stopping portion 3622 is provided with a threaded rod 3624, the threaded rod 3624 passes through the positioning chute 3623 and is connected to a fixing nut 3625, and the fixing nut 3625 abuts against the second connecting portion 3621; the two fixing nuts 3625 are respectively connected to the threaded rod 3624 and are stopped against the second connecting portion 3621, and the second connecting portion 3621 is clamped between the two fixing nuts 3625; the adjustable stop portion 3622 is provided with an elastic block capable of stopping against the magazine 301.

The above is the preferred embodiment of the present invention, and is not used to limit the protection scope of the present invention. It should be recognized that non-inventive variations and modifications to the disclosed embodiments, as understood by those skilled in the art, are intended to be included within the scope of the present invention as claimed and claimed.

Claims (9)

1. A fluorescent film detection apparatus characterized by: the fluorescent film detection device (100) is provided with,

a substrate (20);

the magazine mounting part (30) is connected to the base plate (20) through a first vertical slide rail (31), and the magazine mounting part (30) can move along the first vertical slide rail (31) in the vertical direction; the material box mounting part (30) is used for placing and fixing a material box (301);

the material taking part (40) is connected to a first horizontal guide rail (42) through a second vertical guide rail (41), and the first horizontal guide rail (42) is fixed on a supporting part (43);

a material loading part (50) for placing a fluorescent film to be tested; the material taking part (40) can convey the fluorescent film to the material loading part (50) along a first horizontal guide rail (42);

the material taking part (40) takes the fluorescent film from the material box (301) with the horizontal height equal to that of the material loading part (50); the distance of the material taking part (40) moving along the second vertical guide rail (41) is smaller than the distance between two adjacent fluorescent films in the material box (301).

2. The fluorescent film detection apparatus of claim 1, wherein: the fluorescent film detection apparatus (100) further comprises,

a detection light source (61) connected to the substrate (20);

and an integrating sphere (62) connected to the substrate (20) and having a light receiving opening (621) positioned directly above the detection light source (61).

3. The fluorescent film detection apparatus of claim 2, wherein: the detection light source (61) is capable of emitting blue light.

4. The fluorescent film detection apparatus of claim 2, wherein: the material loading part (50) comprises a transparent material discharging part (51) and a moving connecting part (52); the motion connection part (52) is connected to the base plate (20) through an XY guide rail; the transparent discharging part (51) is used for placing a fluorescent film, and the transparent discharging part (51) is connected to the motion connecting part (52) through a plurality of vertical columns (53).

5. The fluorescent film detection apparatus of claim 4, wherein: the material loading part (50) can move along the XY guide rail, so that the transparent discharging part (51) is positioned between the detection light source (61) and the integrating sphere (62).

6. The fluorescent film detection apparatus of claim 5, wherein: the detection light source (61) is connected to the base plate (20) through a horizontal extension arm (611), and the plurality of vertical columns (53) are arranged along positions far away from the horizontal extension arm (611).

7. The fluorescent film detection apparatus of claim 1, wherein: the cartridge mounting part (30) comprises,

a bottom plate (32) connected to the first vertical slide rail (31);

the first blocking part (33), the second blocking part (34) and the third blocking part (35) are all arranged on the bottom plate (32);

a movable stopper (36) provided on the bottom plate (32); the first blocking part (33), the second blocking part (34), the third blocking part (35) and the movable blocking part (36) are respectively abutted against four side surfaces of the feeding box (301) placed on the bottom plate (32).

8. The fluorescent film detection apparatus of claim 7, wherein: the movable blocking part (36) comprises a movable blocking part,

a base (361);

a stopper (362) rotatably connected to the base (361) at a first position (3611);

a rotation control unit (363) that is rotatably connected to the base (361) at a second position (3612);

a first connecting part (364) rotatably connected to the stopper (362) and the rotation control part (363); the rotation control part (363) rotates around the base part (361) and drives the stop block (362) to rotate through the first connecting part (364).

9. The fluorescent film detection apparatus of claim 8, wherein: the first connecting portion (364) is provided with a first limiting portion (3641), and when the first limiting portion (3641) abuts against the stopper (362) along the first direction a, the stopper (362) abuts against the material box (301).

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