CN202995185U

CN202995185U - Single-box light-up device

Info

Publication number: CN202995185U
Application number: CN 201220741902
Authority: CN
Inventors: 石跃; 李环宇; 郑有赞
Original assignee: BOE Technology Group Co Ltd; Hefei BOE Optoelectronics Technology Co Ltd
Current assignee: BOE Technology Group Co Ltd; Hefei BOE Optoelectronics Technology Co Ltd
Priority date: 2012-12-28
Filing date: 2012-12-28
Publication date: 2013-06-12
Anticipated expiration: 2022-12-28

Abstract

The utility model discloses a single-box lighting device, which comprises: a box-shaped main body; a backlight source arranged inside the main body with adjustable brightness; a shading cloth arranged inside the main body and movable to at least partially block the The backlight source; the polarizer carrying plate, arranged inside the main body and above the backlight source, on which the polarizer is placed; the single box carrying platform, arranged on the upper surface of the main body, on which the lit single box is placed The movable probe set is arranged on the upper surface of the main body and is located on at least one side of the single box carrying platform, and the movable probes on it are used to contact the single box to be lit. The brightness of the backlight source of the utility model is adjustable, the size of the backlight source can be adjusted through the shading cloth, the polarizer can be replaced on the polarizer carrier plate according to the needs, and the probe group can be moved. High efficiency, saving manpower and material resources.

Description

Single box ignition device

Technical field

The utility model relates to the display technique field, particularly relates to a kind of single box ignition device.

Background technology

Mostly existing single box (single cell) ignition device is the liquid crystal cell of a corresponding a kind of model of device or size, although also there is some ignition device can corresponding Multiple Type or the liquid crystal cell of size, but when using, lighting test to change multiple probe groups, backlight and polaroid etc., waste of manpower and material resources are not suitable for inspection and the failure analysis of laboratory Multiple Type or size product.

For the liquid crystal cell research laboratory with produce mechanisms such as producing line, need continually single box of Multiple Type or size is carried out lighting test, existing ignition device or test one to one perhaps need to change accessory, integrated testability efficient is low, loses time and material resources.

The utility model content

The technical matters that (one) will solve

The technical problems to be solved in the utility model is how to improve the lighting test efficient of single box ignition device.

(2) technical scheme

In order to solve the problems of the technologies described above, the utility model provides a kind of single box ignition device, and it comprises:

Casing shape main body;

Backlight is arranged on described body interior, and its brightness is adjustable;

Gobo is arranged on described body interior and removablely blocks described backlight with at least part of;

The polaroid loading plate is arranged on described body interior and is positioned at above described backlight, places polaroid on it;

Single box plummer is arranged on described main body upper surface, places single box of being lit a lamp on it;

The mobile probe group is arranged on described main body upper surface, is positioned at least one side of described single box plummer, and the mobile probe that has on it is used for contacting with single box of being lit a lamp.

Wherein, described polaroid loading plate is arranged on described body interior pullablely.

Wherein, also be provided with backlight control panel in described main body, be connected with described backlight, with switch and the brightness of controlling described backlight.

Wherein, described single box ignition device also comprises:

X axis gobo spool is arranged near described main body side plate place along described modal length direction, is positioned at below described backlight the described gobo of reeling on it;

Y-axis gobo spool is arranged near another side plate of described main body place along described body width direction, is positioned at described backlight below, the described gobo of coiling it on;

X axis gobo regulator is arranged on movably above described backlight, and is parallel to described X axis gobo spool, and it connects an end of the gobo of reeling on X axis gobo spool;

Y-axis gobo regulator is arranged on movably above described backlight, and is parallel to described Y-axis gobo spool, and it connects an end of the gobo of reeling on Y-axis gobo spool;

X axis gobo locating shaft is parallel to described X axis gobo spool, and with described X axis gobo spool near the same side plate setting of described main body, be used for limiting the walking path of described gobo;

Y-axis gobo locating shaft is parallel to described Y-axis gobo spool, and with described Y-axis gobo spool near the same side plate setting of described main body, be used for limiting the walking path of described gobo.

Wherein, described X axis gobo locating shaft and Y-axis gobo locating shaft respectively have two, and interval respectively arranged side by side arranges.

Wherein, described single box ignition device also comprises:

X axis gobo spool is arranged near described main body side plate place along described modal length direction, is positioned at above described backlight the described gobo of reeling on it;

Y-axis gobo spool is arranged near another side plate of described main body place along described body width direction, is positioned at described backlight top, the described gobo of coiling it on;

X axis gobo regulator is arranged on above described backlight movably, and arranges with described X axis gobo spool same level, and it connects an end of the gobo of reeling on X axis gobo spool;

Y-axis gobo regulator is arranged on above described backlight movably, and arranges with described Y-axis gobo spool same level, and it connects an end of the gobo of reeling on Y-axis gobo spool.

Wherein, the setting position of described polaroid loading plate and described single box plummer is corresponding up and down, and the edge, position of placing polaroid on described polaroid loading plate has the first telltale mark, and the setting position edge of described single box plummer has second telltale mark corresponding with described the first telltale mark position.

Wherein, described the first telltale mark comprises at least two anchor points, and at least two anchor points are separately positioned on the orthogonal two edges of described polaroid setting position; The included anchor point of described the second telltale mark equate with the described first specifically labelled anchor point quantity and the up and down, position corresponding.

Wherein, described main body upper surface is provided with the XY shaft platform, is separately positioned on the adjacent dual-side of described single box plummer, and described mobile probe group is arranged on described XY shaft platform movably.

Wherein, described mobile probe group comprises the pedestal that is arranged on described XY shaft platform, and the probe clamp with described pedestal is flexibly connected is provided with magnet on the surface of contact of described pedestal and probe clamp; Gap location between described pedestal and probe clamp is provided with a plurality of probe shifting axles, on described probe shifting axle, metal probe is installed, gap between described pedestal and probe clamp is convertible by regulating magnet, moves between described pedestal and probe clamp to realize described probe shifting axle.

(3) beneficial effect

Single box ignition device that technique scheme provides, back light source brightness is adjustable, the large I of backlight is regulated by gobo, polaroid can be changed on the polaroid loading plate as required, probe groups is removable, be applicable to Multiple Type list box is carried out lighting test, testing efficiency is high, saves the man power and material.

Description of drawings

Fig. 1: the structural representation of the single box ignition device of the embodiment of the present invention;

Fig. 2: the single box ignition device of embodiment of the present invention structure schematic diagram;

Fig. 3: the single box ignition device of embodiment of the present invention left side observation inner section figure;

Fig. 4: the single box ignition device of embodiment of the present invention rear side is observed inner section figure;

Fig. 5: the single box ignition device of the embodiment of the present invention probe structure that can slide separately arranges figure, is the A-A view in Fig. 1.

The reference numeral explanation:

101: backlight control panel; The axial gobo regulator of 102-1:Y; The axial gobo regulator of 102-2:X; 103: the polaroid loading plate; 104: single box plummer; The 105:XY shaft platform; 106: the mobile probe group; 107: backlight; The axial gobo locating shaft of 108-1:Y; The axial gobo locating shaft of 108-2:X; The axial gobo spool of 109-1:Y; The axial gobo spool of 109-2:X; 110: gobo; 111: circuit board; 112: wire; 113: the probe shifting axle; 114: metal probe; 115: magnet; 116: the probe clamp; 117: pedestal; 118: base recess; 119: transverse concave groove; 120: vertical groove; 121: coupling shaft.

Embodiment

Below in conjunction with drawings and Examples, embodiment of the present utility model is described in further detail.Following examples are used for explanation the utility model, but are not used for limiting scope of the present utility model.

Referring to figs. 1 through shown in Figure 5, single box ignition device of the present embodiment comprises: casing shape main body; Be arranged on the adjustable backlight of described body interior and brightness 107; Be arranged on described body interior and removable with at least part of gobo 110 that blocks described backlight; Be arranged on described body interior drawing and pulling type and be positioned at described backlight 107 tops, be used for placing the polaroid loading plate 103 of polaroid on it; Be arranged on described main body upper surface, place single box plummer 104 of single box of being lit a lamp on it; Be arranged on described main body upper surface, be positioned at the mobile probe group 106 of at least one side of described single box plummer 104, the mobile probe that has on mobile probe group 106 is used for contacting with single box of being lit a lamp.This arranges single box ignition device of structure, can by backlight 107 brightness adjustable, size is adjustable, polaroid can arbitrarily be changed, and probe location is adjustable, realize the lighting test of different model specification list box, single box for the different model specification, be very easy in the operation of the brightness of adjusting backlight 107 and area, replacing polaroid and adjustment probe location, do not expend time in, use manpower and material resources sparingly, thereby enlarge the scope of application of single box ignition device, improve its lighting test efficient.

Particularly, the brightness size of the present embodiment backlight 107 realizes by backlight control panel 101, backlight control panel 101 connecting circuit boards 111, circuit board 111 connects backlights 107 by wire 112, backlight control panel 101 adjusting of realization to backlight 107 switches and brightness that combine with circuit board 111.The size of backlight 107 is adjusted by gobo 110, particularly, the system that realizes the size adjustment of 110 pairs of backlights 107 of gobo comprises: X axis gobo spool 109-2, be arranged near described main body side plate place along described modal length direction, be positioned at described backlight 107 belows, coiling gobo 110 on it; Y-axis gobo spool 109-1 is arranged near another side plate of described main body place along described body width direction, is positioned at described backlight 107 belows, the described gobo 110 of coiling it on; X axis gobo regulator 102-2 is arranged on movably described backlight 107 tops, and is parallel to described X axis gobo spool 109-2, and it connects an end of the upper gobo 110 of reeling of X axis gobo spool 109-2; Y-axis gobo regulator 102-1 is arranged on movably described backlight 107 tops, and is parallel to described Y-axis gobo spool 109-1, and it connects an end of the upper gobo 110 of reeling of Y-axis gobo spool 109-1.wherein, to be defined as Y-direction along the direction of modal length, direction along body width is defined as X-direction, the axis setting party of X axis gobo spool 109-2 and X axis gobo regulator 102-2 is to all being parallel to X-direction, the axis setting party of Y-axis gobo spool 109-1 and Y-axis gobo regulator 102-1 is to all being parallel to Y-direction, X axis gobo regulator 102-2 moves along Y-direction, can drive the gobo 110 that is wound on X axis gobo spool 109-2 discharges or rolling, can realize backlight 107 size is in the longitudinal direction regulated, Y-axis gobo regulator 102-1 moves along X-direction, can drive the gobo 110 that is wound on Y-axis gobo spool 109-1 discharges or rolling, can realize the size of backlight 107 on Width regulated, thus, by X axis gobo regulator 102-2 and Y-axis gobo regulator 102-1, backlight 107 can be adjusted into the size that satisfies the lighting test needs.

Further, in order to guarantee that gobo 110 discharges or can not depart from default track and can arbitrarily not be wound around during rolling along X-direction or Y-direction, the present embodiment also is provided with: X axis gobo locating shaft 108-2, it is parallel to described X axis gobo spool 109-2, and with the same side plate setting of described X axis gobo spool 109-2 near described main body, be used for limiting the walking path of the upper gobo 110 of X axis gobo spool 109-2; Y-axis gobo locating shaft 108-1, it is parallel to described Y-axis gobo spool 109-1, and with the same side plate setting of described Y-axis gobo spool 109-1 near described main body, be used for limiting the walking path of the upper gobo 110 of Y-axis gobo spool 109-1.The quantity of X axis gobo locating shaft 108-2 and Y-axis gobo locating shaft 108-1 is set according to the distance of the close main body side Board position that passes on gobo 110 walking paths, can for one or more, selected respectively two in the present embodiment, two X axis gobo locating shaft 108-2 and Y-axis gobo locating shaft 108-1 interval respectively arranged side by side arranges.

when carrying out single box lighting test, need from the bottom to top backlight 107, the corresponding setting of polaroid and single box position, the particular location of backlight 107 can be adjusted by gobo 110 according to the position of polaroid and single box, in order to guarantee the position correspondence of polaroid and single box, it is corresponding that the position of the described polaroid loading plate 103 of the present embodiment and described single box plummer 104 is set to the up and down, and the edge, position of placing polaroid on described polaroid loading plate 103 has the first telltale mark, the setting position edge of described single box plummer 104 has second telltale mark corresponding with described the first telltale mark position.Described the first telltale mark comprises at least two anchor points, and at least two anchor points are separately positioned on the orthogonal two edges of described polaroid setting position; The second telltale mark and the first telltale mark arrange in the same manner, namely the included anchor point of the second telltale mark equate with the described first specifically labelled anchor point quantity and the up and down, position corresponding.Specifically labelled existence, the both sides of the edge of polaroid and single box can be limited, in the situation that the model specification of polaroid and single box is consistent, namely can carry out to the integral position of polaroid and single box the up and down corresponding, this mode is simple, do not need to do any accurate adjustment, and can prevent the slip of polaroid and single box.

Polaroid loading plate 103 is to be made by the clear glass of drawer type or substrate, and the structure of drawer type is convenient to the replacing of polaroid.

In the present embodiment, described main body upper surface is provided with XY shaft platform 105, and described mobile probe group 106 is arranged on described XY shaft platform 105 movably.Described XY shaft platform 105 has two, is separately positioned on the adjacent dual-side of described single box plummer 104, namely is arranged on the main body upper surface along X-direction and Y-direction respectively.The XY shaft platform is used for changing the position of probe groups, mobile probe group 106 comprises a plurality of probes, each probe can move separately on mobile probe group 106, movably probe is used for required probe is adjusted to and the corresponding contact of single box test slab computer, then realizes lighting a lamp to single box by the corresponding signal of input on probe.

as shown in Figure 5, the independent movement of each probe specifically realizes by following structure: described mobile probe group 106 comprises the pedestal 117 that is arranged on described XY shaft platform 105, and the probe clamp 116 that is flexibly connected with described pedestal 117, be flexibly connected by coupling shaft 121 between pedestal 117 and probe clamp 116, one end of coupling shaft 121 is fixed on pedestal 117(or probe clamp 116) on, the other end can be along probe clamp 116(or pedestal 117) move, can realize by coupling shaft 121 that pedestal 117 is connected with the probe clamp relatively moves on the basis that guarantee to connect, be provided with magnet 115 on the surface of contact of pedestal 117 and probe clamp 116, by making magnet 115 adhesives or separating the distance that to adjust pedestal 117 and probe clamp 116 gaps.have two projections and the base recess between two projections 118 on the transverse side of pedestal 117, also have two projections and the transverse concave groove between two projections 119 on the transverse side of probe clamp 116, the transverse concave groove 119 of probe clamp 116 is greater than base recess 118, a projection of probe clamp 116 embeds in transverse concave groove 119, and recess space is greater than this projection, make this projection to move in groove, magnet 115 all is set on this projection and groove, adhesive by magnet 115 and separate the relative position that to adjust between pedestal 117 and probe clamp 116, a projection of pedestal 117 embeds in the transverse concave groove 119 of probe clamp 116, and leave a large amount of excess room for the groove of probe clamp 116, the both lateral sides in this space is respectively pedestal 117 and probe clamp 116, be respectively arranged with the relative groove of opening on pedestal 117 corresponding to these both sides and probe clamp 116, vertical groove 120 as shown, probe shifting axle 113 is set in this space, probe shifting axle 113 by block in the vertical groove of pedestal 117 and probe clamp 116, adhesive by controlling magnet 115 with separate, can adjust probe shifting axle 113 space size on every side, the transverse shifting of realization to probe shifting axle 113, thereby drive the position movement of metal probe 114 on probe shifting axle 113.Be provided with a plurality of probe shifting axles 113 between described pedestal and probe clamp 116, a plurality of metal probes 114 can be realized its position adjustment along with its corresponding moving of probe shifting axle 113 respectively.

in the present embodiment, movably probe groups 106 is to be made of eight metal probes 114 that can move separately, the mode that each probe moves as shown in Figure 5, probe clamp 116 is pulled laterally, make the attraction of magnet 115 on the magnet 115 disengaging pedestals on probe clamp 116, having enough spaces can allow probe shifting axle 113 drive in the space of probes 114 between pedestal and probe clamp 116 moves, required probe is in the top of the single box test slab computer that is about to contact, probe groups is pressed down with single box test slab computer contact, again probe clamp 116 is promoted to the inside, make the magnet 115 of probe clamp 116 and the magnet 115 on pedestal be attached together, space between pedestal and probe clamp 116 is diminished, probe shifting axle 113 can't move with probe 114, can guarantee in the process of lighting a lamp like this, probe maintains static, contact is good, signal stabilization.Because movably the probe groups probe is more, and two sides of main body have probe groups, can satisfy like this grid line test slab computer and data line test slab computer and be both sides type and design with the limit type.

As can be seen from the above embodiments, the utility model back light source brightness is adjustable, the large I of backlight is regulated by gobo, polaroid can be changed on the polaroid loading plate as required, probe groups is removable, be applicable to Multiple Type list box is carried out lighting test, testing efficiency is high, saves the man power and material.

The above is only preferred implementation of the present utility model; should be understood that; for those skilled in the art; under the prerequisite that does not break away from the utility model know-why; can also make some improvement and replacement, these improvement and replacement also should be considered as protection domain of the present utility model.

Claims

1. A single box lighting device, characterized in that it comprises:

box-like body;

A backlight source is arranged inside the main body, and its brightness is adjustable;

a light-shielding cloth disposed inside the main body and movable to at least partially shield the backlight;

A polarizer carrying plate, arranged inside the main body and above the backlight, on which a polarizer is placed;

The single box carrying platform is arranged on the upper surface of the main body, on which the lighted single box is placed;

The movable probe set is arranged on the upper surface of the main body and is located on at least one side of the single box carrying platform, and the movable probes on it are used to contact the single box to be lit.

2 . The single-box lighting device according to claim 1 , wherein the polarizer carrying plate is drawably arranged inside the main body. 3 .

3 . The single-box lighting device according to claim 1 , wherein a backlight control panel is further provided in the main body, connected to the backlight to control the switch and brightness of the backlight. 4 .

4. The single-box lighting device according to claim 1, wherein the single-box lighting device further comprises:

The X-axis shading cloth reel is arranged along the length direction of the main body near the side plate of the main body and is located below the backlight, on which the shading cloth is wound;

The Y-axis shading cloth reel is arranged along the width direction of the main body near the other side plate of the main body, and is located below the backlight, on which the shading cloth is wound;

The X-axis shading cloth adjuster is movably arranged above the backlight and parallel to the X-axis shading cloth reel, which is connected to one end of the shading cloth wound on the X-axis shading cloth reel;

The Y-axis shade cloth adjuster is movably arranged above the backlight and parallel to the Y-axis shade cloth reel, which is connected to one end of the shade cloth wound on the Y-axis shade cloth reel;

The X-axis shading cloth positioning axis is parallel to the X-axis shading cloth reel, and is arranged on the same side plate as the X-axis shading cloth reel close to the main body, so as to limit the walking path of the shading cloth;

The Y-axis shading cloth positioning axis is parallel to the Y-axis shading cloth reel, and is arranged near the same side plate of the main body as the Y-axis shading cloth reel, and is used to limit the walking path of the shading cloth.

5 . The single-box lighting device according to claim 4 , wherein there are two positioning axes for the shading cloth in the X-axis and two locating shafts for the shading cloth in the Y-axis, which are arranged side by side and spaced apart. 6 .

6. The single-box lighting device according to claim 1, wherein the single-box lighting device further comprises:

The X-axis shading cloth reel is arranged along the length direction of the main body near the side plate of the main body and above the backlight, on which the shading cloth is wound;

The Y-axis shading cloth reel is arranged along the width direction of the main body near the other side plate of the main body, above the backlight, on which the shading cloth is wound;

The X-axis shading cloth adjuster is movably arranged above the backlight and is arranged on the same horizontal plane as the X-axis shading cloth reel, which is connected to one end of the shading cloth wound on the X-axis shading cloth reel;

The Y-axis shading cloth adjuster is movably arranged above the backlight, and is arranged on the same horizontal plane as the Y-axis shading cloth reel, and is connected to one end of the shading cloth wound on the Y-axis shading cloth reel.

7. The single-box lighting device according to claim 1, wherein the positions of the polarizer carrier plate and the single-box carrier platform correspond up and down, and the position where the polarizer is placed on the polarizer carrier plate The edge has a first positioning mark, and the edge of the setting position of the single box carrying platform has a second positioning mark corresponding to the position of the first positioning mark.

8. The single-box lighting device according to claim 7, wherein the first positioning mark comprises at least two positioning points, and at least two positioning points are respectively set on two sides perpendicular to each other where the polarizer is set. Edge: the number of positioning points included in the second positioning mark is equal to that of the first positioning mark, and their positions correspond up and down.

9. The single-box lighting device according to claim 1, wherein the upper surface of the main body is provided with XY-axis platforms, which are respectively arranged on the two sides adjacent to the single-box carrying platform, and the movable probe The needle group is movably arranged on the XY axis platform.

10. The single box lighting device according to claim 9, wherein the movable probe set includes a base arranged on the XY-axis platform, and a probe card board movably connected with the base , the contact surface of the base and the probe card is provided with a magnet; the gap between the base and the probe card is provided with a plurality of probe moving shafts, and metal probes are installed on the moving shafts The probe, the gap between the base and the probe card can be changed by adjusting the magnet, so as to realize the movement of the probe moving axis between the base and the probe card.