CN108519692A - A kind of LCD glass substrate detection devices penetrated based on X-ray - Google Patents

Abstract

The invention discloses a kind of LCD glass substrate detection devices penetrated based on X-ray, are related to LCD raw material detection device fields.In the present invention：It is installed with ray on first supporting mechanism and penetrates receiving mechanism；Two the first telescopic devices are respectively installed in the both sides of the first supporting mechanism, and ray penetrates receiving mechanism between two the first telescopic devices；Two the second telescopic devices are respectively installed in the both sides of the first supporting mechanism；Two the second supporting mechanisms are located at the both sides of LCD glass substrates.The first telescopic device and the first telescoping mechanism is arranged by the way that the first supporting mechanism is arranged, and in the first supporting mechanism both sides in the present invention, consequently facilitating carrying out the situation monitoring of LCD glass substrates；Receiving mechanism is penetrated by the way that ray is arranged on the first supporting mechanism, setting ray penetrates trigger mechanism in the other side of LCD glass substrates, to which convenient and efficient carries out ray penetration-detection to LCD glass substrates.

Description

A kind of LCD glass substrate detection devices penetrated based on X-ray

Technical field

The present invention relates to LCD raw materials detection device field more particularly to a kind of LCD glass substrates penetrated based on X-ray Detection device.

Background technology

The construction of LCD is that liquid crystal cell is placed in the parallel glass substrate of two panels, and TFT is arranged on lower baseplate glass（It is thin Film transistor）, colored filter is set on upper substrate glass, is changed to control liquid crystal molecule with voltage by the signal on TFT Rotation direction, to reach display purpose whether reach control each pixel polarised light outgoing.In the manufacturing process of LCD In, the intact of glass substrate raw material is the important prerequisite for ensureing high quality LCD products, before to the manufacture of LCD productions, is just had Necessity efficiently accurately detects the progress of glass substrate raw material, to be produced to reduce the disqualification rate of LCD products and promote LCD The production efficiency of product.

Invention content

The technical problem to be solved in the present invention is to provide a kind of LCD glass substrate detection devices penetrated based on X-ray, lead to The first telescopic device of setting and the first telescoping mechanism are crossed, consequently facilitating carrying out the situation monitoring of LCD glass substrates；By first Ray is set on supporting mechanism and penetrates receiving mechanism, in the other side of LCD glass substrates, setting ray penetrates trigger mechanism, to Convenient and efficient carries out ray penetration-detection to LCD glass substrates.

In order to solve the above technical problems, the present invention is achieved by the following technical solutions：

The present invention provides a kind of LCD glass substrate detection devices penetrated based on X-ray, including LCD glass substrates, including first Supporting mechanism and ray penetrate trigger mechanism；It is installed with ray on first supporting mechanism and penetrates receiving mechanism；Including a pair first Telescopic device, two the first telescopic devices are respectively installed in the both sides of the first supporting mechanism, and ray penetrates receiving mechanism and is located at two Between a first telescopic device；Including a pair of second telescopic device, two the second telescopic devices are respectively installed in the first support machine The both sides of structure, the first telescopic device are connected with the second telescopic device；Including a pair of second supporting mechanism, two the second supporting mechanisms Positioned at the both sides of LCD glass substrates, the second telescopic device is connected with the second supporting mechanism.

Wherein, the first telescopic device is equipped with the first telescoping mechanism；The side of first telescoping mechanism and the second telescopic device It is fixedly connected；The other side of second telescopic device is fixedly connected with orientation connecting rod；Fixation is installed with orientation on first supporting mechanism Harden structure；It orients and is offered in harden structure and orient connecting rod position, the matched straight slot structure of structure size, orient connecting rod and determine It is slidably connected to plate.

Wherein, the second telescopic device is equipped with the second telescoping mechanism；The side of second telescoping mechanism and the second supporting mechanism It is fixedly connected；The other side of second supporting mechanism is sticked the clamping cushion pad being in contact with LCD glass substrates；Second support machine Structure is equipped with a pair of of pressure buffer pad.

Wherein, ray penetrates the both sides of receiving mechanism and is all fixedly connected with one first avris plate；Ray penetrates trigger mechanism Both sides be all fixedly connected with one second avris plate.

Wherein, the width and length dimension that cushion pad is clamped are matched with the structure size of LCD glass substrates；First avris The structure size of plate is identical as the structure size of the second avris plate；Ray penetrates the position of the first avris plate of receiving mechanism both sides It is matched with the position of pressure buffer pad；Ray penetrates position and the pressure buffer pad of the second avris plate of trigger mechanism both sides Position matches.

Wherein, the telescopic adjustment direction of the first telescopic device of homonymy and the telescopic adjustment direction of the second telescopic device are mutual Vertically.

Compared with prior art, the beneficial effects of the invention are as follows：

The present invention is arranged the first telescopic device and first in the first supporting mechanism both sides and stretches by the way that the first supporting mechanism is arranged Contracting mechanism, consequently facilitating carrying out the situation monitoring of LCD glass substrates；Reception is penetrated by the way that ray is arranged on the first supporting mechanism Mechanism, in the other side of LCD glass substrates, setting ray penetrates trigger mechanism, to convenient and efficient to LCD glass substrates into Row ray penetration-detection；The setting clamping cushion pad on the second supporting mechanism simultaneously, when reducing to LCD glass substrate clamping positions Damage, on the second supporting mechanism be arranged pressure buffer pad, convenient for buffering ray penetrates receiving mechanism, ray penetrates transmitter Structure generated extruding when close to LCD glass substrates prevents the glass substrate caused by detection from damaging.

Description of the drawings

Fig. 1 is the structural schematic diagram for the LCD glass substrate detection devices of the present invention penetrated based on X-ray；

Fig. 2 is the structural schematic diagram of partial enlargement at A in Fig. 1；

Wherein：The first supporting mechanisms of 1-；2- rays penetrate receiving mechanism；3- rays penetrate trigger mechanism；4- the first avris plates；5- Second avris plate；The second supporting mechanisms of 6-；Cushion pad is clamped in 7-；8- pressure buffer pads；The first telescopic devices of 9-；10- first stretches Contracting mechanism；The second telescopic devices of 11-；12- orients connecting rod；13- position plates；The second telescoping mechanisms of 14-；15-LCD glass substrates； 16- power frame linkings；The first dynamic links of 17-；The second dynamic links of 18-.

Specific implementation mode

In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

Specific embodiment one：

The present invention is a kind of LCD glass substrate detection devices penetrated based on X-ray, including LCD glass substrates 15, including first Supporting mechanism 1 and ray penetrate trigger mechanism 3；It is installed with ray on first supporting mechanism 1 and penetrates receiving mechanism 2；Including a pair First telescopic device 9, two the first telescopic devices 9 are respectively installed in the both sides of the first supporting mechanism 1, and ray penetrates receiving mechanism 2 are located between two the first telescopic devices 9；Including a pair of second telescopic device 11, two the second telescopic devices 11 are installed respectively In the both sides of the first supporting mechanism 1, the first telescopic device 9 is connected with the second telescopic device 11；Including a pair of second supporting mechanism 6, two the second supporting mechanisms 6 are located at the both sides of LCD glass substrates 15, and the second telescopic device 11 is connected with the second supporting mechanism 6.

Further, the first telescopic device 9 is equipped with the first telescoping mechanism 10；The flexible dress of first telescoping mechanism 10 and second 11 side is set to be fixedly connected；The other side of second telescopic device 11 is fixedly connected with orientation connecting rod 12；On first supporting mechanism 1 Fixation is installed with 13 structure of position plate；It is offered in 13 structure of position plate matched with 12 position of orientation connecting rod, structure size Straight slot structure, orientation connecting rod 12 are slidably connected with position plate 13.

Further, the second telescopic device 11 is equipped with the second telescoping mechanism 14；Second telescoping mechanism 14 and second supports The side of mechanism 6 is fixedly connected；The be sticked clamping that is in contact with LCD glass substrates 15 of the other side of second supporting mechanism 6 is slow Rush pad 7；Second supporting mechanism 6 is equipped with a pair of of pressure buffer pad 8.

Further, ray penetrates the both sides of receiving mechanism 2 and is all fixedly connected with one first avris plate 4；Ray penetrates hair The both sides for penetrating mechanism 3 are all fixedly connected with one second avris plate 5.

Further, the width of clamping cushion pad 7 and length dimension are matched with the structure size of LCD glass substrates 15； The structure size of first avris plate 4 is identical as the structure size of the second avris plate 5；Ray penetrates the first of 2 both sides of receiving mechanism The position of avris plate 4 is matched with the position of pressure buffer pad 8；Ray penetrates the position of the second avris plate 5 of 3 both sides of trigger mechanism It sets and is matched with the position of pressure buffer pad 8.

Further, the telescopic adjustment in the telescopic adjustment direction and the second telescopic device 11 of the first telescopic device 9 of homonymy Direction is mutually perpendicular to.

Specific embodiment two：

When carrying out the detection of LCD glass substrates 15, the second telescopic device 11 drives the second supporting mechanism 6 to LCD glass substrates 15 carry out clipping operation, and the driving of the first telescopic device 9 adjusts the position of the second telescopic device 11, until LCD glass substrates 15 arrive Up to test position；The ray of second dynamic link driving simultaneously penetrates trigger mechanism 3 close to LCD glass substrates 15, and the first power connects Bar driving ray penetrates receiving mechanism 2 close to LCD glass substrates 15, and pressure buffer pad 8 can effectively reduce ray and penetrate reception Mechanism 2 and ray penetrate impact, extruding of the trigger mechanism 3 to LCD glass substrates 15.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention All any modification, equivalent and improvement etc., should all be included in the protection scope of the present invention made by within refreshing and principle.

Claims (6)

1. a kind of LCD glass substrate detection devices penetrated based on X-ray, including LCD glass substrates（15）, it is characterised in that：

Including the first supporting mechanism（1）Trigger mechanism is penetrated with ray（3）；

First supporting mechanism（1）On be installed with ray and penetrate receiving mechanism（2）；

Including a pair of first telescopic device（9）, two the first telescopic devices（9）It is respectively installed in the first supporting mechanism（1）Two Side, the ray penetrate receiving mechanism（2）Positioned at two the first telescopic devices（9）Between；

Including a pair of second telescopic device（11）, two the second telescopic devices（11）It is respectively installed in the first supporting mechanism（1）'s Both sides, first telescopic device（9）With the second telescopic device（11）It is connected；

Including a pair of second supporting mechanism（6）, two the second supporting mechanisms（6）Positioned at LCD glass substrates（15）Both sides, it is described Second telescopic device（11）With the second supporting mechanism（6）It is connected.

2. a kind of LCD glass substrate detection devices penetrated based on X-ray according to claim 1, it is characterised in that：

First telescopic device（9）It is equipped with the first telescoping mechanism（10）；

First telescoping mechanism（10）With the second telescopic device（11）Side be fixedly connected；

Second telescopic device（11）The other side be fixedly connected with orientation connecting rod（12）；

First supporting mechanism（1）Upper fixation is installed with position plate（13）Structure；

The position plate（13）It is offered in structure and orientation connecting rod（12）Position, the matched straight slot structure of structure size, institute State orientation connecting rod（12）With position plate（13）It is slidably connected.

3. a kind of LCD glass substrate detection devices penetrated based on X-ray according to claim 1, it is characterised in that：

Second telescopic device（11）It is equipped with the second telescoping mechanism（14）；

Second telescoping mechanism（14）With the second supporting mechanism（6）Side be fixedly connected；

Second supporting mechanism（6）The other side be sticked and have and LCD glass substrates（15）The clamping cushion pad being in contact（7）；

Second supporting mechanism（6）It is equipped with a pair of of pressure buffer pad（8）.

4. a kind of LCD glass substrate detection devices penetrated based on X-ray according to claim 1, it is characterised in that：

The ray penetrates receiving mechanism（2）Both sides be all fixedly connected with one first avris plate（4）；

The ray penetrates trigger mechanism（3）Both sides be all fixedly connected with one second avris plate（5）.

5. a kind of LCD glass substrate detection devices penetrated based on X-ray according to claim 3 or 4, feature are existed In：

The clamping cushion pad（7）Width and length dimension and LCD glass substrates（15）Structure size match；

The first avris plate（4）Structure size and the second avris plate（5）Structure size it is identical；

The ray penetrates receiving mechanism（2）First avris plate of both sides（4）Position and pressure buffer pad（8）Position match It closes；

The ray penetrates trigger mechanism（3）Second avris plate of both sides（5）Position and pressure buffer pad（8）Position match It closes.

6. a kind of LCD glass substrate detection devices penetrated based on X-ray according to claim 1, it is characterised in that：

First telescopic device of the homonymy（9）Telescopic adjustment direction and the second telescopic device（11）Telescopic adjustment direction phase It is mutually vertical.