CN105824093B - Adjustable localization tool and optical detection apparatus - Google Patents

Abstract

The invention discloses a kind of adjustable localization tools, include the first supporting element, two sliding rails, two second supporting elements, two first sliding blocks and third supporting element.Two sliding rails are located at the first supporting element both ends.Two second supporting elements are located at the first supporting element two sides.Two second supporting elements all have first groove.Two first sliding blocks are slidably coupled in first groove respectively, and couple respectively with sliding rail, to adjust the distance between second supporting element by the position of the first sliding block of adjustment on the slide rail.Third supporting element is coupled to the second supporting element, adjusts the distance between the first supporting element and third supporting element by position of the first sliding block of adjustment in first groove.

Description

Adjustable localization tool and optical detection apparatus

Technical field

This case relates to a kind of adjustable localization tool and a kind of optical detection apparatus with adjustable localization tool.

Background technique

When detecting display panel, display panel need to be located in the lower section of optical lens, to detect the picture of display panel Whether face or appearance are defective.In general, the mode of locating and displaying panel has two kinds, one of positioning method is to detect At least two locating pieces are arranged in the table top of board, and the two locating pieces are born against in the adjacent two edges of display panel, With locating and displaying panel.Another positioning method is then the localization tool of the size production tool fluting according to display panel, makes to show Show that panel can be positioned in the fluting of localization tool.

However, when various sizes of display panel needs to detect, the first positioning method because the position of locating piece is constant, The position that will lead to various sizes of its central point of display panel is different, so that the optical lens above display panel can not be aligned The center of display panel may result in the error in detection or can not detect.In addition, if using second of positioning method, There need to be the localization tool of different sizes fluting for the production of various sizes of display panel, can not be general, it will increase positioning and control The cost of manufacture of tool.

Summary of the invention

A technology aspect of the invention is a kind of adjustable localization tool.

According to an embodiment of the present invention, a kind of adjustable localization tool includes the first supporting element, two sliding rails, two second Support member, two first sliding blocks and third supporting element.Two sliding rails are located at the first supporting element both ends.Two second supporting elements are located at First supporting element two sides.Two second supporting elements all have first groove.Two first sliding blocks are slidably coupled in first respectively Groove, and being coupled respectively with sliding rail, with by the first sliding block of adjustment position on the slide rail adjust between the second supporting element away from From.Third supporting element is coupled to the second supporting element, by position adjustment first support of the first sliding block of adjustment in first groove The distance between part and third supporting element.

A technology aspect of the invention is a kind of optical detection apparatus, to detect display panel.

According to an embodiment of the present invention, a kind of optical detection apparatus includes lens assembly and adjustable localization tool.It can Mode localization tool is located at below lens assembly.Adjustable localization tool includes the first supporting element, two sliding rails, two second supports Part, two first sliding blocks and third supporting element.Two sliding rails are located at the first supporting element both ends.Two second supporting elements are located at One supporting element two sides.Two second supporting elements all have first groove.Two first sliding blocks are slidably coupled in the first ditch respectively Slot, and coupled respectively with sliding rail, to adjust the distance between second supporting element by the position of the first sliding block of adjustment on the slide rail. Third supporting element is coupled to the second supporting element, by position of the first sliding block of adjustment in first groove adjust the first supporting element with The distance between third supporting element, so that the first supporting element, the second supporting element and third supporting element are around locating and displaying panel out Region.

In above embodiment of the present invention, since two sliding rails are located at the first supporting element both ends, and two first sliding blocks It couples, therefore can adjust between two second supporting elements by the position of the first sliding block of adjustment on the slide rail with two sliding rails respectively Distance.Further, since two first sliding blocks are slidably coupled in two first grooves respectively, therefore can be by adjusting the first sliding block Position in first groove adjusts the distance between the first supporting element and third supporting element.When various sizes of display panel needs When detecting, because the distance between two second supporting elements are adjustable, and the distance between the first supporting element and third supporting element can also It adjusts, therefore adjustable localization tool can the various sizes of display panel of frame conjunction.In this way, not only can ensure that lens assembly can be right The center of quasi- display panel promotes the accuracy in detection, can also save the quantity and cost of existing localization tool.

Detailed description of the invention

Fig. 1 is painted the top view of adjustable localization tool according to an embodiment of the present invention.

Fig. 2 is painted the schematic diagram of internal structure of the adjustable localization tool of Fig. 1.

The adjustable localization tool that Fig. 3 is painted Fig. 2 reduces the schematic diagram of internal structure after encircled area.

Fig. 4 is painted sectional view of the adjustable localization tool along line segment 4-4 of Fig. 3.

Fig. 5 is painted sectional view of the adjustable localization tool along line segment 5-5 of Fig. 3.

Fig. 6 is painted sectional view of the adjustable localization tool along line segment 6-6 of Fig. 1.

Fig. 7 is painted another embodiment of Fig. 6.

Fig. 8 is painted top view when the adjustable localization tool locating and displaying panel of Fig. 1.

Fig. 9 is painted the perspective view of optical detection apparatus according to an embodiment of the present invention.

Wherein, appended drawing reference:

100: adjustable localization tool

110: the first supporting elements

111:L type locating slot

120a, 120b: sliding rail

121: groove

122: the first grooves

124: ball

130a, 130b: the second supporting element

131a, 131b:L type locating slot

132a, 132b: first groove

134a: second groove

136a, 136b: hollow slots

140a, 140b: the first sliding block

140c, 140d: the second sliding block

142: through opening

150: third supporting element

151:L type locating slot

152: second groove

160a, 160b: supporting block

161b:L type locating slot

162: protrusion

163: the second grooves

200: optical detection apparatus

202: display panel

204: table top

210: backlight

220: lens assembly

4-4,5-5,6-6: line segment

A: region

C: at center

D1, D2, D3: direction

L1, L2: length

Specific embodiment

Multiple embodiments of the invention will be disclosed with schema below, as clearly stated, the details in many practices It will be explained in the following description.It should be appreciated, however, that the details in these practices is not applied to limit the present invention.Also It is to say, in some embodiments of the present invention, the details in these practices is non-essential.In addition, for the sake of simplifying schema, one A little existing usual structures and element will be painted it in a manner of simply illustrating in the drawings.

Fig. 1 is painted the top view of adjustable localization tool 100 according to an embodiment of the present invention.As shown, adjustable Formula localization tool 100 includes the first supporting element 110, two sliding rail 120a, 120b, two second supporting element 130a, 130b and third branch Support member 150.Wherein, sliding rail 120a, 120b is located at the both ends of the first supporting element 110.Second supporting element 130a, 130b difference Positioned at the two sides of the first supporting element 110.Third supporting element 150 is coupled to second supporting element 130a, 130b.In present embodiment In, the first supporting element 110 is roughly parallel to third supporting element 150, and the first supporting element 110 is approximately perpendicular to the second supporting element 130a,130b.First supporting element 110, second supporting element 130a, 130b and third supporting element 150 can be used to against substrate to be measured The edge of (such as display panel), to achieve the effect that four sides position.

In the following description, it will illustrate the internal structure of adjustable localization tool 100.

Fig. 2 is painted the schematic diagram of internal structure of the adjustable localization tool 100 of Fig. 1.Adjustable localization tool 100 includes two First sliding block 140a, 140b, and second supporting element 130a, 130b is respectively provided with first groove 132a, 132b.First sliding block 140a, 140b are slidably coupled in first groove 132a, 132b respectively, and first sliding block 140a, 140b respectively with sliding rail 120a, 120b coupling.In addition, sliding rail 120a may pass through the first sliding block 140a, and sliding rail 120b may pass through the first sliding block 140b.? It, can be by position of the first sliding block 140a of adjustment on sliding rail 120a and the first sliding block when using adjustable localization tool 100 Position of the 140b on sliding rail 120b, to adjust the distance between second supporting element 130a, 130b.In addition, can also be by adjustment Position of the first sliding block 140a in first groove 132a and position of the first sliding block 140b in first groove 132b, to adjust The distance between first supporting element 110 and third supporting element 150.

In the present embodiment, the second supporting element 130a has second groove 134a, and third supporting element 150 has the second ditch Slot 152.Adjustable localization tool 100 also includes two second sliding block 140c, 140d.Second sliding block 140c, 140d difference is slidably Be coupled in second groove 134a, 152 likes, and second sliding block 140c, 140d respectively with third supporting element 150 and the second supporting element 130b coupling.When the second supporting element 130b is mobile toward direction D1, the second sliding block 140d can be in second groove 152 toward direction D1 It is mobile.When third supporting element 150 is mobile toward direction D2, the second sliding block 140c can be moved in second groove 134a toward direction D2 It is dynamic.

In addition, adjustable localization tool 100 also may include two supporting blocks 160a, 160b.Supporting block 160a, 160b respectively can Slidably it is coupled in sliding rail 120a, 120b.Supporting block 160a, 160b can be used to against the edge of display panel to be measured.At this In embodiment, the length of supporting block 160a, 160b is respectively smaller than the length of sliding rail 120a, 120b, such as Fig. 1 supporting block 160a Length L1 be less than sliding rail 120a length L2.User can adjust on demand supporting block 160a, 160b respectively sliding rail 120a, The position of 120b, with the first supporting element 110 together against the edge of display panel.For example, supporting block 160a, 160b can It can be close to the first supporting element 110 with spaced a distance (as shown in Figure 1) or supporting block 160a, 160b of the first supporting element 110 (as shown in Figure 2).

The adjustable localization tool 100 that Fig. 3 is painted Fig. 2 reduces the schematic diagram of internal structure after encircled area.While refering to Fig. 2 and Fig. 3, when the second supporting element 130b is mobile toward direction D1, sliding rail 120a can gradually be pierced by the first sliding block 140a to the left, and Sliding rail 120b can gradually be pierced by the right the first sliding block 140b, to reduce the distance between second supporting element 130a, 130b.In this reality It applies in mode, the minimum range between second supporting element 130a, 130b is the first supporting element 110 and supporting block 160a, 160b The sum of length.In addition, first sliding block 140a, 140b can be respectively along first groove when the first supporting element 110 is mobile toward direction D3 132a, 132b are mobile toward direction D3, and when third supporting element 150 is mobile toward direction D2, the second sliding block 140c can be along the second ditch The distance between slot 134a is mobile toward direction D2, therefore the first supporting element 110 and third supporting element 150 can be reduced.

Fig. 4 is painted sectional view of the adjustable localization tool 100 along line segment 4-4 of Fig. 3.Simultaneously refering to Fig. 3 and Fig. 4, first Sliding block 140b has through opening 142, and sliding rail 120b is coupled in through opening 142, so that sliding rail 120b can be in the first sliding block It is moved in 140b.That is, the first sliding block 140b can be on the different location of sliding rail 120b.In addition, the second supporting element 130b can also have hollow slots 136b.Hollow slots 136b is connected to first groove 132b.When sliding rail 120b is from the first sliding block 140b Through opening 142 be pierced by when, hollow slots 136b passes through for sliding rail 120b.Due to the first sliding block 140a, sliding rail 120a, hollow out The structure of slot 136a is identical as the first sliding block 140b, sliding rail 120b, the structure of hollow slots 136b respectively, therefore does not repeat to repeat. Hollow slots 136a, 136b are arranged along the length direction of first groove 132a, 132b respectively.By setting for hollow slots 136a, 136b Meter, can between second supporting element 130a, 130b of the adjustable localization tool 100 of further expansion distance adjusting range.

Fig. 5 is painted sectional view of the adjustable localization tool 100 along line segment 5-5 of Fig. 3.Simultaneously refering to Fig. 3 and Fig. 5, second Sliding block 140c connection third supporting element 150, and the second sliding block 140c is slidably coupled to the second ditch of the second supporting element 130a In slot 134a.In this way, which third supporting element 150 can be moved by the second sliding block 140c along the length direction of second groove 134a It is dynamic.Due to the second sliding block 140d and the second groove 152 of third supporting element 150 structure respectively with the second sliding block 140c and second The structure of the second groove 134a of supporting element 130a is identical, does not repeat to repeat.Second supporting element 130b can also pass through the second sliding block 140d is moved along the length direction of second groove 152.

Fig. 6 is painted sectional view of the adjustable localization tool 100 along line segment 6-6 of Fig. 1.Simultaneously refering to fig. 1 with Fig. 6, sliding rail 120b can have groove 121, and supporting block 160b can have protrusion 162.The protrusion 162 of supporting block 160b may couple to sliding rail 120b Groove 121 so that supporting block 160b can be moved on sliding rail 120b.Due to the supporting block 160a and sliding rail 120a on the left of Fig. 1 Supporting block 160b of the structure respectively and on the right side of Fig. 1 it is identical as the structure of sliding rail 120b, do not repeat to repeat.

Fig. 7 is painted another embodiment of Fig. 6.The places different from Fig. 6 embodiment are: sliding rail 120b has first Groove 122, supporting block 160b has the second groove 163, and ball 124 is located at the first groove 122 and supporting block of sliding rail 120b Between the second groove 163 of 160b.Such design, supporting block 160b can still be moved on sliding rail 120b.

Fig. 8 is painted top view when the 100 locating and displaying panel 202 of adjustable localization tool of Fig. 1.Simultaneously refering to fig. 1 with Fig. 8, the top of the first supporting element 110 can have L-type locating slot 111, and the top of second supporting element 130a, 130b can be respectively provided with L-type locating slot 131a (as shown in Figure 5), 131b (as shown in Figure 4), the top of third supporting element 150 can have L-type locating slot 151, the top of supporting block 160a, 160b can be respectively provided with L-type locating slot 161a, 161b (as shown in Figure 6).The positioning of these L-types Slot 111,131a, 131b, 151, the slot bottom of 161a, 161b are located at same level, can be used to support and position display surface to be measured Plate 202.In addition, supporting block 160a, 160b can provide 202 support force of display panel, avoid display panel 202 sliding rail 120a, It is ruptured because of hanging excessive area above 120b.

When various sizes of display panel needs to detect, because the distance between two second supporting element 130a, 130b are adjustable, And first supporting element 110 and the distance between third supporting element 150 it is also adjustable, therefore adjustable localization tool 100 can frame close not With the display panel of size.In this way, not only can ensure that lens assembly can be directed at the center of display panel, promoted in detection Accuracy can also save the quantity and cost of manufacture of existing localization tool.

It will be understood that the element connection relationship described will not be repeated again and repeat, conjunction is first chatted bright.In the following description, Explanation is had to the optical detection apparatus of adjustable localization tool 100.

Fig. 9 is painted the perspective view of optical detection apparatus 200 according to an embodiment of the present invention.Simultaneously refering to Fig. 8 and figure 9, optical detection apparatus 200 can be used to detect display panel 202.Optical detection apparatus 200 include lens assembly 220 with it is above-mentioned Adjustable localization tool 100.Adjustable localization tool 100 is located at 220 lower section of lens assembly, such as positioned at optical detection apparatus On 200 table top 204.First supporting element 110 of adjustable localization tool 100, second supporting element 130a, 130b, third support Part 150 and supporting block 160a, 160b can be around the region A for going out locating and displaying panel 202.Via adjustment the second supporting element 130a, The distance between the distance between 130b and the first supporting element 110 and third supporting element 150 can allow C at the center of region A to be aligned In lens assembly 220, and it is aobvious to allow the first supporting element 110, second supporting element 130a, 130b and third supporting element 150 to bear against Show four edges of panel 202.In this way, which the center of display panel 202 just can be directed to lens assembly 220, and will not be limited In various sizes of display panel.

In the present embodiment, optical detection apparatus 200 also may include backlight 210 (Fig. 9 hatched example areas).Backlight 210 are located at adjustable 100 lower section of localization tool, and backlight 210 is located in the A of region.When detecting display panel 202, backlight Source 210 can provide 202 backlight of display panel, detect lens assembly 220 can to the display panel 202 lighted.

Although the present invention is disclosed above with embodiment, however, it is not to limit the invention, any to be familiar with this skill Person, without departing from the spirit and scope of the present invention, when can be used for a variety of modifications and variations, therefore protection scope of the present invention is worked as Subject to appended claims institute defender.

Claims (13)

1. a kind of adjustable localization tool, characterized by comprising:

One first supporting element；

Two sliding rails are located at the first supporting element both ends；

Two second supporting elements, are located at the first supporting element two sides, those second supporting elements all have a first groove；

Two first sliding blocks, are slidably coupled in those first grooves respectively, and couple respectively with those sliding rails, by tune Those whole first sliding blocks adjust the distance between those second supporting elements in the position on those sliding rails；And

One third supporting element is coupled to those the second supporting elements, by adjust those first sliding blocks in those first grooves Position adjusts the distance between first supporting element and the third supporting element；

Those the second supporting element one of them and the third supporting element all have a second groove, which more wraps Contain:

Two second sliding blocks, are slidably coupled in those second grooves respectively, and respectively with those the second supporting element another one, Third supporting element coupling.

2. adjustable localization tool according to claim 1, which is characterized in that further include:

Two supporting blocks are slidably coupled in those sliding rails respectively, and the length of each of supporting block is less than each of The length of sliding rail.

3. adjustable localization tool according to claim 2, which is characterized in that first supporting element, those second supports A L-type locating slot is all had at the top of part, the third supporting element and those supporting blocks, and the slot bottom of those L-type locating slots is located at Same level.

4. adjustable localization tool according to claim 2, which is characterized in that those sliding rails all have a groove, those Supporting block all has a protrusion, and those protrusions are coupled respectively to those grooves.

5. adjustable localization tool according to claim 2, which is characterized in that those sliding rails all have one first groove, Those supporting blocks all have one second groove, which further includes:

Multiple balls are located between those first grooves and those second grooves.

6. adjustable localization tool according to claim 1, which is characterized in that those first sliding blocks all have one through opening Mouthful, and those sliding rails are coupled respectively to those through opening.

7. adjustable localization tool according to claim 6, which is characterized in that those second supporting elements all have a hollow out Slot, and those hollow slots are respectively communicated in those first grooves；When those sliding rails are pierced by from those through opening respectively, those Hollow slots supply those sliding rails to pass through respectively.

8. adjustable localization tool according to claim 7, which is characterized in that those hollow slots are respectively along those the first ditches The length direction of slot is arranged.

9. adjustable localization tool according to claim 1, which is characterized in that first supporting element is parallel to the third branch Support member.

10. adjustable localization tool according to claim 1, which is characterized in that first supporting element perpendicular to those Two supporting elements.

11. a kind of optical detection apparatus, to detect a display panel, which is characterized in that the detection device includes:

One lens assembly；And

One adjustable localization tool is located at below the lens assembly, which includes:

One first supporting element；

Two sliding rails are located at the first supporting element both ends；

Two second supporting elements, are located at the first supporting element two sides, those second supporting elements all have a first groove；

Two first sliding blocks, are slidably coupled in those first grooves respectively, and couple respectively with those sliding rails, by tune Those whole first sliding blocks adjust the distance between those second supporting elements in the position on those sliding rails；And

One third supporting element is coupled to those the second supporting elements, by adjust those first sliding blocks in those first grooves Position adjusts the distance between first supporting element and the third supporting element, so that first supporting element, those second supporting elements With the third supporting element around the region for positioning the display panel out.

12. optical detection apparatus according to claim 11, which is characterized in that in alignment with the camera lens at the center in the region Component.

13. optical detection apparatus according to claim 11, which is characterized in that further include:

One backlight is located at below the adjustable localization tool, and the backlight is located in the region.