CN219142622U - Optical carrier - Google Patents

Abstract

The utility model provides an optical carrier, which belongs to the technical field of defect detection, and comprises: the device comprises a base, a vacuum carrier, a first light source optical mechanism, a second light source optical mechanism and a shading mechanism; the optical carrier is of a double/multi-station structure, a plurality of mobile phone panels with different sizes can be detected simultaneously, when the distance between two products to be detected is changed, the position of the first light source optical structure is only required to be adjusted, the adjustment is simple and convenient, the detection scheme is switched rapidly, and the detection efficiency and the practicability of the carrier can be improved. The vacuum carrier adopts a vacuum negative pressure mode to adsorb the mobile phone panel, so that the optical carrier can be compatible with most of mobile phone panel sizes in the market, and the vacuum carrier has wide application range and strong adaptability. And moreover, a shading mechanism is arranged between two adjacent second light source optical mechanisms, so that the independent light sources of the stations are not mutually interfered after the adjustment of the double/multi-station optical carrier is finished, and the detection accuracy is ensured.

Description

Optical carrier

Technical Field

The utility model belongs to the technical field of defect detection, and particularly relates to an optical carrier.

Background

The carrier is a supporting structure for placing or clamping the product to be inspected. The shape, size, load-bearing and structure of the carrier are different according to different detection modes. The optical carrier is an optical detection supporting mechanism with a light source and is used for illuminating some surface features of a product and carrying out defect detection on the product in cooperation with an optical camera.

With the continuous progress of the industry of panels and the continuous change of the public demand, the variety of panel products is more and more varied. The scheme of detecting defects varies from product to product. The existing carrier can only detect the panel with the same size, can not quickly and efficiently switch the optical detection scheme, and has low practicability.

Disclosure of Invention

In order to solve the problems that the carrier in the prior art can only detect panels with the same size, can not quickly and efficiently switch optical detection schemes, has low practicability and the like, the utility model provides an optical carrier which is of a double/multi-station structure, can detect a plurality of mobile phone panels with different sizes at the same time, can quickly switch detection schemes by only adjusting the position of a first light source optical structure, and can improve the detection efficiency and the practicability of the carrier. The specific technical scheme is as follows:

an optical stage, the optical stage comprising: the device comprises a base, a vacuum carrier, a first light source optical mechanism, a second light source optical mechanism and a shading mechanism; at least one vacuum chuck is arranged on the vacuum carrier, and at least two vacuum carriers are arranged on the base; the first light source optical mechanisms are slidably connected with the base, and the two first light source optical mechanisms are arranged on two sides of one vacuum carrier in parallel along the length direction of the base; the second light source optical mechanisms are slidably connected with the base, and the two second light source optical mechanisms are arranged on two sides of one vacuum carrier in parallel along the width direction of the base; the shading mechanism is arranged on the base and is positioned between two adjacent second light source optical mechanisms.

In addition, an optical carrier in the above technical solution provided by the present utility model may further have the following additional technical features:

optionally, the first light source optical mechanism includes: the first rotary connecting plate is connected with the first strip-shaped light source; the first connecting plates are vertically arranged on the base, and the two first connecting plates are slidably connected with the base; the first rotary connecting plates are arranged in parallel along the length direction of the base, and are simultaneously connected with the two first connecting plates in a sliding manner; the first strip-shaped light source is arranged along the length direction of the first rotary connecting plate, and is rotatably connected with the first rotary connecting plate.

Optionally, the first light source optical mechanism further includes: a first shaft and a first set screw; the first rotating shafts are respectively connected with two end faces of the first strip-shaped light source, the two first rotating shafts are simultaneously embedded into the first rotating connecting plate, and the first rotating shafts are in rotating connection with the first rotating connecting plate; after the first set screw passes through the first rotary connecting plate, the first set screw is attached to the first rotary shaft.

Optionally, the second light source optical mechanism includes: the second connecting plate, the second rotary connecting plate and the second strip-shaped light source; the second connecting plates are vertically arranged on the base, and the two second connecting plates are connected with the base in a sliding manner; the second rotary connecting plates are arranged in parallel along the width direction of the base, and are simultaneously connected with the two second connecting plates in a sliding manner; the second strip-shaped light source is arranged along the length direction of the second rotary connecting plate, and the second strip-shaped light source is rotatably connected with the second rotary connecting plate.

Optionally, the second light source optical mechanism further includes: a second rotating shaft and a second set screw; the second rotating shafts are respectively connected with two second connecting plates, the two second rotating shafts are simultaneously embedded into the second strip-shaped light source, and the second rotating shafts are rotationally connected with the second strip-shaped light source; and after the second set screw passes through the second strip-shaped light source, the second set screw is attached to the second rotating shaft.

Optionally, the shading mechanism includes: the adapter plate and the baffle plate; the adapter plate is movably connected with the base; the baffle is vertically arranged on the adapter plate.

Optionally, the base includes: the device comprises a sliding table connecting plate, a supporting seat, a fixing plate and a light source fixing plate; the two supporting seats are arranged on the sliding table connecting plate; the fixed plate is arranged on the top surface of the supporting seat, and the vacuum carrier is connected with the fixed plate; the two light source fixing plates are arranged on the sliding table connecting plate in parallel along the length direction of the flower table connecting plate.

Optionally, the vacuum carrier comprises: the product touch panel comprises an air circuit carrier plate, a product touch panel and an air flow channel; the air channel carrying table plate is arranged on the fixed plate; the product touch pad is horizontally arranged on the air channel carrier plate; at least two air flow channels are arranged on the product touch pad, at least one vacuum chuck is embedded in the air flow channels, and the air flow channels are communicated with the vacuum chucks.

Optionally, the vacuum carrier further comprises: the quick connector, the adjusting hole and the pressure plug; the at least one quick connector is arranged on the air channel carrier plate and is communicated with the air flow channel; the at least one adjusting hole is arranged on the side wall of the air channel carrier plate and is communicated with the quick connector and the air channel; the pressure plug is embedded into the adjusting hole and is attached to the gas circuit carrier plate.

Optionally, the product touch pad is made of a nonmetallic material.

Compared with the prior art, the optical carrier has the beneficial effects that:

through setting up two at least vacuum microscope carrier on the base, make the optics microscope carrier be two/multistation structures, can detect a plurality of unidimensional cell-phone panels simultaneously, when two product intervals that wait to detect change, only need adjust first light source optical structure's position can, adjust simple and conveniently, switch detection scheme fast, can improve the detection efficiency and the practicality of microscope carrier. The vacuum carrier adopts a vacuum negative pressure mode to adsorb the mobile phone panel, so that the optical carrier can be compatible with most of mobile phone panel sizes in the market, and the vacuum carrier has wide application range and strong adaptability. And a shading mechanism is arranged between two adjacent second light source optical mechanisms, so that independent light sources of stations are prevented from mutual interference after the adjustment of the double/multi-station optical carrier is finished, and the detection accuracy is ensured.

Drawings

FIG. 1 is a schematic view of an optical stage according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a first light source optical mechanism of an optical stage according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a second light source optical mechanism of an optical stage according to an embodiment of the present utility model;

FIG. 4 is a schematic view of a shading mechanism of an optical carrier according to an embodiment of the present utility model;

FIG. 5 is a schematic view of a structure of a base of an optical carrier according to an embodiment of the present utility model;

FIG. 6 is a schematic view of a vacuum stage of an optical stage according to an embodiment of the present utility model;

wherein, the correspondence between the reference numerals and the component names in fig. 1 to 6 is:

10. a base; 101. a sliding table connecting plate; 102. a support base; 103. a fixing plate; 104. a light source fixing plate; 11. a vacuum carrier; 111. a gas circuit carrying table plate; 112. a product touch pad; 113. a vacuum chuck; 114. an air flow channel; 115. a quick connector; 116. an adjustment aperture; 117. a pressure plug; 12. a first light source optical mechanism; 121. a first connection plate; 122. a first rotatable connection plate; 123. a first bar-shaped light source; 124. a first rotating shaft; 125. a first set screw; 13. a second light source optical mechanism; 131. a second connecting plate; 132. a second rotatable connection plate; 133. a second bar-shaped light source; 134. a second rotating shaft; 135. a second set screw; 14. a light shielding mechanism; 141. an adapter plate; 142. and a baffle.

Detailed Description

In the description of the present application, it should be understood that the terms "center," "longitudinal," "transverse," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," etc. indicate or are based on the orientation or positional relationship shown in the drawings, merely for convenience of description and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the utility model.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

In the present application, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Referring to fig. 1-6 in combination, according to an embodiment of the present application, an optical stage includes: a base 10, a vacuum stage 11, a first light source optical mechanism 12, a second light source optical mechanism 13, and a light shielding mechanism 14; at least one vacuum chuck 113 is arranged on the vacuum carrier 11, and at least two vacuum carriers 11 are arranged on the base 10; the first light source optical mechanisms 12 are slidably connected with the base 10, and the two first light source optical mechanisms 12 are arranged on two sides of one vacuum carrying platform 11 in parallel along the length direction of the base 10; the second light source optical mechanisms 13 are slidably connected with the base 10, and the two second light source optical mechanisms 13 are arranged in parallel on both sides of one vacuum stage 11 along the width direction of the base 10; the light shielding mechanism 14 is disposed on the base 10, and the light shielding mechanism 14 is located between two adjacent second light source optical mechanisms 13. The base 10 is used as a fixed structure of the vacuum carrier 11, and the base 10 can be arranged on a fixed platform or a module sliding table, so that the application range of the optical carrier is enlarged, and the universality of the whole optical carrier is improved. Through setting up two at least vacuum carrier 11 on base 10, make the optics carrier be two/multistation structures, can detect a plurality of cell-phone panels simultaneously, when two product intervals that wait to detect change, only need adjust first light source optical structure's position can, adjust simple and conveniently, can improve the detection efficiency of carrier. The vacuum carrier 11 adsorbs the mobile phone panel in a vacuum negative pressure mode, so that the optical carrier can be compatible with most mobile phone panel sizes in the market, and the vacuum carrier has wide application range and strong adaptability. By arranging the shading mechanism 14 between two adjacent second light source optical mechanisms 13, the situation that the independent light sources of the stations do not interfere with each other after the adjustment of the double/multi-station optical carrier is finished is ensured, and the detection accuracy is ensured.

Further, a first elongated hole and a second elongated hole are respectively provided in the longitudinal direction and the width direction of the base 10, the first light source optical mechanism 12 can move in the first elongated hole, and the position of the first light source optical mechanism 12 is fixed by providing a first compression bolt at the bottom of the first light source optical mechanism 12; the second light source optical mechanism 13 can move in the second strip hole, the second compression bolt is arranged at the bottom of the second light source optical mechanism 13, the position of the second light source optical mechanism 13 is fixed, the vacuum carrier 11 is adapted to the action of different product intervals by adjusting the positions of the first light source optical mechanism 12 and the second light source optical mechanism 13, the quick adjustment is carried out in the X and Y axis directions, the adjustment is simple and convenient, and the compatibility and the use efficiency of the optical carrier are improved. By providing a separate set of first light source optical mechanisms 12 and a separate set of second light source optical mechanisms 13 outside each vacuum stage 11, the four sides of the product can be illuminated, enabling the product to be clearly revealed under the camera.

Further, 4 rectangular shape light sources distribute in the product below, and light sources adopt upper and lower superimposed mode to go rational distribution Z to the space, and the light source is fixed in a bearing structure on, can synchronous regulation, has guaranteed the uniformity that the light source was adjusted.

Further, a detachable vacuum chuck 113 is arranged on the vacuum carrier 11, and the quick switching between the sizes of products is realized by adjusting the position of the vacuum chuck 113, so that the detection scheme is quickly switched.

The first connection plates 121 are vertically disposed on the base 10, and the two first connection plates 121 are slidably connected with the base 10; the first rotary connection plates 122 are arranged in parallel along the length direction of the base 10, and the first rotary connection plates 122 are simultaneously slidably connected with the two first connection plates 121; the first bar-shaped light source 123 is disposed along a length direction of the first rotary connection plate 122, and the first bar-shaped light source 123 is rotatably connected to the first rotary connection plate 122. The first rotating connection plate 122 serves as a supporting structure of the first bar-shaped light source 123, and by slidably connecting the first rotating connection plate 122 with the two first connection plates 121 at the same time, the height of the first bar-shaped light source 123 can be changed, so that the first bar-shaped light source 123 can move along the Z axis, that is, the first bar-shaped light source 123 can move in three directions of x\y\z relative to the base 10, so that the light source can be moved to a position with good lighting effect.

Further, the first connecting plate 121 is vertically provided with a long hole, and the first rotating connecting plate 122 is fixed on the first connecting plate 121 through bolt pressing, so that adjustment is simple and convenient.

The first rotating shafts 124 are respectively connected with two end faces of the first strip-shaped light source 123, the two first rotating shafts 124 are simultaneously embedded into the first rotating connecting plate 122, and the first rotating shafts 124 are rotationally connected with the first rotating connecting plate 122; after the first set screw 125 passes through the first rotary connection plate 122, the first set screw 125 is attached to the first rotary shaft 124. The first rotating shaft 124 is in rotating connection with the first rotating connection plate 122, so that the first strip-shaped light source 123 can rotate around the Y axis for a certain angle, and the requirement of light source adjustment is fully met; the first rotation shaft 124 is tightly propped by the first set screw 125, so that the angle of the first strip-shaped light source 123 is fixed, the light source is stable, the light source is quickly fixed at the position with good polishing effect, and the detection accuracy is improved.

The second connection plates 131 are vertically arranged on the base 10, and the two second connection plates 131 are slidably connected with the base 10; the second rotating connection plates 132 are arranged in parallel along the width direction of the base 10, and the second rotating connection plates 132 are simultaneously slidably connected with the two second connection plates 131; the second bar-shaped light source 133 is disposed along a length direction of the second rotary connection plate 132, and the second bar-shaped light source 133 is rotatably connected with the second rotary connection plate 132. The second rotating connection plate 132 serves as a supporting structure of the second bar-shaped light source 133, and by slidably connecting the second rotating connection plate 132 with the two second connection plates 131 at the same time, the height of the second bar-shaped light source 133 can be changed, so that the second bar-shaped light source 133 can move along the Z axis, that is, the second bar-shaped light source 133 can move in three directions of x\y\z relative to the base 10, so that the light source can be moved to a position where the lighting effect is good.

Further, the second connecting plate 131 is vertically provided with a long hole, and the second rotating connecting plate 132 is fixed on the first connecting plate 121 by pressing and fastening with bolts, so that the adjustment is simple and convenient.

The second rotating shafts 134 are respectively connected with the two second connecting plates 131, the two second rotating shafts 134 are simultaneously embedded into the second strip-shaped light sources 133, and the second rotating shafts 134 are rotationally connected with the second strip-shaped light sources 133; after the second set screw 135 passes through the second strip light source 133, the second set screw 135 is attached to the second rotating shaft 134. The second rotating shaft 134 is rotationally connected with the second strip-shaped light source 133, so that the second strip-shaped light source 133 can rotate around the X axis for a certain angle, and the requirement of light source adjustment is fully met; by arranging the second set screw 135 to tightly prop against the second rotating shaft 134, the angle of the second strip-shaped light source 133 is fixed, so that the light source is stable, the light source is quickly fixed at a position with good lighting effect, and the detection accuracy is improved.

The adapter plate 141 is movably connected with the base 10; the baffle 142 is vertically disposed on the adapter plate 141. By movably connecting the adapter plate 141 with the base 10, the position of the baffle 142 can be conveniently and rapidly adjusted according to the positions of the two mobile phone panels and the second strip-shaped light source 133, so that the light sources between two adjacent stations are prevented from interfering with each other.

Further, the adapter plate 141 is L-shaped, a strip-shaped hole is formed in one horizontal surface of the adapter plate 141, through holes are vertically distributed in one vertical surface of the adapter plate 141, and the adapter plate 141 is fastened by bolts, so that the baffle 142 can be conveniently adjusted in the X and Z directions, and different use requirements are met.

Specifically, the baffle 142 is a black opaque plate.

Two supporting seats 102 are arranged on the sliding table connecting plate 101; the fixed plate 103 is arranged on the top surface of the supporting seat 102, and the vacuum carrier 11 is connected with the fixed plate 103; two light source fixing plates 104 are disposed in parallel on the slide table connecting plate 101 along the length direction of the flower table connecting plate. The light source is movably connected to the light source fixing plate 104, and the fixing plate 103 is heightened by arranging the supporting seat 102, so that the vacuum platform 11 is positioned above the light source, the Z-direction space is reasonably distributed in a mode of vertically superposing the light source, different detection requirements are met, and the practicability of a product is improved.

The air path carrying table plate 111 is arranged on the fixed plate 103; the product touch panel 112 is horizontally arranged on the air path carrying table plate 111; at least two air flow channels 114 are provided on the product touch panel 112, at least one vacuum chuck 113 is embedded in the air flow channels 114, and the air flow channels 114 are in communication with the vacuum chucks 113. By arranging the air channel carrying table plate 111, the mechanism has the functions of vacuum suction and positive pressure blowing-out; by providing a plurality of air flow channels 114 on the product contact plate, the product can be sucked open simultaneously, maintaining the accuracy of the product position. By adjusting the number and positions of the vacuum chucks 113, rapid switching between product sizes can be achieved, and detection efficiency and adaptability are greatly improved.

Further, the vacuum chuck 113 is connected with the air flow channel 114 in a plug-in manner, the action of quickly installing and detaching the vacuum chuck 113 is realized by plugging the vacuum chuck 113, and the switching is simple.

At least one quick connector 115 is disposed on the air path carrier plate 111, and the quick connector 115 is in communication with the air flow channel 114; at least one adjustment hole 116 is provided on a side wall of the air path carrying platen 111, and the adjustment hole 116 communicates with the quick coupler 115 and the air flow channel 114; the pressure plug 117 is embedded in the adjusting hole 116, and the pressure plug 117 is attached to the air channel carrier plate 111. The air flow channel 114 is conveniently and rapidly communicated with an air source through the quick connector 115, so that the suction and blowing actions of the vacuum carrier 11 are completed; by arranging the adjusting hole 116 on the air channel carrying table plate 111 and plugging the adjusting hole by the pressure plug 117, the pressure of the air flow channel 114 can be conveniently and quickly adjusted, and the pressure release efficiency is improved.

Further, the inner wall of the adjusting hole 116 is provided with threads, the pressure plug 117 is a bolt, and the threaded connection improves the connection stability of the pressure plug 117 and cannot fly out when positive pressure is blown.

The product touch pad 112 is made of a non-metallic material. By adopting nonmetallic materials to contact with the mobile phone panel, the possibility of damage caused by product contact is reduced.

Specifically, product touch pad 112 is made of an antistatic plastic material.

It will be readily appreciated by those skilled in the art that the above advantageous ways can be freely combined and superimposed without conflict.

The foregoing description of the preferred embodiment of the present utility model is not intended to limit the utility model to the particular form disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the utility model. The foregoing is merely a preferred embodiment of the present application and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principles of the present application, and these modifications and variations should also be regarded as the scope of the present application.

Claims (10)

1. An optical carrier, the optical carrier comprising:

a base (10);

the vacuum carrier (11) is provided with at least one vacuum sucker (113), and at least two vacuum carriers (11) are arranged on the base (10);

a first light source optical mechanism (12), wherein the first light source optical mechanism (12) is slidably connected with the base (10), and the two first light source optical mechanisms (12) are arranged on two sides of one vacuum carrying platform (11) in parallel along the length direction of the base (10);

a second light source optical mechanism (13), wherein the second light source optical mechanism (13) is slidably connected with the base (10), and the two second light source optical mechanisms (13) are arranged on two sides of one vacuum carrying platform (11) in parallel along the width direction of the base (10);

the shading mechanism (14) is arranged on the base (10), and the shading mechanism (14) is positioned between two adjacent second light source optical mechanisms (13).

2. An optical carrier according to claim 1, characterized in that the first light source optical mechanism (12) comprises:

the first connecting plates (121) are vertically arranged on the base (10), and the two first connecting plates (121) are slidably connected with the base (10);

a first rotary connection plate (122), wherein the first rotary connection plate (122) is arranged in parallel along the length direction of the base (10), and the first rotary connection plate (122) is simultaneously connected with two first connection plates (121) in a sliding manner;

the first strip-shaped light source (123), first strip-shaped light source (123) are followed the length direction setting of first rotatory connecting plate (122), first strip-shaped light source (123) with first rotatory connecting plate (122) rotationally are connected.

3. An optical carrier according to claim 2, characterized in that the first light source optical mechanism (12) comprises:

the first rotating shafts (124), the first rotating shafts (124) are respectively connected with two end faces of the first strip-shaped light source (123), the two first rotating shafts (124) are simultaneously embedded into the first rotating connecting plate (122), and the first rotating shafts (124) are rotationally connected with the first rotating connecting plate (122);

and the first set screw (125), after the first set screw (125) passes through the first rotary connecting plate (122), the first set screw (125) is attached to the first rotating shaft (124).

4. An optical carrier according to claim 1, characterized in that the second light source optical mechanism (13) comprises:

the second connecting plates (131) are vertically arranged on the base (10), and the two second connecting plates (131) are slidably connected with the base (10);

a second rotary connection plate (132), wherein the second rotary connection plate (132) is arranged in parallel along the width direction of the base (10), and the second rotary connection plate (132) is simultaneously connected with two second connection plates (131) in a sliding manner;

the second strip-shaped light source (133), the second strip-shaped light source (133) is along the length direction setting of second rotatory connecting plate (132), second strip-shaped light source (133) with second rotatory connecting plate (132) rotationally are connected.

5. An optical carrier according to claim 4, characterized in that the second light source optical mechanism (13) comprises:

the second rotating shafts (134) are respectively connected with the two second connecting plates (131), the two second rotating shafts (134) are simultaneously embedded into the second strip-shaped light source (133), and the second rotating shafts (134) are rotationally connected with the second strip-shaped light source (133);

and the second set screw (135), after the second set screw (135) passes through the second strip-shaped light source (133), the second set screw (135) is attached to the second rotating shaft (134).

6. An optical carrier according to claim 1, wherein the light shielding mechanism (14) comprises:

an adapter plate (141), wherein the adapter plate (141) is movably connected with the base (10);

the baffle (142) is vertically arranged on the adapter plate (141).

7. An optical carrier according to claim 1, characterized in that the base (10) comprises:

a slipway connecting plate (101);

the two support seats (102) are arranged on the sliding table connecting plate (101);

the fixing plate (103), the fixing plate (103) is arranged on the top surface of the supporting seat (102), and the vacuum carrier (11) is connected with the fixing plate (103);

the two light source fixing plates (104) are arranged on the sliding table connecting plate (101) in parallel along the length direction of the sliding table connecting plate.

8. An optical stage according to claim 7, characterized in that the vacuum stage (11) comprises:

the air channel carrying table board (111), the air channel carrying table board (111) is arranged on the fixed plate (103);

a product touch panel (112), wherein the product touch panel (112) is horizontally arranged on the air channel carrier plate (111);

and the air flow channels (114), at least two air flow channels (114) are arranged on the product touch panel (112), at least one vacuum chuck (113) is embedded in the air flow channels (114), and the air flow channels (114) are communicated with the vacuum chuck (113).

9. An optical stage according to claim 8, characterized in that the vacuum stage (11) further comprises:

a quick connector (115), at least one quick connector (115) is arranged on the air path carrier plate (111), and the quick connector (115) is communicated with the air flow channel (114);

the adjusting holes (116), at least one adjusting hole (116) is arranged on the side wall of the air channel carrier plate (111), and the adjusting holes (116) are communicated with the quick connector (115) and the air flow channel (114);

the pressure plug (117) is embedded into the adjusting hole (116), and the pressure plug (117) is attached to the air channel carrying table plate (111).

10. An optical carrier as claimed in claim 8, wherein:

the product touch pad (112) is made of a nonmetallic material.

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