CN114772288A

CN114772288A - Feeding and conveying device for processing ultrathin glass

Info

Publication number: CN114772288A
Application number: CN202210694846.4A
Authority: CN
Inventors: 陈细妹; 张子奎; 王成江; 胡晓雪
Original assignee: Jiangsu Renli Glass Technology Co ltd
Current assignee: Jiangsu Renli Glass Technology Co ltd
Priority date: 2022-06-20
Filing date: 2022-06-20
Publication date: 2022-07-22
Anticipated expiration: 2042-06-20
Also published as: CN114772288B

Abstract

The invention discloses a feeding and conveying device for processing ultrathin glass, which is characterized in that a suction hole is formed on the surface of a driving wheel, a driving shaft rotates to drive a central shaft to synchronously rotate through a control rod, a connecting rod and a piston, the axis of the central shaft is arranged below the driving shaft, and the distance from the top of the central shaft to the driving shaft is greater than the distance from the bottom of the central shaft to the driving shaft, so that when the piston rotates from bottom to top, the control rod and the connecting rod can drag the piston inwards to generate suction in the suction hole, when the suction hole moves to the top, the glass plate seals the opening of the suction hole, a negative pressure environment is formed in the suction hole to firmly adsorb the glass plate, so that the top end of the driving shaft always has adsorption force on the glass plate, when the driving shaft stops suddenly, the glass plate cannot slide forwards along with inertia, collision between the front glass plate and the rear glass plate is prevented, and the conveying safety of the glass plate is improved, avoid the increase of the reject ratio of the product.

Description

Feeding and conveying device for processing ultrathin glass

Technical Field

The invention relates to the technical field of ultrathin glass conveying equipment, in particular to a feeding conveying device for ultrathin glass processing.

Background

The ultrathin glass is glass with the thickness of less than 2mm, is novel high-technology and high-added-value glass, has the advantages of high light transmittance, smooth surface, high hardness, good chemical stability and the like, and is widely used in the electronic industry, particularly the information industry;

with the rapid development of the electronic industry, the demand of ultra-thin glass is increasing, and in order to meet the market demand, the production process and production equipment of ultra-thin glass are continuously updated, and many new ultra-thin glass production methods are also appeared, for example: float ultra-thin glass;

no matter what method produced glass, all need use conveyor in the process of automated processing, present conveyor rotates for many roller shafts and carries, and in the unexpected condition, when conveyor halts suddenly, because inertia, glass probably slided forward, leads to the front and back glass to bump, makes glass produce the crackle, therefore we have proposed a feeding conveyor for ultra-thin glass processing and have solved the problem.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a feeding and conveying device for processing ultrathin glass, the scheme is that a suction hole is formed in the surface of a driving wheel, a transmission shaft rotates, a central shaft is driven to synchronously rotate through a control rod, a connecting rod and a piston, the piston and the central shaft respectively rotate around the axes of the piston and the central shaft, the axis of the central shaft is arranged below the transmission shaft, the distance from the top of the central shaft to the transmission shaft is greater than the distance from the bottom of the central shaft to the transmission shaft, when the piston rotates from bottom to top, the control rod and the connecting rod can drag the piston inwards to generate suction in the suction hole, when the suction hole moves to the top, the glass plate seals the opening of the suction hole, a negative pressure environment is formed in the suction hole to firmly adsorb the glass plate, so that the top end of the transmission shaft always has adsorption force on the glass plate, and when the transmission shaft stops suddenly, the glass plate can not slide forward along with inertia, prevents to collide between the front and back glass plate, has improved the security that the glass plate carried, avoids the product defective rate to improve.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A feeding and conveying device for processing ultrathin glass comprises a transmission frame, wherein the inner side of the transmission frame is rotatably connected with a transmission wheel, the inner side of the transmission wheel is fixedly connected with a transmission shaft, the outer side of the transmission wheel is wrapped with a transmission belt, a glass plate is placed above the transmission shaft, the outer side of the transmission shaft is wrapped with a cushion and can form a local plane when being pressed by the glass plate, the axes of the transmission shaft and the transmission wheel are provided with a hole cavity, an adsorption mechanism is arranged inside the transmission shaft and comprises suction holes arranged on the inner side of the hole cavity, the suction holes penetrate through the outer side of the transmission shaft and are distributed around the central axis of the transmission shaft in a circumferential array manner, the inner side of the hole cavity is provided with a central axis, the central axis is rotatably connected with the transmission frame, the axis of the central axis is positioned below the axis of the transmission shaft, the outer side of the central axis is provided with a mounting groove, and the inner part of the mounting groove is rotatably connected with a control rod, the other end of the control rod is rotatably connected with the connecting rod, the other end of the connecting rod is rotatably connected with the piston, the piston is slidably connected inside the suction hole, the transmission shaft rotates, the control rod, the connecting rod and the piston drive the central shaft to synchronously rotate, the piston and the central shaft respectively rotate around the own axis, the axis of the central shaft is arranged below the transmission shaft, and the distance from the top of the central shaft to the transmission shaft is greater than the distance from the bottom of the central shaft to the transmission shaft, so that when the piston rotates from bottom to top, the control rod and the connecting rod can drag the piston inwards to generate suction in the suction hole, when the suction hole moves to the top, the glass plate seals the opening of the suction hole, and a negative pressure environment is formed in the suction hole to firmly adsorb the glass plate, so that the top end of the transmission shaft always has adsorption force on the glass plate, and when the transmission shaft stops suddenly, the glass plate cannot slide forwards along with inertia, the collision between the front glass plate and the rear glass plate is prevented, the safety of glass plate conveying is improved, and the increase of the reject ratio of products is avoided.

Furthermore, a pressing wheel is arranged between every two adjacent driving wheels, the center point of the pressing wheel is the same as the horizontal height of the top surface of the transmission shaft, the pressing wheel presses the transmission belt downwards, the wrap angle of the transmission belt to the driving wheels is increased, and the power obtained by the driving wheels is more sufficient.

Furthermore, a baffle is fixedly connected between the driving wheel and the transmission shaft and made of rubber, so that the edge of the glass plate is prevented from colliding with a hard object to cause damage.

Furthermore, a limiting block is arranged in the suction air hole, and when the piston is located at the highest point, the bottom surface of the piston is in contact with the limiting block, so that the piston is prevented from being separated from the suction air hole.

Furthermore, the opening at the inner side of the suction hole is flared, so that the connecting rod is prevented from colliding with the inner wall in the suction hole when moving.

Furthermore, the distribution paths of the suction holes on the vertical planes of the transmission shafts at all positions are not overlapped, so that the positions of the suction holes on different transmission shafts are different, when the glass plate slides on the surface of the transmission shaft, the suction holes are opposite to the glass plate, the suction holes are close to the glass plate, the suction holes are just separated from the glass plate, and the suction holes are opposite to the glass plate all the time and adsorb the glass plate, so that the operation stability of an adsorption mechanism is improved, and the conveying safety of the glass plate is further ensured.

Furthermore, a separating mechanism is arranged inside the transmission shaft, the separating mechanism comprises a mounting plate fixedly connected inside the suction hole, a spring is fixedly connected to the surface of the mounting plate, a movable rod is fixedly connected to the other end of the spring, the movable rod extends out of the suction hole, a communicating air hole is formed inside the movable rod, the other end of the movable rod is rotatably connected with a backing plate, the backing plate is wrapped on the outer side of the transmission shaft in a surrounding manner, an adsorption groove is formed in the outer surface of the backing plate, a butt air hole is formed between the adsorption groove and the communicating air hole, when the piston is at the highest point, the suction hole generates suction force, negative pressure is generated in the adsorption groove through the butt air hole to adsorb the glass plate, when the glass plate is suddenly stopped, the inertial glass plate generates a horizontal force on the backing plate, the backing plate is limited by the movable rod and the transmission shaft and cannot move, the inertia of the glass plate is eliminated, and when the glass plate normally rotates, move down when the backing plate from the peak, movable rod and transmission shaft cooperation backing plate move, make the backing plate laminate glass board all the time, do not influence the removal of glass board and also do not produce the power of dragging to the glass board, rotate certain angle and butt joint gas pocket open when the backing plate, the negative pressure environment disappears, backing plate and glass board separately and reset, when avoiding backing plate and glass board separately like this, produce great power of dragging, lead to the glass board to take place the deformation, further ensured the transport safety of glass board, avoid influencing product quality.

Furthermore, the backing plate adopts elastic rubber to make, the open area in adsorption tank is less than the area that takes place the deformation when the backing plate receives the glass board oppression, so can seal the adsorption tank opening totally when the glass board pushes down, and the at utmost improves the adsorption effect.

Furthermore, an elastic reset piece is arranged between the base plate and the movable rod to help the base plate and the movable rod reset.

Furthermore, the opening of the butt joint air hole is fixedly connected with an air guide piece, the periphery of the inner wall of the adsorption groove is provided with cleaning air holes which are arranged in a surrounding mode, the distance between the cleaning air holes and the outer surface of the base plate is not more than five millimeters, a thin covering layer is formed in the area, when the air suction holes rotate downwards from the top, the piston is pushed outwards to push out air in the air suction holes, the air enters the adsorption groove from the butt joint air holes, is scattered outwards along the inner wall of the adsorption groove under the influence of the air guide piece, part of air flow passes through the surface of the base plate, and flows through the cleaning air holes.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) according to the scheme, the suction holes are formed in the surface of the transmission wheel, the transmission shaft rotates, the control rod, the connecting rod and the piston drive the central shaft to synchronously rotate, the piston and the central shaft respectively rotate around the own axes, because the axis of the central shaft is arranged below the transmission shaft, and the distance from the top of the central shaft to the transmission shaft is greater than the distance from the bottom of the central shaft to the transmission shaft, when the piston rotates from bottom to top, the control rod and the connecting rod can drag the piston inwards to generate suction in the suction holes, when the suction holes move to the top, the glass plate seals the openings of the suction holes, and a negative pressure environment is formed in the suction holes to firmly adsorb the glass plate, so that the top end of the transmission shaft always has adsorption force on the glass plate, when the transmission shaft suddenly stops, the glass plate cannot slide forwards along with inertia, collision between the front glass plate and the rear glass plate is prevented, and the conveying safety of the glass plate is improved, avoid the increase of the reject ratio of the product.

(2) Install the pinch roller between two adjacent drive wheels, the central point of pinch roller is the same with the top surface level of transmission shaft, and the pinch roller pushes down the drive belt like this, increases the cornerite of drive belt to the drive wheel, makes the power that the drive wheel obtained more sufficient.

(3) The distribution paths of the suction holes on the vertical planes of the transmission shafts at all positions are not overlapped, so that the positions of the suction holes on different transmission shafts are different, when the glass plate slides on the surface of the transmission shaft, the suction holes are opposite to the glass plate, the suction holes are close to the glass plate, and the suction holes are just separated from the glass plate, so that the suction holes are opposite to the glass plate all the time and adsorb the glass plate, the operation stability of an adsorption mechanism is improved, and the conveying safety of the glass plate is further ensured.

(4) When the piston is at the highest point, the suction air hole generates suction, negative pressure is generated in the adsorption groove through the butt joint air hole to adsorb the glass plate, when the glass plate is in sudden stop, the glass plate can generate a horizontal force on the base plate by the inertia glass plate, the base plate is limited by the movable rod and the transmission shaft and cannot move, the inertia of the glass plate is eliminated, when the base plate normally rotates, the movable rod and the transmission shaft are matched with the base plate to move when the base plate moves downwards from the highest point, the base plate is always attached to the glass plate, the glass plate is not influenced to move, the glass plate is not subjected to dragging force when the base plate rotates to a certain angle, the butt joint air hole is opened, the negative pressure environment disappears, the base plate and the glass plate are separated and reset, and therefore when the base plate and the glass plate are separated, the large dragging force is generated, the glass plate is deformed, the conveying safety of the glass plate is further guaranteed, and the product quality is not influenced.

(5) The backing plate adopts elastic rubber to make, and the open area in adsorption tank is less than the area that takes place deformation when the backing plate receives the glass board oppression, can seal the adsorption tank opening completely when so the glass board pushes down, and furthest improves the adsorption effect.

(6) When the suction hole rotates downwards from the top, the piston is pushed outwards to push out air in the suction hole, the air enters the adsorption tank from the butt joint air hole and is dispersed outwards along the inner wall of the adsorption tank under the influence of the air guide piece, partial air flow passes through the surface of the backing plate, and partial air flow passes through the cleaning air hole.

Drawings

FIG. 1 is a right side display view of the present invention;

FIG. 2 is a left side view of the present invention;

FIG. 3 is an illustration of the puck of the present invention;

FIG. 4 is a drive shaft illustration of the present invention;

FIG. 5 is a half-sectional view of a propeller shaft of the present invention;

FIG. 6 is an inside view of a propeller shaft of the present invention;

FIG. 7 is a side sectional view of the propeller shaft of the present invention;

FIG. 8 is a scram state diagram of the present invention;

FIG. 9 is a state diagram of the delivery of the present invention;

FIG. 10 is an operation diagram of the air guide and the air hole of the present invention.

The numbering in the figures illustrates:

1. a transmission frame; 2. a driving wheel; 3. a drive shaft; 4. a transmission belt; 5. a glass plate; 6. a pinch roller; 7. an adsorption mechanism; 71. a suction hole; 72. a central shaft; 73. mounting grooves; 74. a control lever; 75. a connecting rod; 76. a piston; 8. a separating mechanism; 81. mounting a plate; 82. a spring; 83. a movable rod; 84. the air holes are communicated; 85. a backing plate; 86. an adsorption tank; 87. butting air holes; 9. a gas guide; 10. and (6) cleaning the air holes.

Detailed Description

The embodiment will be clearly and completely described in conjunction with the disclosed drawings, so that the purpose, technical scheme and beneficial effects of the embodiment of the disclosure are clearer. It is to be understood that the described embodiments are only a few embodiments of the present disclosure, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the disclosure without any inventive step, are within the scope of protection of the disclosure.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of skill in the art to which this disclosure belongs. The use of "first," "second," and similar terms in this disclosure is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" and similar words are intended to mean that the elements or items listed before the word cover the elements or items listed after the word and their equivalents, without excluding other elements or items. "upper", "lower", "inside", "outside", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Example (b):

referring to fig. 1-7, a feeding and conveying device for ultra-thin glass processing comprises a transmission frame 1, wherein the inner side of the transmission frame 1 is rotatably connected with a transmission wheel 2, the inner side of the transmission wheel 2 is fixedly connected with a transmission shaft 3, the outer side of the transmission wheel 2 is wrapped with a transmission belt 4, a glass plate 5 is placed above the transmission shaft 3, the outer side of the transmission shaft 3 is wrapped with a cushion, a local plane is formed when the cushion is pressed by the glass plate 5, the axes of the transmission shaft 3 and the transmission wheel 2 are provided with a hole cavity, an adsorption mechanism 7 is arranged inside the transmission shaft 3, the adsorption mechanism 7 comprises suction air holes 71 arranged on the inner side of the hole, the suction air holes 71 are circumferentially distributed around the central axis of the transmission shaft 3 in an array manner, the suction air holes 71 are circumferentially distributed on the outer side of the transmission shaft 3, the inner side of the hole is provided with a central axis 72, the central axis 72 is rotatably connected with the transmission frame 1, the axis of the central axis 72 is positioned below the axis of the transmission shaft 3, an installation groove 73 is formed in the outer side of the central shaft 72, a control rod 74 is rotatably connected to the inside of the installation groove 73, the other end of the control rod 74 is rotatably connected with a connecting rod 75, the other end of the connecting rod 75 is rotatably connected with a piston 76, and the piston 76 is slidably connected to the inside of the air suction hole 71;

the transmission shaft 3 rotates, the control rod 74, the connecting rod 75 and the piston 76 drive the central shaft 72 to synchronously rotate, the piston 76 and the central shaft 72 respectively rotate around the axes of the piston 76 and the central shaft 72 are arranged below the transmission shaft 3, and the distance from the top of the central shaft 72 to the transmission shaft 3 is larger than the distance from the bottom of the central shaft 72 to the transmission shaft 3, so that when the piston 76 rotates from bottom to top, the control rod 74 and the connecting rod 75 pull the piston 76 inwards to generate suction in the suction air hole 71, when the suction air hole 71 moves to the top, the glass plate 5 closes the opening of the suction air hole 71, and the negative pressure environment in the suction air hole 71 firmly adsorbs the glass plate 5, so when the piston 76 rotates from top to bottom, the control rod 74 and the connecting rod 75 push the piston 76 inwards and outwards.

A pressing wheel 6 is arranged between two adjacent driving wheels 2, the center point of the pressing wheel 6 is the same as the horizontal height of the top surface of the transmission shaft 3, so that the pressing wheel 6 presses the transmission belt 4 downwards, the wrap angle of the transmission belt 4 to the driving wheels 2 is increased, and the power obtained by the driving wheels 2 is more sufficient; a baffle is fixedly connected between the driving wheel 2 and the transmission shaft 3, and is made of rubber, so that the damage caused by collision between the edge of the glass plate 5 and a hard object is avoided; furthermore, a limiting block is arranged in the suction air hole 71, and when the piston 76 is located at the highest point, the bottom surface of the piston 76 is in contact with the limiting block, so that the piston 76 is prevented from being separated from the suction air hole 71; the inner opening of the suction hole 71 is flared to avoid collision between the connecting rod 75 and the inner wall of the suction hole 71 during movement.

The distribution paths of the air suction holes 71 on the vertical planes of the transmission shafts 3 at all positions are not overlapped, so that the positions of the air suction holes 71 on different transmission shafts 3 are different, when the glass plate 5 slides on the surface of the transmission shaft 3, the air suction holes 71 are opposite to the glass plate 5, the air suction holes 71 are close to the glass plate 5, the air suction holes 71 are just separated from the glass plate 5, and the air suction holes 71 are opposite to the glass plate 5 all the time and adsorb the glass plate 5, so that the operation stability of the adsorption mechanism 7 is improved, and the conveying safety of the glass plate 5 is further ensured.

Referring to fig. 7-9, a separating mechanism 8 is disposed inside the transmission shaft 3, the separating mechanism 8 includes a mounting plate 81 fixedly connected inside the air suction hole 71, a spring 82 is fixedly connected to a surface of the mounting plate 81, another end of the spring 82 is fixedly connected to a movable rod 83, the movable rod 83 extends out of the air suction hole 71, a communicating air hole 84 is formed inside the movable rod 83, another end of the movable rod 83 is rotatably connected to a backing plate 85, the backing plate 85 surrounds the transmission shaft 3, an adsorption groove 86 is formed in an outer surface of the backing plate 85, and a butt-joint air hole 87 is formed between the adsorption groove 86 and the communicating air hole 84; when the piston 76 is at the highest point, the suction air hole 71 generates suction, negative pressure is generated in the suction groove 86 through the butt air hole 87 to suck the glass plate 5, when the glass plate 5 is in a sudden stop, the glass plate 5 generates a horizontal force on the backing plate 85 by the inertia, the backing plate 85 is limited by the movable rod 83 and the transmission shaft 3 and cannot move, the inertia of the glass plate 5 is eliminated, as shown in fig. 8, when the backing plate 85 moves downwards from the highest point in normal rotation, the movable rod 83 and the transmission shaft 3 move in cooperation with the backing plate 85, as shown in fig. 9, the backing plate 85 is always attached to the glass plate 5, and the movement of the glass plate 5 is not influenced and the pulling force is not generated on the glass plate 5.

The backing plate 85 is made of elastic rubber, and the opening area of the adsorption groove 86 is smaller than the area of the backing plate 85 deformed when being pressed by the glass plate 5, so that the opening of the adsorption groove 86 can be completely closed when the glass plate 5 is pressed down, and the adsorption effect is improved to the maximum extent; an elastic restoring member is provided between the pad 85 and the movable bar 83 to assist the restoration between the pad 85 and the movable bar 83.

Referring to fig. 10, the air guide member 9 is fixedly connected to the opening of the butt-joint air hole 87, the cleaning air holes 10 are circumferentially arranged on the periphery of the inner wall of the adsorption groove 86, the distance between the cleaning air holes 10 and the outer surface of the backing plate 85 is not more than five millimeters, a thin covering layer is formed in the area, when the suction air hole 71 rotates from the uppermost direction, the piston 76 is pushed outwards to push out the air in the suction air hole 71, the air enters the adsorption groove 86 from the butt-joint air hole 87, and is dispersed to flow outwards along the inner wall of the adsorption groove 86 under the influence of the air guide member 9, as shown in fig. 10, part of the air flow passes through the surface of the backing plate 85, and part of the air flow passes through the cleaning air holes 10, and the air flow at both ends of the covering layer is unstable due to the position of the backing plate 85, which may cause the shaking of the covering layer, thus preventing dust particles from adhering to the surface of the backing plate 85.

Claims

1. The utility model provides an ultra-thin glass processing is with feeding conveyor, includes transmission frame (1), the inboard of transmission frame (1) is rotated and is connected drive wheel (2), inboard fixed connection transmission shaft (3) of drive wheel (2), outside parcel drive belt (4) of drive wheel (2), glass board (5), its characterized in that are placed to the top of transmission shaft (3): the outer side of the transmission shaft (3) is wrapped with a soft cushion, the axes of the transmission shaft (3) and the transmission wheel (2) are provided with a hole cavity, an adsorption mechanism (7) is arranged inside the transmission shaft (3), the adsorption mechanism (7) comprises a suction hole (71) arranged on the inner side of the hole cavity, the air suction hole (71) penetrates to the outer side of the transmission shaft (3), a central shaft (72) is arranged on the inner side of the hole cavity, the central shaft (72) is rotationally connected with the transmission frame (1), the axis of the central shaft (72) is positioned below the axis of the transmission shaft (3), the outer side of the central shaft (72) is provided with an installation groove (73), the interior of the mounting groove (73) is rotatably connected with a control rod (74), the other end of the control rod (74) is rotatably connected with a connecting rod (75), the other end of the connecting rod (75) is rotatably connected with a piston (76), and the piston (76) is connected inside the air suction hole (71) in a sliding mode.

2. The feeding and conveying device for ultra-thin glass processing as claimed in claim 1, wherein: a pinch roller (6) is arranged between two adjacent driving wheels (2), and the center point of the pinch roller (6) is the same as the horizontal height of the top surface of the transmission shaft (3).

3. The feeding and conveying device for ultra-thin glass processing as claimed in claim 1, wherein: a baffle is fixedly connected between the driving wheel (2) and the transmission shaft (3), and the baffle is made of rubber.

4. The feeding and conveying device for ultra-thin glass processing as claimed in claim 1, wherein: a limiting block is arranged in the air suction hole (71), and when the piston (76) is located at the highest point, the bottom surface of the piston (76) is in contact with the limiting block.

5. The feed delivery apparatus for ultra-thin glass processing according to claim 1, wherein: the inner side opening of the suction hole (71) is subjected to flaring processing.

6. The feed delivery apparatus for ultra-thin glass processing according to claim 1, wherein: the distribution paths of the air suction holes (71) on the vertical plane of the transmission shaft (3) at all positions are not overlapped.

7. The feed delivery apparatus for ultra-thin glass processing according to claim 1, wherein: the inside of transmission shaft (3) sets up separating mechanism (8), separating mechanism (8) are including fixed connection at inside mounting panel (81) of suction hole (71), fixed surface of mounting panel (81) connects spring (82), other end fixed connection movable rod (83) of spring (82), suction hole (71) is extended in movable rod (83), and intercommunication gas pocket (84) are seted up to the inside of movable rod (83), and connection backing plate (85) is rotated to the other end of movable rod (83), backing plate (85) encircle the outside of parcel at transmission shaft (3), and adsorption tank (86) are seted up to the surface of backing plate (85), set up butt joint gas pocket (87) between adsorption tank (86) and intercommunication gas pocket (84).

8. The feeding and conveying device for ultra-thin glass processing as claimed in claim 7, wherein: the backing plate (85) is made of elastic rubber, and the opening area of the adsorption groove (86) is smaller than the area of the backing plate (85) which deforms when being pressed by the glass plate (5).

9. The feeding and conveying device for ultra-thin glass processing as claimed in claim 7, wherein: an elastic reset piece is arranged between the backing plate (85) and the movable rod (83).

10. The feeding and conveying device for ultra-thin glass processing according to claim 7, wherein: the air guide piece (9) is fixedly connected to the opening of the butt joint air hole (87), cleaning air holes (10) which are arranged in a surrounding mode are formed in the periphery of the inner wall of the adsorption groove (86), and the distance between the cleaning air holes (10) and the outer surface of the base plate (85) is not more than five millimeters.