CN107561090B

CN107561090B - Automatic optical detection device

Info

Publication number: CN107561090B
Application number: CN201710988168.1A
Authority: CN
Inventors: 原振雄
Original assignee: Innogetic Technology Co ltd
Current assignee: Innogetic Technology Co ltd
Priority date: 2017-10-21
Filing date: 2017-10-21
Publication date: 2024-02-20
Anticipated expiration: 2037-10-21
Also published as: CN107561090A

Abstract

The invention discloses an automatic optical detection device which comprises a base, a drag chain connecting plate, a drag chain, a supporting seat and a first drag chain connecting plate, wherein the drag chain connecting plate is arranged on the base, the drag chain is arranged on the drag chain connecting plate, the supporting seat is arranged beside the drag chain, the first drag chain connecting plate is arranged beside the supporting seat, the carrier positioning plate is arranged on the first drag chain connecting plate, the guide shaft is arranged beside the carrier positioning plate, the connecting plate sliding block is arranged beside the guide shaft, the semicircular magnifier is arranged beside the connecting plate sliding block, the magnifying camera is arranged on the semicircular magnifier, the movable sliding plate is arranged beside the magnifying camera, the movable clamping block is arranged beside the movable clamping block, and the clamping block sliding way is arranged beside the movable clamping block. The invention has the beneficial effects that: in the using process of the machine, the sensitivity and the accuracy of each component are improved through the mutual matching among parts, so that the automation of the optical detection machine is improved; by additionally arranging two groups of seal clamping plates and four seals, the working efficiency of the seals is improved, and the automation of a machine is further improved.

Description

Automatic optical detection device

Technical Field

The invention relates to the field of automatic detection, in particular to an automatic optical detection device.

Background

Along with the development of the information age, electronic equipment has a great specific gravity in our life, in life, a mobile phone at one part of a human hand, a television at home, a media propaganda display screen on the street, and an electronic chip in automatic equipment, if electronic boards in the equipment are bad and cannot be timely overhauled, great trouble is brought to our life, and a way of obtaining external information is usually that people know about national big things and times through a network, so an electronic chip detection device-an automatic optical detection machine in actual production is designed and applied according to the requirements of social life, but the machine has the defects of low automation degree, stamping efficiency and the like in the use process and is unfavorable for long-time use in production detection.

Disclosure of Invention

In order to solve the problems of the prior art, the present invention provides an automatic optical detection device.

The invention realizes the above purpose through the following technical proposal:

the automatic optical detection device comprises a base, a drag chain connecting plate, a drag chain, a supporting seat and a drag chain connecting plate I, wherein the upper side of the base is the drag chain connecting plate, the upper side of the drag chain connecting plate is the drag chain, the lower side of the drag chain is the supporting seat, the lower side of the supporting seat is the drag chain connecting plate I, the upper side of the drag chain connecting plate is a carrier positioning plate, the lower side of the carrier positioning plate is a guide shaft, the lower side of the guide shaft is a connecting plate sliding block, the lower side of the connecting plate sliding block is a semicircular amplifying mirror, the upper side of the semicircular amplifying mirror is an amplifying camera, the lower side of the amplifying camera is a moving sliding plate, the lower side of the moving sliding plate is a moving clamping block, the lower side of the semicircular amplifying mirror is a turnover machine, the upper side of the base is a guide rail, the lower side of the guide rail is a fixed hand wheel, the lower side of the guide rail is a transmission motor, the upper side of the transmission motor is a belt, the upper side of the guide rail is a seal, the upper side of the seal is a seal clamping plate, the upper side of the clamping plate is a small mounting plate is a mounting plate, the upper side of the mounting plate is a small mounting plate is a lower side of the synchronous belt, the synchronous belt is a fixing seat is a side of the synchronous belt, the synchronous belt is a lower side of the synchronous belt, the synchronous belt is a fixed seat is a side of the synchronous belt, and the synchronous belt is a fixed seat is a side of the synchronous belt.

The base is tightly connected with the drag chain through a drag chain groove, and the drag chain is tightly connected with the drag chain connecting plate through the drag chain groove.

The drag chain is tightly connected with the first drag chain connecting plate in a drag chain groove mode, and the first drag chain connecting plate is tightly connected with the supporting seat in a screw mode.

The support seat is tightly connected with the carrier positioning plate in a carrier guide rail mode, and the carrier positioning plate is tightly connected with the semicircular magnifier in a partition plate mode.

The semicircular magnifier is in indirect contact with the magnifying camera, and the magnifying camera is tightly connected with the movable sliding plate through a connecting rod.

The movable sliding plate is tightly connected with the movable clamping blocks in a connecting rod mode, and the movable clamping blocks are in indirect contact with the clamping block sliding ways.

The clamping block slide way is tightly connected with the connecting plate slide block in a screw mode, the connecting plate slide block is in indirect contact with the guide shaft, and the guide shaft is tightly connected with the base in a falling curtain mode.

The base is tightly connected with the turnover machine in a screw mode, the base is tightly connected with the transmission motor in a screw mode, the transmission motor is tightly connected with the belt in a driving wheel mode, the belt is tightly connected with the guide rail in a driving wheel mode, and the fixed hand wheel is tightly connected with the guide rail in a connecting rod mode.

The seal is in indirect contact with the seal clamping plate, the seal clamping plate is tightly connected with the small mounting plate in a screw mode, the small mounting plate is tightly connected with the mounting plate in a screw mode, the mounting plate is tightly connected with the fixing seat in a bolt mode, the fixing seat is tightly connected with the mounting seat in a bolt mode, the base is tightly connected with the fixing rod in a frame mode, the fixing rod is tightly connected with the backup plate in a clamping plate mode, the synchronous belt is tightly connected with the main motor in a driving wheel mode, the synchronous belt is tightly connected with the driven group in a driving wheel mode, the synchronous belt is tightly connected with the synchronous belt pressing piece in a screw mode, and the guide rail is tightly connected with the manipulator supporting plate in an electronic plate mode.

The invention has the beneficial effects that: in the using process of the machine, the sensitivity and the accuracy of each component are improved through the mutual matching among parts, so that the automation of the optical detection machine is improved; by additionally arranging two groups of seal clamping plates and four seals, the working efficiency of the seals is improved, and the automation of a machine is further improved.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of an automated optical inspection apparatus according to the present invention;

fig. 2 is a schematic diagram of a manipulator of an automatic optical detection device according to the present invention.

1. A base; 2. a drag chain connection plate; 3. a drag chain; 4. a support base; 5. a drag chain connecting plate I; 6. a carrier positioning plate; 7. a guide rail; 8. a drive motor; 9. a belt; 10. fixing a hand wheel; 11. a seal clamping plate; 12. and (3) a seal; 13. a small mounting plate; 14. a mounting plate; 15. a fixing seat; 16. a mounting base; 17. a driven group; 18. a manipulator support plate; 19. a main motor; 20. a synchronous belt; 21. a fixed rod; 22. a synchronous belt compressing member; 23. a backup plate; 24. a turnover machine; 25. a cleat slide; 26. an enlarged camera; 27. a moving slide plate; 28. moving the clamping block; 29. a semicircular magnifier; 30. a guide shaft; 31 connecting plate slide block.

Detailed Description

As shown in fig. 1-2, an automatic optical inspection device comprises a base 1, a drag chain connecting plate 2, a drag chain 3, a supporting seat 4, and a drag chain connecting plate 1, wherein the drag chain connecting plate 2 is arranged on the base 1, the drag chain 3 is arranged on the drag chain connecting plate 2, the supporting seat 4 is arranged beside the drag chain 3, the drag chain connecting plate 5 is arranged beside the supporting seat 4, the carrier positioning plate 6 is arranged beside the carrier positioning plate 6, the guide shaft 30 is arranged beside the guide shaft 30, the connecting plate slider 31 is arranged beside the guide shaft 30, the semicircular magnifier 29 is arranged beside the connecting plate slider 31, the magnifying camera 26 is arranged above the semicircular magnifier 29, the moving slide plate 27 is arranged beside the moving slide plate 27, the clamp block 25 is arranged beside the moving clamp block 28, the turnover machine 24 is arranged beside the semicircular magnifier 29, the base 1 is provided with a guide rail 7, a fixed hand wheel 10 is beside the guide rail 7, a transmission motor 8 is beside the guide rail 7, a belt 9 is arranged on the transmission motor 8, a seal 12 is arranged on the guide rail 7, a seal clamping plate 11 is arranged on the seal clamping plate 11, a small mounting plate 13 is arranged on the small mounting plate 13, a mounting plate 14 is arranged on the mounting plate 14, a fixing seat 15 is arranged on the fixing seat 15, a mounting seat 16 is arranged beside the mounting seat 16, a fixing rod 21 is arranged below the fixing rod 21, a synchronous belt 20 is arranged below the fixing rod 21, one end of the synchronous belt 20 is provided with a main motor 19, the other end of the synchronous belt 20 is provided with a driven group 17, a synchronous belt 20 is provided with a synchronous belt clamping piece 22, a manipulator supporting plate 18 is arranged below the synchronous belt clamping piece 22, a backup plate 23 is arranged beside the fixing rod 21, and a turnover machine 24 is arranged beside the backup plate 23.

In this embodiment, the base 1 is tightly connected with the drag chain 3 by means of a drag chain groove, the drag chain 3 is tightly connected with the drag chain connecting plate 2 by means of a drag chain groove, the drag chain 3 is tightly connected with the drag chain connecting plate 5 by means of a drag chain groove, the drag chain connecting plate 5 is tightly connected with the supporting seat 4 by means of a screw, the supporting seat 4 is tightly connected with the carrier positioning plate 6 by means of a carrier guide rail, the carrier positioning plate 6 is tightly connected with the semi-circular magnifier 29 by means of a partition plate, the semi-circular magnifier 29 is indirectly contacted with the magnifier 26, the magnifier 26 is tightly connected with the movable slide plate 27 by means of a connecting rod, the movable slide plate 27 is tightly connected with the movable clamp block 28 by means of a connecting rod, the movable clamp block 28 is indirectly contacted with the clamp block slide 25 by means of a screw, the clamp block slide 25 is tightly connected with the connecting plate slide block 31 by means of a screw, the connecting plate slide block 31 is indirectly contacted with the guide shaft 30, and the guide shaft 30 is tightly connected with the base 1 by means of a falling curtain.

In this embodiment, the base 1 is tightly connected to the tilter 24 by means of screws, the base 1 is tightly connected to the driving motor 8 by means of screws, the driving motor 8 is tightly connected to the belt 9 by means of driving wheels, the belt 9 is tightly connected to the guide rail 7 by means of driving wheels, and the fixed hand wheel 10 is tightly connected to the guide rail 7 by means of connecting rods.

In this embodiment, the stamp 12 is indirectly contacted with the stamp clamping plate 11, the stamp clamping plate 11 is tightly connected with the small mounting plate 13 by means of screws, the small mounting plate 13 is tightly connected with the mounting plate 14 by means of screws, the mounting plate 14 is tightly connected with the fixing seat 15 by means of bolts, the fixing seat 15 is tightly connected with the mounting seat 16 by means of bolts, the base 1 is tightly connected with the fixing rod 21 by means of a frame, the fixing rod 21 is tightly connected with the backup plate 23 by means of a clamping plate, the synchronous belt 20 is tightly connected with the main motor 19 by means of a driving wheel, the synchronous belt 20 is tightly connected with the driven group 17 by means of a driving wheel, the synchronous belt 20 is tightly connected with the synchronous belt pressing piece 22 by means of screws, and the guide rail 7 is tightly connected with the manipulator supporting plate 18 by means of an electronic plate.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and their equivalents.

Claims

1. An automatic optical detection device, characterized in that: comprises a base, a drag chain connecting plate, a drag chain, a supporting seat and a drag chain connecting plate I, wherein the drag chain connecting plate is arranged on the base, the drag chain connecting plate is arranged on the drag chain, the supporting seat is arranged beside the drag chain connecting plate I, the carrier positioning plate is arranged on the drag chain connecting plate I, the guide shaft is arranged beside the carrier positioning plate, the connecting plate sliding block is arranged beside the guide shaft, the semicircular magnifying glass is arranged beside the connecting plate sliding block, the magnifying camera is arranged beside the magnifying camera, the moving sliding plate is arranged beside the moving sliding plate, the clamping block is arranged beside the moving clamping block, the semicircular magnifying glass is arranged beside the turnover machine, the guide rail is arranged on the base, the automatic overturning device is characterized in that a fixed hand wheel is arranged beside the guide rail, a transmission motor is arranged beside the guide rail, a belt is arranged on the transmission motor, a seal is arranged on the guide rail, a seal clamping plate is arranged on the seal clamping plate, a small mounting plate is arranged on the small mounting plate, a mounting plate is arranged on the mounting plate, a fixing seat is arranged on the fixing seat, a fixing rod is arranged beside the mounting seat, a synchronous belt is arranged below the fixing rod, one end of the synchronous belt is a main motor, the other end of the synchronous belt is a driven group, a synchronous belt pressing piece is arranged beside the synchronous belt, a manipulator supporting plate is arranged below the synchronous belt pressing piece, a backup plate is arranged beside the fixing rod, and a overturning machine is arranged beside the backup plate.

2. An automated optical inspection apparatus according to claim 1, wherein: the base is tightly connected with the drag chain through a drag chain groove, and the drag chain is tightly connected with the drag chain connecting plate through the drag chain groove.

3. An automated optical inspection apparatus according to claim 1, wherein: the drag chain is tightly connected with the first drag chain connecting plate in a drag chain groove mode, and the first drag chain connecting plate is tightly connected with the supporting seat in a screw mode.

4. An automated optical inspection apparatus according to claim 1, wherein: the support seat is tightly connected with the carrier positioning plate in a carrier guide rail mode, and the carrier positioning plate is tightly connected with the semicircular magnifier in a partition plate mode.

5. An automated optical inspection apparatus according to claim 1, wherein: the semicircular magnifier is in indirect contact with the magnifying camera, and the magnifying camera is tightly connected with the movable sliding plate through a connecting rod.

6. An automated optical inspection apparatus according to claim 1, wherein: the movable sliding plate is tightly connected with the movable clamping block through a connecting rod, and the movable clamping block is indirectly contacted with the clamping block slideway.

7. An automated optical inspection apparatus according to claim 1, wherein: the clamping block slide way is tightly connected with the connecting plate slide block in a screw mode, the connecting plate slide block is in indirect contact with the guide shaft, and the guide shaft is tightly connected with the base in a falling curtain mode.

8. An automated optical inspection apparatus according to claim 1, wherein: the base with the upset machine carries out inseparable connection through the mode of screw, the base with the transmission motor carries out inseparable connection through the mode of screw, the transmission motor with the belt carries out inseparable connection through the mode of drive wheel, the belt with the guide rail carries out inseparable connection through the mode of drive wheel, fixed hand wheel with the guide rail carries out inseparable connection through the mode of connecting rod.

9. An automated optical inspection apparatus according to claim 1, wherein: the seal with seal splint indirect contact, seal splint with little mounting panel carries out inseparable connection through the mode of screw, little mounting panel with the mounting panel carries out inseparable connection through the mode of screw, the mounting panel with the fixing base carries out inseparable connection through the mode of bolt, the fixing base with the fixing base carries out inseparable connection through the mode of bolt, the base with the dead lever carries out inseparable connection through the mode of frame, the dead lever with the backup plate carries out inseparable connection through the mode of splint, the hold-in range with main motor carries out inseparable connection through the mode of drive wheel, the hold-in range with driven group carries out inseparable connection through the mode of drive wheel, the hold-in range with hold-in range compresses tightly the piece and carries out inseparable connection through the mode of screw, the guide rail with manipulator layer board carries out inseparable connection through the mode of electron board.