CN211909312U - Automatic production line for PCB (printed circuit board) - Google Patents
Automatic production line for PCB (printed circuit board) Download PDFInfo
- Publication number
- CN211909312U CN211909312U CN202020619036.9U CN202020619036U CN211909312U CN 211909312 U CN211909312 U CN 211909312U CN 202020619036 U CN202020619036 U CN 202020619036U CN 211909312 U CN211909312 U CN 211909312U
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- pcb
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- burning
- conveyor
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Abstract
The utility model relates to an automatic production line of PCB boards, which comprises ICT detection devices arranged in sequence and used for carrying out ICT detection on the PCB boards; the burning device is used for burning the PCB after ICT detection; the self-checking detection device is used for carrying out self-checking and additional detection on the PCB which is qualified in burning; the ATE testing device is used for carrying out ATE testing on the PCB qualified by the self-checking detection; the manual operation table is used for manually installing a power adapter on the PCB qualified in the ATE test; the conveyer is used for conveying the PCB provided with the power adapter; the welding device is arranged on the conveyor and is used for welding the connection part of the power adapter and the PCB; the glue dispensing device is arranged on the conveyor and is used for dispensing the back of the PCB; and the three robots are respectively positioned on one side of the burning device, one side of the self-checking detection device and one side of the ATE testing device. The PCB is automatically transferred under the action of the robot and the conveyor, and is automatically detected, burnt, welded and dispensed, so that the production efficiency is improved, and the qualification rate is also improved.
Description
Technical Field
The utility model relates to a PCB board processing technology field specifically is a PCB board automatic production line.
Background
Pcb (printed Circuit board), also called printed Circuit board and printed Circuit board in chinese, is an important electronic component, is a support for electronic components, and is a provider of electrical connection of electronic components. In the present generation, circuit panels exist only as effective experimental tools, and printed circuit boards have become an important position in the electronics industry. In the traditional PCB processing process, each procedure needs manual operation, so that the efficiency is low and the qualification rate is not high.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is: the technical problems of low efficiency and low qualification rate of the traditional PCB production process are solved.
The utility model provides an automatic production line of PCB boards, which comprises ICT detection devices arranged in sequence and used for carrying out ICT detection on the PCB boards;
the burning device is used for burning the PCB after ICT detection;
the self-checking detection device is used for carrying out self-checking and additional detection on the PCB which is qualified in burning;
the ATE testing device is used for carrying out ATE testing on the PCB qualified by the self-checking detection;
the manual operation table is used for manually installing a power adapter on the PCB qualified in the ATE test;
the conveyer is used for conveying the PCB provided with the power adapter;
the welding device is arranged on the conveyor and is used for welding the connection part of the power adapter and the PCB;
the glue dispensing device is arranged on the conveyor and is used for dispensing the back of the welded PCB;
and the three robots are respectively positioned on one side of the burning device, one side of the self-checking detection device and one side of the ATE testing device.
The PCB is automatically transferred under the action of the robot and the conveyor, and is automatically detected, burnt, welded and dispensed, except that the power adapter is manually installed on the PCB, other processes are fully automatically carried out, so that the production efficiency is improved, and the qualification rate is also improved.
Furthermore, a first transfer code scanning platform is arranged between the burning device and the self-checking device in a staggered mode, a second transfer code scanning platform is arranged between the self-checking device and the ATE testing device in a staggered mode, and a positioning transfer platform is arranged near the first transfer code scanning platform;
and NG storage bins are arranged on one side of the robot.
Detecting the burned PCB by the positioning transfer platform, and putting the PCB into an NG storage bin if the PCB is unqualified; the first transfer code scanning platform carries out XY-direction moving code scanning on the PCB subjected to self-detection, and if the PCB is unqualified, the PCB is placed into an NG bin; the second transfer code scanning platform carries out XY-direction moving code scanning on the PCB after the ATE test, and if the PCB is unqualified, the PCB is placed into an NG bin; unqualified products are removed in real time under the effect that yard platform is swept in location transfer platform, first transfer and yard platform is swept in the second transfer, has improved the qualification rate of final product.
Further, the welding device performs automatic welding through a three-axis double-head welding robot, and the dispensing device performs dispensing twice through a cooperative robot; and the two side areas of the dispensing device are provided with turnover devices arranged on the conveyor. The turnover device adopts a rotary cylinder as power, and the turnover device at the front side of the glue dispensing device turns over the PCB to enable the bottom of the PCB to be upward, so that glue dispensing of the glue dispensing device is facilitated, and glue cannot drip before hardening; the turnover device at the rear side of the dispensing device enables the PCB after turnover to reset, and workers can conveniently bag and put on shelves.
Drawings
The present invention will be further explained with reference to the drawings and examples.
Fig. 1 is a schematic top view of the present invention;
in the figure: 1. an ICT detection device; 2. a burning device; 3. a self-checking detection device; 4. an ATE test apparatus; 5. a manual operation table; 6. a conveyor; 7. a welding device; 8. a dispensing device; 9. a robot; 11. a first transfer code scanning platform; 12. a second transfer code scanning platform; 13. positioning a transfer table; 14. NG a stock bin; 15. and a turnover device.
Detailed Description
The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.
As shown in fig. 1, the utility model relates to an automatic production line of PCB board, which comprises an ICT detecting device 1 arranged in sequence for ICT detection of PCB board;
the burning device 2 is used for burning the PCB after ICT detection;
the self-detection device 3 is used for carrying out self-detection and additional detection on the PCB which is qualified in burning;
the ATE testing device 4 is used for carrying out ATE testing on the PCB qualified by the self-checking detection;
the manual operation table 5 is used for manually installing a power adapter on the PCB qualified in the ATE test;
the conveyor 6 is used for conveying the PCB provided with the power adapter;
the welding device 7 is arranged on the conveyor 6 and is used for welding the connection part of the power adapter and the PCB through the three-axis double-head welding robot 9;
two sets of glue dispensing devices 8 are arranged on the conveyor 6, and twice glue dispensing is carried out on the back of the welded PCB through a cooperative robot 9;
the two turnover devices 15 adopt a rotary cylinder as power, are arranged on the conveyor 6 and are positioned at two sides of the glue dispensing device 8; the turnover device 15 positioned at the front side of the glue dispensing device 8 turns over the PCB to enable the bottom of the PCB to be upward, so that glue dispensing of the glue dispensing device 8 is facilitated, and glue cannot drip before hardening; the turnover device 15 at the rear side of the dispensing device 8 enables the turned PCB to reset, so that workers can conveniently bag and put on shelves;
the first transfer code scanning platform 11 is positioned between the burning device 2 and the self-checking detection device 3, is arranged in a staggered manner, and is used for carrying out XY-direction moving code scanning on the PCB subjected to self-checking detection;
the second transfer code scanning table 12 is positioned between the self-detection device 3 and the ATE testing device 4, is arranged in a staggered manner, and is used for carrying out XY-direction moving code scanning on the PCB after the ATE testing;
the positioning transfer table 13 is positioned near the first transfer code scanning table 11 and used for detecting the burned PCB;
the three robots 9 are respectively positioned between the positioning transfer table 13 and the first transfer code scanning table 11, between the first transfer code scanning table 11 and the second transfer code scanning table 12, and between the second transfer code scanning table 12 and the manual operation table 5, and are used for automatically transferring the PCB from the ICT detection device 1 to the manual operation table 5;
the three NG bins 14 are respectively positioned near the robot 9 and used for placing products which are detected by the positioning transfer table 13, movably scanned in the first transfer code scanning table 11XY direction and unqualified in code scanning in the second transfer code scanning table 12XY direction;
carry out automatic transfer to the PCB board under the effect of robot 9 and conveyer 6 to detect automatically, burn record, welding and point are glued, except that power adapter through manual installation at this process of PCB board, other processes are full-automatic going on, have not only improved production efficiency, have still improved the qualification rate.
In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.
Claims (3)
1. The utility model provides a PCB board automatic production line which characterized in that: comprising successively arranged
The ICT detection device (1) is used for carrying out ICT detection on the PCB;
the burning device (2) is used for burning the PCB after ICT detection;
the self-checking detection device (3) is used for carrying out self-checking detection on the PCB which is qualified in burning;
the ATE testing device (4) is used for carrying out ATE testing on the PCB qualified by the self-checking detection;
the manual operation table (5) is used for manually installing a power adapter on the PCB qualified in the ATE test;
a conveyor (6) for transporting the PCB board mounted with the power adapter;
the welding device (7) is arranged on the conveyor (6) and is used for welding the connection part of the power adapter and the PCB;
the glue dispensing device (8) is arranged on the conveyor (6) and is used for dispensing the back of the welded PCB;
and the three robots (9) are respectively positioned on one side of the burning device (2), one side of the self-checking detection device (3) and one side of the ATE test device (4).
2. The automatic production line of PCB board of claim 1, characterized in that: a first transfer code scanning table (11) is arranged between the burning device (2) and the self-detection device (3) in a staggered mode, a second transfer code scanning table (12) is arranged between the self-detection device (3) and the ATE testing device (4) in a staggered mode, and a positioning transfer table (13) is arranged near the first transfer code scanning table (11);
and NG storage bins (14) are arranged on one side of the robot (9).
3. The automatic production line of PCB board of claim 1, characterized in that: the welding device (7) performs automatic welding through a three-axis double-head welding robot, and the glue dispensing device (8) performs twice glue dispensing through a cooperative robot; and the two side areas of the dispensing device (8) are provided with turnover devices (15) arranged on the conveyor (6).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020619036.9U CN211909312U (en) | 2020-04-22 | 2020-04-22 | Automatic production line for PCB (printed circuit board) |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020619036.9U CN211909312U (en) | 2020-04-22 | 2020-04-22 | Automatic production line for PCB (printed circuit board) |
Publications (1)
Publication Number | Publication Date |
---|---|
CN211909312U true CN211909312U (en) | 2020-11-10 |
Family
ID=73277147
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN202020619036.9U Active CN211909312U (en) | 2020-04-22 | 2020-04-22 | Automatic production line for PCB (printed circuit board) |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN211909312U (en) |
-
2020
- 2020-04-22 CN CN202020619036.9U patent/CN211909312U/en active Active
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