CN113770047A - Automatic turn-over area NG of many tools of cooperation AOR deposits function all-in-one - Google Patents

Abstract

The invention relates to an AOR (automatic optic inspection) multi-jig automatic turnover belt NG (NG) storage function integrated machine, which comprises an operation table and a plate moving mechanical arm, wherein the operation table comprises a taking and placing station in the middle and detection stations symmetrically arranged on two sides, an unqualified station is also arranged between the taking and placing station and the detection stations on each side, the plate moving mechanical arm comprises a first plate moving mechanical arm and a second plate moving mechanical arm, the first plate moving mechanical arm moves between the taking and placing station and the detection stations on the left side, the second plate moving mechanical arm moves between the taking and placing station and the detection stations on the right side, the detection stations are provided with plate turnover machines, the plate turnover machines are provided with turnover suckers, and the disc surfaces of the turnover suckers are turned over to be opposite to the plate moving mechanical arms or are turned to be parallel to detection table surfaces of the detection stations. The invention realizes that one detection device has double detection stations, completes double-sided detection of the circuit board, improves the detection speed by one time, and effectively solves the problem of limited site space.

Description

Automatic turn-over area NG of many tools of cooperation AOR deposits function all-in-one

Technical Field

The invention relates to the field of PCB production, in particular to an all-in-one machine with NG storage function and automatic turnover by matching with AOR multiple jigs.

Background

In electronic products, a circuit board is an important electronic component and a carrier for electrical connection of electronic components, so that quality of the circuit board is particularly important in a production and manufacturing process of the circuit board, and the circuit board needs to be inspected after being manufactured. Along with the rapid development of the electronic industry, the density of the circuit boards is higher and higher, the production yield of the circuit boards is also higher and higher, the mode of manually testing the circuit boards by points is gradually eliminated, and the requirements of the industry can be met only by utilizing automatic detection equipment.

For example, AOI optical automatic inspection equipment becomes an important inspection tool and process quality control tool for ensuring product quality in the electronic manufacturing industry, automatically scans a circuit board to be inspected through a high-definition CCD camera, acquires an image, compares the inspected inspection point with qualified parameters in a database, inspects defects on a target circuit board through image processing, and displays/marks the defects through a display or an automatic mark.

On the other hand, most of circuit boards have the effect of electrical connection on the front and back sides, when detecting the circuit board, the circuit board needs to be subjected to double-sided detection, and AOI optical automatic detection equipment can only detect one side at a time, and the circuit board needs to be turned over in the detection process. Therefore, how to further improve the detection efficiency based on the existing detection equipment becomes a problem to be solved in the industry.

Disclosure of Invention

In order to overcome the problems in the prior art, the invention provides an all-in-one machine which is matched with AOR multi-jig automatic turnover and has NG storage function.

The technical scheme of the invention is as follows:

an automatic turnover and NG storage integrated machine matched with an AOR multi-jig comprises an operation table and a board moving manipulator, wherein the board moving manipulator moves a circuit board to be detected on the operation table, the automatic turnover and NG storage integrated machine is characterized in that the operation table comprises a picking and placing station positioned in the middle and detection stations symmetrically arranged on two sides, an unqualified station is also arranged between the picking and placing station and the detection stations on each side,

the plate moving manipulator comprises a first plate moving manipulator and a second plate moving manipulator, the first plate moving manipulator moves between the pick-and-place station and the detection station on the left side, the second plate moving manipulator moves between the pick-and-place station and the detection station on the right side,

the detection station is provided with a plate turnover machine, the plate turnover machine is provided with a turnover sucker, and the plate surface of the turnover sucker is turned to be opposite to the plate moving manipulator or is turned to be parallel to the detection table surface of the detection station.

The turnover device is characterized in that the turnover machine is provided with a turnover manipulator capable of rotating 90 degrees, and the disc surface of the turnover sucker is rotated by the turnover manipulator or is in a vertical state and is opposite to the plate moving manipulator; or in a horizontal state and parallel to the detection table surface.

The invention according to the scheme is characterized in that the taking and placing stations comprise a feeding port station and a discharging port station which are transversely arranged side by side.

Further, the operation panel comprises a left detection station, a left unqualified station, a feed inlet station, a discharge outlet station, a right unqualified station and a right detection station from left to right in sequence.

Furthermore, a box moving mechanical arm is arranged above the taking and placing station, and the box moving mechanical arm moves between the feed port station and the discharge port station.

The invention according to the scheme is characterized in that the taking and placing station is provided with a trolley inlet and a trolley outlet which are positioned below the taking and placing station.

Furthermore, a box separating mechanism is arranged at the top of the inlet and the outlet of the trolley and connected with a lifting module, and the box separating mechanism can move to the top of the pallet stack on the trolley through the lifting module.

The automatic turnover and storage integrated machine with the NG function matched with the AOR multiple fixtures is characterized by further comprising a sliding guide rail parallel to the operating platform, and the first plate moving manipulator and the second plate moving manipulator slide on the sliding guide rail.

Furthermore, a box moving mechanical arm is arranged above the taking and placing station, and the box moving mechanical arm and the plate moving mechanical arm share the same sliding guide rail.

The invention according to the scheme is characterized in that the detection station is provided with an AOI optical detection machine.

The invention according to the scheme is characterized in that the operating platform is further provided with a spacer storage area, and the plate moving manipulator can move between the spacer storage area and the pick-and-place station.

Further, the spacer storage area is provided with an L-shaped storage rack for accommodating the spacers.

On the other hand, the invention also provides a using method of the all-in-one machine, which is characterized in that the all-in-one machine which is matched with the AOR multi-jig automatic turnover belt NG storage function and adopts the scheme realizes the following steps:

s1, the board moving manipulator obtains the circuit board to be tested from the taking and placing station;

s2, the first plate moving mechanical arm conveys the circuit board to the left detection station, and the second plate moving mechanical arm conveys the circuit board to the right detection station;

s3, if the detection station judges that the circuit board is unqualified, executing the step S4; if the detection station judges that the circuit board is qualified, executing step S5;

s4, the board moving manipulator conveys the circuit board to the corresponding unqualified station and returns to the step S1;

s5, the panel turnover machine sucks the circuit board on the detection station, rotates 90 degrees, and the corresponding panel moving manipulator is connected with the circuit board and placed back to the detection station;

s6, if the detection station judges that the circuit board is unqualified, executing the step S4; if the detection station judges that the circuit board is qualified, executing step S7;

and S7, the board moving manipulator conveys the qualified circuit boards to a material outlet station in the pick-and-place station.

The present invention according to the above aspect is characterized by further including, before the step S1, the steps of:

sa1, conveying the tray stack filled with the circuit board to be tested into a feeding hole station in the pick-and-place station by a trolley;

sa2, a box separating mechanism at the feed inlet station lifts the first tray at the top of the tray stack;

sa3, an empty tray is lifted by a box separating mechanism at the discharge port station, and the empty tray and the box separating mechanism at the feed port station are located at the same height.

The present invention according to the above aspect is characterized in that the step S7 includes:

701, placing the qualified circuit board to be detected into a tray of a discharge port station by a board moving manipulator;

and step 702, taking a spacer from the spacer storage area by the mobile manipulator, placing the spacer on the circuit board, and performing blocking.

The present invention according to the above aspect is characterized by further comprising, after the step S7:

step S8, when the empty tray lifted by the box separating mechanism of the material outlet station is full of qualified circuit boards, the box separating mechanism at the position descends and is stacked on the cart at the material outlet station;

step S9, the box moving manipulator moves the empty tray to a discharge port station;

and S10, descending the box separating mechanism at the feed inlet station, lifting the first tray at the top of the tray stack of the trolley below, and repeating the step S1.

The invention according to the scheme has the advantages that:

the detection equipment disclosed by the invention not only realizes double-sided detection of the circuit board, but also realizes that one detection equipment has double detection stations, the two mechanical arms are matched, the circuit board to be detected is obtained from the same picking and placing station, and qualified products and unqualified products are classified and stored, so that the detection speed is doubled; meanwhile, one detection device can complete the task amount of two traditional detection devices, the efficiency is improved, and the problem of limited site space is effectively solved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the structure of the present invention;

FIG. 3 is a block diagram of a method flow of the present invention.

In the figure, 1, an operation table; 11. detecting a station; 12. a picking and placing station; 121. a feed port station; 122. a discharge port station; 13. an unqualified station;

2. a plate moving manipulator; 21. a first plate moving manipulator; 22. a second plate moving manipulator;

3. turning over a plate machine; 4. a box moving manipulator;

5. a box separating mechanism; 51. a lifting module;

6. a sliding guide rail; 7. and (5) pushing the cart.

Detailed Description

For better understanding of the objects, technical solutions and effects of the present invention, the present invention will be further explained with reference to the accompanying drawings and examples. Meanwhile, the following described examples are only for explaining the present invention, and are not intended to limit the present invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

The terms "upper", "lower", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positions based on the orientations or positions shown in the drawings, and are for convenience of description only and should not be construed as limiting the technical solution.

The meaning of "a number" is two or more unless specifically defined otherwise. The terms "first", "second" and "first" are used merely for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features.

As shown in fig. 1 and 2, an automatic turnover and NG storage integrated machine matched with AOR comprises an operation table 1 and a board moving manipulator 2, wherein the board moving manipulator 2 moves a circuit board to be detected on the operation table 1, the operation table 1 comprises a middle pick-and-place station 12 and detection stations 11 symmetrically arranged on two sides, the detection stations 11 are provided with AOI optical detection machines, a defective station 13 is further arranged between the pick-and-place station 12 and the detection station 11 on each side, the board moving manipulator 2 comprises a first board moving manipulator 21 and a second board moving manipulator 22, the first board moving manipulator 21 moves between the pick-and-place station 12 and the detection station 11 on the left side, the second board moving manipulator 22 moves between the pick-and-place station 12 and the detection station 11 on the right side, the detection station 11 is provided with a board turnover machine 3, the board turnover machine 3 is provided with a turnover sucker, the disk surface of the turnover sucker is or is transferred to be opposite to the board moving manipulator 2, or to a testing table parallel to the testing station 11.

It should be noted that the present invention includes an AOR (Automated Optical Repair) device, which has an AOI Optical inspection machine and a light source system, such as a laser light source, built therein, and has an Optical inspection function and a circuit board Repair function, and the AOR device is an existing mature maintenance device.

The turnover machine is provided with the independent turnover sucker, the turnover sucker comprises a fixing piece and a plurality of vacuum suction nozzles arranged on the fixing piece, and the plurality of vacuum suction nozzles are arranged on the same fixing piece, so that the distance stability among different suction nozzles can be ensured, and the circuit boards can be better sucked in a matched manner; and the independent turnover sucker is convenient to disassemble and assemble for maintenance and overhaul. Every suction nozzle in this embodiment is equipped with the check valve, can prevent the gaseous backward flow, can ensure when being the vertical state with the circuit board, and the upset sucking disc can firmly "grab" the circuit board.

The detection equipment disclosed by the invention not only realizes double-sided detection of the circuit board, but also realizes that one detection equipment has double detection stations 11, the two mechanical arms are matched, the circuit board to be detected is obtained from the same pick-and-place station 12, and qualified products and unqualified products are classified and stored, so that the detection speed is doubled; meanwhile, one detection device of the invention completes the task amount of two traditional detection devices, and effectively solves the problem of limited site space.

In this embodiment, the turnover machine is provided with a turnover manipulator capable of rotating 90 degrees, and the disc surface of the turnover sucker is rotated by the turnover manipulator or is in a vertical state and is opposite to the plate moving manipulator 2; or in a horizontal state and parallel to the detection table surface.

In the present embodiment, the pick-and-place station 12 includes a feed inlet station 121 and a discharge outlet station 122 which are laterally arranged side by side. The position design of feed inlet station 121 and discharge gate station 122 for operation panel 1 includes left detection station 11 from a left side to the right side in proper order, left unqualified station 13, feed inlet station 121, discharge gate station 122, unqualified station 13 on right side and the detection station 11 on right side, be a straight line, be favorable to first board moving manipulator 21, the second moves board manipulator 22 and moves the overall arrangement of box manipulator 4, realize that a plurality of manipulators can accomplish the demand of transplanting article, also can furthest simplify equipment structure, reduce equipment cost.

In this embodiment, a box moving manipulator 4 is arranged above the pick-and-place station 12, and the box moving manipulator 4 moves between the feed inlet station 121 and the discharge outlet station 122. The transfer robot 4 can perform lateral and longitudinal movements for moving the trays.

In this embodiment, the pick-and-place station 12 is provided with a cart entrance and exit located below, the top of the cart entrance and exit is provided with the box separation mechanism 5, so that the pick-and-place station 12 includes the box moving manipulator 4, the box separation mechanism 5 and the cart entrance and exit from top to bottom, the box separation mechanism 5 is connected to a lifting module 51, and the box separation mechanism 5 can move to the top of the pallet stack on the cart 7 through the lifting module 51. The box separating mechanism 5 is provided with box separating pins, and is matched with an induction sensor on the side, so that the first tray at the top of the tray stack can be inserted into the tray below the first tray, and the first tray at the top is separated from the tray below the first tray.

A user only needs to put the circuit boards into the trays, stack the trays on the cart 7 according to a certain height, and send the materials into the cart inlet and outlet through the cart 7, so that the material guiding work of the detection equipment can be completed. The work of boxing the circuit board and loading the tray in the prior art is the conventional work of transporting the circuit board, and therefore the feeding and discharging area of the detection equipment is combined with the conventional circuit board transportation, convenience is provided, and meanwhile efficiency is improved.

In this embodiment, the AOR-compatible multi-tool automatic turnover and NG storage all-in-one machine further includes a sliding rail 6 parallel to the operation table 1, and the first plate moving manipulator 21 and the second plate moving manipulator 22 slide on the sliding rail 6. The detection equipment skillfully utilizes the same sliding guide rail 6 to realize the movement of the two plate moving manipulators 2 with double stations, thereby not only simplifying the equipment structure and reducing the occupied space, but also saving the manufacturing cost for manufacturers.

In the embodiment, the box moving manipulator 4 above the pick-and-place station 12 and the plate moving manipulator 2 share the same sliding guide rail 6, and the pick-and-place station 12 is designed between the two detection stations 11, so that the three manipulators share the same sliding guide rail 6.

In this embodiment, the operating table 1 is further provided with a spacer storage area, and the plate-moving robot 2 is movable between the spacer storage area and the pick-and-place station 12. Many spacers are placed in spacer storage area, and during the use, after a circuit board is put into to the tray, a spacer is taken earlier and is put into, puts into another circuit board again, can separate two circuit boards, prevents to take place friction etc. and influence each other between two circuit boards.

In an alternative embodiment, the spacer storage area is provided with an L-shaped storage rack for accommodating spacers, facilitating gripping of the spacers by a robot.

As shown in fig. 3, on the other hand, the invention further provides a use method of the all-in-one machine, and the all-in-one machine with the AOR multi-fixture automatic turnover belt NG storage function of the scheme is used for realizing the following steps:

s1, the board moving manipulator 2 obtains the circuit board to be tested from the pick-and-place station 12;

specifically, the first plate moving manipulator 21 and the second plate moving manipulator 22 sequentially grab the circuit board to be detected from the material inlet station 121 of the pick-and-place station 12;

s2, the first board transfer robot 21 transfers the circuit board to the left detection station 11, and the second board transfer robot 22 transfers the circuit board to the right detection station 11;

specifically, after the circuit board is conveyed to a proper position by the board moving manipulator 2, the circuit board is placed on a detection table board of an AOI optical detection machine of the detection station 11, and the detection of the front side of the circuit board is completed;

s3, if the detection station 11 judges that the circuit board is unqualified, executing the step S4; if the detection station 11 determines that the circuit board is qualified, executing step S5;

specifically, the AOI optical inspection machine detects that the front surface of the circuit board is unqualified, feeds the circuit board back to the board moving manipulator 2 through the system, and executes step S4; the AOI optical detection machine detects that the front surface of the circuit board is qualified, feeds back the circuit board to the plate moving manipulator 2 through the system, and executes the step S5;

s4, the plate moving manipulator 2 conveys the circuit board to the corresponding unqualified station 13 and returns to the step S1;

specifically, the board moving manipulator 2 sucks up the circuit board on the detection table board and conveys the circuit board to an unqualified station 13 for temporary placement, so that an operator can conveniently perform collection, analysis and correction; the plate moving manipulator 2 acquires the next circuit board to be detected from the material inlet station 121 of the pick-and-place station 12 again;

s5, sucking the circuit board on the detection station 11 by the panel turnover machine 3, rotating 90 degrees, and placing the corresponding panel moving manipulator 2 back to the detection station 11 after the circuit board is received by the panel moving manipulator;

specifically, a mechanical arm of the panel turnover machine 3 rotates 90 degrees towards the direction of the detection table board, a turnover sucker is parallel to the table board, the circuit board is sucked and then reversely rotates 90 degrees, the circuit board is in a vertical state, a panel moving mechanical arm 2 sucks the circuit board from the turnover sucker and puts the circuit board back to the detection table board again, and the turnover of the circuit board is completed;

s6, if the detection station 11 judges that the circuit board is unqualified, executing the step S4; if the detection station 11 determines that the circuit board is qualified, executing step S7;

specifically, the AOI optical inspection machine detects that the back surface of the circuit board is not qualified, feeds the circuit board back to the board moving manipulator 2 through the system, and executes step S4; the AOI optical detection machine detects that the back surface of the circuit board is qualified, feeds the back surface of the circuit board back to the plate moving manipulator 2 through the system, and executes the step S7;

and S7, the plate moving mechanical arm 2 conveys the qualified circuit board to the material outlet station 122 in the pick-and-place station 12.

In this embodiment, before the step S1, the method further includes the following steps:

sa1, the cart 7 conveys the tray stack filled with the circuit board to be tested into the feeding hole station 121 in the pick-and-place station 12;

the box separating mechanism 5 at Sa2 and the feed inlet station 121 lifts the first tray at the top of the tray stack;

specifically, the box separating mechanism 5 at the feed port station 121 descends and moves to the first tray at the top of the tray stack, and the box separating pins of the box separating mechanism 5 are inserted into the bottom of the first tray and lift the first tray to the surface of the operation table 1;

the Sa3 box separating mechanism 5 at the discharge port station 122 lifts an empty tray, and is positioned at the same height as the box separating mechanism 5 at the feed port station 121;

specifically, when the inspection is started, an empty tray needs to be placed at the position of the discharge port station 122, so that the qualified circuit boards can be conveniently detected and stored.

In this embodiment, the step S7 includes:

step 701, placing the qualified circuit board to be detected into a tray of a discharge port station 122 by the plate moving manipulator 2;

step 702, a mobile manipulator takes a spacer from a spacer storage area and places the spacer on a circuit board for blocking;

specifically, when the mobile manipulator places a circuit board qualified for detection, a spacer is placed to separate the circuit board, and then a circuit board qualified for detection is placed.

In this embodiment, after the step S7, the method further includes:

step S8, when the empty tray lifted by the box separating mechanism 5 of the material outlet station 122 is full of qualified circuit boards, the box separating mechanism 5 at the position descends and is stacked on the cart 7 at the material outlet station 122;

step S9, the box moving manipulator 4 moves the empty tray to the discharge port station 122;

specifically, the box moving manipulator 4 first picks up an empty tray at the feed inlet station 121, places the empty tray at the discharge outlet station 122 when the box separating mechanism 5 at the discharge outlet station 122 is empty, and then picks up the empty tray from the feed inlet station 121; in other embodiments, an empty tray temporary placement area may be provided to handle the situation that the defective circuit boards are abundant and the tray at the discharge port station 122 is filled for a long time;

step S10, the box separating mechanism 5 of the feed inlet station 121 descends to lift the first tray on the top of the tray stack of the lower cart 7, and step S1 is repeated.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. An automatic turnover and NG storage integrated machine matched with an AOR multi-jig comprises an operation table and a board moving manipulator, wherein the board moving manipulator moves a circuit board to be detected on the operation table, the automatic turnover and NG storage integrated machine is characterized in that the operation table comprises a picking and placing station positioned in the middle and detection stations symmetrically arranged on two sides, an unqualified station is also arranged between the picking and placing station and the detection stations on each side,

the plate moving manipulator comprises a first plate moving manipulator and a second plate moving manipulator, the first plate moving manipulator moves between the pick-and-place station and the detection station on the left side, the second plate moving manipulator moves between the pick-and-place station and the detection station on the right side,

the detection station is provided with a plate turnover machine, the plate turnover machine is provided with a turnover sucker, and the plate surface of the turnover sucker is turned to be opposite to the plate moving manipulator or is turned to be parallel to the detection table surface of the detection station.

2. The AOR-matched automatic turnover and NG-storage integrated machine is characterized in that the turnover machine is provided with a turnover manipulator capable of rotating 90 degrees, and the disc surface of the turnover sucker is rotated by the turnover manipulator or is in a vertical state and is opposite to the plate moving manipulator; or in a horizontal state and parallel to the detection table surface.

3. The AOR multi-jig automatic turnover belt NG storage function integrated machine as claimed in claim 1, wherein the pick-and-place station comprises a feed port station and a discharge port station which are transversely arranged side by side.

4. The AOR multi-jig automatic turnover and NG storage integrated machine as claimed in claim 3, wherein a box moving manipulator is arranged above the pick-and-place station, and moves between the feed inlet station and the discharge outlet station.

5. The AOR multi-jig automatic turnover belt NG storage function all-in-one machine as claimed in claim 1 or 3, wherein the pick-and-place station is provided with a trolley inlet and outlet located below.

6. The AOR multi-jig automatic turnover and NG storage integrated machine as claimed in claim 5, wherein a box separation mechanism is arranged at the top of the inlet and outlet of the cart, the box separation mechanism is connected with a lifting module, and the box separation mechanism can move to the top of the stack of trays on the cart through the lifting module.

7. The AOR-matched automatic turnover strip NG storage function all-in-one machine is characterized by further comprising a sliding guide rail parallel to the operating platform, and the first plate moving manipulator and the second plate moving manipulator slide on the sliding guide rail.

8. The AOR-matched automatic multi-jig turnover and NG-storage integrated machine as claimed in claim 7, wherein a box moving manipulator is arranged above the pick-and-place station, and the box moving manipulator and the plate moving manipulator share the same moving guide rail.

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