TWM589952U - Circuit board mark making equipment - Google Patents

Abstract

This creation is about a kind of "circuit board mark making equipment", including There are a first conveying unit, a first optical detection unit, a lifting and transferring unit, a second conveying unit, a second optical detecting unit, a transferring unit and a mark making unit. In the circuit board manufacturing process, the marking needs to be made one by one according to the status classification. With the equipment in this case, it can be completed in a fully automated manner, which has the advantages of high productivity and good efficiency.

Description

Circuit board mark making equipment

This creation "Circuit Board Mark Making Equipment" relates to a circuit board production equipment, especially a technical field that achieves the production of circuit board marks in a fully automated manner.

In the circuit board manufacturing process, it needs to be classified according to the state of the circuit board. The current classification method is to directly make marks on the circuit board, such as rubbing off part of the structure at specific positions on the edge, or directly marking the physical mark, or engraving with laser Way to make marks. Regardless of the method, the conventional manufacturing process is carried out manually in conjunction with machinery. The disadvantages are low productivity and poor efficiency, and the error rate and labor cost are relatively high.

Obviously, the manufacturing process of the existing circuit board marks is extremely unsatisfactory, and there is a real need for improvement.

In view of this, the creators have specially researched and created the cost case, hoping to use the proposal in this case to improve the shortcomings of the existing circuit board symbol production process, and hope that the circuit board symbol production process can be more perfect and ideal to meet actual needs.

In order to improve the aforementioned circuit board mark production process, there are shortcomings such as low production capacity, poor efficiency, high error rate and high labor cost. The main purpose of this creation is to provide a "circuit board mark production equipment", which abandons the traditional inefficiency and failure. The integrated process, in a consistent and automated manner, sequentially feeds the circuit board, detects the edge of the board, transfers the positioning, transports, detects the position of the mark production, relocates the mark again, performs the process of mark production, etc., to complete The production of circuit board marks; by this, the purpose of improving productivity, efficiency and accuracy, and reducing labor costs are achieved.

In order to achieve the above purpose, the specific means in this case are: The "circuit board marking production equipment" includes a first conveying unit, a first optical detection unit, a jacking and transferring unit, a second conveying unit, a second optical detection Unit, transfer unit and a mark making unit.

In one of the preferred embodiments, the first conveying unit is a roller platform, and a front end is a feeding end.

In one of the preferred embodiments, the first optical detection unit is provided at the end of the first conveying unit; the first optical detection unit includes a hanger, and the hanger is provided with one or more optical The detection element, the optical detection element is a photosensitive coupled device (CCD, Charge Coupled Device), but not limited to this.

In one of the preferred embodiments, the jacking and transferring unit is compoundly arranged between the first conveying unit structures; the jacking and transferring unit includes a sliding rail at the bottom, and a sliding seat is connected above the sliding rail, The sliding seat can move relative to the sliding rail; a lifting element is arranged above the sliding seat, and the lifting element is a power cylinder to provide a telescopic function; a bracket element is connected to the top of the lifting element, and the bracket element can follow The lifting element adjusts the height; and the bracket element is set by the misalignment between the rollers of the first conveying unit The holder element can pass through the first conveying unit and move up and down.

In one preferred embodiment, the second conveying unit is connected to the rear end of the first conveying unit and is a belt-type planar power transmission structure.

In one of the preferred embodiments, the second optical detection unit is disposed above the second conveying unit. The second optical detection unit is an X-RAY detection structure, which can pass through X-RAY Reading the built-in marks on the circuit board; the second optical detection unit is mainly used to detect the position of making marks.

In one of the preferred embodiments, the transfer unit is suspended above the second conveying unit and must be located at the front end of the second optical detection unit; the transfer unit includes a cantilever, and the cantilever spans the second conveyance Above the unit; the cantilever is provided with a traverse component, the traverse component can link a lifting component to traverse, the lifting component is connected with an extraction component, the lifting component can link the extraction component to adjust the height; and the extraction component is A flat-type support structure is provided with one or more suction components on the bottom surface. The suction components may have a suction cup structure, but not limited to this.

In one of the preferred embodiments, the mark making unit is arranged above the second conveying unit and must be located at the rear end of the second optical detection unit. The mark making unit is a laser engraving machine, which can automatically adjust the laser focal length according to the thickness of the circuit board, and can make marks on the circuit board by laser; the structure includes a slide rail and a power element. Use X-RAY to read the non-physical marks on the inner layer of the circuit board, you can judge the inner non-physical marks, the yaw angle, the yaw position, notify the laser engraving machine, and perform offset compensation and mark production.

1‧‧‧ First conveying unit

10‧‧‧ Feeding end

2‧‧‧First optical detection unit

21‧‧‧hanger

22‧‧‧Optical detection element

3‧‧‧Lifting unit

31‧‧‧slide

32‧‧‧slide

33‧‧‧Lifting components

34‧‧‧Bracket element

4‧‧‧Second conveying unit

5‧‧‧Second optical detection unit

6‧‧‧Transfer unit

60‧‧‧Cantilever

61‧‧‧Transverse component

62‧‧‧Lifting components

63‧‧‧ Extraction module

64‧‧‧Suction components

7‧‧‧ Mark production unit

71‧‧‧slide

72‧‧‧Power components

9‧‧‧ circuit board

91‧‧‧non-physical symbol

The first picture: a three-dimensional appearance drawing of the creation; the second picture: a schematic diagram of the material of the creative circuit board detected by the first optical detection unit; the third picture: the jacking and transfer unit of the creation The schematic diagram of the operation; the fourth diagram: is another schematic diagram of the movement of the creative lifting and transferring unit; the fifth diagram: the schematic diagram of the creative circuit board detected by the second optical detection unit; the sixth diagram: the The schematic diagram of the operation of the circuit board for the creative transfer unit; the seventh figure: another schematic diagram of the movement of the creative transfer unit for the circuit board; the eighth figure: the creative transfer unit Another schematic diagram of the movement of the circuit board; the ninth picture: it is a schematic diagram of the movement of the creation of the circuit board mark by the creative mark production unit.

I would like to give a detailed description of the structure and composition of the "Circuit Board Marking Equipment" and the effects that can be produced in conjunction with the drawings.

Please refer to the figures, the circuit board marking production equipment in this case includes a first conveying unit 1, a first optical detection unit 2, a jacking transfer sheet Element 3, second conveying unit 4, second optical detection unit 5, transfer unit 6 and a mark making unit 7. Wherein, the first conveying unit 1 is a roller platform, and a front end is a feeding end 10. The first optical detection unit 2 is provided at the end of the first conveying unit 1; the first optical detection unit 2 includes a hanger 21 on which one or more optical detection elements are disposed 22. The optical detection device 22 is a photosensitive coupled device (CCD, Charge Coupled Device), but not limited to this. The lifting and transferring unit 3 is compoundly arranged between the structures of the first conveying unit 1; the bottom of the lifting and transferring unit 3 includes a slide rail 31 (as shown in the fourth figure), and a slide is connected above the slide rail 31 Seat 32, the sliding seat 32 can move relative to the slide rail 31; a lifting element 33 is arranged above the sliding seat 32, and the lifting element 33 is a power cylinder to provide a telescopic function; the lifting element 33 is connected at the top There is a bracket element 34 which can be adjusted in height with the lifting element 33; and the bracket element 34 is arranged through the rollers of the first conveying unit 1 staggered so that the bracket element 34 can pass through the first conveyor Unit 1 performs the lifting operation. The second conveying unit 4 is connected to the rear end of the first conveying unit 1 and is a belt-type planar power transmission structure. The second optical detection unit 5 is disposed above the second conveying unit 4. The second optical detection unit 5 is an X-RAY detection structure, which can read the circuit board 9 in the X-RAY penetration mode Built-in mark; the second optical detection unit 5 is mainly used to detect the position of the mark. The transfer unit 6 is suspended above the second transport unit 4 and must be located at the front end of the second optical detection unit 5; the transfer unit 6 includes a cantilever 60 that spans the second transport unit 4 Above (as in the sixth and seventh figures); the cantilever 60 is provided with a traverse component 61, which can be linked to a lifting component 62 to traverse, the lifting component 62 is connected with an extraction component 63, the lifting The component 62 can link the extraction component 63 to adjust the height; and the extraction component 63 is a horizontal position In the bracket structure, one or more suction components 64 are provided on the bottom surface. The suction components 64 may have a suction cup structure, but not limited to this. The mark making unit 7 is provided above the second conveying unit 4 and must be located at the rear end of the second optical detection unit 5; the mark making unit 7 is a laser engraving machine, which can automatically adjust according to the thickness of the circuit board By adjusting the laser focal length, the circuit board 9 can be marked by laser. The structure includes a slide rail 71 and a power element 72. The slide rail 71 and the power element 72 can link the mark production unit 7 to adjust the position.

In the implementation of this case, as shown in the second figure, a circuit board 9 is fed to the first conveying unit 1 to make the first optical detection unit 2 detect the edge of the circuit board 9 to obtain a position; then according to As a result of the aforementioned detection, the lifting and transferring unit 3 is actuated. As shown in the third and fourth figures, when the position of the circuit board 9 is not centered, the lifting element 33 will lift the bracket element 34 to support the circuit The board 9 is suspended, and then the slider 32 is moved to the appropriate center position, that is, the preliminary positioning of the circuit board 9 is completed; then the lifting element 33 is lowered and reset to lower the circuit board 9, and then the circuit board 9 is moved to At the second conveying unit 4, the second optical detection unit 5 is used to read the non-physical mark 91 (fifth figure) built in the circuit board 9 in the X-RAY penetration mode to know that the circuit board 9 is to be marked According to the aforementioned data, the position of the circuit board 9 needs to be adjusted; as shown in the sixth and seventh figures, the transfer unit 6 is actuated, especially the height of the extraction component 63 is lowered by the lifting component 62 to make the suction component 64 suck the circuit board 9; and then lift the sucking assembly 64 and the circuit board 9 by the lifting assembly 62, adjust the position to the appropriate place by moving the assembly 61 left and right, put it back into the circuit board 9, and then use the second conveyor The unit 4 transfers the circuit board 9 to the mark making unit 7, as shown in the ninth figure, after penetrating through X-RAY and reading the non-physical mark of the inner layer of the circuit board 9, the inner non-physical mark and the deflection angle can be judged. Yaw position, Notify the mark making unit 7 (ie, laser engraving machine) to perform offset compensation and mark making.

To sum up, in this case, "Circuit Board Mark Making Equipment", it accurately and quickly performs circuit board detection and physical mark production in an automated way, which is of great help to the improvement of the industry. The technical content of this case is in full compliance with the requirements for obtaining new patents. This case was indeed used in industry, and it was not seen in publications or public use prior to application, and was not a technology known to the public. In addition, this case effectively solves the long-standing problems in the prior art and achieves the long-term needs of related users and consumers, which proves that this new model cannot be easily completed. This case is rich in the "industrial utilization", "novelty", and "progressive" requirements stipulated by the Patent Law. The patent is submitted in accordance with the law, and the bureau is urged to examine it in detail, and the patent is approved as soon as possible to protect the wisdom of the applicant Property rights encourage innovation.

Although the present invention is described by the foregoing embodiments, its form and details can be changed without departing from the spirit of the present invention, and can be understood by those familiar with this skill. The above-mentioned preferred embodiments of this case are only one of the ways in which the principles of this case can be specifically implemented, but this is not a limitation, and should be defined in accordance with the scope of the attached patent application.

1‧‧‧ First conveying unit

10‧‧‧ Feeding end

2‧‧‧First optical detection unit

3‧‧‧Lifting unit

31‧‧‧slide

4‧‧‧Second conveying unit

5‧‧‧Second optical detection unit

6‧‧‧Transfer unit

7‧‧‧ Mark production unit

Claims (10)

A circuit board marking production equipment, including: a first conveying unit, which is a conveying platform; a first optical detection unit, which is provided above the first conveying unit and includes one or more optical detection elements A jack-up transfer unit, which is compositely arranged between the structures of the first conveying unit; the jack-up transfer unit includes a bracket element that can be used for lifting and traversing, and the bracket element can pass through the first conveyor unit The gap passes through; a second conveying unit is connected to the rear end of the first conveying unit; a second optical detecting unit is provided above the second conveying unit, and the second optical detecting unit can be used for detecting Reading the built-in marks on the circuit board; a transfer unit suspended above the second conveying unit, the transfer unit can be used to extract and move the objects on the second conveying unit; a mark making unit, It is arranged above the second conveying unit, and can be used for making physical marks on an object. According to the device for manufacturing a circuit board mark described in item 1 of the patent application scope, wherein the first optical detection unit includes a hanger on which the optical detection element is arranged. The device for manufacturing a circuit board mark as described in item 1 or 2 of the patent application scope, wherein the optical detection element is a photosensitive coupling element (CCD). The circuit board marking production equipment as described in item 1 of the patent application scope, wherein the lifting and transferring unit includes a slide rail at the bottom, and a slide seat is connected above the slide rail, and the slide seat can move relative to the slide rail; The upper part of the sliding seat is provided with a lifting element. The lifting element is a power cylinder to provide a telescopic effect; a bracket element is connected to the top of the lifting element, and the bracket element can adjust the height with the lifting element. As described in claim 4 of the scope of the patent application, the circuit board mark production equipment, wherein the bracket element is arranged through the rollers of the first conveying unit are misaligned, so that the bracket element can pass through the first conveying unit and perform the lifting operation. As described in the first patent application, the circuit board mark making equipment, wherein the second conveying unit is a belt-type planar power transmission structure. As described in the first patent application, the circuit board mark production equipment, wherein the second optical detection unit is an X-RAY detection structure. The circuit board marking production equipment as described in item 1 of the patent application scope, wherein the transfer unit includes a cantilever, the cantilever spans over the second conveying unit; the cantilever is provided with a traverse assembly, the traverse assembly can Linked a lifting group The lifting component is connected with an extraction component, and the lifting component can link the extraction component to adjust the height. As described in claim 8 of the scope of the patent application, the circuit board marking production equipment, wherein the extraction component is a flat bracket structure, the bottom surface is provided with one or more suction components, the suction component is a suction cup structure. The circuit board mark making device as described in item 1 of the patent application scope, wherein the mark making unit is located at the rear end of the second optical detection unit; the mark making unit is a laser engraving machine; it is based on the 2. The optical detection unit reads the marks and results built into the circuit board, and performs offset compensation and mark production.

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