CN109129621A - Twin shaft bevelling machine - Google Patents

Abstract

The present invention provides a kind of twin shaft bevelling machine comprising: full automatic feeding feeding, the first bevel edge processing unit (plant), the second bevel edge processing unit (plant) and the transfer area between the first, second bevel edge processing unit (plant).Bevel edge is processed after twin shaft bevel edge machine of the invention can carry out CCD precise positioning to the different edges of pcb board, and processing efficiency with higher has sufficiently adapted to the industrialized production of pcb board, effectively improved production efficiency and achieve preferable economic benefit.

Description

Twin shaft bevelling machine

Technical field

The present invention relates to pcb board bevel edge manufacture field more particularly to a kind of twin shaft bevelling machines.

Background technique

Currently, pcb board (printed circuit board), also known as printed wiring board, are important electronic component, it is electronic component Supporter is the carrier of electronic component electrical connection.Since it uses electron printing to make, therefore referred to as " print " electricity Road plate.It in the processing of pcb board, needs to carry out bevel edge processing to its edge, even if its edge forms a chamfering, to meet PCB The demand of plate application.Therefore, for the demand, it is necessary to propose further solution.

Summary of the invention

The purpose of the present invention is to provide a kind of twin shaft bevelling machines, to overcome the deficiencies in the prior art.

For achieving the above object, the present invention provides a kind of twin shaft bevelling machine comprising: the first bevel edge processing unit (plant), Second bevel edge processing unit (plant) and the transfer area between the first, second bevel edge processing unit (plant)；

The first bevel edge processing unit (plant) includes: the first feed mechanism, the first feeding area, the first transport mechanism, the first processing machine Structure, first feed mechanism include: the first feeding sliding rail and reciprocatingly slide along the first feeding sliding rail first mechanical Hand, first manipulator include: the first sucker mould group and the second sucker mould for moving synchronously with the first sucker mould group Group, the first sucker mould group move back and forth between feeding station and the first feeding area, the second sucker mould group in It moves back and forth between first feeding area and transfer area, first feeding area and the first organisation of working are located at described first and pass Send the both ends of mechanism, first organisation of working include: the first pressure die group and be located at the first pressure die group side and The first bite being oppositely arranged up and down；

The second bevel edge processing unit (plant) includes: the second feed mechanism, the second feeding area, the second transport mechanism, the second processing machine Structure, second feed mechanism include: the second feeding sliding rail and reciprocatingly slide along the second feeding sliding rail second mechanical Hand, second manipulator include: third sucker mould group and the 4th sucker mould that moves synchronously with the third sucker mould group Group, the third sucker mould group move back and forth between the transfer area and the second feeding area, the 4th sucker mould group It moves back and forth between second feeding area and discharge station, second feeding area and the second organisation of working are located at institute State the both ends of the second transport mechanism, second organisation of working includes: the second pressure die group and is located at second pressure die Group side and the second bite being oppositely arranged up and down.

As the improvement of twin shaft bevelling machine of the invention, each sucker mould group all has four suckers, and four suckers are corresponding to be divided It is distributed in the corner location of the rectangle of rectangle.

As the improvement of twin shaft bevelling machine of the invention, first transport mechanism includes: the first transfer plate and drive First transfer plate moves back and forth between first feeding area and the first organisation of working.

As the improvement of twin shaft bevelling machine of the invention, the first pressure die group includes: first be oppositely arranged up and down Briquetting.

As the improvement of twin shaft bevelling machine of the invention, first organisation of working further includes the first sliding rail, and described first Sliding rail is parallel with the edge that product needs bevel edge to process, and the knife rest of first bite carries out reciprocal along first sliding rail Sliding.

As the improvement of twin shaft bevelling machine of the invention, the transfer area is additionally provided with turntable, the rotation angle of the turntable Degree is 0 ° -180 °.

As the improvement of twin shaft bevelling machine of the invention, second transport mechanism includes: the second transfer plate and drive Second transfer plate moves back and forth between second feeding area and the second organisation of working.

As the improvement of twin shaft bevelling machine of the invention, the second pressure die group includes: second be oppositely arranged up and down Briquetting.

As the improvement of twin shaft bevelling machine of the invention, second organisation of working further includes the second sliding rail, and described second Sliding rail is parallel with the other edge that product needs bevel edge to process, and the knife rest of second bite is carried out along second sliding rail It reciprocatingly slides.

As the improvement of twin shaft bevelling machine of the invention, the first bevel edge processing unit (plant) further include: the first CCD is precisely fixed Position compensation mechanism, the second bevel edge processing unit (plant) further include: the 2nd CCD precise positioning compensation mechanism.

Compared with prior art, the beneficial effects of the present invention are: twin shaft bevel edge machine of the invention can be to the difference of pcb board Bevel edge is processed after edge carries out CCD precise positioning, and processing quality and efficiency with higher have sufficiently adapted to pcb board Industrialized production, achieve preferable economic benefit.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this The some embodiments recorded in invention, for those of ordinary skill in the art, without creative efforts, It is also possible to obtain other drawings based on these drawings.

Fig. 1 is the stereoscopic schematic diagram of one specific embodiment of twin shaft bevelling machine of the invention；

Fig. 2 is the stereoscopic schematic diagram of another angle of one specific embodiment of twin shaft bevelling machine of the invention.

Specific embodiment

The present invention is described in detail for each embodiment shown in reference to the accompanying drawing, but it should be stated that, these Embodiment is not limitation of the present invention, those of ordinary skill in the art according to these embodiments made by function, method, Or equivalent transformation or substitution in structure, all belong to the scope of protection of the present invention within.

As shown in Figure 1, 2, twin shaft bevelling machine of the invention includes: the first bevel edge processing unit (plant), the second bevel edge processing unit (plant) And the transfer area between the first, second bevel edge processing unit (plant).

The first bevel edge processing unit (plant) is used to carry out bevel edge processing to the one edge of pcb board comprising: the first feeding Mechanism, the first feeding area, the first transport mechanism 6, the first organisation of working.

First feed mechanism include: the first feeding sliding rail 1 and reciprocatingly slide along the first feeding sliding rail 1 One manipulator.Specifically, first manipulator includes: the first sucker mould group 2 and transports with the first sucker mould group 2 is synchronous The second dynamic sucker mould group 3.The first sucker mould group 2 moves back and forth between feeding station and the first feeding area, institute The second sucker mould group 3 is stated to move back and forth between the first feeding area and transfer area 8.To the PCB stacked on feeding station Plate is successively transferred to the first feeding area by the first sucker mould group 2, is transferred to transfer by the second sucker mould group 3 again after processing Area 8.

In one embodiment, the first sucker mould group 2 and the second sucker mould group 3 all have four suckers, and four The corner location of the corresponding rectangle for being distributed in rectangle of sucker, is arranged such in order to firmly draw pcb board.In other embodiment party In formula, the quantity of sucker may be greater than four, and each sucker by be suitable for draw in the way of arrange.

First feeding area and the first organisation of working are located at the both ends of first transport mechanism 6, first processing The first bite that mechanism includes: the first pressure die group 4 and is oppositely arranged positioned at 4 side of the first pressure die group and up and down 5.To which the pcb board of the first feeding area reaches progress bevel edge at the first organisation of working and add under the transmission of the first transport mechanism 6 Work.

Wherein, first transport mechanism 6 includes: the first transfer plate and drives first transfer plate in described first The first conveyer belt to move back and forth between feeding area and the first organisation of working.To which first transfer plate is passed first It send to transmit under the drive of band and carries out bevel edge processing at pcb board to the first organisation of working.

Further, the first pressure die group 4 includes: the first briquetting being oppositely arranged up and down, first briquetting pair The pcb board of transmission is compressed, to facilitate the first bite 5 to be cut.In addition, first organisation of working further includes First sliding rail 7, first sliding rail 7 is parallel with the edge that product needs bevel edge to process, the knife rest edge of first bite 5 First sliding rail 7 reciprocatingly slides, so that initial position is returned to after the cutting of the first bite 5, for next bevel edge processing It prepares.

In addition, the first bevel edge processing unit (plant) further include: the first CCD precise positioning compensation mechanism 16, the first CCD Precise positioning compensation mechanism 16 includes: the first CCD camera and the first accurate plate (not shown), the first CCD precise positioning Compensation mechanism 16 is located at the position where first organisation of working.It is before the processing of the first organisation of working, to the position of product It is calibrated and compensated.Specifically, first CCD camera is located at the top of product, acquires the image of product, double-shaft slant The system of side machine is compared according to the image of acquisition with the image that itself is stored, and controls the first accurate plate according to comparison result The position of product is calibrated, to realize the compensation of position, facilitates the progress of following process.The first accurate plate is by motor It is driven.

The transfer area 8 can realize that front and reversed product rotate 0 ° -180 ° disposable processing.Specifically, the transfer Area 8 receives the pcb board after the first bevel edge processing unit (plant) processing, and can be adjusted as needed to its direction, with Convenient for carrying out bevel edge processing to its other edge.To achieve the goals above, the transfer area 8 is additionally provided with turntable, and described turn The rotation angle of disk is 0 ° -180 °.

The second bevel edge processing unit (plant) is used to carry out bevel edge processing to the another one edge of pcb board comprising: on second Expect mechanism, the second feeding area, the second transport mechanism 14, the second organisation of working.

Second feed mechanism include: the second feeding sliding rail 9 and reciprocatingly slide along the second feeding sliding rail 9 Two manipulators.Specifically, second manipulator includes: third sucker mould group 10 and synchronizes with the third sucker mould group 10 4th sucker mould group 11 of movement.The third sucker mould group 10 moves back and forth between transfer area 8 and the second feeding area, The 4th sucker mould group 11 moves back and forth between the second feeding area and discharge station.To the process the in, transfer area 8 One bevel edge processing unit (plant) processing after pcb board the second feeding area is transferred to by third sucker mould group 10, by processing after again by 4th sucker mould group 11 is transferred to discharge station.

In one embodiment, the third sucker mould group 10 and the 4th sucker mould group 11 all have four suckers, and four The corner location of the corresponding rectangle for being distributed in rectangle of a sucker, is arranged such in order to firmly draw pcb board.In other implementations In mode, the quantity of sucker may be greater than four, and each sucker by be suitable for draw in the way of arrange.

Second feeding area and the second organisation of working are located at the both ends of second transport mechanism 14, second processing The second cutting that mechanism includes: the second pressure die group 12 and is oppositely arranged positioned at 12 2 side of the second pressure die group and up and down Knife 13.To which the pcb board of the second feeding area is reached and carried out tiltedly at the second organisation of working under the transmission of the second transport mechanism 14 Side processing.

Wherein, second transport mechanism 14 includes: the second transfer plate and drives second transfer plate in described the The second conveyer belt to move back and forth between two feeding areas and the second organisation of working.To which second transfer plate is second It is transmitted under the drive of conveyer belt and carries out bevel edge processing at pcb board to the second organisation of working.

Further, the second pressure die group 12 includes: the second briquetting being oppositely arranged up and down, second briquetting pair The pcb board of transmission is compressed, to facilitate the second bite 13 to be cut.In addition, second organisation of working also wraps The second sliding rail 15 is included, second sliding rail 15 is parallel with the other edge that product needs bevel edge to process, second bite 13 knife rest reciprocatingly slides along second sliding rail 15, thus the second bite 13 cutting after return to initial position, with for Next bevel edge processing is prepared.

In addition, the first bevel edge processing unit (plant) further include: the 2nd CCD precise positioning compensation mechanism 17, the 2nd CCD Precise positioning compensation mechanism 17 includes: the second CCD camera and the second accurate plate (not shown).The 2nd CCD precise positioning 17 working principle of compensation mechanism is identical as above-mentioned first CCD precise positioning compensation mechanism 16, is not repeated to describe herein.

In conclusion twin shaft bevel edge machine of the invention can to the different edges of pcb board carry out bevel edge processing, have compared with High processing efficiency has sufficiently adapted to the industrialized production of pcb board, achieves preferable economic benefit.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (10)

1. a kind of twin shaft bevelling machine, which is characterized in that the twin shaft bevelling machine includes: the first bevel edge processing unit (plant), the second bevel edge Processing unit (plant) and the transfer area between the first, second bevel edge processing unit (plant)；

The first bevel edge processing unit (plant) includes: the first feed mechanism, the first feeding area, the first transport mechanism, the first processing machine Structure, first feed mechanism include: the first feeding sliding rail and reciprocatingly slide along the first feeding sliding rail first mechanical Hand, first manipulator include: the first sucker mould group and the second sucker mould for moving synchronously with the first sucker mould group Group, the first sucker mould group move back and forth between feeding station and the first feeding area, the second sucker mould group in It moves back and forth between first feeding area and transfer area, first feeding area and the first organisation of working are located at described first and pass Send the both ends of mechanism, first organisation of working include: the first pressure die group and be located at the first pressure die group side and The first bite being oppositely arranged up and down；

The second bevel edge processing unit (plant) includes: the second feed mechanism, the second feeding area, the second transport mechanism, the second processing machine Structure, second feed mechanism include: the second feeding sliding rail and reciprocatingly slide along the second feeding sliding rail second mechanical Hand, second manipulator include: third sucker mould group and the 4th sucker mould that moves synchronously with the third sucker mould group Group, the third sucker mould group move back and forth between the transfer area and the second feeding area, the 4th sucker mould group It moves back and forth between second feeding area and discharge station, second feeding area and the second organisation of working are located at institute State the both ends of the second transport mechanism, second organisation of working includes: the second pressure die group and is located at second pressure die Group side and the second bite being oppositely arranged up and down.

2. twin shaft bevelling machine according to claim 1, which is characterized in that each sucker mould group all has four suckers, and four The corner location of the corresponding rectangle for being distributed in rectangle of sucker.

3. twin shaft bevelling machine according to claim 1, which is characterized in that first transport mechanism includes: the first transmission Plate and drive that first transfer plate moves back and forth between first feeding area and the first organisation of working first Conveyer belt.

4. twin shaft bevelling machine according to claim 1, which is characterized in that the first pressure die group includes: opposite up and down The first briquetting being arranged.

5. twin shaft bevelling machine according to claim 1, which is characterized in that first organisation of working further includes first sliding Rail, first sliding rail is parallel with the edge that product needs bevel edge to process, and the knife rest of first bite is along described first Sliding rail reciprocatingly slides.

6. twin shaft bevelling machine according to claim 1, which is characterized in that the transfer area is additionally provided with turntable, and described turn The rotation angle of disk is 0 ° -180 °.

7. twin shaft bevelling machine according to claim 1, which is characterized in that second transport mechanism includes: the second transmission Plate and drive that second transfer plate moves back and forth between second feeding area and the second organisation of working second Conveyer belt.

8. twin shaft bevelling machine according to claim 1, which is characterized in that the second pressure die group includes: opposite up and down The second briquetting being arranged.

9. twin shaft bevelling machine according to claim 1, which is characterized in that second organisation of working further includes second sliding Rail, second sliding rail is parallel with the other edge that product needs bevel edge to process, and the knife rest of second bite is described in Second sliding rail reciprocatingly slides.

10. twin shaft bevelling machine according to claim 1, which is characterized in that the first bevel edge processing unit (plant) further include: the One CCD precise positioning compensation mechanism, the second bevel edge processing unit (plant) further include: the 2nd CCD precise positioning compensation mechanism.