CN210876317U - Full-automatic laser sorting equipment - Google Patents

Abstract

A fully automatic laser sorting apparatus comprising: bear base, storage device, handling device, location conveyer, rotation detection device and laser marking device, location conveyer sets up on bearing the base, and handling device, storage device, rotation detection device and laser marking device set up on bearing the base along location conveyer's direction of delivery order. The utility model provides a full-automatic laser go-no-go equipment bears base, storage device, handling device, location conveyer, rotatory detection device and laser mark and carves the device through the setting, ensures that the product that has marked defective products mark can not flow into next process, and real accomplishing hundred percent detects and prevents the defective products, has improved machining efficiency greatly.

Description

Full-automatic laser sorting equipment

Technical Field

The utility model relates to a detection area especially relates to a full-automatic laser go-no-go equipment.

Background

Electronic components are basic elements in electronic circuits, typically individually packaged, and have two or more leads or metal contacts. The electronic components are interconnected to form an electronic circuit having a specific function, such as: amplifiers, radio receivers, oscillators, etc., one of the common ways to connect electronic components is soldering to a printed circuit board. The electronic components may be individual packages (resistors, capacitors, inductors, transistors, diodes, etc.) or groups of various complexities, such as: integrated circuits, operational amplifiers, exclusion, logic gates, and the like.

As shown in fig. 1, a component connection board 10 includes a component connection board frame 11, a component 12, and a mark 13. The number of the components 12 is multiple, the components 12 are uniformly arranged inside the component connecting plate frame 11, and the mark 13 is located on one side of the components 12. Generally, when the component connecting plate 10 is fed, a defective component mark number is marked on the corresponding defective component 12, for example, the defective component 12 is marked with an "x", so that a manufacturer can distinguish defective components from components 12 by using the defective component mark number; meanwhile, since each component connection board 10 is in a stacked state in which the front and back sides are mixed when the component connection boards 10 are fed, the defective product marks on each component connection board 10 are not oriented uniformly, for example, the defective product mark of the component connection board 10 located at the top is directed upward, and the defective product mark of one component connection board 10 may be directed downward. In actual processing, good components 12 on the component connection board 10 need to be selected, and defective components 12 need to be removed, and conventionally, each component 12 is taken out from the component connection board 10, and then each component 12 is manually identified with naked eyes, so that sorting operation of good products and defective products is performed on each component 12.

However, in the manual sorting, since the front and back sides of the component connection board 10 are mixed and the number of the components 12 is huge, a large amount of human resources must be input to check all the components 12 once, and since human energy cannot be kept concentrated all the time, defective products with marks are easily mixed into the good products, and the defective products are brought into the next process, so that how to ensure that the defective products are guaranteed in hundreds of percent cannot flow into the next process, and the improvement of the production efficiency becomes a problem to be solved by technical personnel in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, provide one kind and can ensure that defective products hundredth can not flow into next process, improve production efficiency's full-automatic laser sorting equipment.

The purpose of the utility model is realized through the following technical scheme:

a fully automatic laser sorting apparatus comprising: the laser marking device comprises a bearing base, a material storage device, a carrying device, a positioning and conveying device, a rotation detection device and a laser marking device, wherein the positioning and conveying device is arranged on the bearing base, and the carrying device, the material storage device, the rotation detection device and the laser marking device are sequentially arranged on the bearing base along the conveying direction of the positioning and conveying device;

the rotary detection device comprises a rotary support, a rotary displacement module, a rotary adsorption module and a CCD detector, wherein the rotary support is arranged on the bearing base, the rotary displacement module is arranged on the rotary support and is connected with the rotary displacement module, the CCD detector is arranged on the rotary displacement module, the rotary adsorption module is used for adsorbing and rotating products on the positioning and conveying device, the rotary displacement module is used for driving the rotary adsorption module to perform reciprocating displacement close to or far away from the positioning and conveying device, and the rotary displacement module is also used for driving the rotary adsorption module to perform reciprocating displacement between the material storage device and the positioning and conveying device;

the rotary adsorption module comprises a rotary bearing plate, a rotary driving piece, a rotary frame and a rotary adsorption piece, the rotary bearing plate is connected with the rotary displacement module, the rotary frame is rotatably arranged on the rotary bearing plate, the rotary driving piece is connected with the rotary frame, and the rotary adsorption piece is arranged on the rotary frame.

In an embodiment of the present invention, the rotary displacement module includes a rotary displacement slider and a rotary displacement driving element, the rotary displacement slider is slidably disposed on the rotary support, the rotary displacement driving element is connected to the rotary displacement slider, and the CCD detector is disposed on the rotary displacement slider.

In one embodiment thereof, the rotary displacement drive is an electric motor.

In an embodiment of the present invention, the rotary displacement module further includes a rotary lifting fixing plate and a rotary lifting driving member, the rotary lifting fixing plate is fixedly mounted on the rotary displacement slider, the rotary bearing plate is slidably disposed on the rotary lifting fixing plate, and the rotary lifting driving member is connected to the rotary bearing plate.

In one embodiment thereof, the rotary lifting drive is a motor.

In an embodiment of the storage device, the storage device comprises a storage support and a limiting column, the storage support is arranged on the bearing base, a plurality of limiting grooves are formed in the storage support, and the limiting grooves of the storage support are connected with the bottoms of the limiting columns.

In an embodiment of the present invention, the carrying device includes a carrying support, a horizontal carrying module, a lifting carrying module and a carrying adsorption member, the carrying support is disposed on the carrying base, the horizontal carrying module is slidably disposed on the carrying support, the lifting carrying module is connected to the horizontal carrying module, and the carrying adsorption member is slidably disposed on the lifting carrying module.

In an embodiment of the present invention, the positioning and conveying device includes a positioning and conveying slider, a positioning and conveying driving member, and a positioning and conveying fixture, the positioning and conveying slider is slidably disposed on the supporting base, the positioning and conveying driving member is connected to the positioning and conveying slider, and the positioning and conveying fixture is connected to the positioning and conveying slider.

In one embodiment thereof, the positioning transmission drive is an electric motor.

In one embodiment of the present invention, the laser marking device includes a laser marking support, a laser marking displacement module, and a laser marking device. The laser marking device comprises a bearing base, a laser marking displacement module, a laser marking device and a laser marking displacement module, wherein the bearing base is arranged on the bearing base, the laser marking displacement module is arranged on the laser marking bearing, and the laser marking device is connected with the laser marking displacement module.

Compared with the prior art, the utility model discloses at least, following advantage has:

utilize full-automatic laser go-no-go equipment, the saving that is showing manpower resources, moreover, utilize the accurate detection function of shooing of full-automatic laser go-no-go equipment's CCD detector, utilize the upset function of rotatory absorption module, guarantee not to have the product that is marked defective products mark to flow in the condition of one process down, real one hundred detection of accomplishing prevents that the defective products from flowing in one process down, has improved machining efficiency greatly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural diagram of a component connection board;

fig. 2 is a schematic structural diagram of a full-automatic laser sorting apparatus according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a material storage device of the full-automatic laser sorting device in fig. 2;

FIG. 4 is a schematic structural diagram of a conveying device of the fully automatic laser sorting apparatus in FIG. 2;

FIG. 5 is a schematic structural diagram of a positioning and conveying device of the fully automatic laser sorting apparatus in FIG. 2;

FIG. 6 is a schematic structural view of a positioning and conveying fixture of the positioning and conveying device shown in FIG. 5;

FIG. 7 is a schematic structural diagram of a rotation detection device of the fully automatic laser sorting apparatus in FIG. 2;

fig. 8 is a schematic structural diagram of a laser marking device of the full-automatic laser sorting apparatus in fig. 2.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. 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 "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

It is noted that as used herein, reference to an element being "connected" to another element also means that the element is "in communication" with the other element, and fluid can be in exchange communication between the two.

In order to better explain the simple stamping device, the concept of the fully automatic laser sorting device is better understood. Referring to fig. 1 and 2, a fully automatic laser sorting apparatus 20 includes: bear base 100, storage device 200, handling device 300, location conveyer 400, rotation detection device 500 and laser marking device 600, location conveyer 400 sets up on bearing base 100, and handling device 300, storage device 200, rotation detection device 500 and laser marking device 600 set up on bearing base 100 along location conveyer's direction of delivery in proper order. Utilize full-automatic laser go-no-go equipment, the saving that is showing manpower resources, moreover, utilize the accurate detection function of shooing of full-automatic laser go-no-go equipment's CCD detector, utilize the upset function of rotatory absorption module, guarantee not to have the product that is marked defective products mark to flow in the condition of one process down, real one hundred detection of accomplishing prevents that the defective products from flowing in one process down, has improved machining efficiency greatly.

It should be noted that the storage device 200 is used for storing the component connection boards 10 in a stacked state, the carrying device 300 is used for transporting the component connection boards 10 from the storage device 200 to the positioning and conveying device 400 to realize a feeding function, the carrying device 300 is also used for transporting the component connection boards 10 from the positioning and conveying device 400 to the storage device 200 to realize a discharging function, the carrying device 300 is also used for carrying paper partitions for partitioning the component connection boards 10, the carrying device 300 is also used for matching with the rotation detection device 500 to turn over the component connection boards 10, the positioning and conveying device 400 is used for fixing the component connection boards 10 and transporting the component connection boards 10 back and forth between the carrying device 300, the rotation detection device 500 and the laser marking device 600, the rotation detection device 500 is used for matching with the carrying device 300 to realize the turning over operation of the component connection boards 10, and the rotation detection device 500 is also used for photographing and detecting the component connection boards 10 to determine which components 12 are present The storage device 200 has two product accommodating chambers for accommodating raw material stacks and processed stacks respectively, the handling device 300 obtains one component connecting plate 10 from the raw material stack, the handling device 300 conveys the component connecting plate 10 to the positioning and conveying device 400, the positioning and conveying device 400 conveys the component connecting plate 10 to the rotation detecting device 500 for photographing detection, the conveying device 300 conveys separation paper used for separating the component connecting plates 10 in the raw material stacked product to a processed stacked product, so that the conveying device 300 directly feeds the component connecting plates 10 to a processed stacked product area after laser processing is finished, then the conveying device 300 returns to the upper part of the positioning conveying device 400 to wait for the completion of laser sorting drilling on the upward surface of the component connecting plates 10, the rotary detection device 500 takes pictures of the component connecting plates 10 on the positioning conveying device 400, the positioning conveying device 400 conveys the component connecting plates 10 to the lower part of the laser marking device 600, then the laser marking device 600 performs laser sorting drilling and mark point removing processing operations on the component connecting plates 10, after the processing is finished, the positioning conveying device 400 conveys the component connecting plates 10 to the lower part of the rotary detection device 500, then the rotary detection device 500 takes and overturns the component connecting plates 10 of the positioning conveying device 400, the upper and lower surfaces of the component connecting plate 10 are changed, that is, the original downward surface is changed to be upward, the original upward surface is changed to be downward, then the carrying device 300 adsorbs the upward surface of the component connecting plate 10 at the moment, then the component connecting plate 10 is loosened by the rotation detection device 500, then the carrying device 300 feeds the component connecting plate 10 to the positioning and conveying device 400 again, the positioning and conveying device 400 conveys the component connecting plate 10 to the laser marking device 600 for reverse laser sorting drilling and mark point removing processing, after the laser sorting drilling and mark point removing processing on the two surfaces of the component connecting plate 10 are completed, the positioning and conveying device 400 stops below the rotation detection device 500 again for the product needing to be upward in front, the carrying device 300 carries the product to the processed stacked product of the material storage device 200 after the product is turned to the front by the rotation detection device 500, for the product which does not need to be right up, that is, the product whose front and back sides can be mixed, the conveying device 300 directly conveys the product from the positioning conveying device 400 to the processed stacked product of the storage device 200, in the processing operation of laser sorting, drilling and mark point removing on the component connecting plate 10 by the equipment, the conveying device 300 conveys the product to the positioning conveying device 400, then conveys the paper separation, and can save the additional paper separation storage area for storing the paper separation, thus saving space, simplifying the action of the equipment, and simultaneously improving the working efficiency of the equipment, because after the conveying device 300 conveys the component connecting plate 10 to the positioning conveying device 400, the positioning conveying device 400 carries the component connecting plate 10 to the conveying device 300 until the laser sorting is finished, the conveying device 300 is in an idle state, therefore, the operation of carrying the paper separation can be executed by the carrying device 300 in the period of time, the working efficiency of the sorting equipment is greatly improved,

referring to fig. 3, the storage device 200 includes a storage pedestal 210 and a retaining post 220, the storage pedestal 210 is disposed on the carrier base 100, the storage pedestal 210 is provided with a plurality of retaining grooves 211, and the retaining grooves 211 of the storage pedestal 210 are connected to the bottom of the retaining post 220.

It should be noted that, the storage device 200 is used for storing raw materials and finished products of the component connecting plate 10, the bottom of the storage device 200 is provided with a support column for supporting the storage device 200, the limit column 220 is fixed on the limit groove 211, the limit column 220 encloses a containing cavity for containing products, and the containing cavity is used for containing products.

Referring to fig. 3 again, fifteen limiting grooves 211 on the storage support 210 are formed and have different lengths, so that the limiting posts 220 can be adjusted to be fixed in the limiting grooves 211 according to the size of the product, that is, the size of the accommodating cavity can be adjusted according to the size of the product.

Referring again to fig. 3, the retaining post 220 may be secured to the magazine holder 210 by locking the retaining post 220 by means of a locking member 230 that extends through the bottom of the magazine holder 210 and engages the retaining post 220.

In one embodiment, the locking member 230 is a screw, the bottom of the retaining post 220 is threaded, and the screw passes through the bottom of the storage holder 210 and is screwed into the threaded hole at the bottom of the retaining post 220, thereby achieving the purpose of fixing the retaining post 220.

Referring to fig. 3 again, the top of the position-limiting pillar 220 has an inclined surface, so that the product can be prevented from being impacted by the position-limiting pillar 220 when being placed in the accommodating cavity, and the material feeding is prevented.

In one embodiment, two storage devices 200 are provided, and one handling device 300 is used for cooperating with two storage devices 200 at two ends of the handling device 300, so that two independent storage devices can work in parallel, and the work efficiency is improved.

Referring to fig. 4, the carrying device 300 includes a carrying support 310, a horizontal carrying module 320, a lifting carrying module 330 and a carrying adsorption member 340, wherein the carrying support 310 is disposed on the carrying base 100, the horizontal carrying module 320 is slidably disposed on the carrying support 310, the lifting carrying module 330 is connected to the horizontal carrying module 320, and the carrying adsorption member 340 is slidably disposed on the lifting carrying module 330.

It should be noted that the horizontal carrying module 320 is used for providing horizontal reciprocating motion, so that the lifting carrying module 330 connected to the horizontal carrying module 320 can realize a horizontal reciprocating motion, and the lifting carrying module 330 is used for providing a lifting motion, so that the carrying adsorption piece 340 slidably disposed on the lifting carrying module 330 can realize the purpose of lifting motion.

In one embodiment, the transportation support 310 includes transportation support legs and a transportation fixing plate, wherein the bottom of the transportation support legs is connected to the load-bearing base 100, and the top of the transportation support legs is connected to the transportation fixing plate.

Referring to fig. 4 again, the horizontal carrying module 320 includes a horizontal carrying slider slidably disposed on the carrying support 310, a horizontal carrying driving member connected to the horizontal carrying slider, and a lifting carrying plate connected to the horizontal carrying slider.

It should be noted that the horizontal carrying driving member is used for driving the horizontal carrying slider connected to the horizontal carrying driving member to perform horizontal reciprocating motion on the carrying support 310, and the horizontal carrying driving member drives the lifting carrying plate to perform horizontal reciprocating motion on the carrying support 310 because the lifting carrying plate is connected to the horizontal carrying slider.

In one embodiment, the horizontal transport slide slides on a slide rail, which is disposed on the transport support 310.

In one embodiment, the two slide rails are arranged and fixed in parallel, so that the motion stability of the horizontal carrying slide block is improved.

In one embodiment, the horizontal conveying driving member is a motor, and the motor enables the horizontal conveying sliding block to slide on the sliding rail more stably.

In one embodiment, the lifting and carrying plate has a threaded hole for fixing the lifting and carrying module 330.

Referring to fig. 4 again, the lifting/lowering/transporting module 330 includes a lifting/lowering/transporting slider, a lifting/transporting driving member and an absorbing member carrier plate, the lifting/transporting slider is slidably disposed on the lifting/transporting carrier plate, the lifting/transporting driving member is connected to the lifting/transporting slider, and the absorbing member carrier plate is connected to the lifting/transporting slider.

It should be noted that the lifting and carrying driving member is used for driving the lifting and carrying slider connected with the lifting and carrying driving member to perform lifting and lowering movements on the lifting and carrying bearing plate, and the absorption member bearing plate is connected with the lifting and carrying slider, so that the lifting and carrying driving member drives the absorption member bearing plate to perform lifting and lowering movements on the lifting and carrying bearing plate.

In one embodiment, the lifting/lowering/transporting slider slides on a slide rail, and the slide rail is disposed on the lifting/transporting carrier plate.

In an embodiment, the slide rail is provided with two, and two slide rails are fixed in parallel, so, have increased the stability of lift transport slider motion.

In one embodiment, the lifting and carrying driving member is a motor, and the motor enables the lifting and carrying sliding block to slide on the sliding rail more stably.

In one embodiment, the suction member bearing plate is provided with a fixing threaded hole for fixing and carrying the suction member 340.

Referring to fig. 4 again, the transportation adsorption element 340 includes a transportation adsorption fixing plate, a transportation adsorption frame and a transportation adsorption block, the transportation adsorption fixing plate is disposed on the adsorption element bearing plate, the transportation adsorption frame is connected to the transportation adsorption fixing element, and the transportation adsorption block is connected to the transportation adsorption frame.

It should be noted that the transportation adsorption fixing plate is used for fixing the transportation adsorption frame, the transportation adsorption frame is used for fixing the transportation adsorption block, and the transportation adsorption block is used for adsorbing the product, that is, grabbing the product.

In an embodiment, transportation adsorption frame includes body frame and subframe, body frame and subframe are the column and for dismantling, and body frame and subframe are provided with the U-shaped groove moreover, and the U-shaped groove is used for the adjustment position, through using the fastener, for example, the fastener is the screw, can utilize the screw to fix body frame and subframe, so, can be according to the distance of actual real-time adjustment transportation adsorption frame arm, and according to the real-time position of adjustment transportation adsorption block of the actual size of product, realize the purpose of accurately snatching the product.

In an embodiment, the transportation adsorption block is an air cock, and is connected to the air cock through the vacuum valve, can form a negative pressure in the air cock, when the air cock hugs closely the product surface, can realize the effect of absorption product, promptly snatchs the effect of product.

Referring to fig. 5, the positioning and conveying device 400 includes a positioning and conveying slider 410, a positioning and conveying driving member 420, and a positioning and conveying fixture 430, wherein the positioning and conveying slider 410 is slidably disposed on the supporting base 100, the positioning and conveying driving member 420 is connected to the positioning and conveying slider 410, and the positioning and conveying fixture 430 is connected to the positioning and conveying slider 410.

It should be noted that the positioning and conveying driving component 420 is used for driving the positioning and conveying sliding block 410 to reciprocate on the bearing base 100, and since the positioning and conveying fixing jig 430 is connected with the positioning and conveying sliding block 410, the positioning and conveying fixing jig 430 can reciprocate on the bearing base 100, and the positioning and conveying fixing jig 430 is used for fixing a product, so that the purpose of reciprocating conveying of the product can be achieved, that is, the product can move among the conveying device 300, the rotation detection device 500 and the laser marking device 600 for sorting processing.

In one embodiment, the positioning and conveying driving element is a motor, and the positioning and conveying fixture 430 is driven by the motor to reciprocate.

In one embodiment, the positioning and conveying sliding block 410 slides on the bearing base 100 by using a sliding rail, and the sliding friction resistance of the positioning and conveying sliding block 410 can be greatly reduced by using the sliding rail, so that the sliding is more stable.

In one embodiment, two slide rails are provided, and the two slide rails are arranged in parallel, so that the positioning and conveying slide 410 slides more stably.

Referring to fig. 1 and 6, the positioning, conveying and fixing jig 430 includes a jig bottom plate 431, a jig limiting edge 432 and a limiting support member 433, the jig limiting edge 432 forms an accommodating cavity for accommodating a product, the jig limiting edge 432 is disposed around the jig bottom plate 431, the limiting support member 433 is disposed in the middle of the jig bottom plate 431, that is, the bottom of the accommodating cavity, and an air suction opening is disposed at one side of the jig limiting edge 432.

It should be noted that, because the laser drilling is accompanied by small smoke particles, after the equipment works for a long time, the jig is inevitably accumulated with a large amount of small smoke particles, and once the small smoke particles are not cleaned in time, the small smoke particles are attached to sliding parts such as a sliding rail and a sliding block with a high probability, so that the equipment runs unsmoothly, and can be continuously used only by stopping for a long time and thoroughly cleaning, so that the processing production efficiency is low, therefore, the small smoke particles drilled by the laser drilling are extracted to the outside of the equipment by using a way of connecting an air extraction opening of the jig limiting edge 432 with an exhaust fan through a pipeline, so that the cleaning inside the positioning and conveying fixed jig 430 can be ensured, the operation of the equipment is ensured not to receive the influence of the small smoke particles, in addition, the jig limiting edge 432 is used for limiting and fixing the product, the limiting support member 433 is used for supporting the, specifically, the spacing support 433 is provided with spacing grooves, since the component connecting plate 10 is full of a plurality of components 12, the spacing grooves can effectively avoid laser irradiation on the spacing support 433, the spacing support 433 is further provided with fixing holes for fixing the spacing support 433 on the jig bottom plate 431, so that the positioning, conveying and fixing jig 430 can adapt to a variety of different products, by setting the adjustable support structure, the acting point of the product can be modified according to different product shapes, and the damage to the jig during the laser processing of the product can be avoided according to the actual arrangement condition of the product, the jig spacing edge 432 can be adjusted according to the actual size of the product, so that the product can be perfectly embedded into the accommodating cavity, specifically, because the spacing support 433 can be disassembled, when the product volume is not big, can dismantle some spacing support member 433, then move the spacing limit 432 of tool towards the focus of tool bottom plate 431 and then lock, reach the purpose that reduces and hold the chamber.

In an embodiment, two positioning and conveying devices 400 are provided, so that the two positioning and conveying devices 400 can be respectively matched with the two storage devices 200 to perform laser sorting processing, thereby improving the processing efficiency and realizing the function of simultaneously detecting two products by one device.

Referring to fig. 7, the rotation detecting device 500 includes a rotation support 510, a rotation displacement module 520, a rotation adsorption module 530 and a CCD detector 540, the rotation support 510 is disposed on the bearing base 100, the rotation displacement module 520 is disposed on the rotation support 510, the rotation adsorption module 530 is connected to the rotation displacement module 520, the CCD detector 540 is disposed on the rotation displacement module 520, the rotation adsorption module 530 is configured to adsorb and rotate a product on the positioning and conveying device 400, the rotation displacement module 520 is configured to drive the rotation adsorption module 530 to perform reciprocating displacement close to or away from the positioning and conveying device 400, and the rotation displacement module 520 is further configured to drive the rotation adsorption module 530 to perform reciprocating displacement between the material storing device 200 and the positioning and conveying device 400.

It should be noted that the rotary displacement module 520 is used for driving the rotary adsorption module 530 and the CCD detector 540 to perform horizontal reciprocating motion and lifting motion, the CCD detector 540 is used for photographing the product on the positioning and conveying device 400 to detect which components 12 of the component connecting plate 10 have the defective product mark "x", the rotary adsorption module 530 is used for adsorbing and rotating the product on the positioning and conveying device 400, specifically, after the component connecting plate 10 is placed on the positioning and conveying device 400 by the carrying device 300, the positioning and conveying device 400 moves to the lower part of the rotary displacement module 520, then the CCD detector 540 is driven by the rotary displacement module 520 to move to the upper part of the component connecting plate 10 placed on the positioning and conveying device 400, then the CCD detector 540 photographs the component connecting plate 10, and sends the picture of the upward side of the component connecting plate 10 to the control system, then the positioning and conveying device 400 sends the component connecting plate 10 to the laser marking device 600 for laser sorting and drilling, after laser processing is finished, the positioning and conveying device 400 conveys the component connecting plate 10 to the lower part of the rotary displacement module 520, then the rotary adsorption module 530 is driven by the rotary displacement module 520 to perform descending motion, the rotary adsorption module 530 is adsorbed on the component connecting plate 10 of the positioning and conveying device 400, then the rotary adsorption module 530 is driven by the rotary displacement module 520 to ascend by a certain height, then the rotary adsorption module 530 performs turning motion on the component connecting plate 10, so that the surface of the component connecting plate 10 adsorbed by the rotary adsorption module 530 is changed from upward to downward, at the moment, the conveying adsorption piece 340 of the conveying device 300 adsorbs the other surface of the component connecting plate 10, namely, the conveying adsorption piece 340 adsorbs the upper surface of the component connecting plate 10, then rotatory absorption module 530 loosens below adsorbing components and parts connecting plate 10, and rotatory absorption module 530 water translation under the drive of rotary displacement module 520 moves a certain distance, make handling of handling device 300 adsorb piece 340 and do not have any barrier toward the direction of location conveyer 400 motion, carry after that and adsorb piece 340 under the drive of the lift transport module 330 of handling device 300, descending movement carries out, after carrying and adsorbing piece 340 and placing components and parts connecting plate 10 to the holding cavity of the fixed tool 430 of location conveying, the transport adsorbs piece 340 and loosens adsorbed components and parts connecting plate 10, realize the function of reloading after components and parts connecting plate 10 overturns. And then the component connecting plate 10 moves to the laser marking device 600 under the driving of the positioning and conveying device 400 to perform laser drilling and mark point removing processing on the other surface.

Referring to fig. 1 and 7 again, the rotary adsorption module 530 includes a rotary supporting plate, a rotary driving member, a rotary frame and a rotary adsorption member, the rotary supporting plate is connected to the rotary displacement module, the rotary frame is rotatably disposed on the rotary supporting plate, the rotary driving member is connected to the rotary frame, and the rotary adsorption member is disposed on the rotary frame.

It should be noted that, rotatory module 530 that adsorbs is used for carrying out the function of adsorbing and the upset to components and parts connecting plate 10, specifically, rotatory adsorbing part is used for adsorbing components and parts connecting plate 10, and the swivel mount is used for fixed rotatory adsorbing part, and rotatory driving piece is used for driving the swivel mount and carries out the rotary motion, so, can make rotatory driving piece drive the function that the product that rotatory adsorbing part was adsorbed realized the upset.

In one embodiment, the rotary driving member is a high-precision rotary cylinder, so that the turning function of the rotary cylinder on the component connecting plate 10 can be utilized.

Referring to fig. 1 and 7 again, the rotary displacement module 530 includes a rotary displacement slider and a rotary displacement driving member, the rotary displacement slider is slidably disposed on the rotary bracket, the rotary displacement driving member is connected to the rotary displacement slider, and the CCD detector 540 is disposed on the rotary displacement slider.

It should be noted that the rotary displacement driving element is used for driving the rotary displacement slider to reciprocate horizontally on the rotary bracket, and the CCD detector 540 is disposed on the rotary displacement slider, so that the rotary displacement driving element can drive the CCD detector 540 to reciprocate horizontally.

In one embodiment, the rotary displacement driving member is a motor, so that the rotary displacement slider can move more stably on the rotary bracket.

In one embodiment, the rotating bracket is provided with a sliding rail, and the rotary displacement slider slides on the sliding rail, so that the sliding friction is greatly reduced by using the sliding rail, and the stability of the rotary displacement module 530 is improved.

Referring to fig. 1 and 7 again, the rotary displacement module 530 further includes a rotary lifting fixing plate and a rotary lifting driving member, the rotary lifting fixing plate is disposed on the rotary displacement slider, the rotary loading plate is slidably disposed on the rotary lifting fixing plate, and the rotary lifting driving member is connected to the rotary loading plate.

It should be noted that the rotary lifting driving member is used to drive the rotary bearing plate connected to the rotary lifting driving member to move, that is, the rotary bearing plate slides up and down on the rotary lifting fixing plate, so that the lifting function of the rotary bearing plate can be realized.

In one embodiment, the rotary lifting driving member is a motor, so that the lifting movement of the rotary bearing plate is more stable.

In one embodiment, the CCD detector 540 is a CCD camera, and the CCD camera is used for taking a picture of the component connecting board 10 placed in the positioning and conveying device 400 below the rotary displacement module 530, and then feeding the taken picture back to the system for the next action of the system.

Referring to fig. 1 and 8, the laser marking device 600 includes a laser marking support 610, a laser marking displacement module 620, and a laser marking device 630. The laser marking support 610 is arranged on the bearing base 100, the laser marking displacement module 620 is arranged on the laser marking support 610, and the laser marking device 630 is connected with the laser marking displacement module 620.

It should be noted that the laser marking displacement module 620 is used for driving the laser marking device 630 to perform horizontal and lifting movements, so that the laser marking device 630 can accurately apply laser to the component connecting plate 10.

Referring to fig. 1 and 8 again, the laser marking displacement module 620 includes a marking horizontal slider, a marking horizontal driving member, a marking lifting bearing plate, a marking lifting slider, a marking lifting driving member and a laser marking fixing plate, the marking horizontal slider is slidably disposed on the laser marking support 610, the marking horizontal driving member is connected with the marking horizontal slider, the marking lifting bearing plate is disposed on the marking horizontal slider, the marking lifting slider is slidably disposed on the marking lifting bearing plate, the marking lifting driving member is connected with the marking lifting slider, and the laser marking fixing plate is disposed on the marking lifting slider.

It should be noted that, mark horizontal drive spare is used for driving mark horizontal slider that carves and carries out horizontal reciprocating motion on laser mark support 610, that is, mark horizontal drive spare is used for driving mark lift loading board and carries out horizontal reciprocating motion on laser mark support 610, because mark lift slider slides and sets up on mark lift loading board, so mark lift drive spare is used for driving mark lift slider and carries out elevating movement on mark lift loading board, because laser marks fixed plate setting on mark lift slider again, so mark lift drive spare is used for driving laser mark fixed plate and carries out elevating movement on mark lift loading board, consequently, laser marks displacement module 620 and is used for making laser mark fixed plate realize horizontal motion and elevating movement's function.

In one embodiment, the laser marking support 610 is provided with a slide rail, and the marking horizontal slider slides on the slide rail, so that the sliding of the marking horizontal slider is more stable by using the slide rail.

In one embodiment, the marking lifting bearing plate is provided with a slide rail, the marking lifting slide block slides on the slide rail, and the slide rail is used for enabling the marking lifting slide block to be more stable in lifting motion.

In an embodiment, the marking horizontal driving member and the marking lifting driving member are motors, so that the laser marking displacement module 620 can control the laser walking route more accurately.

Referring to fig. 1 and 8 again, the laser marking device 630 includes a laser generator, a flying optical path and a laser transmitter, the laser generator is disposed on the laser marking support 610, the laser transmitter is disposed on the laser marking fixing plate, and the laser generator is connected to the laser transmitter through the flying optical path.

It should be noted that, laser generator is used for producing laser, then laser comes laser emitter through the flight light path, then laser is launched from laser emitter, be used in on components and parts connecting plate 10, because laser mark carves the fixed plate and can be driven by the motor and realize the motion of horizontal direction and upper and lower direction, and because laser emitter sets up on laser mark carves the fixed plate, so, laser emitter can realize the motion of horizontal direction and upper and lower direction, the back-and-forth movement function of cooperation location conveyer 400, just can realize that laser emitter does the function of triaxial motion, laser emitter's work flexibility ratio has been strengthened, and cooperate two location conveyer 400, can simultaneous working on two location conveyer 400 by a laser emitter, very big improvement work efficiency.

The utility model provides a full-automatic laser go-no-go equipment, shoot component connecting plate 10 a face through utilizing CCD detector 540, through judging all components and parts 12 that contain bad mark that find out component connecting plate 10 a face, then utilize laser to run through the component 12 drilling that marks bad mark, mark 13 on the component 12 next door that marks bad mark is got rid of with the laser simultaneously, laser goes out a face back of component connecting plate 10 in the go-no-go, utilize rotary detection device 500 cooperation handling device 300 to overturn component connecting plate 10, carry out bad detection and laser drilling operation once to the component connecting plate 10 after the upset, so, can guarantee that the component 12 that marks bad mark is scrapped completely, guarantee can not flow into in the next process.

Compared with the prior art, the utility model discloses at least, following advantage has:

utilize full-automatic laser go-no-go equipment, the saving that is showing manpower resources, moreover, utilize the accurate detection function of shooing of full-automatic laser go-no-go equipment's CCD detector, utilize the upset function of rotatory absorption module, guarantee not to have the product that is marked defective products mark to flow in the condition of one process down, real one hundred detection of accomplishing prevents that the defective products from flowing in one process down, has improved machining efficiency greatly.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a full-automatic laser sorting equipment which characterized in that includes: the laser marking device comprises a bearing base, a material storage device, a carrying device, a positioning and conveying device, a rotation detection device and a laser marking device, wherein the positioning and conveying device is arranged on the bearing base, and the carrying device, the material storage device, the rotation detection device and the laser marking device are sequentially arranged on the bearing base along the conveying direction of the positioning and conveying device;

the rotary detection device comprises a rotary support, a rotary displacement module, a rotary adsorption module and a CCD detector, wherein the rotary support is arranged on the bearing base, the rotary displacement module is arranged on the rotary support and is connected with the rotary displacement module, the CCD detector is arranged on the rotary displacement module, the rotary adsorption module is used for adsorbing and rotating products on the positioning and conveying device, the rotary displacement module is used for driving the rotary adsorption module to perform reciprocating displacement close to or far away from the positioning and conveying device, and the rotary displacement module is also used for driving the rotary adsorption module to perform reciprocating displacement between the material storage device and the positioning and conveying device;

the rotary adsorption module comprises a rotary bearing plate, a rotary driving piece, a rotary frame and a rotary adsorption piece, the rotary bearing plate is connected with the rotary displacement module, the rotary frame is rotatably arranged on the rotary bearing plate, the rotary driving piece is connected with the rotary frame, and the rotary adsorption piece is arranged on the rotary frame.

2. The automatic laser sorting device according to claim 1, wherein the rotary displacement module comprises a rotary displacement slider and a rotary displacement driving member, the rotary displacement slider is slidably disposed on the rotary support, the rotary displacement driving member is connected to the rotary displacement slider, and the CCD detector is disposed on the rotary displacement slider.

3. The fully automated laser sorting apparatus of claim 2, wherein the rotary displacement drive is a motor.

4. The automatic laser sorting device of claim 2, wherein the rotary displacement module further comprises a rotary lifting fixing plate and a rotary lifting driving member, the rotary lifting fixing plate is fixedly mounted on the rotary displacement slider, the rotary bearing plate is slidably disposed on the rotary lifting fixing plate, and the rotary lifting driving member is connected to the rotary bearing plate.

5. The fully automated laser sorting apparatus of claim 4, wherein the rotary lift drive is a motor.

6. The full-automatic laser sorting equipment according to claim 1, wherein the storage device comprises a storage support and a limiting column, the storage support is arranged on the bearing base, the storage support is provided with a plurality of limiting grooves, and the limiting grooves of the storage support are connected with the bottoms of the limiting columns.

7. The automatic laser sorting equipment according to claim 1, wherein the carrying device comprises a carrying support, a horizontal carrying module, a lifting carrying module and a carrying adsorption member, the carrying support is disposed on the carrying base, the horizontal carrying module is slidably disposed on the carrying support, the lifting carrying module is connected with the horizontal carrying module, and the carrying adsorption member is slidably disposed on the lifting carrying module.

8. The automatic laser sorting equipment of claim 1, wherein the positioning and conveying device comprises a positioning and conveying slider, a positioning and conveying driving member, and a positioning and conveying fixture, the positioning and conveying slider is slidably disposed on the supporting base, the positioning and conveying driving member is connected to the positioning and conveying slider, and the positioning and conveying fixture is connected to the positioning and conveying slider.

9. The fully automated laser sorting apparatus of claim 8, wherein the positioning conveyor drive is a motor.

10. The full-automatic laser sorting equipment according to claim 1, wherein the laser marking device comprises a laser marking support, a laser marking displacement module and a laser marking device, the laser marking support is arranged on the bearing base, the laser marking displacement module is arranged on the laser marking support, and the laser marking device is connected with the laser marking displacement module.

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