CN211991411U - Full-automatic double-platform laser coding machine - Google Patents

Abstract

The utility model discloses a full-automatic double-platform laser coding machine, which comprises a frame, and further comprises a laser coding component, a moving platform component, a first feeding platform, a second feeding platform, a feeding component and a discharging component which are arranged on the frame, wherein the feeding component is used for conveying a product to be coded to the first feeding platform and the second feeding platform, the first feeding platform and the second feeding platform are both used for driving the product to reciprocate and conveying the product to the laser coding component, and the discharging device is used for conveying the coded product away from the first feeding platform and the second feeding platform; the movement directions of the first feeding platform and the second feeding platform are opposite, products to be processed are conveyed to the first feeding platform and the second feeding platform through the feeding assembly, and the products of the first feeding platform and the second feeding platform are processed in turn, so that the laser code printing assembly is in a non-stop code printing state, and the production efficiency is effectively improved.

Description

Full-automatic double-platform laser coding machine

Technical Field

The utility model relates to a sign indicating number field is beaten to laser especially relates to a full-automatic double-platform laser coding machine.

Background

The laser coding machine is used for coding a product, is formed by instantly gasifying the surface of the object through laser, can be distinguished by naked eyes without any auxiliary tool, is convenient for a consumer to identify, has no material consumption and is more convenient to maintain, breaks through the traditional ink code spraying technology, forms a brand new coding mode, and provides a favorable tool for shortening the upgrading and upgrading period of the product and flexibly producing the product;

the PCB board is marked and marked with the two-dimensional code through the laser coding machine at present, but the laser coding machine that has now adopts pipelined more, and the incessant motion of product arrives the position of laser coding machine promptly, then beats the sign indicating number through the laser coding machine, but in the clearance of product motion, the laser coding machine does not work to because the product velocity of motion is slower, therefore actual machining efficiency is not high, still remains to promote.

SUMMERY OF THE UTILITY MODEL

To the weak point that exists among the above-mentioned technique, the utility model provides a full-automatic double-platform laser coding machine will wait to process the product and transport first feeding platform and second feeding platform through the material loading subassembly, and the product of first feeding platform and second feeding platform is processed in turn for the laser coding subassembly is in the state of beating the sign indicating number of not stopping, effectively promotes production efficiency.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a full-automatic double-platform laser coding machine comprises a rack, and further comprises a laser coding assembly, a moving platform assembly, a first feeding platform, a second feeding platform, a feeding assembly and a discharging assembly which are arranged on the rack, wherein the feeding assembly is used for conveying a product to be coded to the first feeding platform and the second feeding platform, the first feeding platform and the second feeding platform are both used for driving the product to reciprocate and conveying the product to the laser coding assembly, and the discharging device is used for conveying the coded product away from the first feeding platform and the second feeding platform; the first feeding platform and the second feeding platform move in opposite directions.

The feeding module and the discharging module are arranged along the long stroke, so that the products to be processed are conveyed to the first feeding platform and the second feeding platform by the feeding module, and the processed products are conveyed away from the first feeding platform and the second feeding platform by the discharging module.

The long-stroke material taking and discharging module comprises a linear slide rail, the feeding assembly and the discharging assembly move on the linear slide rail, and the feeding assembly, the first feeding sheet platform, the second feeding platform and the discharging assembly are sequentially arranged along the direction of the linear slide rail.

The first feeding platform and the second feeding platform are identical in structure.

The mobile platform assembly is used for driving the laser coding assembly to reciprocate between the processing position of the first feeding platform and the processing position of the second feeding platform.

The laser coding assembly comprises a first vision camera, a code reader, a marking head and a light source, the vision camera is used for carrying out vision positioning on a product, the code reader is used for identifying a specific code of the product, the marking head comprises a semiconductor laser marking head, a CO2 laser marking head and an optical fiber laser marking head, and the light source is used for emitting laser.

The laser coding assembly further comprises a dust extraction pipe and a dust extraction ring which are communicated with each other, the dust extraction pipe is connected with a vacuum pump, the dust extraction ring is sleeved on the periphery of a product machining position, and a plurality of suction holes are formed in the inner annular surface of the dust extraction ring.

The material loading assembly comprises a grabbing assembly and a lifting object stage, the grabbing assembly grabs the product on the uppermost layer of the lifting object stage, and then the lifting object stage rises, and then the second layer of products and the original position of the product on the uppermost layer are located on the same horizontal plane.

The utility model has the advantages that: compared with the prior art, the utility model discloses a full-automatic double-platform laser coding machine, including the frame, still include laser coding subassembly, moving platform subassembly, first feeding platform, second feeding platform, material loading subassembly and unloading subassembly that set up in the frame, the material loading subassembly is used for carrying waiting to code the product and beats on first feeding platform and second feeding platform, first feeding platform and second feeding platform all are used for driving the product reciprocating motion, and transport laser coding subassembly department, the unloader is used for transporting away from and has beaten the code product on first feeding platform and second feeding platform; the movement directions of the first feeding platform and the second feeding platform are opposite, products to be processed are conveyed to the first feeding platform and the second feeding platform through the feeding assembly, and the products of the first feeding platform and the second feeding platform are processed in turn, so that the laser code printing assembly is in a non-stop code printing state, and the production efficiency is effectively improved.

Drawings

Fig. 1 is a perspective view of the overall structure of the present invention;

fig. 2 is an enlarged schematic view of part a of the present invention;

FIG. 3 is a view of the vacuum suction cup of the present invention;

fig. 4 is an enlarged schematic view of part B of the present invention;

fig. 5 is a schematic view of the laser coding assembly of the present invention.

Description of the main elements

1. Feeding assembly 2 and moving platform assembly

3. Long-stroke material taking and placing module 4 and material placing assembly

5. First feeding platform 6 and second feeding platform

7. Laser coding assembly 8 and product

11. Matrix iron plate 12, vacuum chuck device

51. First stage 52, organ cover

71. First vision camera 72, marking head

73. Code reader 74 and dust extraction ring

121. Chrome plated iron plate 122, screw lock

123. Vacuum suction cups.

Detailed Description

In order to more clearly illustrate the technical solutions in the present technology, the drawings used in the description of the embodiments or the prior art will be described below.

Referring to fig. 1 to 5, the embodiment provides a full-automatic dual-platform laser coding machine, which includes a frame, and further includes a laser coding assembly 7, a moving platform assembly 2, a first feeding platform 5, a second feeding platform 6, a feeding assembly 1 and a discharging assembly 4, which are arranged on the frame, wherein the feeding assembly 1 is used for conveying a product 8 to be coded onto the first feeding platform 5 and the second feeding platform 6, the first feeding platform 5 and the second feeding platform 6 are both used for driving the product 8 to reciprocate and conveying the product to the laser coding assembly 7, and the discharging device is used for conveying the coded product 8 from the first feeding platform 5 and the second feeding platform 6; the movement directions of the first feeding platform 5 and the second feeding platform 6 are opposite; the movement directions of the first feeding platform 5 and the second feeding platform 6 are opposite, the products 8 to be processed are conveyed to the first feeding platform 5 and the second feeding platform 6 through the feeding assembly 1, and the products 8 of the first feeding platform 5 and the second feeding platform 6 are processed in turn, so that the laser coding assembly 7 is in a non-stop coding state, and the production efficiency is effectively improved; after the circuit board is taken and placed to the first feeding platform 5 by the feeding assembly 1, the first feeding platform 5 moves to the code printing position of the laser code printing assembly 7, at the moment, a circuit board is taken by the feeding assembly 1 and placed to the second feeding platform 6, after the code printing processing is completed by the first feeding platform 5, the existing circuit board is directly moved to the laser code printing assembly 7 by the second feeding platform 6, the laser code printing assembly 7 is driven by the moving platform assembly 2 to rapidly and reciprocally process products 8 on the first feeding platform 5 and the second feeding platform 6, so that the laser code printing assembly 7 is in a state of being ceaselessly stopped, the circuit board is printed without interruption, and the production efficiency is greatly improved.

Referring to fig. 1, the embodiment further includes a long-stroke material taking and placing module 3, one end of the long-stroke material taking and placing module 3 is located on the material feeding assembly 1, and the other end of the long-stroke material taking and placing module 3 is located on the material discharging assembly 4, the material feeding assembly 1 and the material discharging assembly 4 reciprocate along the long-stroke material taking and placing module 3, so that the material feeding module conveys a product 8 to be processed to the first material conveying platform 5 and the second material conveying platform 6, the processed product 8 is conveyed away from the first material conveying platform 5 and the second material conveying platform 6 by the material feeding assembly 4, the processing speed is adapted by setting the speed of the long-stroke material taking and placing module 3, and compared with a traditional belt material taking and placing module, the precision is higher, the speed is higher; the blowing module 3 is got to long stroke of this embodiment includes the linear type slide rail, material loading subassembly 1 and unloading subassembly 4 move on the linear type slide rail, and material loading subassembly 1, first pay-off piece platform, second pay-off platform 6 and unloading subassembly 4 set gradually along the linear type slide rail direction, in the actual production process, material loading subassembly 1 and the mutually supporting of unloading subassembly 4, the back is accomplished in the processing of first pay-off platform 5 or second pay-off platform 6's product 8, when unloading subassembly 4 taks away product 8, material loading subassembly 1 just can be got blowing module 3 along long stroke and transports a circuit board down, guarantee that the speed of material loading and unloading is the same, and can not cause the condition that laser coding subassembly 7 stopped the machine and waits.

Referring to fig. 1, the first feeding platform 5 of the present embodiment includes a first object stage 51 and a first feeding belt for driving the first object stage 51 to reciprocate, the first feeding belt drives the first object stage 51 to move until the first object stage moves to the laser coding assembly 7 for processing, after the processing is completed, the first feeding belt drives the first object stage 51 to return to the original position, and the first feeding belt is perpendicular to the long-stroke feeding module; in this embodiment, the first stage 51 is provided with a plurality of adsorption holes, and the air extractor is arranged below the first stage 51 and adsorbs the products 8 through the adsorption holes; the first feeding platform 5 and the second feeding platform 6 of the embodiment have the same structure, the second feeding platform 6 comprises a second objective table and a second feeding belt for driving the second objective table to reciprocate, the second feeding belt drives the second objective table to move until the second objective table moves to the laser coding assembly 7 for processing, and after the processing is finished, the second feeding belt drives the second objective table to return to the original position; the moving platform assembly 2 of this embodiment is used to drive the laser coding assembly 7 to reciprocate between the processing position of the first feeding platform 5 and the processing position of the second feeding platform 6.

Referring to fig. 5, the laser coding assembly 7 of the present embodiment includes a first vision camera 71, a code reader 73, a coding head 72 and a light source, wherein the vision camera is used for performing vision positioning on the product 8, the code reader 73 is used for identifying a specific code of the product 8, the coding head 72 includes a semiconductor laser coding head 72, a CO2 laser coding head 72 and a fiber laser coding head 72, and the light source is used for emitting laser; the laser coding assembly 7 of this embodiment further includes a dust extraction pipe and a dust extraction ring 74 which are communicated with each other, the dust extraction pipe is connected with a vacuum pump, the dust extraction ring 74 is sleeved around the processing position of the product 8, and the inner annular surface of the dust extraction ring 74 is provided with a plurality of suction holes; the material loading subassembly 1 of this embodiment snatchs the subassembly and snatchs the product 8 of lift objective table the superiors including snatching subassembly and lift objective table, and then the lift objective table rises, and then the original position of second floor product 8 and the superiors' product 8 is located same horizontal plane.

The utility model has the advantages that:

(1) products to be processed are conveyed to the first feeding platform and the second feeding platform through the feeding assembly, and the products on the first feeding platform and the second feeding platform are processed in turn, so that the laser code printing assembly is in a non-stop code printing state, and the production efficiency is effectively improved;

(2) when the unloading subassembly was taken the product away, the blowing module was transported a circuit board down and come just can be got along long stroke to the material loading subassembly, guarantees that the speed of material loading and unloading is the same, and can not cause the laser to beat the circumstances that the sign indicating number subassembly shut down and wait.

The above disclosure is only one or several specific embodiments of the present invention, but the present invention is not limited thereto, and any changes that can be made by those skilled in the art should fall within the protection scope of the present invention.

Claims (8)

1. A full-automatic double-platform laser coding machine comprises a rack and is characterized by further comprising a laser coding assembly, a moving platform assembly, a first feeding platform, a second feeding platform, a feeding assembly and a discharging assembly, wherein the laser coding assembly, the moving platform assembly, the first feeding platform, the second feeding platform, the feeding assembly and the discharging assembly are arranged on the rack, the feeding assembly is used for conveying products to be coded to the first feeding platform and the second feeding platform, the first feeding platform and the second feeding platform are both used for driving the products to reciprocate and conveying the products to the laser coding assembly, and the discharging assembly is used for conveying the coded products away from the first feeding platform and the second feeding platform; the first feeding platform and the second feeding platform are opposite in moving direction.

2. The full-automatic double-platform laser coding machine according to claim 1, further comprising a long-stroke material taking and placing module, wherein one end of the long-stroke material taking and placing module is located on the feeding assembly, the other end of the long-stroke material taking and placing module is located on the discharging assembly, the feeding assembly and the discharging assembly reciprocate along the long-stroke material taking and placing module, the feeding assembly conveys a product to be processed to a first feeding platform and a second feeding platform, and the discharging assembly conveys the processed product away from the first feeding platform and the second feeding platform.

3. The full-automatic double-platform laser coding machine according to claim 2, wherein the long-stroke material taking and discharging module comprises a linear slide rail, the material loading assembly and the material discharging assembly move on the linear slide rail, and the material loading assembly, the first material feeding sheet platform, the second material feeding platform and the material discharging assembly are sequentially arranged along the direction of the linear slide rail.

4. The fully automatic dual platform laser coding machine according to claim 1, wherein the first feeding platform and the second feeding platform are identical in structure.

5. The full-automatic double-platform laser coding machine according to claim 1, wherein the moving platform assembly is used for driving the laser coding assembly to reciprocate between the processing position of the first feeding platform and the processing position of the second feeding platform.

6. The fully automatic dual-platform laser coding machine according to claim 1, wherein the laser coding assembly comprises a first vision camera for visually positioning the product, a code reader for identifying a specific code of the product, the code reader comprises a semiconductor laser coding head, a CO2 laser coding head, and a fiber laser coding head, and a light source for emitting laser.

7. The full-automatic dual-platform laser coding machine according to claim 6, wherein the laser coding assembly further comprises a dust extraction pipe and a dust extraction ring which are communicated with each other, the dust extraction pipe is connected with a vacuum pump, the dust extraction ring is sleeved around a product processing position, and a plurality of suction holes are formed in an inner annular surface of the dust extraction ring.

8. The automatic dual-platform laser coding machine according to claim 1, wherein the feeding assembly comprises a grabbing assembly and a lifting stage, the grabbing assembly grabs the uppermost product of the lifting stage, and the lifting stage ascends, so that the second layer of products and the original position of the uppermost product are located on the same horizontal plane.

Images