CN117548844A - Automatic radium carving device - Google Patents

Abstract

The invention discloses an automatic laser engraving device, which comprises: the laser engraving machine comprises a laser engraving lathe and at least one laser engraving component arranged on the laser engraving lathe; the laser carving assembly comprises a lifting mechanism and a laser fixedly connected with the lifting mechanism, the lifting mechanism arranged on the laser carving assembly is vertically arranged on one side of the laser carving lathe, the lifting mechanism is provided with a horizontal supporting plate, the horizontal supporting plate is in sliding connection with a sliding block arranged on the lifting mechanism, the horizontal supporting plate is of a cuboid structure, and one end, far away from the lifting mechanism, of the vertical section of the cuboid structure is fixedly connected with the laser; the laser instrument includes the apron and assembles in the inboard laser radium carving lamp body of apron, and one side that is close to elevating system on the radium carving lathe is provided with the pay-off conveyer belt, and the laser radium carving lamp body is carved one by one to placing each product on the pay-off conveyer belt, and this kind of setting mode need not through the etching step of artifical interference device, and device accessible radium carving subassembly carries out automatic radium carving, has improved the holistic machining efficiency of radium carving device.

Description

Automatic radium carving device

Technical Field

The invention relates to the technical field of industrial manufacturing, in particular to an automatic laser engraving device.

Background

With the acceleration of manufacturing industry, laser engraving devices are widely used in factory product etching processing or product model printing, for example: on the model of other electronic products such as charger or cell-phone, the producer is paid attention to the etching efficiency of radium carving device in carrying out the product etching in-process gradually, because current radium carving device can't implement in step in carrying out other relevant other processes of product etching in-process, can't accomplish the automation with each piece of product that radium carving has been transported to specific conveyer belt one by one in radium carving in-process, owing to still need carry out the packing through a plurality of processes and dispatch from the factory at radium carving in-process, the process includes: dust absorption, photographic, multistep processes such as quality inspection, in the operation in the past, need the manual work to take each product of waiting to radium carving to place one by one and fix the back at radium carving device's lower part, carry out radium carving operation again, carry out dust absorption by the manual work again on another workstation, finally place the product to another quality inspection bench by the manual work and carry out the quality inspection, the step is comparatively loaded down with trivial details, can't carry out unified step operation at independent workstation, increase radium carving holistic operating time, the automatic radium carving device that current market exists and can't carry out automatic radium carving's problem in the use.

Disclosure of Invention

The invention discloses an automatic laser engraving device, which aims to solve the problem that the automatic laser engraving device cannot be used for efficiently carrying out automatic laser engraving in the using process.

The invention provides an automatic laser engraving device, wherein the laser engraving device comprises: and the laser engraving lathe and the at least one laser engraving component are arranged on the laser engraving lathe.

The laser etching component comprises a lifting mechanism and a laser fixedly connected with the lifting mechanism, the lifting mechanism arranged on the laser etching component is vertically arranged on one side of the laser etching lathe, a horizontal supporting plate is arranged at one end of the lifting mechanism away from the laser etching lathe, the horizontal supporting plate is in sliding connection with a sliding block arranged on the lifting mechanism, the horizontal supporting plate is of a cuboid structure, and the vertical section of the cuboid structure is far away from one end fixedly connected with the lifting mechanism.

The laser comprises a cover plate and a laser carving lamp body assembled on the inner side of the cover plate, wherein one face of the cover plate is provided with an open cuboid structure, one side of light rays emitted by the laser carving lamp body always faces one side of the laser carving lathe, one side, close to the lifting mechanism, of the laser carving lathe is provided with a feeding conveying belt, the feeding conveying belt comprises a driving wheel and a conveying belt connected with the driving wheel in a driving mode, and each product placed on the conveying belt is engraved one by the laser carving lamp body.

And a material conveying mechanism is respectively arranged at the upstream and the downstream of the feeding conveyer belt.

An automatic radium carving device, wherein, material conveying mechanism include first mount, slip module and with slip module carries out sliding connection's clamping jaw mechanism, clamping jaw mechanism includes: clamping jaw, fixed block and cylinder, the pillar that first mount set up with radium carving lathe's horizontal plane fixed connection, the slip module include first slide rail and with first slide rail sliding connection's slider, the slider with the fixed plate fixed connection that clamping jaw mechanism set up, a cylinder is connected to the fixed plate, the cylinder drive the clamping jaw is right the product snatchs one by one.

An automatic radium carving device, wherein, one side that first mount kept away from radium carving lathe is provided with the hinge, the one end of hinge with first mount is kept away from the one end fixed connection of slip module, a horizontal transfer cylinder is connected to the other end of hinge, horizontal transfer cylinder drive the slider that slip module set up is followed the setting direction of first slide rail is directed and is removed.

An automatic laser engraving device, wherein, the side that is close to on the laser engraving lathe one end on the feeding conveyer belt is provided with the material loading conveyer belt, the side that is close to on the laser engraving lathe one end of feeding conveyer belt low reaches is provided with the unloading conveyer belt.

An automatic radium carving device, wherein, one side of radium carving lathe still is equipped with a detection subassembly, detection subassembly is located radium carving subassembly and between the unloading conveyer belt, detection subassembly includes: the second mount, motor, second slide rail and detection module, detection module includes: the whole of third mount and with third mount fixed connection camera lens module, the whole of third mount is L shape structure, the longer one end of L shape structure be equipped with camera lens module parallel arrangement sweep the sign indicating number rifle.

An automatic radium carving device, wherein, the third mount orientation one side of second mount is provided with the slider, the slider with sliding connection is carried out to the second slide rail, one side of slider with the casing of detection module carries out fixed connection, just motor drive the slider and the detection module of slider one side is followed the setting direction of second slide rail is removed.

An automatic laser carving device, wherein, one side of third mount still is provided with an annular lamp, just annular lamp is located the camera lens module with sweep between the sign indicating number rifle.

An automatic radium carving device, wherein, radium carving lathe is kept away from one side of pay-off conveyer belt is provided with three at least dust absorption subassembly, dust absorption subassembly's air outlet is all the time towards the outside of radium carving lathe.

An automatic radium carving device, wherein, still be provided with the defective products conveyer belt on the radium carving lathe, the defective products conveyer belt is located unloading conveyer belt is with one side.

An automatic radium carving device, wherein, two radium carving subassembly is located the same side of pay-off conveyer belt, and adjacent two there is certain clearance between the radium carving subassembly.

Compared with the prior art, the invention has the following advantages:

the invention discloses an automatic laser engraving device, which comprises: the laser engraving machine comprises a laser engraving lathe and at least one laser engraving component arranged on the laser engraving lathe; the laser carving assembly comprises a lifting mechanism and a laser fixedly connected with the lifting mechanism, the lifting mechanism arranged on the laser carving assembly is vertically arranged on one side of the laser carving lathe, the lifting mechanism is provided with a horizontal supporting plate, the horizontal supporting plate is in sliding connection with a sliding block arranged on the lifting mechanism, the horizontal supporting plate is of a cuboid structure, and one end, far away from the lifting mechanism, of the vertical section of the cuboid structure is fixedly connected with the laser; the laser instrument includes the apron and assembles in the inboard laser radium carving lamp body of apron, and one side that is close to elevating system on the radium carving lathe is provided with the pay-off conveyer belt, and the laser radium carving lamp body is carved one by one to placing each product on the pay-off conveyer belt, and this kind of setting mode need not through the etching step of artifical interference device, and device accessible radium carving subassembly carries out automatic radium carving, has improved the holistic machining efficiency of radium carving device.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a diagram showing an overall structure of an automatic laser engraving device according to an embodiment of the present invention;

FIG. 2 is a top view of an automatic laser engraving device according to an embodiment of the present invention;

FIG. 3 is a diagram showing an overall structure of a laser engraving assembly of an automatic laser engraving device according to an embodiment of the present invention;

FIG. 4 is a block diagram of a material conveying mechanism of an automatic laser engraving apparatus according to an embodiment of the present invention;

FIG. 5 is a block diagram of a detection assembly of an automatic laser engraving apparatus according to an embodiment of the present invention.

The laser carving machine comprises a laser carving lathe 1, a laser carving assembly 2, a material conveying mechanism 3, a feeding conveying belt 4, a discharging conveying belt 5, a detecting assembly 6, a dust collection assembly 7, a feeding conveying belt 8, a lifting mechanism 9, a laser 10, a horizontal supporting plate 11, a cover plate 12, a laser carving lamp body 13, a first fixing frame 14, a sliding module 15, a clamping jaw mechanism 16, a clamping jaw 17, a fixing block 18, an air cylinder 19, a defective product conveying belt 20, a second fixing frame 21, a motor 22, a first sliding rail 23, a second sliding rail 24, a detecting module 25, a third fixing frame 26, an annular lamp 27, a code scanning gun 28, a dust collection assembly 29, a hinge 30 and a lens module 31.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be understood that the terms "comprises" and "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used 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 in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

Referring to fig. 1, 2 and 3, as shown in the drawings, the present invention provides an automatic laser engraving device, wherein the laser engraving device (not shown) includes: the laser engraving machine comprises a laser engraving machine body 1 and at least one laser engraving component 2 arranged on the laser engraving machine body 1.

The laser engraving assembly 2 comprises a lifting mechanism 9 and a laser 10 fixedly connected with the lifting mechanism 9, the lifting mechanism 9 arranged on the laser engraving assembly 2 is vertically arranged on one side of the laser engraving lathe 1, the lifting mechanism 9 is far away from one end of the laser engraving lathe 1, a horizontal supporting plate 11 is arranged at one end of the lifting mechanism 9, the horizontal supporting plate 11 is in sliding connection with a sliding block arranged on the lifting mechanism 9, the horizontal supporting plate 11 is of a cuboid structure, and the vertical section of the cuboid structure is far away from one end fixedly connected with the lifting mechanism 9, and the laser 10 is fixedly connected with one end of the lifting mechanism 9.

The laser 10 includes apron 12 and assemble in the inboard laser radium carving lamp body 13 of apron 12, the apron 12 is provided with open-ended cuboid structure for the one side, the one side of the light emission of laser radium carving lamp body 13 is oriented all the time radium carving lathe 1's one side, radium carving lathe 1 is last to be close to one side of elevating system 9 is provided with pay-off conveyer belt 8, pay-off conveyer belt 8 include the drive wheel and with the conveyer belt that the drive wheel transmission is connected, laser radium carving lamp body 13 carry out the sculpture one by one to each product of placing on the conveyer belt.

A material conveying mechanism 3 is respectively arranged at the upstream and downstream of the feeding conveyor belt 8.

Specifically, in this scheme embodiment, radium carving subassembly 2 include elevating system 9 and with elevating system 9 fixed connection's laser instrument 10, just elevating system 9 that radium carving subassembly 2 set up perpendicularly in one side of radium carving lathe 1, just elevating system 9 keeps away from the one end of radium carving lathe 1 is provided with horizontal layer board 11, horizontal layer board 11 with sliding connection is carried out to the slider that elevating system 9 set up, horizontal layer board 11 is the cuboid structure, just the vertical section of cuboid structure is kept away from elevating system 9's one end fixed connection laser instrument 10, but the top of elevating system 9 is provided with a manual regulator in one embodiment can manually regulate the manual regulator carry out the altitude mixture control with the horizontal tray of elevating system 9 one side to further adjust the overall altitude mixture control of laser instrument 10 on one side of horizontal layer board 11, this kind of setting mode, manual regulation elevating system 9 regulator 10's altitude mixture control carries out sculpture to the product of placing on feeding conveyer belt 8, carries out directional conveying in feeding conveyer belt and carries out directional conveying and takes the product, and takes the product through manual work and carries out the improvement processing efficiency one by one, and further processing time 2 need to cut into.

Specifically, in this embodiment of the present disclosure, the laser 10 includes a cover plate 12 and a laser carving lamp body 13 assembled inside the cover plate 12, where the cover plate 12 is a cuboid structure with an opening on one surface, one side of the laser carving lamp body 13 emitting light always faces one side of the laser carving lathe 1, one side of the laser carving lathe 1 near the lifting mechanism 9 is provided with a feeding conveyer belt 8, the feeding conveyer belt 8 includes a driving wheel and a conveyer belt connected with the driving wheel in a driving manner, and the laser carving lamp body 13 engraves each product placed on the conveyer belt one by one; the upper reaches and the low reaches of pay-off conveyer belt 8 are provided with a material conveying mechanism 3 respectively, and the irradiation direction of laser radium carving lamp body 13 is towards the product on the pay-off conveyer belt 8 all the time, and the product on the conveyer belt is transported one by the drive wheel drive conveyer belt, carries the below that corresponds radium carving mechanism with the product through the material conveying mechanism 3 of material loading conveyer belt 4 top, need not to take the product through the manual work, further improves radium carving subassembly 2 holistic machining efficiency, reduces the required time of processing.

Further, in this embodiment of the scheme, the product is first through the material conveying mechanism 3 that the material conveying mechanism 3 set up on one side of radium carving lathe 1 side set up will wait for the product of radium carving to be close to material conveying belt one side in proper order, set up clamping jaw 17 mechanism 16 by material conveying mechanism 3 and will place the product of placing on material conveying belt 4 in proper order on the material conveying belt, product route radium carving mechanism, dust absorption subassembly 7, detection subassembly 6 carry out processing in proper order after pick up the product after radium carving by the material conveying mechanism 3 that sets up near material conveying belt low reaches again, place the product after radium carving on corresponding unloading conveyer belt 5 in proper order, if find that there is the defective product, place defective product on corresponding defective products conveyer belt 20 by manual operation again and handle, this kind of setting up mode need not to carry out manual detection through a plurality of operators, dust removal and manual relevant processes such as place.

Referring to fig. 1 and 4, as shown in the drawings, the material conveying mechanism 3 includes a first fixing frame 14, a sliding module 15, and a clamping jaw 17 mechanism 16 slidably connected with the sliding module 15, and the clamping jaw 17 mechanism 16 includes: clamping jaw 17, fixed block 18 and cylinder 19, the pillar that first mount 14 set up with radium carving lathe 1's horizontal plane fixed connection, slip module 15 include first slide rail 23 and with first slide rail 23 sliding connection's slider, the slider with the fixed plate fixed connection that clamping jaw 17 mechanism 16 set up, a cylinder 19 is connected to the fixed plate, the cylinder 19 drive clamping jaw 17 is right the product snatchs one by one.

Specifically, in this embodiment, the material conveying mechanism 3 includes a first fixing frame 14, a sliding module 15, and a clamping jaw 17 mechanism 16 slidably connected with the sliding module 15, where the clamping jaw 17 mechanism 16 includes: clamping jaw 17, fixed block 18 and cylinder 19, the pillar that first mount 14 set up with the horizontal plane fixed connection of radium carving lathe 1, slip module 15 include first slide rail 23 and with first slide rail 23 sliding connection's slider, the slider with fixed plate fixed connection that clamping jaw 17 mechanism 16 set up, a cylinder 19 is connected to the fixed plate, the cylinder 19 drive clamping jaw 17 is right the product snatchs one by one, radium carving lathe 1 is provided with two material conveying mechanism 3, and one sets up in the upper reaches of pay-off conveyer belt 8, is close to one side of material loading conveyer belt 4, and another then sets up in the low reaches of conveyer belt, is close to one side of unloading conveyer belt 5, and the product that material conveying mechanism 3 was used for is transported to corresponding position, this kind of setting mode need not to carry out manual placement through the manual work, reduces the required duration of radium carving, improves the overall efficiency of product production.

Referring to fig. 1 and 4, as shown in the drawing, a hinge 30 is disposed on a side of the first fixing frame 14 away from the laser engraving lathe 1, one end of the hinge 30 is fixedly connected with one end of the first fixing frame 14 away from the sliding module 15, the other end of the hinge 30 is connected with a horizontal transfer cylinder 19, and the horizontal transfer cylinder 19 drives a slider disposed on the sliding module 15 to move directionally along the setting direction of the first sliding rail 23.

Specifically, in this scheme embodiment, one side that radium carving lathe 1 was kept away from to first mount 14 is provided with hinge 30, hinge 30's one end with first mount 14 is kept away from the one end fixed connection of slip module 15, a horizontal transfer cylinder 19 is connected to hinge 30's the other end, horizontal transfer cylinder 19 drive the slider that slip module 15 set up is followed the setting direction of first slide rail 23 carries out directional movement, and the slider drives the synchronous movement of drive clamping jaw 17 mechanism 16 to corresponding position, transports the product in proper order, and this kind of setting mode reduces the time that the manual work was transported, guarantees the stability and the reliability that the material transport mechanism transported.

Referring to fig. 1 and 2, as shown in the drawing, a feeding conveyor belt 4 is disposed on a side surface of the laser engraving lathe 1, which is close to an upstream end of the feeding conveyor belt 8, and a discharging conveyor belt 5 is disposed on a side surface of the laser engraving lathe 1, which is close to a downstream end of the feeding conveyor belt 8.

Specifically, in this scheme embodiment, the side that is close to the one end of pay-off conveyer belt 8 upper reaches on radium carving lathe 1 is provided with material loading conveyer belt 4, the side that is close to the one end of pay-off conveyer belt 8 lower reaches on radium carving lathe 1 is provided with unloading conveyer belt 5, material loading conveyer belt 4 is used for treating the product of radium carving and carries out the position that corresponds to the pay-off conveyer belt, this kind of setting mode, the radium carving subassembly 2 that makes things convenient for pay-off conveyer belt top to set up carries out quick radium carving, and two radium carving subassemblies 2 carry out radium carving one by one to the product of placing on the pay-off conveyer belt in step, reduce the whole duration of product radium carving, in one embodiment, the product in this scheme is a cell-phone charger, radium carving is used for carrying out the two-dimensional code to the cell-phone charger and etches, reduce the required duration that automatic radium carving device etched product (cell-phone charger).

Referring to fig. 1, 2 and 5, as shown in the drawings, a detection assembly 6 is further mounted on one side of the laser engraving lathe 1, the detection assembly 6 is located between the laser engraving assembly 2 and the discharging conveyor, and the detection assembly 6 includes: second mount 21, motor 22, second slide rail 24 and detection module 25, detection module 25 includes: the third fixing frame 26 and with third fixing frame 26 fixed connection camera lens module 31, the whole of third fixing frame 26 is L shape structure, the longer one end of L shape structure be equipped with camera lens module 31 parallel arrangement sweep a yard rifle 28.

Specifically, in this scheme embodiment, still be equipped with a detection subassembly 6 in one side of radium carving lathe 1, detection subassembly 6 is located radium carving subassembly 2 with between the unloading conveyer belt, detection subassembly 6 includes: second mount 21, motor 22, second slide rail 24 and detection module 25, detection module 25 includes: the third mount 26 and with third mount 26 fixed connection camera lens module 31, the whole of third mount 26 is L shape structure, the longer one end of L shape structure be equipped with camera lens module 31 parallel arrangement sweep a yard rifle 28, motor 22 is used for driving detection module 25 and places towards specific position to make sweep a yard rifle 28, camera lens module 31 and set up the annular lamp 27 on third mount 26 all lie in same vertical straight line, conveniently sweep a yard rifle 28 and scan one by one the product of placing on feeding conveyer belt 8, and the detection module 25 of one side that third mount 26 kept away from radium carving lathe 1 synchronous take a picture one by one the product on feeding conveyer belt 8, need not the manual check-up of taking a picture one by one the product of placing on feeding conveyer belt 8, improved the whole efficiency that the product carries out the machine check-up.

Referring to fig. 5, as shown in the drawing, a slider (not shown) is disposed on a side of the third fixing frame 26 facing the second fixing frame 21, the slider is slidably connected with the second sliding rail 24, one side of the slider is fixedly connected with the housing of the detecting module 25, and the motor drives the slider and the detecting module 25 disposed on one side of the slider to move along the direction of the second sliding rail 24.

Specifically, in this embodiment, the third fixing frame 26 is provided with a slider (not shown) towards one side of the second fixing frame 21, the slider is in sliding connection with the second sliding rail 24, one side of the slider is fixedly connected with the housing of the detection module 25, and the motor drives the slider and the detection module 25 on one side of the slider are driven to move along the direction of the second sliding rail 24, so that the detection module 25 is always moving towards the product to be detected, and the product to be detected is detected one by one (such as photographing, scanning and observing procedures) by only adjusting the placement distance of the detection module 25, without manually taking the product one by one, thereby improving the efficiency of product detection and reducing the detection duration of the device.

Referring to fig. 5, as shown in the drawing, an annular lamp 27 is further disposed at one side of the third fixing frame 26, and the annular lamp 27 is located between the lens module 31 and the code scanner 28.

Specifically, in this embodiment of the present invention, one side of the third fixing frame 26 is further provided with an annular lamp 27, and the annular lamp 27 is located between the lens module 31 and the code scanning gun 28, and the annular lamp 27 is used for illuminating products, and is used in cooperation with the camera and the code scanning gun 28 arranged on the detection module 25, so that the error rate of scanning by the code scanning gun 28 is reduced.

Referring to fig. 5, as shown in the drawing, at least three dust collection assemblies 7 are disposed on a side of the laser engraving lathe 1 away from the feeding conveyor belt 8, and an air outlet of each dust collection assembly 7 always faces the outer side of the laser engraving lathe 1.

Specifically, in this scheme embodiment, radium carving lathe 1 keeps away from one side of pay-off conveyer belt 8 is provided with three at least dust absorption subassembly 7, dust absorption subassembly 7 air outlet all the time towards radium carving lathe 1's the outside, dust absorption subassembly 7 horizontal shelf are located radium carving subassembly 2 with between the pay-off conveyer belt 8, in one embodiment, dust absorption subassembly 7 is kept away from one side of the crane of radium carving subassembly 2 is the air outlet, dust absorption subassembly 7 orientation one side of laser radium carving lamp body 13 is provided with the perforation, the perforation is used for carrying out perpendicular radium carving to the product, the perforation that laser radium carving lamp body 13 emission laser radium carving beam runs through and sets up on the shell of dust absorption subassembly 7 carries out directional irradiation, the fan that the air outlet set up simultaneously is to the product radium carving after the dust is inhaled and is discharged to the outside of lathe 1, this kind of setting up the mode reduces the device and is carrying out the pollution nature that the dust was discharged in-process radium carving subassembly 2, improves the holistic radium carving performance of radium carving subassembly 2, improves the holistic machining efficiency of device.

Referring to fig. 1 and 2, as shown in the drawing, the laser engraving lathe 1 is further provided with a defective product conveyor 20, and the defective product conveyor 20 is located at the same side of the blanking conveyor 5.

Specifically, in this scheme embodiment, be provided with defective products conveyer belt 20 on radium carving lathe 1, and defective products conveyer belt 20 is located the same side of unloading conveyer belt 5, defective products conveyer belt 20 is used for the manual work to transport the defective products of placing on unloading conveyer belt 5, this kind of setting up mode, through installing extra defective products conveyer belt 20 additional in one side of unloading conveyer belt 5, through the material conveying mechanism 3 that is close to one side of unloading conveyer belt 5 to the defective products of radium carving place in defective products conveyer belt 20, need not the screening of manual interference defective products and the relevant step of placing, the machining efficiency of whole radium carving of device has been improved, reduce radium carving required time.

Referring to fig. 1 and 2, as shown in the drawing, two laser engraving assemblies 2 are located on the same side of the feeding conveyor 8, and a certain gap exists between two adjacent laser engraving assemblies 2.

Specifically, in this scheme embodiment, two radium carving subassembly 2 in the same side of pay-off conveyer belt 8, and adjacent two there is certain clearance between radium carving subassembly 2, there is certain interval between two radium carving subassembly 2, and the interval distance just is the interval of placing between two products, in one embodiment, radium carving subassembly 2 can produce a large amount of heat in the in-process that carries out radium carving, two radium carving subassembly 2 exist behind certain interval, multiplicable heat dissipation, the calorific capacity of radium carving subassembly 2 is reduced, the overall efficiency of improvement radium carving, two radium carving subassembly 2 are carrying out the in-process mutual noninterference of radium carving simultaneously, and two radium carving subassembly 2 set up the laser 10 and all can etch the product on pay-off conveyer belt 8 in step one by one, reduce the etching duration of radium carving subassembly 2.

The invention provides an automatic laser engraving device, which is characterized in that the components are matched with each other to work, and the components comprise: the laser carving device comprises a laser carving assembly, a material conveying mechanism, a feeding conveying belt, a discharging conveying belt, a detecting assembly, a dust collection assembly, a feeding conveying belt, a defective product placing conveying belt and the like, wherein the feeding conveying belt sequentially conveys products to be laser carved to the upstream side of the feeding conveying belt, a clamping jaw mechanism arranged on the material conveying mechanism clamps the products onto the feeding conveying belt, two laser carving assemblies arranged on the same side of the feeding conveying belt respectively conduct laser carving operation on the products placed on the feeding conveying belt one by one, a detecting module erected between the laser carving assembly and the discharging conveying belt at the moment synchronously scans and detects the products which are laser carved on the feeding conveying belt one by one through a lens module and a code scanning gun, the lens module simultaneously photographs and inspects each product one by one and uploads the products to a computer, image correction is conducted, if defective products are detected, the defective products are clamped onto the defective product conveying belt through another material conveying mechanism, and the products are placed on the corresponding discharging conveying belt if the defective products are detected, and the next step operation is conducted.

The invention discloses an automatic laser engraving device, which comprises: the laser engraving machine comprises a laser engraving lathe and at least one laser engraving component arranged on the laser engraving lathe; the laser carving assembly comprises a lifting mechanism and a laser fixedly connected with the lifting mechanism, the lifting mechanism arranged on the laser carving assembly is vertically arranged on one side of the laser carving lathe, the lifting mechanism is provided with a horizontal supporting plate, the horizontal supporting plate is in sliding connection with a sliding block arranged on the lifting mechanism, the horizontal supporting plate is of a cuboid structure, and one end, far away from the lifting mechanism, of the vertical section of the cuboid structure is fixedly connected with the laser; the laser instrument includes the apron and assembles in the inboard laser radium carving lamp body of apron, and one side that is close to elevating system on the radium carving lathe is provided with the pay-off conveyer belt, and the laser radium carving lamp body is carved one by one to placing each product on the pay-off conveyer belt, and this kind of setting mode need not through the etching step of artifical interference device, and device accessible radium carving subassembly carries out automatic radium carving, has improved the holistic machining efficiency of radium carving device.

While the invention has been described with reference to certain preferred embodiments, it will be understood by those skilled in the art that various changes and substitutions of equivalents may be made and equivalents will be apparent to those skilled in the art without departing from the scope of the invention. Therefore, the protection scope of the invention is subject to the protection scope of the claims.

Claims (10)

1. Automatic radium carving device, its characterized in that, radium carving device includes: the laser engraving machine comprises a laser engraving lathe and at least one laser engraving component arranged on the laser engraving lathe;

the laser engraving component comprises a lifting mechanism and a laser fixedly connected with the lifting mechanism, the lifting mechanism arranged on the laser engraving component is vertically arranged on one side of the laser engraving lathe, a horizontal supporting plate is arranged at one end, far away from the laser engraving lathe, of the lifting mechanism, the horizontal supporting plate is in sliding connection with a sliding block arranged on the lifting mechanism, the horizontal supporting plate is of a cuboid structure, and one end, far away from the lifting mechanism, of the vertical section of the cuboid structure is fixedly connected with the laser;

the laser comprises a cover plate and a laser carving lamp body assembled on the inner side of the cover plate, wherein one surface of the cover plate is provided with an open cuboid structure, one side of the laser carving lamp body, which emits light, always faces one side of the laser carving lathe, which is close to the lifting mechanism, is provided with a feeding conveyer belt, the feeding conveyer belt comprises a driving wheel and a conveyer belt in transmission connection with the driving wheel, and each product placed on the conveyer belt is carved one by the laser carving lamp body;

and a material conveying mechanism is respectively arranged at the upstream and the downstream of the feeding conveyer belt.

2. The apparatus of claim 1, wherein the material conveying mechanism comprises a first fixing frame, a sliding module, and a clamping jaw mechanism slidably connected with the sliding module, the clamping jaw mechanism comprising: clamping jaw, fixed block and cylinder, the pillar that first mount set up with radium carving lathe's horizontal plane fixed connection, the slip module include first slide rail and with first slide rail sliding connection's slider, the slider with the fixed plate fixed connection that clamping jaw mechanism set up, a cylinder is connected to the fixed plate, the cylinder drive the clamping jaw is right the product snatchs one by one.

3. The automatic laser engraving device according to claim 4, wherein a hinge is arranged on one side, away from the laser engraving lathe, of the first fixing frame, one end of the hinge is fixedly connected with one end, away from the sliding module, of the first fixing frame, the other end of the hinge is connected with a horizontal transfer cylinder, and the horizontal transfer cylinder drives a sliding block arranged on the sliding module to directionally move along the arrangement direction of the first sliding rail.

4. The automatic laser engraving device according to claim 1, wherein a feeding conveyor belt is arranged on a side surface of the laser engraving lathe, which is close to one end of the feeding conveyor belt, and a discharging conveyor belt is arranged on a side surface of the laser engraving lathe, which is close to one end of the feeding conveyor belt, which is downstream.

5. The automatic laser engraving device of claim 1 or 4, wherein one side of the laser engraving lathe is further provided with a detection assembly, the detection assembly is located between the laser engraving assembly and the discharging conveyor belt, and the detection assembly comprises: the second mount, motor, second slide rail and detection module, detection module includes: the whole of third mount and with third mount fixed connection camera lens module, the whole of third mount is L shape structure, the longer one end of L shape structure be equipped with camera lens module parallel arrangement sweep the sign indicating number rifle.

6. The apparatus according to claim 5, wherein a slide block is disposed on a side of the third fixing frame facing the second fixing frame, the slide block is slidably connected with the second slide rail, one side of the slide block is fixedly connected with the housing of the detection module, and the motor drives the slide block and the detection module on one side of the slide block to move along the setting direction of the second slide rail.

7. The apparatus of claim 5, wherein a ring-shaped lamp is further disposed at one side of the third fixing frame, and the ring-shaped lamp is located between the lens module and the code scanning gun.

8. The automatic laser engraving device according to claim 1, wherein at least three dust collection assemblies are arranged on one side, away from the feeding conveyor belt, of the laser engraving lathe, and an air outlet of each dust collection assembly faces the outer side of the laser engraving lathe all the time.

9. The apparatus of claim 4, wherein the laser engraving lathe is further provided with a defective product conveyor belt, and the defective product conveyor belt is located on the same side as the blanking conveyor belt.

10. The apparatus of claim 1, wherein two of the laser engraving members are located on the same side of the feeding conveyor belt, and a gap is formed between two adjacent laser engraving members.