CN204867809U - Laser beam machining head - Google Patents

Abstract

The utility model discloses a laser beam machining head belongs to laser process equipment technical field, including laser instrument, focusing lens and biaxial crystal, arrange in proper order and be: laser instrument, focusing lens and biaxial crystal, focusing lens and focusing lens's focus is located respectively biaxial crystal's both sides, the laser of laser instrument output with biaxial crystal's optical axis is parallel, still including the system of zooming, it is in to zoom system configuration one side of biaxial crystal, focusing lens's focus is located between biaxial crystal and the system of zooming, the utility model discloses a laser beam machining head machining efficiency is high, and stability is good.

Description

A kind of laser Machining head

Technical field

The utility model relates to laser process equipment technical field, in particular to a kind of laser Machining head.

Background technology

Due to the development of laser technology and application thereof, laser processing technology is more and more subject to people's attention, through the development of more than 40 years, so far the important component part of advanced manufacturing technology has been become, be widely used in the fields such as automobile, electronics, electrical equipment, aviation, metallurgy, machine-building at present, there are huge economic benefit and social benefit, application prospect very wide.Laser Processing is contactless processing, and process velocity is fast, and noiseless, can realize the high-precision processing object of various Surfaces of Unusual Shape.And without " stage property " wearing and tearing in process, to workpiece without " cutting force ".Concrete application mainly contains: laser weld, laser boring, laser cutting, Laser surface heat treatment etc.

For the processing of complex part, be in conjunction with Machine Design etc. under normal circumstances, utilize laser beam to be easy to the feature leading, focus on and disperse, according to processing request, design obtains different spot sizes and density.And the direction of light beam is changed by outside optical system, form various system of processing, for processing various complex part.For the workpiece having special construction, often need the part changing outside optical system and then avoid not needing to process.The stability of outside optical system is very large for the processing impact of laser, and the workpiece processing special construction then needs frequently to change outside optical system, and this limits the efficiency of processing to a certain extent.

In addition, for the punching of workpiece, traditional laser processor is owing to having the larger angle of divergence after its focusing, collimation decreases, therefore the hole wall got can have certain angle of inclination, although rotate the problem that punching solves perpendicularity to a certain extent, its working (machining) efficiency is low, and stability is not high.

So traditional laser processor has shortcoming that is low to the working (machining) efficiency of complex components, poor stability.

Utility model content

For above-mentioned problems of the prior art, the utility model provides that a kind of working (machining) efficiency is high, the laser Machining head of good stability.

For achieving the above object, the utility model provides following technical scheme:

A kind of laser Machining head, comprise laser instrument, also comprise condenser lens and biaxial crystal, be arranged in order as laser instrument, condenser lens and biaxial crystal, the focus of described condenser lens and condenser lens lays respectively at the both sides of described biaxial crystal, and the laser that described laser instrument exports is parallel with the optical axis of described biaxial crystal.

Further, described laser Machining head also comprises zoom system, pancreatic system, and described zoom system, pancreatic system is arranged on the side of described biaxial crystal, and the focus of described condenser lens is between biaxial crystal and zoom system, pancreatic system.

Further, the first convex lens of being arranged by common optical axis of described zoom system, pancreatic system and the second convex lens form.

Further, described laser instrument is solid state laser or gas laser.

Further, described condenser lens is coated with the film to laser high permeability.

Further, the laser entrance face of described biaxial crystal and exit facet are all coated with the film to laser high permeability.

Further, described first convex lens and the second convex lens are all coated with the film to laser high permeability.

The beneficial effects of the utility model are as follows:

1, the conical refraction effect of biaxial crystal is utilized, Gaussian beam after condenser lens is transformed into conical refraction light beam, compared to traditional Gaussian beam, direction of beam propagation successively forms two focuses, and light beam converges after first diverging to annular again between bifocal, according to such characteristic, hollow circular part can be utilized to walk around undersized barrier, back focus directly acts on work pieces process face and processes, and working (machining) efficiency improves;

2, utilize the conical refraction effect of biaxial crystal, the Gaussian beam after condenser lens is transformed into conical refraction light beam, Jiao as plane place, the angle of divergence of annular beam is almost 0, namely wave vector directional divergence angle is very little, and the hole perpendicularity obtained for laser cutting is better, and stability is high;

3, utilize zoom system, pancreatic system by the imaging of ampuliform light beam, regulate the distance between the first convex lens and the second convex lens as required, can obtain the annular beam of different light field radius, be applicable to the processing of various workpiece, without the need to changing outside optical system, working (machining) efficiency is high.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present utility model.

In figure: 1-laser instrument, 2-condenser lens, 3-biaxial crystal, the 4-the first convex lens, the 5-the second convex lens, 6-ampuliform light beam, 61-front focus, 62-burnt as plane, 63-back focus, 7-image planes.

Detailed description of the invention

The technical solution of the utility model is understood better in order to make those skilled in the art; below in conjunction with accompanying drawing of the present utility model; clear, complete description is carried out to the technical solution of the utility model; based on the embodiment in the application; other roughly the same embodiment that those of ordinary skill in the art obtain under the prerequisite not making creative work, all should belong to the scope of the application's protection.

Embodiment one:

A kind of laser Machining head, mainly comprises: laser instrument 1, condenser lens 2, biaxial crystal 3 and zoom system, pancreatic system.The first convex lens 4 that zoom system, pancreatic system is arranged by common optical axis and the second convex lens 5 form, and are arranged in order as laser instrument 1, condenser lens 2, biaxial crystal 3, first convex lens 4 and the second convex lens 5 according to the direction of Laser Transmission.The focus of described condenser lens 2 is between biaxial crystal 3 and zoom system, pancreatic system, the laser that described laser instrument 1 exports is parallel with the optical axis of described biaxial crystal 3, described condenser lens 2 is coated with the film to laser high permeability, the laser entrance face of described biaxial crystal 3 and exit facet are all coated with the film to laser high permeability, described first convex lens 4 and the second convex lens 5 are all coated with the film to laser high permeability.Biaxial crystal 3 is rotatable, and during to ensure incidence, convergent beam is parallel with biaxial crystal 3 optical axis.

Laser instrument 1 is solid state laser or gas laser, the laser beam wavelength scope of launching is all band, the energy range of laser instrument, need to select to export energy according to different processing modes, if focus processing need control the burnt power density as plane place be less than damage threshold, if Jiao need carry high power output as plane effect realize processing effect.

Separately, the utility model also provides a kind of method utilizing laser Machining head as above to carry out Laser Processing, comprises the following steps:

(1), after the laser light condenser lens 2 that laser instrument exports, obtain convergent beam, the waist radius of convergent beam is ω;

(2) convergent beam incides biaxial crystal 3, time incident, convergent beam is parallel with biaxial crystal 3 optical axis, after biaxial crystal 3, obtains ampuliform light beam 6, described ampuliform light beam 6 has bifocus (front focus 61 and back focus 63), and Jiao as plane 62 place ringwise;

(3) utilize the back focus 63 of ampuliform light beam 6 as zoom system, pancreatic system object plane, after zoom system, pancreatic system imaging, the image planes 7 of back focus 63 are processing plane, utilize these image planes 7 to process.Utilize the conical refraction effect of biaxial crystal 3, Gaussian beam after condenser lens 2 is transformed into conical refraction light beam, compared to traditional Gaussian beam, direction of beam propagation successively forms two focuses, and light beam converges after first diverging to annular again between bifocal, according to such characteristic, hollow circular part can be utilized to walk around undersized barrier, and back focus 63 directly acts on work pieces process face and processes.

For ampuliform light beam 6, according to the conical refraction formula of biaxial crystal 3, can obtain conical refraction light beam Jiao as the radius of plane 62 place annular beam is

R ₀＝Al

$A=\frac{1}{n_2}\sqrt{(n_3-n_2)(n_2-n_1)}$

Wherein, l is the length of biaxial crystal 3, n ₁, n ₂and n ₃for three principal refractive indexs of biaxial crystal 3, and n ₃> n ₂> n ₁.

Burnt as the distance z of plane 62 apart from condenser lens 2 _ffor

wherein for f is the focal length of condenser lens;

Front focus 61 is apart from the distance Z of Jiao as plane 62 _ffor

$Z_F=\frac{2\mathrm{\π}}{\mathrm{\λ}}Al\mathrm{\ω}\sqrt{\frac{2}{3}}$

Back focus 63 is apart from the distance z of condenser lens 2 _f+ Z _ffor

$z_f+Z_F=f+l(1-\frac{1}{n_2})+\frac{2\mathrm{\π}}{\mathrm{\λ}}Al\mathrm{\ω}\sqrt{\frac{2}{3}}$

The focal length of the first convex lens 4 is f ₁, the focal length of the second convex lens 5 is f ₂, the distance between the first convex lens 4 and the second convex lens 5 is d, according to zoom formula, and the focal distance f of zoom system, pancreatic system _cmeet

$\frac{1}{f_c}=\frac{1}{f_1}+\frac{1}{f_2}-d\·\frac{1}{f_1}\·\frac{1}{f_2}$

The amplification ratio m of zoom system, pancreatic system is

$m=\frac{f_c}{v-f_c}$

Burnt satisfied apart from the distance u of zoom system, pancreatic system as the image planes 7 of plane 62 after zoom system, pancreatic system

$\frac{1}{u}=\frac{1}{f_c}-\frac{1}{v}$

Using the object plane of the back focus 63 of ampuliform light beam 6 as incident zoom system, pancreatic system, the distance of its distance zoom system, pancreatic system is v, v is brought into said system imaging formula, needs certainty annuity amplification ratio according to processing, thus determine the focal distance f of zoom system, pancreatic system _c, obtain required focal length by regulating the distance d between two lens.Obtain corresponding image planes 7 according to imaging relations, this is processing plane, is placed by processing work and processes herein.

Embodiment two:

Repeat no more with embodiment 1 same section, unlike:

The utility model also provides a kind of method utilizing laser Machining head as above to carry out Laser Processing, comprises the following steps:

(1), after the laser light condenser lens 2 that laser instrument 1 exports, obtain convergent beam, the waist radius of convergent beam is ω;

(2) convergent beam incides biaxial crystal 3, time incident, convergent beam is parallel with biaxial crystal 3 optical axis, after biaxial crystal 3, obtains ampuliform light beam 6, described ampuliform light beam 6 has bifocus (front focus 61 and back focus 63), and Jiao as plane 63 place ringwise;

(3) utilize Jiao of ampuliform light beam 6 as plane 62 as zoom system, pancreatic system object plane, after zoom system, pancreatic system imaging, utilize these image planes 7 to punch.Utilize the conical refraction effect of biaxial crystal 3, Gaussian beam after condenser lens 2 is transformed into conical refraction light beam, Jiao as plane 62 place, the angle of divergence of annular beam is almost 0, namely wave vector directional divergence angle is very little, utilize this Jiao to carry out as the image planes 7 of plane 62 hole perpendicularity that laser cutting obtains better, stability is high.

Using Jiao of ampuliform light beam 6 as the object plane of plane 63 as incident zoom system, pancreatic system, the distance of its distance zoom system, pancreatic system is v, v is brought into the system imaging formula of embodiment one, needs certainty annuity amplification ratio according to processing, determine the focal distance f of zoom system, pancreatic system _c, obtain required focal length by regulating the distance d between the first convex lens 4 and the second convex lens 5.Obtain corresponding image planes 7 according to imaging relations, this is processing plane, is placed by processing work and processes herein.Zoom system, pancreatic system is utilized to realize the adjustment of annular beam size, with match machined requirement.

Such as: the optical maser wavelength that laser instrument 1 exports is λ=532nm, and the focal length of condenser lens 2 is f=100mm, waist radius ω=18 μm of the convergent beam after condenser lens 2.

Biaxial crystal 3 material is KGW crystal, and refractive index is n ₁=2.013, n ₂=2.045, n ₃=2.086, it is of a size of long l=30mm, wide w=2mm, high d=3mm, optical axis direction edge and incident end face vertical direction.In this example, the burnt annular radii as plane place is R ₀=510 μm, back focus is z apart from the distance of condenser lens 2 _f+ Z _f=182mm.

Two focal lengths of lens of zoom system, pancreatic system are respectively f ₁=100mm, f ₂=100mm, according to processing needs, amplification ratio is set as 0.5, and the distance v=300mm of zoom system, pancreatic system distance back focus 63, the distance between the first convex lens 4 and the second convex lens 5 is d=100mm.

Above-mentioned data are substituted into the formula of embodiment one, the light field radius obtaining machined surface place is 9 μm.Namely this Jiao is 9 μm as 7 at the annular beam radius at machined surface place as plane 63, and this light beam can be utilized to punch.The distance d of the first convex lens 4 and the second convex lens 5 can be calculated fast by control program, gets final product regulating action in the light field radius of processing plane by regulating the distance d between two lens.Utilize zoom system, pancreatic system by ampuliform light beam 6 imaging, regulate the distance between the first convex lens 4 and the second convex lens 5 as required, can obtain the annular beam of different light field radius, be applicable to the processing of various workpiece, without the need to changing outside optical system, working (machining) efficiency is high.

In addition, be to be understood that, although this description is described according to embodiment, but not each embodiment only comprises an independently technical scheme, this narrating mode of description is only for clarity sake, those skilled in the art should by description integrally, and the technical scheme in each embodiment also through appropriately combined, can form other embodiments that it will be appreciated by those skilled in the art that.

Claims (7)

1. a laser Machining head, comprise laser instrument, it is characterized in that, also comprise condenser lens and biaxial crystal, be arranged in order as laser instrument, condenser lens and biaxial crystal, the focus of described condenser lens and condenser lens lays respectively at the both sides of described biaxial crystal, and the laser that described laser instrument exports is parallel with the optical axis of described biaxial crystal.

2. laser Machining head according to claim 1, is characterized in that, described laser Machining head also comprises zoom system, pancreatic system, and described zoom system, pancreatic system is arranged on the side of described biaxial crystal, and the focus of described condenser lens is between biaxial crystal and zoom system, pancreatic system.

3. laser Machining head according to claim 2, is characterized in that, the first convex lens that described zoom system, pancreatic system is arranged by common optical axis and the second convex lens form.

4., according to the arbitrary described laser Machining head of claim 1-3, it is characterized in that, described laser instrument is solid state laser or gas laser.

5. laser Machining head according to claim 4, is characterized in that, described condenser lens is coated with the film to laser high permeability.

6. laser Machining head according to claim 5, is characterized in that, the laser entrance face of described biaxial crystal and exit facet is all coated with the film to laser high permeability.

7. laser Machining head according to claim 3, is characterized in that, described first convex lens and the second convex lens is all coated with the film to laser high permeability.