DE102014005915A1 - Device for the generative production of three-dimensional objects - Google Patents

Abstract

The invention relates to a device 1 for the generative production of three-dimensional objects 2 made of powdery construction material 3 with the introduction of radiant energy, in particular laser sintering or laser melting device, with a housing 5 having a process chamber 6 housed therein, in which an installation space 7 with a height-displaceable construction platform 8 is arranged to which the powdery building material 3 provided for solidification by means of radiant energy can be applied, wherein a laser beam 9 is directed by a scanner 10 and at least one protective glass 11 onto the powder layer 12 to be melted, at least one at least partially transparent pane 13 being arranged in the beam path of the laser system 4 , which is penetrated by the coming of the laser system 4 beam 9 and reflected by a melt pool 14 of the powder layer 12 radiation components 15 at least partially reflected.

Description

The invention relates to a device for the generative production of three-dimensional objects made of powdery building material with the introduction of radiant energy, in particular a laser sintering or a laser melting device.

Known such devices usually have a housing in which a process chamber is housed. In the process chamber there is a construction space with a height-displaceable construction platform, onto which a pulverulent construction material intended for solidification by means of radiation energy is applied. For solidification, a laser is provided, which is usually arranged at the upper region of the housing and the laser beam is directed processor-controlled by a scanner on the powder surface, there to cause solidification of the powder depending on the Baudaten.

Since smoldering and material splashes occur in a powder melting or powder sintering process, if necessary the sensitive scanner can be covered by a protective glass, which is penetrated by the laser radiation. Such a device is for example off DE 10 2010 052 206 known.

Such devices are also used for the processing of precious metals, eg. As gold or platinum used. Such metals have a high degree of reflection in the region of the melt pool and therefore the property of partially reflecting the laser beam "in itself".

In some circumstances, this may cause the discharge of the laser to be disturbed and thereby become unstable or even collapse, thereby interrupting the building process. In order to avoid this phenomenon, attempts have been made in the past to work with reduced energy input on relatively high reflection powder layers. However, a reduced energy input can lead to a deterioration of the component quality.

The invention has the object of providing the device with the features of claim 1 in such a way that even noble metal powder can be processed with a relatively high reflectance in the melt pool with a high energy input. This object is achieved by the characterizing features of claim 1, characterized in that in the beam path of the laser at least one partially transparent disc is arranged, which is penetrated by the beam coming from the laser and reflects at least partially reflected from the melt pool of the powder bed radiation components. Advantageous developments emerge from the dependent claims 2-14.

As a core of the invention, therefore, a coating of a disc in the beam path of the laser is considered, the radiation of a certain wavelength when hitting this disc in one direction, d. H. transmitted in the direction of the powder bed, but reflected in the opposite direction.

Such a measure avoids back-reflection formations in the laser system, the laser system can operate undisturbed, and a continuous construction process is thereby ensured.

In an advantageous development, the disk designed as a back-reflex filter is the protective glass, which is arranged anyway in the beam path and is provided with a coating.

But it is also possible to use as a separate disk, arranged in front of or behind the protective glass partially reflecting disc.

The disc can z. B. be designed as a polarizing filter, laser radiation is a generally linearly polarized, coherent radiation. In reflection with linearly polarized radiation through the highly reflective layer, the polarization direction of the beam is partially canceled or rotated, so that through an appropriately adjusted polarizing filter, the radiation can penetrate freely in one direction through the disc, with respect to polarization twisted reflected radiation components, however, reduced or be extinguished.

For this purpose, it is advantageous if the disc is arranged in a rotary bearing, since then appropriate adjustment options are available.

It may also be advantageous to make the inclination angle of the disc changeable with respect to the laser beam passing through it, and by changing the inclination, it is likewise possible to keep back reflections away from the laser system.

In an advantageous embodiment, the disc can also carry a plurality of coatings. The disk can also be designed in multiple layers or transmit or reflect different wavelengths. The coating can be applied to the disk in the manner of a film, when the film is arranged between two disk layers, it is advantageously protected during cleaning operations of the disk.

The invention is explained in more detail with reference to an embodiment in the drawing. These shows a schematic representation of an apparatus for the generative production of three-dimensional objects, namely a laser sintering or laser melting device with a protective glass coated according to the invention.

The device shown in the drawing figure 1 serves to produce three-dimensional objects 2 made of powdery building material 2 with the introduction of radiant energy of a laser system 4 wherein the device is a housing 5 with a process chamber housed therein 6 having. In the process chamber is a space 7 with a height-adjustable construction platform 8th arranged on which provided for solidification by means of radiation energy powdery building material 3 can be applied. A laser beam 9 of the laser system 4 is via a scanner 10 and at least a protective glass 11 on the melted powder layer 12 of the building material 3 directed.

In the beam path of the laser system 4 is at least a semi-transparent disc 13 arranged by the laser beam coming from the laser system 9 is penetrated and that of a Schmelzepohl 14 the powder layer 12 reflected radiation components 15 at least partially reflected.

The disc 13 is the arranged in the beam path, provided with a coating protective glass 11 Alternatively, it is also possible to provide a separate disc, in front of or behind the protective glass 11 is arranged and has the desired partial reflective properties.

The disc 13 or the protective glass 11 can be designed as a polarization filter, in particular as a linear polarization filter. Suitable are all discs, films or filters, which bring about a reflex shield, comparable to the effect of an anti-reflective sunglass lens.

Basically it is possible to use the disc in a pivot bearing 16 to arrange.

It is also possible to adjust the angle of inclination of the disc or the protective glass 11 . 13 opposite to the laser beam passing through it 9 changeable.

The disc 13 or the protective glass 11 are beneficial between the scanner 10 and the output mirror of the radiation-providing laser system 4 arranged.

The disc or the protective glass can carry a plurality of coatings, disc 11 and protective glass 13 may be formed as multi-layer discs and have a coating between two disc layers.

LIST OF REFERENCE NUMBERS

1

contraption

2

object

3

building materials

4

laser system

5

casing

6

process chamber

7

space

8th

building platform

9

laser beam

10

scanner

11

protective glass

12

powder layer

13

disc

14

melt pool

15

reflected radiation component

16

pivot bearing

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102010052206 [0003]

Claims (14)

Contraption ( 1 ) for the generative production of three-dimensional objects ( 2 ) of powdery building material ( 3 ) with the introduction of radiant energy, in particular laser sintering or laser melting apparatus, with a housing ( 5 ) with a process chamber accommodated therein ( 6 ), in which a space ( 7 ) with a height-adjustable construction platform ( 8th ) is arranged, on which provided for solidification by means of radiant energy powdery building material ( 3 ) is applicable, wherein a laser beam ( 9 ) via a scanner ( 10 ) on the melted powder layer ( 12 ), characterized in that in the beam path of the laser system ( 4 ) at least one at least partially transparent disc ( 13 ) arranged by the laser system ( 4 ) coming beam ( 9 ) and that of a melt pool ( 14 ) of the powder layer ( 12 ) reflected radiation components ( 15 ) at least partially reflected. Device according to claim 1, characterized in that the disc ( 13 ) arranged in the beam path, provided with a coating protective glass ( 11 ). Apparatus according to claim 1 or 2, characterized in that the disc ( 13 ) a separate, in front of or behind the protective glass ( 11 ) arranged partially reflecting disc is. Device according to one of claims 1-3, characterized in that the disc ( 13 ) or the protective glass ( 11 ) is designed as a polarizing filter. Device according to one of the preceding claims, characterized in that the polarization filter is a Linearpolarisationsfilter. Device according to one of the preceding claims, characterized in that on the protective glass ( 11 ) or the disc ( 13 ) has linear polarizing properties. Device according to one of the preceding claims, characterized in that the disc or the protective glass ( 13 . 11 ) in a pivot bearing ( 16 ) is arranged. Device according to one of the preceding claims, characterized in that the angle of inclination of the disc ( 13 ) or the protective glass ( 11 ) with respect to the laser beam passing through it ( 9 ) is changeable. Device according to one of the preceding claims, characterized in that the disc ( 13 ) or the protective glass ( 11 ) between the scanner ( 10 ) and the coupling-out mirror of the radiation-providing laser system ( 4 ) is arranged. Device according to one of the preceding claims, characterized in that the disc ( 13 ) or the protective glass ( 11 ) carries a plurality of coatings. Device according to one of the preceding claims, characterized in that the disc ( 13 ) or the protective glass ( 11 ) is formed as a multi-layer disk and a coating between two disk layers is arranged. Device according to one of the preceding claims, characterized in that different coatings transmit or reflect different wavelengths. Device according to one of the preceding claims, characterized in that one of the coatings is formed as an optical filter. Device according to one of the preceding claims, characterized in that the coating is formed in the manner of a film.

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