DE102014010931A1 - 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 from particular powdery building material 3, with the introduction of radiant energy, in particular Lasersinter- or laser melting device, with a housing 4 and at least one housed therein process chamber 5, in which at least one building chamber 6 with a höhenverlagerbaren Platform is arranged, on which the provided for solidification by means of radiant energy building material 3 can be applied and wherein a beam 7 of a radiation source is directed via a scanner 8 on the building material layer 9 to be melted, and wherein at least one Baumaterialaufbringvorrichtung 10 for applying the building material on the building platform or an already solidified or partially solidified construction material layer is provided, wherein the device 1 comprises a plurality of handling stations 15, which are arranged substantially side by side and individually or geme Insam as handling modules relative to the at least one building chamber displaceable, rotatable or pivotable, but are coupled to this.

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 laser melting device with the further features of claim 1 is addressed.

Such devices usually have a process chamber which is housed in a housing. In the process chamber is a space with a höhenverlagerbaren platform on which a particular powdery building material can be applied.

About the beam of a radiation source, the z. B. includes a laser and a scanner for deflecting the laser beam, the powder layer is melted in the space at the sites to be solidified and solidified in a conventional manner, so that an object can be created from the powdery building material.

The invention has the object of providing a device with the features of the preamble of claim 1 in such a way that it is more flexible.

This object is solved by the characterizing features of claim 1. As a core of the invention, it is considered to provide a plurality of handling stations, which are arranged substantially side by side and which are arranged individually or together as a handling module row relative to the at least one building chamber displaceable, but coupled to this.

In a further development of the invention, the device should have a plurality of building chambers, which are arranged side by side as Baukammermodule and the handling modules individually or jointly with respect to the series arranged Baukammermodulreihe are displaced. This does not necessarily mean that the handling stations are moved, it is sufficient a relative displacement between the at least one building chamber and the plurality of handling modules.

In a development of the invention, a plurality of exposure devices is also provided, which individually or jointly comprise at least one scanner and are arranged so that they can be displaced, pivoted and / or rotated in relation to the at least one construction chamber in such a way that they can be moved selectively over the at least one construction chamber. to allow different constellation between the building chamber and exposure device.

In a further development of the invention, at least one installation space, at least one handling station, at least one exposure device is provided, which can all be spatially mutually variable, but coupled to each other by displacement, rotation, pivoting can be brought into different constellations. As a result, the entire device is very flexible, depending on requirements, handling modules, space modules, exposure modules, but also other modules such. B. different coater arrangements are brought into a new relative position to each other.

In the figurative sense, a system is conceived that makes it possible, as in the case of a rotatable and displaceable magic cube, to bring different mutually movably coupled elements into different relative positions. In this case, the assembly modules arranged in a row in a first plane, the at least one coater arrangement or the plurality of coater modules in an overlying second plane are displaceably arranged in the plurality of exposure devices in a third overlying plane.

In a further development of the invention, a plurality of building material supply modules can also be provided in the same way, which are arranged displaceable relative to the building chamber modules or the coater modules and can be brought into different constellations with respect to these.

It is also within the scope of the invention to provide a plurality of aftertreatment modules, for. B. after heat treatment, for mechanical surface treatment, or for surveying, fluoroscopy or other investigation of the built objects or the like .. These aftertreatment modules are compared to the Baukammermodulen individually or juxtaposed in series together slidably or pivotally arranged and opposite the Baukammermodulen be brought into different constellations , A plurality of Restpulverabsaugmodulen can be provided, which are arranged individually or in series together side by side with respect to the building chambers.

The invention is explained in more detail with reference to embodiments in the drawing figures.

These show:

1 : a schematic representation of a device with housing, construction chamber, Exposure apparatus including scanner, building material storage chamber and overflow tank;

2a a schematic representation of a constellation of two Pulverabsaugmodulen, two aftertreatment modules, two Baukammermodulen and two handling modules in a first spatial constellation;

2 B the arrangement according to 2a in a modified constellation;

2c the arrangement according to 2a and 2 B in a modified constellation;

3 a schematic representation of a built in three levels device with three building chambers, three handling stations, three aftertreatment stations, three Pulverabsaugmodulen, three Pulveraufbringvorrichtungen, three Baumaterialvorratsmodulen and three exposure modules.

First, on drawing figure 1 Referenced.

The in drawing figure 1 illustrated device 1 serves to produce three-dimensional objects 2 from in particular powdery building material 3 , It has a housing 4 in which a process chamber 5 is arranged. In the process chamber 5 is a construction chamber 6 present, in which a construction platform is arranged vertically adjustable. The construction area, which is defined by the building chamber, is determined by the beam 7 a laser 7 ' subjected to the beam 7 the laser 7 ' via a scanner 8th is directed so that it controlled on the intended for solidification areas of the building material 3 is steered. Such a device is known as a laser sinter or laser melting device. Other components are a building material storage tank 23 , a building material applicator 10 , which is formed in the manner of a doctor blade and the building material supply module 23 Stratified construction material on a top layer of building material in the building chamber.

In addition, an overflow container is still provided, which serves to collect unneeded building material in the layer formation.

Such a device is state of the art.

2 with the subfigures 2a . 2 B and 2c now shows a variable but contiguous arrangement of different components of the invention in 1 illustrated device. In 2a are z. B. two building chambers 6.1 and 6.2 provided on the right side two handling stations 15.1 and 15.2 are arranged. Left of the building chambers 6.1 and 6.2 are two aftertreatment modules 16.1 and 16.2 provided, again left of two Pulverabsaugmodule 17.1 and 17.2 ,

Will now z. B. the bottom row of modules 16.2 . 17.2 . 6.2 and 15.2 against above the top row 16.1 . 17.1 . 6.1 and 15.1 moved, then comes the Baukammermodul 6.1 next to the powder extraction module 17.2 , the construction chamber module 6.2 , next to the handling module 15.1 to lie. Next to the powder extraction module 17.1 is the aftertreatment module 16.2 arranged so that these two modules can cooperate.

In 2c is opposite 2a the column of powder extraction modules 17.1 and 17.2 opposite the modules 16.1 and 16.2 respectively. 6.1 and 6.2 moved upwards, so now in a row next to each other, the modules 17.1 . 16.2 and 6.1 are arranged.

The two handling modules 15.2 and 15.1 are also moved up, and then the module 15.1 to the left over the building chamber module 6.1 is pushed. This in turn means a reassignment such that in addition to the Baukammermodul 6.1 the handling module 15.2 comes to rest. At the same time but also has the handling module 15.1 Access to the building chamber module 6.1 and can cooperate with this, ie the handling can be over two next to the building chamber 6.1 lying modules 15.1 and 15.2 respectively.

In 3 is now shown in three-dimensional schematic representation of how such a device could be constructed. In contrast to the representation in 2 that only one level of the corresponding modules 17 . 16 . 6 and 15 shows is now still provided in a second level, powder storage modules 23 , Building material application modules 10 and exposure modules 20 to arrange, with all modules can be moved against each other, as exemplified in 2 is indicated. This means that z. B. the powder storage modules 23 in different constellation with the building material applicators 10.1 - 10.3 can be brought. In addition, three different exposure modules can be pushed back and forth in such a way that they have different subjacent compartments 6.1 - 6.3 can interact. The same applies to the aftertreatment modules 16.1 - 16.3 and powder extraction modules 17.1 - 17.3 ,

Preferably, plastic or metal powders are used as a building material in such a plant, which is why it is permissible to speak of powder storage modules or building material storage modules.

LIST OF REFERENCE NUMBERS

1

contraption

2

three-dimensional object

3

building materials

4

casing

5

process chamber

6

Construction Chamber

6.1

Construction Chamber

6.2

Construction Chamber

6.3

Construction Chamber

7

beam

7 '

laser

8th

scanner

10

Baumaterialaufbringvorrichtung

10.1

Baumaterialaufbringvorrichtung

10.2

Baumaterialaufbringvorrichtung

10.3

Baumaterialaufbringvorrichtung

15.1

handling station

15.2

handling station

16.1

post-treatment module

16.2

post-treatment module

16.3

post-treatment module

17.1

Pulverabsaugmodul

17.2

Pulverabsaugmodul

17.3

Pulverabsaugmodul

20

exposure module

23

Building material reservoir

Claims (10)

Contraption ( 1 ) for the generative production of three-dimensional objects ( 2 ) of in particular powdery building material ( 3 ), with the introduction of radiant energy, in particular laser sintering or laser melting apparatus, with a housing ( 4 ) and at least one process chamber accommodated therein ( 5 ), in which at least one building chamber ( 6 ) is arranged with a höhenverlagerbaren platform on which provided for solidification by means of radiant energy building material ( 3 ) is applicable and wherein a beam ( 7 ) of a radiation source via a scanner ( 8th ) on the building material layer to be melted ( 9 ) and in which at least one building material application device ( 10 ) is provided for applying the building material to the building platform or an already solidified or partially solidified building material layer, characterized in that the device ( 1 ) a plurality of handling stations ( 15 ), which are arranged substantially adjacent to each other and individually or jointly as handling modules relative to the at least one building chamber displaceable, rotatable or pivotable, but are coupled to this. Device according to claim 1, characterized in that the device ( 1 ) a plurality of building chambers ( 6 ), which are arranged side by side as Baukammermodule and the handling stations ( 15 ) are individually or jointly displaceable relative to the Baukammermodulreihe. Device according to claim 1 or 2, characterized in that the device ( 1 ) a plurality of exposure devices ( 20 ), which comprise at least one scanner and with respect to the at least one building chamber ( 6 ) are arranged so displaceable or pivotable that they selectively via the at least one building chamber ( 6 ) are movable. Apparatus according to claim 1, characterized in that the at least one building chamber ( 6 ) containing at least one handling station ( 15 ) and / or the exposure device ( 20 ), spatially mutually variable, but coupled to each other by displacement, rotation or pivoting to each other in different constellations bring bar. Device according to one of the preceding claims, characterized in that it comprises a plurality of different construction material applying device ( 10 ), each in a working position over at least one building chamber ( 6 ) are movable. Device according to one of the preceding claims, characterized in that the Baukammermodule ( 6 ) in a first plane comprising at least one building material application device ( 10 ) in an overlying second level and the plurality of exposure device ( 20 ) are displaceably pivotable and / or rotatable in a third, overlying plane, but are arranged coupled to one another. Device according to one of the preceding claims, characterized in that a plurality of building material storage modules ( 23 ) is provided, which compared to the Baukammermodulen ( 6 ) and / or the building material application device ( 10 ) are arranged displaceably and with respect to these in different constellations can be brought. Device according to one of the preceding claims, characterized in that a plurality of after-treatment modules ( 16 ) is provided, which compared to the Baukammermodulen ( 6 ) are arranged individually or side by side in series together displaceable, pivotable and / or rotatable and to each other coupled with the building chamber modules in different constellations bring bar are. Device according to one of the preceding claims, characterized in that a plurality of Restpulverabsaugmodulen ( 17 ) is provided, which individually or in series together adjacent to the building chamber modules ( 6 ) are displaceable, rotatable and / or pivotable, but are arranged coupled to each other. Device according to one of the preceding claims, characterized in that the handling stations ( 15 ) in a plane above the building chamber modules ( 6 ) are arranged.

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