DE4417083A1 - Coating device, in particular for a device for stereolithographically forming a three-dimensional object - Google Patents

Abstract

A coating device for a stereographic arrangement for forming a three-dimensional object has a main container (1) with an overflow container (8). The two containers are separated by an overflow edge (7). This edge sets the level (11) of the polymer liquid (10) in the main container (1). Liquid which overflows is evacuated through a hose (60) with a hose pump (70). The liquid evacuated is reapplied to the polymer surface or the component (30) to be made by a dispenser (50) which acts as an applicator and also as a smoother. Here, the dispenser (50) is moved plane-parallel to the polymer surface. Excess liquid flows back into the overflow container and the circuit is thus completed. The thickness of the layer applied is determined by the pump (70) flow rate or the speed of the dispenser (50).

Description

The invention relates to a coating device, especially for a device for stereolithographic Form a three-dimensional object according to the generic term of Claim 1.

In a stereolithography device three-dimensional Objects by successively solidifying a layer light-curable substance, usually a photopolymer flux liquid, by means of UV light according to the respective cross section of the object formed. The object to be created is created by supports a carrier that is in a bath of polymer liquid is submerged. After solidifying a layer of photopolymer is the top of the solidified layer of the object at the same level as the liquid surface of the bath.  

In conventional coating devices, a new one Layer of polymer liquid by lowering the carrier in the Liquid bath generated by exactly one layer thickness, so that poly Mer liquid from the bathroom from the edge over the already constant layer can flow to form the new layer. To the Accelerate the coating process, especially at the Use of liquids with a higher viscosity additional fresh with a dispenser and a smoothing member Polymer liquid applied to the already solidified layer and smoothed. The accuracy of the set layer thickness depends very sensitively on the liquid level in the bathroom from.

It is an object of the invention to provide a coating device for To provide stereolithography facilities with which one more precise adjustment of the layer thickness one each solidifying layer of a three-dimensional to be formed Object is possible.

The object is achieved by a coating device according to Claim 1.

The overflow on the main tank ensures one Maintaining the level of the substance in the main tank. This enables a precise adjustment of the layer thickness solidifying layer by lowering the device for holding possible by a value corresponding to the layer thickness. also enables the supply of substance by means of the conveyor in the device for applying a precise dosage of Substance delivery by the same.

Further developments of the inventions are in the subclaims given.

Further features and advantages of the invention result from the description of an embodiment with reference to Characters.

From the figures show:

Figure 1 is a schematic sectional view through a coating device according to the invention.

Fig. 2 is a perspective view of the dispenser of Fig. 1 on an enlarged scale;

Fig. 3 is a perspective view of a preferred embodiment of the overflow edge of Fig. 1 on an enlarged scale.

As can best be seen from FIG. 1, the coating device has a main container 1 for receiving a substance 10 that can be solidified by means of electromagnetic radiation, preferably a polymer liquid. The main container has a bottom 2 , preferably with a rectangular outline, and surrounding side walls, also preferably with a rectangular outline. Three adjacent side walls 3 a, 3 b, 3 c have a height H while the fourth side wall 3 d has a height H ', H' being less than H. As a result, the fourth side wall 3 d forms an overflow 6 for the polymer liquid in the main container 1 in the form of an overflow edge 7 for the discharge of excess polymer liquid from the main container 1 . The level 11 of the polymer liquid 10 in the Hauptbe container 1 is defined by the height H ', which is determined by the overflow edge 7 . The side wall 3 d forming the overflow 6 includes a step so that the main container 1 has an outwardly widened area 16 in the area of the overflow 6 .

The main container 1 can also have other shapes, and the overflow 6 can also be realized, for example, by an overflow pipe.

In a preferred embodiment, the overflow edge 7 has overflow channels 17 in the form of V-shaped incisions, each with a cross-section that decreases downwards in the direction of the bottom 2 of the main container 1 , as can be seen from FIG. 3. The overflow channels 17 allow one of the amount of excess polymer liquid ( 10 ) in the main container ( 1 ) adapted, controlled drainage of the liquid.

The coating device further has a bottom and this surrounding side walls having overflow container 8 to catch the overflowing from the main container 1 polymer liquid.

A platform 20 for supporting a part 30 to be formed is provided in the main container 1 . The platform 20 can be moved in a vertical direction in the main container 1 via a drive (not shown ) . The part 30 to be formed is located on the side 21 of the platform 20 facing the liquid surface 11 .

Above the main container 1 is a parallel to the liquid upper surface 11 via a - not shown - drive movable dispenser 50 for dispensing polymer liquid 10 on the platform 20 or the last solidified layer of the part 30 to be formed. Furthermore, a control - likewise not shown - is provided for setting the travel speed of the dispenser 50 .

As can be seen from the figures, the dispenser 50 is designed as a bar which extends across the platform 20 and has a plurality of outflow nozzles 52 for dispensing polymer liquid 10 on its underside 51 facing the liquid surface 11 . The outflow nozzles 52 extend along the center line of the beam. On the long sides of the underside 51 of the dispenser 50 , he is stretching down towards the liquid surface 11 of the polymer liquid 10 he stretching rubber lips 53 for smoothing out the polymer liquid layer applied to the part 30 to be formed.

As is apparent from Fig. 1, the dispenser 50 to a blow-off nozzles connected to the input 52 at its side facing away from the liquid keitsoberfläche 54th This is connected via a hose 60 to an overflow tank 8 formed before storage tank. A hose pump 70 is provided for conveying the polymer liquid 10 flowing out of the overflow container 8 into the hose 60 through the drain pipe 12 into the dispenser 50 . The peristaltic pump 70 has a control (not shown) for controlling the amount of the polymer liquid 10 to be conveyed.

Instead of the peristaltic pump 70 , a gear pump, a diaphragm pump or a piston pump is provided in a modified embodiment.

The operation of the coating device shown in FIG. 1 is as described below:
The the supporting part 30 to be formed on its upper surface 21 is platform 20, after a layer previously formed is solidified from the polymer liquid to the layer thickness of the night vi sten to be solidified layer in which the polymer liquid lowered containing 10 main container. 1 Depending on the viscosity of the polymer liquid 10 , the top 31 of the part 30 to be formed , which represents the last solidified layer, is wetted quickly or slowly by the flowing polymer liquid 10 . If the viscosity of the polymer liquid is high, it initially flows gradually from the edges of the upper side 31 of the part 30 to be formed over the upper side. The dispenser 50 is then applied to the desired layer thickness accordingly, precisely metered amount of polymer liquid 10 , which is determined by the setting of the control, on the top 31 of the part 30 to be formed. The dispenser 50 , as shown in FIG. 1, is moved plane-parallel to the liquid surface 11 of the polymer liquid 10 in the main container 1 . The polymer liquid emerging through the outflow nozzles 52 of the dispenser 50 shown in FIG. 2 is smoothed in each case by the rubber lip 53 arranged behind the outflow nozzles 52 in the direction of travel of the dispenser 50 . The applied layer thickness is determined by the delivery rate of the peristaltic pump 70 or the travel speed of the dispenser 50 .

By applying polymer liquid 10 through the dispenser 50 , the level 11 of the polymer liquid 10 in the main container 1st This leads to overflow of excess polymer liquid 10 over the overflow edge 7 in the overflow container 8th Due to the overflow channels 17 shown in FIG. 3 of the overflow edge 7 in the form of V-shaped incisions, a controlled overflow of the polymer liquid 10 takes place, adapted to the respective excess amount of liquid. Thus, the liquid surface 11 of the polymer liquid 10 at the time of solidification of the newly applied layer measured from the bottom 2 of the main container has a constant height H '. Keeping the level of the polymer liquid 10 constant ensures precise adjustment of the thickness of the polymer liquid layer to be finished on the upper side 31 of the part 30 to be formed .

After the dispenser 50 has dispensed the polymer liquid 10 required for a new layer onto the upper side 31 of the part 30 to be formed, it is moved into a rest position over the extended area 16 of the main container 1 for clearing the surface 31 for the subsequent coating exposure taking place.

The overflowing from the main container 1 over the overflow edge 7 in the overflow container 8 polymer liquid 10 is conveyed by means of the hose pump 70 via the hose 60 from the overflow container 8 to the dispenser 50 , which releases them again during the next coating process.

Claims (16)

1. Coating device, in particular for a device for stereolithographically forming a three-dimensional object ( 30 ) with
a main container ( 1 ) for receiving a substance ( 10 ) that can be solidified by means of electromagnetic radiation,
a device ( 20 ) for carrying the three-dimensional object to be formed ( 30 ) in the main container ( 1 ) and a device ( 50 ) for applying a layer of the substance ( 10 ) over the device ( 20 ) or over an already solidified one Layer of the three-dimensional object ( 30 ),
characterized in that
the main container ( 1 ) has an overflow ( 6 ) for adjusting the level ( 11 ) of the substance ( 10 ) in the main container ( 1 ) and that a reservoir ( 8 ) and the reservoir ( 8 ) with the device ( 50 ) for Apply connecting line ( 60 ) and a feed pump ( 70 ) are provided. 2. Coating device according to claim 1, characterized in that the storage container ( 8 ) is designed as an overflow container connected to the main container ( 1 ) via the overflow ( 6 ). 3. Coating device according to claim 1 or 2, characterized in that the line is designed as a hose ( 60 ) and the feed pump as a hose pump ( 70 ). 4. Coating device according to claim 1 or 2, characterized in that the feed pump ( 70 ) is designed as a gear pump. 5. Coating device according to claim 1 or 2, characterized in that the feed pump ( 70 ) is designed as a diaphragm pump. 6. Coating device according to one of claims 1 to 5, characterized in that the feed pump ( 70 ) has a control for controlling the delivery rate of the substance ( 10 ). 7. Coating device according to one of claims 1 to 6, characterized in that the overflow ( 6 ) has an overflow edge ( 7 ). 8. Coating device according to claim 7, characterized in that the overflow edge ( 7 ) has overflow channels ( 17 ) in the form of V-shaped incisions. 9. Coating device according to one of claims 1 to 8, characterized in that the device ( 50 ) for applying a uniform layer of the substance ( 10 ) at its end facing the main container ( 1 ) has a dispenser ( 50 ). 10. Coating device according to claim 9, characterized in that the dispenser ( 50 ) on its side facing the object to be formed ( 30 ) has a plurality of outflow nozzles ( 52 ) through which the substance ( 10 ) flows out. 11. Coating device according to claim 9 or 10, characterized in that the dispenser ( 50 ) on its side facing the object to be formed ( 30 ) has a smoothing member ( 53 ) for smoothing an applied layer of the substance ( 10 ). 12. Coating device according to claim 11, characterized in that the smoothing member has rubber lips ( 53 ). 13. Coating device according to one of claims 9 to 12, characterized in that a drive for moving the dispenser ( 50 ) plane-parallel to the upper surface of the substance ( 10 ) and above the object to be formed ( 30 ) is provided. 14. Coating device according to claim 13, characterized in that the drive is designed so that the speed at which the dispenser ( 50 ) can be moved is adjustable. 15. Coating device according to one of claims 1 to 14, characterized in that the substance ( 10 ) which can be solidified by means of electromagnetic radiation is a polymer liquid. 16. Coating device according to one of claims 1 to 15, characterized in that the device ( 20 ) for carrying the three-dimensional object to be formed ( 30 ) is designed as a platform.