Method and machine for producing three-dimensional objects by means of successive layer deposition
First Claim
1. Method for producing three-dimensional objects by forming a large number of successive parallel layers in a first dimension and each consisting of two heat-fusible modelling materials, the method using the two following main steps:
- a first step consisting of the timed supply of a first modelling material to at least a first jet (12) positioned on a first fixed working station, and of moving the jet with respect to the supporting surface along second and third directions perpendicular to the first direction and over a determined pathway, to deposit drops of material on the supporting surface; and
a second step consisting of conducting the same operation with a second jet positioned on a second fixed work station and supplied with a second material over a determined pathway, this cycle being renewed a sufficient number of times, with pathways determined in relation to the object, in order to construct the object,characterized in that the number of fixed work stations is 2.N, the supporting surface consists of 2.N platforms (11) on each of which the process is implemented, each of the two 2.N platforms (11) is alternately moved to lie under at least one of the N first jets (12) to conduct the first step, then under at least one of the N second jets (12) to conduct the second step, in order to deposit simultaneously 2.N deposits of material on the 2.N platforms (11).
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Accused Products
Abstract
Inventive machine allowing the simultaneous fabrication of several objects by a method of “rapid prototyping” type, by depositing a succession of layers of heat-fusible fluid.
It chiefly comprises a crossbar (20) carrying two platforms (11) on each of which an object is fabricated by deposition. Two fixed work stations are arranged diametrically opposite each other so that the jet (12) of each of these fixed stations can perform a depositing operation at the same time as the other jet (12). After each deposit, the crossbar is rotated 180° to alternate the depositing operations of the two different materials.
Particular application to prototyping jewellery models.
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Citations
10 Claims
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1. Method for producing three-dimensional objects by forming a large number of successive parallel layers in a first dimension and each consisting of two heat-fusible modelling materials, the method using the two following main steps:
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a first step consisting of the timed supply of a first modelling material to at least a first jet (12) positioned on a first fixed working station, and of moving the jet with respect to the supporting surface along second and third directions perpendicular to the first direction and over a determined pathway, to deposit drops of material on the supporting surface; and a second step consisting of conducting the same operation with a second jet positioned on a second fixed work station and supplied with a second material over a determined pathway, this cycle being renewed a sufficient number of times, with pathways determined in relation to the object, in order to construct the object, characterized in that the number of fixed work stations is 2.N, the supporting surface consists of 2.N platforms (11) on each of which the process is implemented, each of the two 2.N platforms (11) is alternately moved to lie under at least one of the N first jets (12) to conduct the first step, then under at least one of the N second jets (12) to conduct the second step, in order to deposit simultaneously 2.N deposits of material on the 2.N platforms (11). - View Dependent Claims (2)
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- 3. Machine for producing three-dimensional models by forming a large number of successive, parallel layers along a first direction and each formed of two modelling materials on a supporting surface by means of at least jets (12) each supplied with one of the two materials at fixed work stations, and mobile with respect to a main carriage (14) along a second direction perpendicular to the first direction, the main carriage (14) being mobile with respect to the fixed depositing station along a third direction perpendicular to the first direction, characterized in that the supporting surface consists of 2.N platforms (11) on each of which the process is implemented simultaneously, the 2.N platforms (11) being moved at the same time and alternately under a number N of first depositing stations each carrying a first jet (12), by means of a mobile secondary carriage (13) to implement the first step, and under a same number N of second fixed depositing stations each carrying a second jet (12) by means of a mobile secondary carriage, to implement the second step in order to produce 2.N objects simultaneously.
Specification