SYSTEM AND METHOD FOR CASTING A COMPONENT, AND COMPUTER-READABLE STORAGE MEDIUM WITH A PROGRAM FOR CASTING A COMPONENT

Abstract

The present invention relates to a system for casting a component by an adjustable molding box. A generating unit serves for generating a component model of the component to be molded, a transmitting unit serves for transmitting the component model via a data network to a determining unit, and the determining unit serves for determining a casting mold model based on the component model. The determining unit is configured such that adjustment data for adjusting the adjustable molding box based on the casting mold model are generatable. A control unit is coupled to the determining unit such that the adjustment data are providable to the control unit, wherein the control unit is configured such that the control unit adjusts the molding box, based on the adjustment data, with a casting mold, which is indicative for a negative profile of the component, and the component is castable by the adjusted molding box.

Claims

1. System for casting a component by an adjustable molding box, the system having the following: a generating unit for generating a component model of the component to be molded, a transmitting unit for transmitting the component model via a data network to a determining unit, the determining unit for determining a casting mold model based on the component model, wherein the determining unit is configured such that adjustment data for adjusting the adjustable molding box based on the casting mold model are generatable, a control unit, which is coupled to the determining unit such that the adjustment data are providable to the control unit, wherein the control unit is configured such that the control unit, based on the adjustment data, adjusts the molding box with a casting mold, which is indicative for a negative profile of the component, and the component is castable by the adjusted molding box.

2. System according to claim 1, wherein the determining unit is configured such that a material of the component to be cast is adjustable.

3. System according to claim 1, wherein the determining unit is configured such that an oversize of the component to be cast is adjustable.

4. System according to claim 1, wherein the generating unit is spatially separate from the control unit.

5. System according to claim 1, further having the adjustable molding box, which has the adjustable casting mold, which is indicative for a negative profile of the component, wherein the casting mold is formed such that the component is castable by the adjustable molding box.

6. System according to claim 5, wherein the determining unit is configured such that a fabrication time and a delivery time of the cast component to a delivery address are determinable.

7. Method for casting a component by an adjustable molding box, the method having the following steps: generating a component model of the component to be molded, transmitting the component model via a data network to a determining, determining a casting mold model based on the component model by the determining unit, determining adjustment data for adjusting the adjustable molding box based on the casting mold model, such that the molding box is adjusted with a casting mold, which is indicative for a negative profile of the component, and the component is castable by the adjusted molding box.

8. Computer-readable storage medium, in which a program for casting a component by an adjustable molding box is stored, which program, when it is executed by a processor, has the following method steps: determining a casting mold model based on a component model, wherein the component model is indicative to the component to be molded, and the component model is transmittable via a data network, determining adjustment data for adjusting the adjustable molding box based on the casting mold model, such that the molding box is adjusted with a casting mold, which is indicative for a negative profile of the component, and the component is castable by the adjusted molding box.

9. Computer program for casting a component by an adjustable molding box, which, when the program is executed by a processor, is adapted to execute the method according to claim 7.

Description

SHORT DESCRIPTION OF THE DRAWINGS

[0039] In the following, embodiment examples are described in more detail for a further explanation and a better understanding of the present invention with reference to the appended drawings. In the drawings:

[0040] FIG. 1 shows a schematic representation of the system for casting a component by an adjustable molding box according to an exemplary embodiment of the present invention, and

[0041] FIG. 2 shows a schematic representation of a process diagram of a method for casting a component by an adjustable molding box according to an exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

[0042] Same or similar components in different figures are provided with the same reference numerals. The representations in the figures are schematic.

[0043] FIG. 1 shows a schematic representation of a system 100 for casting a component 105 by an adjustable molding box 104 according to an exemplary embodiment of the present invention. A generating unit 101 serves for generating a component model of the component 105 to be molded. A transmitting unit 103 serves for transmitting the component model to a determining unit 106 via a data network. The determining unit 106 serves for determining a casting mold model based on the component model. The determining unit 106 is configured such that adjustment data for adjusting the adjustable molding box 104 based on the casting mold model are generatable (or can be generated). A control unit 102 is coupled to the determining unit 106 such that the adjustment data are providable to the control unit 102, wherein the control unit 102 is configured such that the control unit 102 adjusts the molding box 104, based on the adjustment data, with a casting mold, which is indicative for a negative profile of the component 105, and the component 105 is castable by the adjustable molding box 104.

[0044] Hereby, the generating unit 101 is arranged spatially separate from the control unit 102 and/or the determining unit 106. The transmitting unit 103 couples the generating unit 101 to the determining unit 106. For example, a data transmission may be provided by the transmitting unit 103 via the Internet. The generating unit 101 is for example a computing unit, which is operable by a user and on which the component model of the component to be molded can be generated. For example, a CAD system, with which the component model can be constructed, is installed on the generating unit 101. Hereby, for example different boundary conditions, such as length, width and height, can be taken into account.

[0045] The determining unit 106 is coupled to the transmitting unit 103 and further to the control unit 102 and the adjustable molding box 104, such that the casting mold in the molding box is adjusted by the control unit using the generated casting mold model. Thereafter, the component 105 can be cast in a casting process by the casting mold. The component model can thus be generated by the generating unit 101 remotely from the determining unit 106 and/or the control unit 102, and can be processed at the distant determining unit 106 and/or control unit 102. The adjustable molding box 104 is arranged at the site of the control unit 102. In other words, a component model can be generated peripherally at a generating unit 101, and the component 105 can be cast centrally by an adjustable molding box 104. In particular, plural generating units 101 can be coupled to one and the same determining unit 106 and/or the control unit 102 via according transmitting units 103, such that a plurality of different component models, which have been generated at the site of the generating unit 101, are processed at one and the same site, at which the molding box 104 is arranged, and can be cast by the molding box 104.

[0046] FIG. 2 shows a schematic representation of a process diagram of a method for molding a component 105 by an adjustable molding box 104 according to an exemplary embodiment of the present invention. The individual method steps may be run (or effected) for example in the determining unit 106 and/or the control unit 102. Beforehand, the component model is generated in the generating unit 101 and is transmitted to the determining unit 106 by the transmitting unit 103.

[0047] The selection 201 of materials may be made for example in the determining unit 106 in a next step. This can be made possible for example via an input mask, which is operated by the user. For example, the user may operate the input mask via an internet portal.

[0048] Thereafter, the data of the component model are processed in step 202. Further, an oversize of the component can be defined in step 203. The definition 203 of the oversize may be effected for example also via the input mask in the determining unit 106. In particular, an oversize serves to define a desired later post-processing. The oversize can be effected in different dimensions, for example in the z-direction. In the method step 204, control commands for the adjustable molding box are generated by the control unit 102 based on the adjustment data of the casting mold model. The adjustable molding box 104 is adjusted by the adjustment data of the casting mold model.

[0049] Furthermore, in step 205, the fabrication time and/or the delivery time can be determined based on the inputted parameters, such as for example the geometric dimensions of the component, or the material composition. Furthermore, the determining unit 106 may exactly determine the delivery time based on the component parameters and based on the amount of orders for components to be fabricated. Thereafter, in step 206, the product data can be summarized and generated by the determining unit 106.

[0050] The component is fabricated and/or cast by the molding box 104, which is now adjusted. Thereafter, in step 208, the component 105 is delivered, and is billed (or brought to account) in step 209.

[0051] Supplementarily, it is to be noted, that having or comprising does not exclude other elements or steps, and that a or an does not exclude a plurality. Furthermore, it is noted that features or steps, which have been described with reference to one of the embodiment examples above, can also be used in combination with other features or steps of other embodiment examples described above. Reference numerals in the claims are not to be considered as a limitation.

LIST OF REFERENCE NUMERALS

[0052] 100 system [0053] 101 generating unit [0054] 102 control unit [0055] 103 transmitting unit [0056] 104 molding box [0057] 105 component [0058] 106 determining unit [0059] 201 selection of materials [0060] 202 data processing of the component model [0061] 203 definition of oversize [0062] 204 control data for molding box [0063] 205 determination of fabrication time/delivery time [0064] 206 generation product data [0065] 207 production/casting of the component [0066] 208 delivery of the component [0067] 209 billing