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FOAMING TOOL

20200254682 ยท 2020-08-13

Assignee

Inventors

Cpc classification

International classification

Abstract

A foaming tool for processing foamable plastic particles, having at least one region that forms at least one portion of a cavity, at least one part of a surface structure of the region that forms the cavity being produced by an additive manufacturing method.

Claims

1. A foaming tool for processing foamable plastics particles, comprising at least one region that forms at least one portion of a cavity, wherein at least one part of a surface structure of the region forming the cavity is produced using an additive method.

2. The foaming tool according to claim 1, wherein the at least one part of the surface structure is produced using laser melting and/or binder jetting and/or electron-beam melting and/or fused deposition modelling and/or laser metal deposition.

3. The foaming tool according to claim 1, wherein the at least one part of the surface structure is produced from an in particular powdered construction material that can be solidified by an energy beam, using successive layered selective exposure, and associated successive layered selective solidification of construction material layers.

4. The foaming tool according to claim 1, wherein the at least one part is designed as an insert which is or can be placed into a corresponding recess.

5. The foaming tool according to claim 1, wherein the at least one part of the surface structure is produced directly together with the production of the foaming tool or is produced retrospectively.

6. The foaming tool according to claim 1, wherein at least a part of a surface structure of the region forming the cavity is formed separately from the foaming tool and can be or is connected to the region.

7. The foaming tool according to claim 1, wherein the at least one part of the surface structure is applied retrospectively to an existing component, or an existing surface structure is supplemented by the at least one part.

8. The foaming tool according to claim 1, wherein at least one item of information relating to the at least one part of the surface structure can be generated using CAD or using at least one machine parameter.

9. The foaming tool according to claim 1, wherein the at least one part of the surface structure is finished using an abrasive method and/or laser ablation and/or a chemical or electrical smoothing method and/or a compressing or microshaping method.

10. The foaming tool according to claim 1, wherein the at least one part comprises at least two sub-regions having different surface structures.

11. The foaming tool according to claim 1, wherein the surface structure forms at least one elevation and/or at least one depression in the surface of the foaming tool, or comprises an elevation and/or depression of this kind.

12. The foaming tool according to claim 1, wherein the at least one part comprises a surface structure such that a product produced using the foaming tool can be provided with at least one item of information during production.

13. A method for producing a foaming tool according to claim 1, comprising at least one region that forms at least one portion of a cavity.

14. The method according to claim 13, wherein the at least one part of the surface structure is produced from an in particular powdered construction material that can be solidified by an energy beam, using successive layered selective exposure, and associated successive layered selective solidification of construction material layers.

15. The method according to claim 13, wherein the at least one part of the surface structure is applied retrospectively to an existing component, or an existing surface structure is supplemented by the at least one part.

Description

[0031] The invention will be explained in greater detail in the following, on the basis of embodiments and with reference to the drawings. The drawings are schematic views, in which:

[0032] FIG. 1 shows a foaming tool according to the invention according to a first embodiment;

[0033] FIG. 2 is the section II-II of the foaming tool according to the invention from FIG. 1;

[0034] FIG. 3 shows a foaming tool according to the invention according to a second embodiment; and

[0035] FIG. 4 shows a foaming tool according to the invention according to a third embodiment.

[0036] FIG. 1 shows a foaming tool 1 for processing foamable or prefoamed plastics particles. The foaming tool 1 comprises a region 2 that forms a portion of a cavity 3 or defines the cavity 3. According to the first embodiment shown in FIG. 1, the region 2 forming the cavity 3 comprises a part 4 having a surface structure 5 that is produced by means of an additive method. According to this embodiment, the surface structure 5 is produced by means of laser melting, wherein the surface structure 5 is produced from an in particular powdered construction material that can be solidified by an energy beam, by means of successive layered selective exposure, and associated successive layered selective solidification of construction material layers. Of course, all other additive production methods can be used for producing the foaming tool 1.

[0037] In the embodiment of the foaming tool 1 shown in FIG. 1, the surface structure 5 can be produced directly, together with the production of the remainder of the foaming tool 1. An alternative separate production of the surface structure is shown for example in the second embodiment, with reference to FIG. 3.

[0038] The surface structure 5 comprises a plurality of elevations 6 and a plurality of depressions 7 which are produced by means of the additive production method.

[0039] Furthermore, the surface structure 5 comprises two sub-regions 8, 9, wherein the surface structure 5 is shaped differently in the two sub-regions 8, 9. The two sub-regions 8, 9 accordingly have a differently designed surface structure 5.

[0040] The region II-II from FIG. 1 is shown enlarged in FIG. 2. It is clear that the surface structure 5 is formed by alternately arranged elevations 6 and depressions 7. It is furthermore clear that the surface structure 5 comprises channels 10 that are close to the surface and through which for example a working fluid can be conveyed, in order to control the temperature of the molded part. The arrangement of the channels 10 close to the surface is made possible by the use of the additive production method, wherein this would not be achievable by means of conventional production methods.

[0041] FIG. 3 shows a foaming tool 11 according to a second embodiment. The foaming tool 11 comprises a region 12 that forms a portion of a cavity 13. The region 12 comprises a part 14 having a surface structure 15 that is produced by means of an additive production method. The surface structure 15 likewise comprises elevations 6 and depressions 7.

[0042] The part 14 is designed as an insert and is inserted into a corresponding recess 16 in the foaming tool 11. Of course, the part 14 is detachable and can therefore be removed from the foaming tool 11. As a result, different inserts can be received in the recess 16, and therefore different surface structures 15 can be introduced into the foaming tool 11, or the part 14 can be exchanged.

[0043] FIG. 4 shows a foaming tool 17 according to a third embodiment. The foaming tool 17 comprises a region 19 that forms a portion of a cavity 18, which region comprises at least a part 20 of a surface structure 21. In this case, the part 20 of the surface structure 21 is produced by an additive method. Therefore, the foaming tool 17 according to the embodiment shown in FIG. 4 comprises three sub-regions 22 to 24, wherein the surface structure 21 in the sub-regions 22 and 24 is the same, and differs from the part 20 of the surface structure 21 in the sub-region 23. In other words, the surface structure 21 in the sub-regions 22 and 24 differs from the surface structure 21 in the region 24.

[0044] The surface structure 21 in the sub-regions 22 and 24 was produced together with the remainder of the foaming tool 17, directly during production thereof. The part 20 of the surface structure 21 in the sub-region 23 was applied retrospectively by means of an additive method. In other words, the surface structure 21 was supplemented by the sub-region 23.

[0045] Of course, the individual designs that are shown in the individual embodiments can be combined with one another as desired. In particular, any of the embodiments shown can be provided with channels 10. It is likewise also possible to divide the individual surface structures 5, 15, 21 as desired into sub-regions or to form these directly together with the individual foaming tools 1, 11, 17 or retrospectively and/or separately therefrom, for example as inserts.

LIST OF REFERENCE SIGNS

[0046] 1 foaming tool [0047] 2 region [0048] 3 cavity [0049] 4 part [0050] 5 surface structure [0051] 6 elevation [0052] 7 depression [0053] 8 sub-region [0054] 9 sub-region [0055] 10 channel [0056] 11 foaming tool [0057] 12 region [0058] 13 cavity [0059] 14 part [0060] 15 surface structure [0061] 16 recess [0062] 17 foaming tool [0063] 18 cavity [0064] 19 region [0065] 20 part [0066] 21 surface structure [0067] 22 sub-region [0068] 23 sub-region [0069] 24 sub-region