USE OF ELEMENTS FOR WRITING, DRAWING, MARKING, AND/OR PAINTING DEVICES, OR COSMETIC DEVICES, OR INPUT DEVICES

Abstract

The use of an element for a writing, drawing, marking, and/or painting device, or cosmetic device, or input device for touch-sensitive surfaces, wherein the at least one element is a 3D-printed element. The at least one element has at least one main body and at least one structure. The at least one main body consists of a first material component. The at least one structure is provided as a visually detectable structure and/or at least one structure formed as a haptic zone. The at least one visually detectable structure and/or at least one structure formed as a haptic zone is a raised structure which projects from the surface, or the at least one visually detectable structure and/or at least one structure formed as a haptic zone is a decorated zone of the surface.

Claims

1-7. (canceled)

8. An element for writing, drawing, marking and/or painting devices or cosmetic devices or input devices for touch-sensitive surfaces, wherein the element is a 3D-printed element that comprises: a main body; and at least one structure, wherein the main body consists of a first material component, wherein the at least one structure is provided as a visually detectable structure and/or as at least one structure formed as a haptic zone, wherein the at least one visually detectable structure and/or the at least one structure formed as a haptic zone is an indentation or recess in a surface of the main body, or wherein at least one visually detectable structure and/or the at least one structure formed as a haptic zone is a raised structure that projects from the surface of the main body, or wherein the at least one visually detectable structure and/or the least one structure formed as a haptic zone is a decorated region of the surface of the main body.

9. The element according to claim 8, wherein the raised structure and/or the decorated region is formed in one piece with the main body and the main body and the structure consist of the first material component.

10. The element according to claim 8, wherein the raised structure and/or the decorated region is formed from a second material component.

11. The element according to claim 10, wherein the second material component is configured differently in color and/or composition compared with the first material component of the main body.

12. The element according to claim 8, wherein the first material component is selected from the group consisting of: PLA, ABS, Nylon, rubber-like materials, resins and PP.

13. The element according to claim 10, wherein the second material component is selected from the group consisting of: PLA, ABS, Nylon, rubber-like materials, resins and PP.

14. A method for producing an element according to claim 1, comprising the steps of: Step 1: converting a 3-D geometry into an STL file; Step 2: transferring the STL file to a printer; Step 3: using software of the printer, positioning the geometry to be printed in an installation space of the printer; Step 4: fixing a support geometry; Step 5: fixing a position of the element to be printed; Step 6: specifying a resolution of the printer, depending on the geometry to be printed; Step 7: initiating printing; Step 8: removing the printed element from the installation space; and Step 9: manually removing the support geometry.

15. The element according to claim 14, wherein Step 7 includes printing with UV curing materials as printing media.

Description

[0021] The use of an element according to the invention is described in detail with reference to the following figures and preferred exemplary embodiments are shown are described.

[0022] FIG. 1: shows a plan view of an element intended for a use according to the invention.

[0023] FIG. 2: shows a longitudinal section through the element according to FIG. 1.

[0024] FIG. 3: shows a longitudinal section through a shaft element with raised structures made of a second material component.

[0025] FIG. 4: shows a shaft in longitudinal section with decorative elements, indentations and recess.

[0026] FIG. 1 shows a plan view of an element 10 for the use according to the invention in a writing, drawing, marking and/or painting device or cosmetic device or input device (1). The element 10 is here configured as a shaft element 11 as main body. Raised structures 101 are formed on the shaft element 11, which are formed in one piece with the shaft 11. The shaft 11 and the raised structures 101 are produced by means of 3D printing. In this embodiment, the element consists of a first material component. An individual design of surfaces is possible as a result of the 3D printing process. Variants in form and height of the raised structures are made possible and can easily be implemented. Individual configurations and/or motifs can be sent in digital form as so-called STL files to the 3D printer.

[0027] FIG. 2 shows a longitudinal section through the shaft 11 of FIG. 1. In FIG. 2 it can be clearly seen that shaft 11 and raised structures 101 are formed in one piece from the first material component. The element 10 has a thread 112 which forms a connecting member with another element.

[0028] FIG. 3 shows a shaft 11 as main body with raised structures 101 on the surface thereof, wherein the raised structures 101 are formed from a second material component. The second material component in this embodiment differs in color and composition from the first material component of the main body/shaft 11. The structure 101 can be formed either on the surface 111 or in an indentation 102 of the shaft 11.

[0029] FIG. 4 shows another embodiment of an element 10 in the form of a shaft 11 as main body. This shaft 11 has a recess/opening 104 and an indentation 102, wherein the indentation 102 is filled with a second material component. The filled indentation 102 terminates flat or flush with the surface 111 of the shaft 11 and thereby acts as a pure decoration or decorated region 103. The second material component is a rubber-elastic material so that in this design the decoration 103 acts as a haptic zone with a particular effect. A circumferential ring structure 105 is further shown in FIG. 4 formed from a second material component which differs in color and/or composition from the first material component of the shaft 11. Such ring structures 105 are particularly easy and simple to implement by means of 3D printing and appear on the finished product as a pure decoration of the surface even when these ring structures extend, for example, over the entire cross-section.

[0030] Here it should be noted that in FIGS. 1 to 4, for example a shaft has been selected as element for the use according to the invention. A representation/description on closure caps, clips, tubing plugs, grip zones, end stoppers and/or other elements of writing devices could also be accomplished.

[0031] The method for producing elements for the use according to the invention is described for example of scan LED technology (SLT). The following essential steps are listed here. [0032] Step 1: converting a 3-D geometry into a so-called STL file (=surface tessalation language) [0033] Step 2: transferring the STL file to a printer [0034] Step 3: software of the printer positions the geometry to be printed in the installation space of the printer [0035] Step 4: fixing the support geometry [0036] Step 5: fixing the positioning/position of the product to be printed [0037] Step 6: specifying the resolution of the printerdepending on the geometry to be printed [0038] Step 7: initiating the printing process, for example with so-called Fotomed materials (UV curing) as printing media [0039] Step 8: remove printed object from installation space [0040] Step 9: manual removal of the support geometry [0041] Step 10: possible manual removal of excess material

[0042] In addition to the said method of the scan LED process, the 3D printing can also be accomplished by other generative fabrication processes. For example, mention may be made of multijet modelling, selective laser sintering, polyjet technology, stereo-lithography, vacuum casting, or fused deposition modelling (FDM).

[0043] Various materials can be used for the 3D printing. For example, mention may be made of PLA, ABS, Nylon, rubber-like materials, resins and PP. For example, biocompatible materials can be used. Depending on the type of printer or the different 3D printing processes, there are material recommendations by the manufacturer and/or supplier.

REFERENCE LIST

[0044] 1 Writing, drawing, marking and/or painting device or cosmetic device or input device for touch-sensitive surfaces

[0045] 10 Element

[0046] 101 Raised structure

[0047] 102 Indentation

[0048] 103 Decorated region

[0049] 104 Recesses

[0050] 105 Ring structure

[0051] 11 Main body

[0052] 111 Surface

[0053] 112 Thread