COVERING DEVICE AND METHOD FOR COATING COMPONENTS

Abstract
A covering device for the coating of components via cold kinetic compaction or kinetic cold gas spraying, which can be used to cover a region which is not to be coated of a surface of the component which is to be coated. The covering device is profiled such that it encloses an acute angle with that region of the surface which is not to be coated. The particles of a coating material can be deflected from the component such that the particles do not adhere to the covering device.
Description
BACKGROUND AND SUMMARY OF THE INVENTION

The invention relates to a covering device for the coating of components via cold kinetic compaction and a method for coating components via cold kinetic compaction.


Coating components of a turbomachine via cold kinetic compaction or kinetic cold gas spraying is already known from practice, wherein, in this case, a coating is applied to a to-be-coated component in that particles of a coating material are directed at a to-be-coated surface of the component that is being coated with the aid of a carrier gas. In this connection, a flat coating of the surface of the component being coated is always being carried out.


Then, if only sections of a component are supposed to coated, i.e., if a region of the surface of the component being coated is supposed to be coated and another region of the surface of the component being coated is not supposed to be coated, the not-to-be-coated region of the surface of the to-be-coated component must be covered with the aid of a covering device. Covering devices, which can be used to cover the regions of the surface that are not to be coated, are already known for coating methods such as thermal spraying. These covering devices for thermal spraying that are known from the prior art are not suitable, however, for use when coating components via cold kinetic compaction. Thus, the covering devices known from practice would themselves be coated and had to be disposed of after the coating process.


Starting herefrom, the object of the present invention is creating a novel covering device for the coating of components via cold kinetic compaction or kinetic cold gas spraying and a method for coating components.


According to the invention, the covering device is profiled such that it encloses such an acute angle with that region of the surface which is to be covered by same and therefore is not to be coated, that particles of a coating material can be deflected from the component such that the particles do not adhere to the covering device.


The covering device according to the invention is suitable especially for the coating of sections of components via cold kinetic compaction or kinetic cold gas spraying. Thus, in the case of the covering device according to the invention, there is no danger that the covering device itself will be coated by the coating material. As a result, it is possible to use the covering device according to the invention as frequently as desired. This makes economical, sectional coating of components via cold kinetic compaction possible. As already mentioned, covering devices that have been adapted true-to-contour can be used multiple times.


Preferred further developments of the invention are disclosed in the following description. Without being limited hereto, exemplary embodiments of the invention will be explained in more detail on the basis of the drawings.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is first embodiment of a covering device according to the invention for the coating of components via cold kinetic compaction or kinetic cold gas spraying; and



FIG. 2 is a second embodiment of a covering device according to the invention for the coating of components via cold kinetic compaction or kinetic cold gas spraying.





DETAILED DESCRIPTION OF THE DRAWINGS

The present invention relates to the coating of components, particularly components of a gas turbine, via cold kinetic compaction or kinetic cold gas spraying.


In the case of cold kinetic compaction or kinetic cold gas spraying, particles of a coating material are applied to form the coating on the component with the aid of a carrier gas, namely on a to-be-coated surface of the component.



FIG. 1 shows a rough diagram of a component 10 to be coated via cold kinetic compaction or kinetic cold gas spraying, wherein the to-be-coated component 10 is supposed to be coated in a first region 11 of a surface and not to be coated in a second region 12 of the surface.


The region 12 of the surface of the component 10 that is not supposed to be coated can be covered with a covering device 13 according to the invention, wherein the inventive covering device 13 is profiled such that it encloses such an acute angle with that region 12 of the surface of the component which is to be covered by same and therefore is not to be coated, that particles of a coating material can be deflected from the component 10 such that the particles do not adhere to the covering device 13.


According to FIG. 1, to this end, the covering device 13 is profiled in a zigzag shape, wherein first sections 14 enclose a right angle with the not-to-be-coated region 12 of the surface of the component 10, and wherein second sections 15 of the covering device 13, which are respectively positioned between two adjacent first sections 14, enclose a smaller angle with the not-to-be-coated region 12 of the surface of the component 10, which is at least 30°, however. This makes it possible to guarantee that particles of a coating material, which are directed at the surface of the component 10 at a right angle, ricochet off the second sections 15 of the covering device 13 according to the invention and are thereby deflected from the component 10. Neither the not-to-be-coated region 12 of the surface of the component 11 nor the covering device 13 are coated in the process so that it is possible to use the covering device as frequently as desired.


In order to avoid damage to the covering device 13 from the high particle velocity during cold kinetic compaction, the covering device is fabricated of a hard material, e.g., of a metallic material or a hard plastic.



FIG. 2 shows the to-be-coated component 10 with a covering device 16 according to a second exemplary embodiment of the present invention, wherein the covering device 16 is profiled in turn in a zigzag shape just like the covering device 13. In the case of the covering device 16 in FIG. 2, the covering device has first sections 17, which enclose an angle of between 30° and 90° with the not-to-be-coated region 12 of the surface of the component. Second sections 18, which are positioned respectively between two adjacent first sections 17 of the covering device 13, enclose a smaller angle with the not-to-be-coated region 12 of the surface of the component 10, namely an angle of at least 30°.


This makes it possible to guarantee that depressions 19 of the covering device 16 according to the invention, which are configured between the first sections 17 and the second sections 18 of the covering device, are completely covered in the transport direction of the coating material during cold kinetic compaction so that no particles whatsoever of the coating material can reach the region of the depression 19. The depressions 19 are thus situated in a so-called “shadow of the spray” during cold kinetic compaction so that there is no danger whatsoever that the depressions 19 of the covering device 16 will be coated.

Claims
  • 1.-8. (canceled)
  • 9. A device for coating of a component via cold kinetic compaction or kinetic cold gas spraying, comprising: a covering device, wherein the covering device is profiled such that the covering device encloses an acute angle.
  • 10. The covering device according to claim 9, wherein the covering device is profiled in a zigzag shape.
  • 11. The covering device according to claim 9, wherein first sections of the covering device are disposed at a right angle with a surface of a component not to be coated and wherein second sections of the covering device, which are respectively positioned between two first sections, are disposed at an angle of at least 30° with the surface of the component not to be coated.
  • 12. The covering device according to claim 9, wherein first sections of the covering device are disposed between 30° and 90° with a surface of a component not to be coated and wherein second sections of the covering device, which are respectively positioned between two first sections, are dipsosed at an angle of at least 30° with the surface of the component not to be coated.
  • 13. The covering device according to claim 12, wherein depressions are formed between the first sections and the second sections.
  • 14. The covering device according to claim 9, wherein the covering device is formed of a metallic material.
  • 15. The covering device according to claim 9, wherein the covering device is formed of a hard plastic.
  • 16. A method for coating a component of a turbomachine, comprising the steps of: applying a coating material via cold kinetic compaction or kinetic cold gas spraying on a first surface of the component; andcovering a second surface of the component with a covering device, wherein the covering device is profiled such that the covering device encloses an acute angle.
Priority Claims (1)
Number Date Country Kind
10 2008 025 510.6 May 2008 DE national
Parent Case Info

This application claims the priority of International Application No. PCT/DE2009/000720, filed May 26, 2009, and German Patent Document No. 10 2008 025 510.6, filed May 28, 2008, the disclosures of which are expressly incorporated by reference herein.

PCT Information
Filing Document Filing Date Country Kind 371c Date
PCT/DE09/00720 5/26/2009 WO 00 11/23/2010