ROTARY BRUSH ASSEMBLY

Abstract

A brush assembly comprises a support rotatable about an axis and an annular brush essentially consisting of a brush band and an array of bristles connected thereto and projecting radially therefrom. The brush band and the bristle array extending on the support obliquely to a perpendicular to the axis of the support. Thus a longitudinal extension of the band and also the bristle array are connected to the support extending at an angle to the axis deviating from a perpendicular orientation with respect to the axis of the support.

Claims

1. A brush assembly comprises: a support rotatable about an axis; and an annular brush essentially consisting of a brush band and an array of bristles connected thereto and projecting radially therefrom, the brush band and the bristle array extending on the support obliquely to a perpendicular to the axis of the support.

2. The brush assembly according to claim 1, wherein the longitudinal extension of the brush band and the axis of the support form an acute angle of about 60″ to less than 90°.

3. The brush assembly according to claim the brush band is wound in more than one turn about the axis of the support and is fixed to the support.

4. The brush assembly according to claim 3, wherein the brush band if wound around the support in a helix centered on the axis.

5. The brush assembly according to claim 4, wherein the brush band wound is wound at a uniform angle helically around the axis of the support with bristles of the array extending generally radially of the axis.

6. The brush assembly according to claim 4, wherein the support is formed with a radially outwardly open groove holding the brush band.

7. The brush assembly according to claim 6, wherein the brush band fits snugly without play in the groove.

8. The brush assembly according to claim 6, wherein the groove has walls extending from a cylindrical outer surface of the support.

9. The brush assembly according to claim 1, wherein the brush band is fixed at least at points to the support.

10. The brush assembly according to claim 9, wherein the connection of the brush band to the support is mechanical and/or adhesive.

11. The brush assembly according to claim 1, wherein the brush band is a plastic textile strip fixed to the support.

12. The brush assembly according to claim 2, further comprising: a stop engaged into the rotating bristle array.

13. A rotary brush tool having a housing, a drive and a brush assembly as defined in claim 1.

14. A method of working a surface of a workpiece with a brush assembly according to claim 1, where the bristle array of the ring brush extends obliquely to the axis on the support and engages the surface at successively offset locations.

15. The method according to claim 14, wherein individual impingement zones of each turn of the bush band overlap at edges. 16. A rotary brush assembly comprising: a support drum rotatable about an axis and having an outer surface centered on the axis; a band wrapped helically around the drum at a pitch between 60° and 90°; means securing the band to the surface of the drum; and an array of bristles fixed in and projecting radially from the band. 17. The brush assembly according to claim 16, the assembly defined in claim 1, wherein each bristle is formed by one leg of a two-shaped strand having two legs each forming a respective bristle and a bight extending between radial inner ends of the respective bristles and lying between the band and the outer surface.

Description

BRIEF DESCRIPTION OF THE DRAWING

[0020] The above and other objects, features, and advantages will become more readily apparent from the following description, reference being made to the accompanying drawing in which:

[0021] FIG. 1 is a perspective view of the brush assembly according to the invention in a perspective view together with a rotary brush tool;

[0022] FIG. 2 is a detail view of the support according to the invention;

[0023] FIG. 3 is a side view of the support during the processing of a surface of a workpiece and the staggered rotative impingement of the relevant surface provided according to the invention; and

[0024] FIG. 4 is a detail view showing how two bristled are anchored.

SPECIFIC DESCRIPTION OF THE INVENTION

[0025] As seen in FIG. 1 a rotary brush tool has a machine housing 1 and a drive 2 for a brush assembly 3 accommodated within it. The brush assembly 3 has a drum support 4 rotatable about an axis A. The support 4 is cylindrical and shown in detail in FIG. 2.

[0026] Furthermore as shown in FIG. 2, an annular brush 5, 6 essentially consists of a flexible brush band 5 and an array 7 of bristles 6 connected to and projecting radially outwardly therefrom. Particularly in the schematic side view in accordance with FIG. 4 one can see how the individual bristles 6 are anchored in the brush band 5. The individual bristles 6 can be legs of a U-shaped strand and inserted through respective pairs of mounting holes 5a in the brush band 5.

[0027] According to the invention, the assembly is made in such a way that a longitudinal extension L of the brush band 5 indicated in FIGS. 2 and 3 and thus also of the bristle array 7 extends on the support 4 at a pitch n angle to its axis A, obliquely to a plane perpendicular to the axis A of the support 4. In fact, in this embodiment and in accordance with FIGS. 2 and 3, an acute pitch angle a is formed between the longitudinal extension L of the brush band 5 on the one hand and the central rotation axis A of the support 4 on the other. In accordance with this embodiment, the acute angle a in question lies within a range of about 70° to 85° and is in any case less than 90°. In most cases, the angle a in the range of about 85° is used here, which of course is only an example.

[0028] Due to this inclination of the brush band 5 and thus also of the bristle array 7 or the bristles 6 projecting outward from the brush band 5 with respect to axis A of the support 4, the surface 9 of a workpiece shown in FIG. 3 is rotatively impinged in a staggering manner. This can best be seen in FIG. 3.

[0029] If one assumes at this point—fictitiously—that the brush band 5 and the bristles 6 connected to it and thus also the bristle array 7 as a whole describe a disk, then the disk in question moves on rotation of the support 4 around its axis A in a rotation indicated in FIG. 3 around its own rotational axis R. Due to the rotation of the support 4 and the inclined position of the disk, the associated and fictitious rotational axis R now undergoes a change of direction indicated in FIG. 3. In the end, a precession or staggering movement of the assumed disk is observed that manifests itself on the basis of the different orientations of the rotational axis R of the assumed disk.

[0030] This staggering movement and the associated staggering rotative impingement of the surface 9 of the workpiece by the ring brush 5, 6 now has the consequence that each bristle 6 not only impinges the relevant surface 9 of the workpiece in a point-specific manner during its rotation, but rather passes over an axially extended machining zone B on the surface 9 of the workpiece as indicated in FIG. 3.

[0031] Since the bristles 6 are usually formed as shown in FIG. 4 from a U-shaped strand and consequently are at a slight spacing from one another, this results in the surface 9 of the workpiece in question no longer being impinged as in prior art by the individual bristles 6 practically in a straight line or on circles lying planes perpendicular to the axis A, but rather the individual machining zones B of the bristles 6 run at a small acute angle to such planes and thus overlap each other and overall provide for a particularly homogeneous roughness profile on the surface 9 of the workpiece being surface treated. This type of result and roughness profile has not yet been observed.

[0032] The brush band 5 is now not only guided around the support 4 in one turn, but in more than one turn around the axis A of the support 4 that it is connected to. In fact, the brush band 5 forms a helix surrounding the support 4. Overall, the design is such that the helical brush band 5 centered on the axis A of support 4 has a constant pitch, i.e. the angle a indicated in FIG. 2 between the longitudinal extension L of the brush band 5 and the axis A of the support 4 is the same along its full length. It is therefore a uniform helix of constant pitch in which the brush band 4 extends around the relevant axis A.

[0033] In addition, the design is made in such a way that the brush band 4 essentially engages laterally without play in a helical groove 10 formed in the support outer surface as shown in FIG. 2. The groove 10 is delimited by helical walls 11 projecting from a cylindrical outer support floor of the groove 10. Overall, the support 4 together with the groove 10 and the groove walls 11 defining the groove 10 is a plastic part and preferably a plastic injection-molded part. The groove 10 and the groove walls 11 can also be printed via 3D printing. It is also conceivable to machine the groove 10 as well as the groove walls 11, for example, by milling a cylindrical plastic part.

[0034] The brush band 5 is at least connected to the support 4 at at least one point. The punctual connection can be established mechanically and/or by an adhesive. In addition, the brush band 4 is usually a fabric tape made in particular from polyamide yarns or filaments. In addition, a stop 12 positioned in the rotating bristle array 7 (only indicated in FIG. 1) and is mounted on a wall 13 of the rotary brush tool shown there or its machine housing 1.

[0035] As the support 4 rotates around its axis A without moving axially, although that is not required, it comes into the described staggered rotative impingement with the surface 9 of the associated workpiece already mentioned. In addition, each individual bristle 6 or each turn of the brush band 4 on the surface 9 of the workpiece processes the axially extended machining zone B already mentioned, as shown in FIG. 3. This results is an overlap of the individual machining zones B and the fact that the surface 9 is provided with a particularly homogeneous roughness profile. In accordance with this embodiment, the individual bristles 6 are made of steel. In principle, of course, other materials such as for example plastic or combinations are also conceivable.