Coupling Attachment For Rotary Brushes

Abstract

Coupling attachment for rotating brushes. A coupling attachment for rotating brushes is described, which comprises a circular section piece configured by semi-circular enantiomeric pieces coupled together with male-female connection system that comprise hooks in their outer perimeter as temporary fixing means suitable for all kinds of brush bristles: bristles in the shape of filaments, bands, segments or fringes.

Claims

1. A coupling attachment for rotary brushes comprising a part with round section configured by non-superimposable mirror image parts coupled with a male-female coupling system, the non-superimposable mirror image parts having an external perimeter comprising hooks as a temporary securing system (8) for bristles.

2. The coupling attachment for rotary brushes according to claim 1 further comprising 56 hooks.

3. The coupling attachment for rotary brushes according to claim 1 wherein the male-female coupling system comprises a catch-anchoring feature.

4. The coupling attachment for rotary brushes according to claim 1 further comprising a keyseat.

5. The coupling attachment for rotary brushes according to claim 4 further comprising a removable key.

6. The coupling attachment for rotary brushes according to claim 1 further comprising recesses and protrusions to join the coupled non-superimposable mirror image parts to each other.

7. A brush formed by: a coupling attachment coupling attachment for rotary brushes comprising a part with round section configured by non-superimposable mirror image parts coupled with a male-female coupling system, the non-superimposable mirror image parts having an external perimeter comprising hooks as a temporary securing system for bristles; a comb comprising a support with holes and bristles joined to the support.

8. The brush formed by the coupling attachment according to claim 7 wherein the bristles are filaments.

9. The brush of claim 7 wherein the bristles are soft and include holes.

10. The brush according to claim 9 wherein the bristles further comprise bands having stripes.

11. The brush according to claim 10 wherein the bands define holes in their central part and adjacent bands are joined by parts that are introduced in the holes.

12. The brush according to claim 7 wherein the bristles are fabricated with a flocked material.

13. The brush according to claim 12 wherein the flocked material's thickness is 0.3-44 dtex and the flocked material's length is 0.3-5 millimetres.

14. The brush according to claim 7 being placed on a rotational shaft.

15. The coupling attachment according to claim 6 that comprises bristles temporarily joined and the coupling attachment is placed on a rotational shaft together with: a clamp formed by two of the non-superimposable mirror image parts which are semi-circular parts that comprise: holes suitable for a nut and a bolt, hitch protrusions to fit with the coupling attachment, hitch recesses to fit with the coupling attachment.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0021] FIG. 1 shows a non-superimposable mirror image semi-circular part comprising temporary securing means and male-female coupling means.

[0022] FIG. 2 shows two non-superimposable mirror image semi-circular parts in coupling process to form a round coupling attachment for brushes.

[0023] FIG. 3 shows the two coupling semi-circular parts joined and forming the round coupling attachment for brushes.

[0024] FIG. 3A shows the union of two coupling parts when they are joined with a detail of the point of union.

[0025] FIG. 4 shows the details of the different anchoring points of the coupling attachment.

[0026] FIG. 5A shows a textile band with two holes.

[0027] FIG. 5B shows a foam band.

[0028] FIG. 5C shows a textile band with a hole.

[0029] FIGS. 6 and 15 show two configurations of the band unions.

[0030] FIG. 7 shows a removable key and the corresponding groove.

[0031] FIG. 8 shows the coupling attachment and the brush coupled to it.

[0032] FIG. 9 shows details of the coupling attachments.

[0033] FIG. 10 shows the clamp for securing to the shaft.

[0034] FIG. 11 shows details of the coupling attachment and the clamp.

[0035] FIG. 12 shows the rotational shaft with the coupling attachment and the clamps.

[0036] FIG. 13 shows a comb comprising a support with holes and bristles.

[0037] FIG. 14 shows a union part for bands.

DETAILED DESCRIPTION OF THE INVENTION

[0038] The term bristles refers to proper bristles, filaments, bands or segments suitable for cleaning, brushing, shining, drying, polishing or scraping.

[0039] The term brush refers to a support with bristles.

[0040] The coupling attachment (4) described before is configured by two non-superimposable mirror image parts (1) joined together that couple to each other by a male-female connection system (2, 3) as shown in FIGS. 2, 3.

[0041] The male-female coupling system allows coupling and decoupling the non-superimposable mirror image parts (1) easily. The male-female connecting means are known to the skilled person: nut and bolt, clips, etc. Preferably, the connection system between the non-superimposable mirror image parts (1) is with a catch-anchoring system, as detailed in FIG. 3A.

[0042] The coupling attachment described allows replacing the coupling system without having to dismantle the rotational shaft and the system remains secured to the shaft with the catch-anchoring feature.

[0043] The non-superimposable mirror image parts (1) present around their perimeter area temporary securing means for the bristles, i.e., means that allow securing the bristles to the coupling attachment without using tools, securing them without pressure, without exerting force and manually. Preferably, the temporary securing means are hooks (8). FIG. 3 shows a non-superimposable mirror image part with 56 hooks suitable to secure bristles of different kinds and to increase the density in bristle number. Thus, the bristles may have filament shape (14) or band shape (6, 12). The skilled person in the field, depending on the application, may modify the number of hooks, but, in any case, the bristles' number fitted in the non-superimposable mirror image part is higher than those described in the state-of-the-art.

[0044] When the bristles are in the shape of filaments, they are secured to the coupling attachment by the use of a comb (15), as detailed in FIG. 13 and FIG. 8. The filaments' length may be between 200 and 600 millimetres.

[0045] The comb (15) is formed by a support (13) with holes (10) and by the filament-shaped bristles (14). The holes (10) are inserted in the hooks (8) and the brush is secured to the coupling attachment. The filaments' (14) fitting to the supports may be carried out by any method known by the skilled person, in a preferred way it is carried out by thermo-welding.

[0046] When the bristles are band-shaped (6, 12), they are joined to the coupling arrangement through the holes (10), according to FIG. 5A, 5B or 5C. The bands (6, 12) may be fabricated with a textile material (6) or with a foamed material (12) and may present stripes at their ends (11). The bands' dimensions may have a width between 80 and 200 millimetres and a length between 200 and 600 millimetres.

[0047] When the bristles are band-shaped (6), the band defines two holes (7) as detailed in FIG. 5A. The bands are joined to each other by the coupling of the parts (18) described in FIG. 6 or 15. The bands remain clamped by the part (18), through the securing features (5) described in FIG. 6 or 15, forming an eccentric round structure with respect to the coupling attachment. This configuration reduces the bristles' impact force with the objects to be washed and the generated noise.

[0048] Another possible configuration is when the band defines a hole (23) in its central area. The hole's (23) functionality is to couple the plastic part (24) described in FIG. 14 through a jigsaw-type connection (16), with two adjacent textile bands. This configuration also reduces the bristle's impact force with the objects to be washed and the generated noise.

[0049] As it can be seen, the described system allows replacement of faulty bristles without dismantling the rotational shank.

[0050] Depending on the use of the brushes, the skilled person may exchange and/or combine different bristle types without having to take the coupling attachment apart from the rotational shaft. The fitting means are compatible with any bristle type: natural filaments, synthetic filaments, bands, segments, textiles, paper, fibres, etc.

[0051] Another benefit of the described coupling attachment (4) is that it is suitable for any rotational shaft by just changing the part diameter.

[0052] The coupling attachment fitting to the rotational shaft may be carried out in two ways: [0053] using a keyed union, or [0054] through the fitting of two coupling parts with a joining protrusion.

[0055] The keyed union has the drawback that the rotational shaft must define a keyseat, thus not being a universal solution.

[0056] The described coupling attachment is indeed a universal solution that allows using the coupling attachment in any shaft, irrespectively of having a keyseat, forming a closed neck closure joined by the ends.

[0057] In the event that the rotational shaft has a keyseat, the coupling attachment comprises a removable key. FIG. 7 shows an embodiment that includes a keyseat (9) and a removable key (17). In the event that the rotational shaft has no keyseat, the removable key (17) is withdrawn.

[0058] The coupling parts (4) may be coupled to each other as shown in FIG. 12. To couple different parts, the coupling part defines protrusions (20, FIGS. 4, 8, 9) and recesses (19, FIGS. 4, 8, 9) for the successive coupling of the parts to a rotational shaft.

[0059] Despite the fact that the fitting of the coupling parts (4) to the rotational axis is optimal, this may be improved by adding clamps to the shaft ends, as shown in FIG. 12.

[0060] The clamp shown in FIG. 10 is formed by two non-superimposable mirror image semi-circular parts (27) which include protrusions for the hitch (21) and recesses for the other hitch (22) to the coupling parts (4). The clamp defines holes (26 and 25) suitable for nuts and bolts for joining the non-superimposable mirror image parts (27).

[0061] The clamp is coupled with the coupling parts (4) as detailed in FIG. 11 through the coupling: between the coupling part recesses (19) and the clamp protrusions (21) and between the coupling part protrusions (20) and the clamp recesses (22).

[0062] The coupling attachment may be made of any plastic material. The coupling attachment's diameter may be adjusted to the rotational shaft's diameter.

[0063] Preferably, the bristles are made of a flocked material.

[0064] The flocked material may be: [0065] a laminated substrate or bands in which the flocking is carried out; or [0066] flocked filaments

[0067] The substrate may be of any nature: woven or non woven. The substrate is covered with a resin at both sides and fibres of different thickness and width are deposited on the substrate. The fibres' thickness may be between 0.3 dtex and 44 dtex. The fibres' length may be between 0.3 and 20 mm. Finally, the flocked fabric is cured in an oven.

[0068] The flocked filaments may be obtained in a similar manner from a continuous polyester filament, acrylic filaments, viscose rayon or intimate mixtures of any of them.

[0069] Comparative studies using flocked and non-flocked fabrics were carried out. The band-shaped bristles' length used was 380 millimetres and the stripes had a width of 5 millimetres.

[0070] The materials used were:

Non-woven fabric
Flocked fabric
Non-woven fabric with EVA foam
EVA foam
Polyethylene foam

[0071] The previous materials were compared with the same flocked materials. The fibres' length of the flocked materials was between 0.3-20 millimetres and the fibres' thickness was between 0.3 dtex and 44 dtex.

[0072] The results obtained with the flocked fabrics were better than the results for the non-flocked materials, in particular: [0073] The water and neutral soap wash completely eliminated bird excrements and insect remains with the flocked textiles. [0074] After 100 washes with water, the flocked fabrics did not cause micro-scratches in the bodywork unlike the non-flocked fabrics. [0075] According to the subjective user's opinin, an increase in the bodywork's shine took place compared with the non-flocked fabrics. [0076] The noise during the washing process was reduced. The polyethylene fibres and other usual materials make through the washing a noise louder than 60 decibels, with the flocked material the generated noise was less than 60 decibels. [0077] The water amount in the washing was reduced. A washing cycle with non-flocked fabric used 150-200 water litres, whereas the flocked material described this amount was reduced in between 30-40%.

[0078] The claims detailed hereafter form part of the application and all embodiments are considered to be included in the patent.