ROLE FOR A WASH BUCKET

The Innovation concerns a role for a washing bucket.

Such Rollers are tile wash boards as a component of a Expulsion device for, of a washing bucket, a sponge board and a roller, [...] used from.

After the insertion of the joints is washed the tiler for removing cement remainders the tiling with a sponge board ab. This sponge surface is the by the Receiving the cement remainders necessarily severely polluted. To cement veilsponge surface to this again from the remove, the tiler sponge board in a washing bucket dips the with water and presses sponge board on the roll of the.

This the water located in the sponge is pressed out from the sponge and the cement contained therein or the sealant contained therein are collected in the water of the tiles- wash bucket.

A such as a hollow body formed above a role for stripping a sponge board Wash bucket, with an axle or stub shafts rotatable in bearings at or on the edge of a clear width spans wash bucket is stored and, dE is known, for example, from 35 02,307 C2 known.

The Innovation is based on the problem, a particularly stable roller to offer, at the same time provide an improved water drain behavior has.

This Problem is solved by the features protection 1. Advantageous Embodiments are in the dependent claims 2-6 described.

The would innovation-in accordance with-eat role for scraping the filter above a washing bucket sponge board, with an axle or stub shafts rotatable in bearings at or on the Is mounted and whose inside width spans wash bucket edge of a, is as a hollow body a profiled circumferential surface faces and formed with a plurality of slot-like passage openings on. In the roll interior is arranged in the radial direction at least one Support Element present.

By the slot-like Passage Openings the polluted water can, by the expressions of the sponge board on the roll is pressed out from the sponge, quickly and largely unhindered by the designed as a hollow body Role in the wash bucket flow. It comes at no undesirable lateral overflow or dripping.

The in the roll interior disposed support member in the radial direction a deflection roller constructed as a hollow body as it prevents the expressing procedure. Such a preventing the deflection increases the stability of the roller. This will, on the one hand, to the material of the roller acting plastic Deformations reduced, which increases the life of the roller, for other will be improved the stripping, since the sponge board over its entire width on the roll rests.

In a favorable manner, the support element in the central region of the roll, since this usually most for deflection is prone.

After an advantageous embodiment of the Innovation is the support element disc-shaped. This leads to a particularly strong support characteristics with simultaneous low influencing the through flow of the polluted water by the role.

After another advantageous embodiment, on the casing surface a intersecting network of axially extending longitudinal webs and in the circumferential direction transverse webs extending present. By the webs of the stripping is supports. At the same time increase the webs the stability of the Role in addition.

In another advantageous embodiment, extends in each case a through opening in the Substantially over the entire between the longitudinal and transverse struts lie region of the outer surface. By the arrangement is it possible, the through-openings form relatively large, what has the advantage that the polluted water almost unimpeded drain can. The necessary Stability, in particular against deflection, receives the role at the same time by the at least one support element in the Roll interior and by the longitudinal and transverse struts on the casing surface.

In one especially advantageous embodiment is located the Support Element in the roll interior at the level a cross member. This is supported on the one hand, the transverse strut, what this a higher Stability tempt. Secondly the region of the slot-like passage openings is, by the enters the polluted water, not by in this area in the roll interior lying internals blocked. This the can Water particularly quiet and undisturbed flow off.

Even it is possible, at the level each of the cross beams in the roll interior a support element, in particular a disc-shaped Support Element, to be mounted. This the stability is the entire role corresponding to increased.

In another advantageous embodiment, the roll of Half-shells, in particular of synthetic shells, with plug-in, Press or latching connections constructed.

The Mounting of the roller can be effected both by a continuous roll axis and by axle stub, each composed of metal or plastic can be made, arrival.

Of course, also would innovation-in accordance with-eat or two or more would innovation-in accordance with-eat and conventional Roles are combined.

The Innovation is with reference to an embodiment design figures further explained in the. It show:

1 a perspective view of a first half shell of the roller with viewing direction into the role inside

2 a perspective view from the first half-shell 1 with Direction of observation of the outer circumferential surface

3 a perspective view of a second half-shell of the roll with viewing direction into the role inside

4 a perspective view of the second half-shell from 3 with Direction of observation of the outer circumferential surface

1 shows a perspective view of a first half shell 1 of the Role role inside with viewing direction in the. In the roll interior are 2 arranged more support members, extending in radial directions are formed and disc-shaped. The slot-like Passage openings 3 are on the jacket surface arranged. The first half-shell 1 has a number of Pin 4 on, for connection with the further half-shell serve. At one end of the first half-shell 1 is located a stub axle 5, in a corresponding bearing of an wash bucket (not shown) can be rotatably mounted. At the ends of the first half-shell 1 is closed by covers 6, so that no water can escape from the role there.

2 shows a perspective view of the first half shell 1 from 1 with Viewing direction onto the outer lateral surface. On the jacket surface are axially extending longitudinal webs 7 and circumferentially extending transverse webs 8 present. Between the Longitudinal webs 7 and Transverse webs are slot-like passage openings 3 present 8, extending substantially the entire between the longitudinal webs 7 and Transverse webs extend 8 lie region of the outer surface. The supporting elements 2 are in the roll interior at the level the transverse webs 8.

3 shows a perspective view of a second half-shell 9 of the Role role inside with viewing direction in the. In the roll interior are a plurality of receiving slots 10 present, into which the supporting elements 2 (in 3 not represented) inserted can be. The slot-like Passage openings 3 are on the jacket surface arranged. The second half-shell 9 has a number of Bores 11 on, to receive the pin 4 of the first half shell 1 and thus serve a compound of the two half-shells produce into a roll. At one end of the second half-shell 9 is located a further axle stub 5. At the ends of the second half-shell 6 is closed by covers 9, so that no water can escape from the role there.

4 shows a perspective view of the second half-shell 9 from 3 with Viewing direction onto the outer lateral surface. On the jacket surface longitudinal webs 7 and are Transverse webs 8 present. 7 and 8 are transverse webs between the longitudinal webs slot-like Passage openings 3 present, extending substantially the entire between the longitudinal webs 7 and Transverse webs extend 8 lie region of the outer surface.

1

first Half-Shell

2

Support Element

3

Passage Opening

4

Pin

5

Axle Stub

6

Lid

7

Longitudinal Web

8

Transverse Web

9

second Half-Shell

10

Receiving Slot

11

Bore