RU2552747C1 - Device and method of surface cleaning - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: cleaning device contains cylindrical casing installed on the shaft, along its circumference on the axles parallel to the shaft axis the impact elements are installed with possibility of radial movement due to longitudinal slot made in them. The impact elements are made in form of hexagon with sides elongated along the longitudinal axis of the slot, and are installed with possibility of rotation relatively to the axis ensuring the impulse impact force by the work zones. Between the impact elements the separating washers are installed. Using the supports prior to surface treatment the necessary distance is set between the cleaned surface and axle of the impact elements securing. Then shaft with impact elements is put into rotation. The first work zones of the impact elements in the contact zone with the cleaned surface make impacts against the cleaned surface. Then the impact elements freely rotate on the axle making next impacts by the second work zone due to the kinetic energy of the impact element.

EFFECT: increased efficiency and capacity of the surface cleaning.

3 cl, 4 dwg

Description

The invention relates to surface treatment, can be used for cleaning surfaces such as asphalt, metal, concrete, etc., and is a device and method for cleaning the surface.

In the prior art (SU 1498564 A1), a surface cleaning device is known in which the cones on the rods of the cone grinding tool are mounted obliquely with the possibility of changing the angle of inclination mirror-like with respect to the previous position due to the installation of cones between the oblique washers. The cones on each rod are installed in blocks with an equal number of cones in the block, and the blocks are tilted specularly to each other.

The disadvantage of this technical solution is the possibility of using this device on a small range of surfaces and insufficient quality of cleaning.

The document SU 1326349 A2 is also known from the prior art, which discloses a surface cleaning device which comprises a cylindrical body mounted on a shaft, on the circumference of which shock elements are mounted with axes parallel to the axis of the shaft with the possibility of radial movement. Each impact element is a comb, the apex of the first tooth and the last tooth of which is truncated in a plane perpendicular to the plane of the comb.

The disadvantage of this technical solution is the possibility of using this device on a small range of surfaces and insufficient quality of cleaning.

The closest analogue of the claimed invention is the document US 190910595 A, which discloses a surface cleaning device comprising a cylindrical body mounted on a shaft, on the circumference of which on the axes parallel to the axis of the shaft, shock elements are mounted with the possibility of radial movement due to the longitudinal groove made in the latter.

The disadvantage of the closest analogue is the lack of effectiveness of surface cleaning.

Another disadvantage of the analogue is that the shock elements constantly touch each other, are blocked relative to each other due to the formation of ice or moisture on them, thereby impairing the effectiveness of surface cleaning.

Thus, the technical result, to which each of the independent claims of the proposed claims is directed, is to increase the efficiency and productivity of surface cleaning.

Another technical result is the ability to clean using the claimed device more options for surfaces, such as asphalt, concrete, metal, etc.

The claimed device comprises a cylindrical housing mounted on the shaft, on the circumference of which, on the axes parallel to the axis of the shaft, shock elements are installed with the possibility of radial movement, between which separation washers are placed. Impact elements are made in the form of hexagons with sides elongated along the longitudinal axis of the groove and are mounted with the possibility of rotation around its axis to provide impulse impact force with working ends.

The claimed method consists in the fact that when using the above device using supports before surface treatment, the necessary distance between the surface being cleaned and the axis of fastening of the shock elements is set, then the shaft with the shock elements is rotated. In this case, the first working areas of the shock elements in the area of contact with the surface being cleaned produce impact effects on the surface being cleaned, after which the shock elements freely rotate on the axis, causing the next impact action by the second working zone, due to the kinetic energy of the shock element itself.

Moreover, each of the shock elements does not interfere with the operation of another neighboring impact element, which increases the efficiency of surface cleaning.

The implementation of the shock elements in the form of hexagons increases the efficiency of surface cleaning, since the working areas are made as the angle of the hexagon, in contrast to the analogue in which they are rounded.

In this case, the impact force of both working zones depends on the rotation speed of the cylindrical body and the mass of the shock element. Impact elements with both working zones inflict impulse impacts over the entire surface being cleaned, making it clean.

Further, in more detail, the claimed technical device is disclosed in the accompanying drawings, in which:

In FIG. 1-3 - the device for surface cleaning declared in independent clause 1 is shown, side view at various points of impact of the sides of the shock element on the surface being cleaned.

In FIG. 4 is a section AA in FIG. 2.

The device comprises a cylindrical housing (2) mounted on the shaft (1), along the circumference of which on the axes (3) parallel to the axis of the shaft (1), shock elements (4) are installed, between which separation washers (5) are placed. Impact elements (4) have a longitudinal groove (6) for their radial movement and have the ability to freely rotate around the axes (3). Impact elements are made in the form of hexagons with sides elongated along the longitudinal axis of the groove with working zones (7) and (8).

Along the edges of the cylindrical body (2) on the traverse (9), height-adjustable supports (10) are installed, connected by an adjustment mechanism (11).

The claimed device for cleaning the surface is as follows.

Before surface treatment with the help of supports (10), the necessary distance between the surface being cleaned and the axis of fastening of the shock elements (4) is established, which provides the necessary impact force and allows you to clean various surfaces of various shapes. Then, the shaft with the shock elements (4) in the form of hexagons is brought into rotation. In this case, the working areas (7) of the impact elements (4) in the contact zone with the surface to be cleaned will produce impact on the surface to be cleaned by zone (7), after which, due to the rebound force, the impact elements (4) freely rotate on the axis (3), causing the next impact by the working area (8), due to the kinetic energy of the element itself (4). In this case, one impact element (4) is not jammed relative to another, since separation washers (5) are installed between them.

In this case, the impact force of the working areas (7) and (8) will depend on the rotation speed of the cylindrical body (2) and the mass of the impact element (4). Impact elements (4) by working zones (7) and (8) inflict impulse impacts over the entire surface being cleaned, cleaning it.

The proposed device and method of surface cleaning can increase the variability of the surfaces being cleaned, while improving the quality of surface cleaning.

The proposed technical solution can be used for cleaning surfaces of various shapes.

Claims (3)

1. A device for cleaning the surface, comprising a cylindrical body mounted on the shaft, along the circumference of which, on axes parallel to the axis of the shaft, shock elements are mounted with the possibility of radial movement due to a longitudinal groove made in the latter, characterized in that the shock elements are made in the form of hexagons with the sides stretched along the longitudinal axis of the groove and are mounted with the possibility of rotation around the axis with providing impulse impact force by the working areas, while between the shock elements are placed separating washers. 2. The device for cleaning the surface according to claim 1, characterized in that the housing is equipped with height-adjustable supports. 3. The method of cleaning the surface, characterized in that it uses the device according to claims 1 and 2, consists in the fact that using the supports before processing the surface, the necessary distance is established between the surface being cleaned and the axis of fastening of the shock elements, then the shaft with the shock elements is rotated. wherein the first working areas of the shock elements in the contact zone with the surface being cleaned produce impacts on the surface to be cleaned, after which the shock elements freely rotate on the axis, causing the following the impact force of the second working zone due to the kinetic energy of the impactor.

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