RU14017U1 - SURFACE CLEANING DEVICE - Google Patents

Abstract

A device for cleaning the surface, comprising a cylindrical body mounted on the shaft, the circumference of which in conical guides, the axes of which are perpendicular to the axis of the shaft, shock elements are installed with the possibility of radial movement, made in the form of balls, characterized in that the body is equipped with cylindrical mounted on its periphery shells, at the ends of which are conical guides with shock elements, while the cylindrical shells are equipped with elastic elements and percussion elements to conical guides.

Description

Surface Cleaner

The utility model relates to the field of cleaning surfaces of parts and, in particular, can be used to clean the outer surfaces of steel pipes before applying anti-corrosion coatings and thermal insulation to them.

A device for cleaning the surface is known, comprising a cylindrical body mounted on the shaft, the circumference of which on the axes parallel to the axis of the shaft, shock elements are installed with the possibility of radial movement and the cleaning pile elements are located between them, with each impact element being a comb, a first tooth which in the direction of rotation of the housing is truncated in a plane perpendicular to the plane of the comb. The device has shock absorbers rigidly fixed in the housing on axes parallel to the shaft axis, between the bristles and shock elements in the direction of rotation of the housing (Copyright certificate for the invention No. 1174097, 08 V 1/04, dated January 30, 1984).

A disadvantage of the known device is a loose uneven surface after processing, which reduces the adhesion of the coating to the surface.

It is known and accepted as a prototype a device for cleaning the surface, containing a cylindrical body mounted on the shaft, around which in conical guides whose axes are perpendicular to the axis of the shaft, shock elements with the possibility of radial movement, made in the form of balls, are installed (Schneider Yu.G. Tool for finishing metal forming by pressure. L .: Mashinostroenie, 1970. - 248 p.).

The disadvantages of the known device are the difficulty of regulating the degree of surface cleaning and obtaining optimal roughness; its low durability, since the balls move freely in conical guides and subject them to periodic shock loads, which leads to rapid wear of the guides; the high cost of manufacture due to the implementation of conical guides directly in the device case, since their implementation requires special technological equipment.

The purpose of the utility model is to simplify the regulation of the degree of surface cleaning, increase the durability of the device and reduce the cost of its manufacture.

at 08 to 1/04

in the proposed device for cleaning the surface, comprising a cylindrical body mounted on the shaft, according to O 1 of which in conical guides whose axes are perpendicular to the axis of the shaft, shock elements with the possibility of radial movement, made in the form of balls, are installed; this goal is achieved by the fact that the housing is equipped with cylindrical shells mounted on its periphery, at the ends of which conical guides with shock elements are located, while the cylindrical shells are equipped with elastic elements pressing the shock elements to the conical guides.

In fig. 1 shows a general view of the device, on RNS.2 - section aa according to fig. 1.

The surface cleaning device comprises a cylindrical body 2 mounted on the shaft 1, around the circumference of which in the conical guides 3 are installed shock elements 4 with the possibility of radial movement, made in the form of balls. The housing 2 is equipped with cylindrical shells 5 mounted on its periphery. At the ends of the shells 5 there are conical guides 3 with impact elements 4. The cylindrical shells 5 are provided with elastic elements 6 made, for example, in the form of rubber cylinders. The elastic elements 6 press the impact elements 4 to the surfaces of the guides 3. The elements 6 are held in the shells 5, for example, spring rings 7 and washers 8.

The device operates as follows.

When the shaft 1 is rotated (the drive is not shown conditionally), the cylindrical body 2 also rotates with cylindrical shells 5. At the same time, the body 2 is mounted relative to the surface being machined so that the shells 5 do not touch it when the case rotates and the balls 4 come into contact with it. Impact elements 4 under the action of centrifugal force and elastic elements 6 are pressed to the surfaces of the conical guides 3. When the balls 4 collide with the treated surface, their kinetic energy is converted into impact energy, destroying the adjacent layer of rust, scale, coating. However, by the action of impact, the balls 4 bounce to the center of rotation, but the elastic elements 6 prevent this by absorbing shock loads on the housing 2 and bushings 5. Due to the presence of elastic elements 6, the shock loads on the housing 2 and bushings 5 are reduced, their wear is reduced and durability is increased.

Due to the presence of cylindrical shells 5, the manufacturing of the device is simplified: it is quite simple to manufacture shells on metal-cutting machines and mount them on the housing. When the conical guides 3 are worn, the cylindrical shells are replaced with new ones, while the casing 2 remains, which reduces the cost of operating the device and its repair.

By adjusting the force of the elastic preload - “items 6” - the force of their impact on the impact elements 4 (which is achieved by changing the thickness of the washers 8), it is possible to change the impact force and the effectiveness of the impact on the work surface. By combining the rotational speed of the casing 2 and the preload force of the elements 6, the optimum effect of the elements 4 on the surface being machined is achieved — such a roughness of the surface being treated is obtained when the adhesion of the coating applied to it reaches its maximum value. The latter achievement is especially important when applied to pipes intended for conveying a heat carrier, thermal insulation, for example, in the form of a polyurethane foam layer,

When exposed to spherical 4 and the treated surface, not only its cleaning, but also hardening occurs, thereby increasing the durability of the treated surface and, therefore, the product as a whole. Corrosion of the treated surface is reduced, and its durable fatigue r increases.

Claims (1)

A device for cleaning the surface, comprising a cylindrical body mounted on the shaft, the circumference of which in conical guides, the axes of which are perpendicular to the axis of the shaft, shock elements are installed with the possibility of radial movement, made in the form of balls, characterized in that the body is equipped with cylindrical mounted on its periphery shells, at the ends of which are conical guides with shock elements, while the cylindrical shells are equipped with elastic elements and percussion elements to conical guides.