CS260484B1 - Spacer for large spherical tracks, especially for surface mines - Google Patents

Abstract

The insert consists of a cylindrical shell cut inwards on both sides, in the middle of which a spherical plate is attached, to which at least one reinforcing plate is attached from the side. In the axis of the cylindrical shell, a hole is made in the circular plate and the reinforcing plate, in which a spacer ball is rotatably mounted.

Description

The invention relates to a spherical roller spacer, in particular for surface mining large-scale machines, and relates to an increase in the useful life of the spherical tracks.

To maintain a constant distance between adjacent balls of large-size spherical tracks, such as those used in surface mining large-scale machines, so-called cages are used, which provide a distance for 5 to 15 adjacent balls. The cages are either closed or open, that is, the racks, which can be removed without lifting the superstructure. The disadvantages of this solution are manifested by the imperfect geometry of the ballways by its higher load, which is quite frequent. This results in unequal rolling of individual balls or groups united by cages. Significant forces arise mainly between neighboring cages, which integrate the differential forces of adjacent balls and often cause the cage to be destroyed either firmly or stably. In addition, the cage consumes a significant portion of the useful space between the upper and lower segments of the spherical tracks.

These drawbacks are overcome by the spherical spacer of large spherical tracks, particularly in the case of the surface mines of the invention, which consists of an inwardly cut cylindrical shell. It is an object of the invention that a circular plate is fixed in the middle of the cylindrical shell to which at least one reinforcing plate is attached laterally. In the axis of the cylindrical shell, an opening is formed in the circular plate and the reinforcing plate, in which the spacer ball is rotatably mounted.

An advantage of the spacer according to the invention is that the shear friction of the balls against the cage is converted to rolling with the spacer ball. It is also an advantage of automatically centering the ball on a common junction of the centers of adjacent balls. Another advantage is to increase the useful gap between the top and bottom tracks and thereby increase the time utilization of the spherical track. Furthermore, it is an advantage to allow the differential forces to be equalized from the uneven rolling of each pair of adjacent balls at each pass through the relief point, thereby substantially reducing the forces between the balls.

The accompanying drawing shows an exemplary embodiment of a spacer according to the invention, in which FIG. 1 is a cross-sectional front view and FIG. 2 shows an alternative embodiment with two reinforcing plates.

The spacer according to the invention consists of an inwardly cut jacket 2 in the middle of which a circular plate 3 is attached in the middle of which a reinforcing plate 4 is attached laterally. In the axis of the cylindrical casing 2, a reinforcing plate 4 is formed an opening in which a spacer ball 1 is supported, on which the spheres 5 of the spherical track are supported from both sides. Alternatively, the reinforcing plates 4 are attached to the circular plate 3 from both sides.

According to this embodiment, the securing of the spacer ball 1 is best. The spacer ball 1 ensures a constant distance between adjacent spheres 5 of the ball track during operation. The axial position of the balls 5 is ensured by the trimmed cylindrical shell.

Claims (1)

Spacer of large spherical tracks, especially for surface mines, comprising an inwardly cut cylindrical casing, characterized in that a circular plate (3) is attached in the middle of the cylindrical casing (3) to which at least one reinforcing plate ( 4) and in the axis of the cylindrical shell (2), an opening is formed in the annular plate (3) and the reinforcing plate (4), in which the spacer ball (1j) is rotatably mounted.