CS272021B1 - Shovel for cleaning shops' machines' spinning wheel - Google Patents

Abstract

The impeller of a sandblasting machine has a number of curved blades (L) which are mounted on the impeller disc (Z). Each blade has an inlet angle (B) inclined with respect to a radius (R1) in a direction opposite to the impeller rotation. Each blade has an outlet angle (C) inclined with respect to a radius (R2) in the direction of rotation of the impeller. The profile of the blade (F) is defined by a curve which touches a succession of imaginary plane surfaces with each surface inclined at an angle of between 0 and 8 degrees with adjacent surfaces and each surface increasing progressively in length from the inner edge (K) to the outer edge (O). USE - Sandblasting.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a blade of a blasting wheel of sewage treatment machines.

Currently, the blades of the sweeping wheels of the sewage machines are formed by a planar functional surface, possibly concave curved in the form of a cylindrical surface, which is tangential to the radial at the inner edge or inclined against the direction of rotation of the sweeping wheel by 20 to 35 °. Most of the known solutions are limited to determining boundary conditions at the inlet and outlet edges of the blade. The shape of the section curve of the functional area of the blade, except for the straight line and part of the circle, is not determined.

The disadvantage of these scoop blades of sewage treatment machines is the higher wear from the accelerated detergent and the higher energy consumption to accelerate it.

These drawbacks are overcome by the sewage wheel sweep of the sewage machines clamped in the sweep wheel clamp and positioned outside the metering wheel connected coaxially to the chuck, wherein a baffle flange coupled to the sweep wheel cover is disposed between the metering wheel and the blade wheel. the inlet edges form an inlet angle of 20 to 35 ° with the radial of the inlet edge of the blade against the direction of rotation of the chuck. SUMMARY OF THE INVENTION The functional surface of the blade consists of an inscribed envelope of elemental faces situated from the inlet edge to the outlet edge, forming a constant angle greater than zero degrees and less than 8 ° relative to each other. Each successive element face is longer from the entry edge to the exit edge. The number of elemental faces is greater than five. The element face at the exit edge of the vane forms an exit angle greater than zero with the exit edge radial of the vane in the direction of rotation of the chuck. The inlet edge of the blade function surface is in front of the outlet edge of the blade function surface in the direction of rotation of the chuck.

Advantages of the blades of the sweep wheel of the cleaning machines according to the invention are the reduction of blade wear from the accelerated cleaning agent, the reduction of the blade dimensions and the reduction of energy consumption during operation.

An exemplary embodiment of a sweep wheel of a sewage treatment plant according to the invention is shown in the drawings, wherein FIG. 1 is a partial view of the sweep wheel clamp with the arrow direction indicated, with the blade fixed in cross section perpendicular to the sweep wheel axis. 2 shows a section T from the functional surface of the blade, in cross section shown in FIG. 1.

As can be seen from the drawings, the scrubbing wheel 11 of the sewage wheel of the sewing machines is clamped in the clamping disc Z and positioned outside the dosing wheel D connected coaxially to the clamping disc Z. D metering wheel D and fastened to the wheel cover.

A rectangular opening is formed in the rectifier flange U in the width of the functional surface P of the blade L. In the metering wheel D, cut-outs E are formed equal to the number of blades L. The blade L is provided with a functional surface F. situated from the inlet edge K to the outlet edge 0, the elemental flats P form a constant angle A with each other greater than zero degrees and less than 8 °. Each element face P 3e extends from the leading edge K to the leading edge 0 longer. The inlet edge surface K of the paddle L forms an inlet angle B with the radial inlet edge radial of the blade R 1, which runs from the center of rotation S of the sweeping wheel and passes through the inlet edge K opposite the direction of rotation of the clamping disc Z. The elemental surface P at the outlet edge 50 closes with an outlet angle C greater than zero degrees with the radial of the outlet edge of the blade R 2 drawn from the center of rotation S of the sweep wheel and passing through the outlet edge 0 in the direction of rotation of the clamping disc Z. The leading edge K of the functional surface P of the blade L is functional in front of the leading edge 0

CS 272021 B1 of the blade surface F in the direction of rotation of the clamping disc Z.

The function of the blade L of the sewage wheel of the sewage machines is as follows. When the clamping disc Z with the blade L and the metering wheel D in the direction of the arrow are rotated, a portion of the cleaning agent is carried in the cutout E of the metering wheel D. Through a rectangular hole in the deflector flange U, the detergent dose is dispensed and then soldered above the inlet edge K of the functional surface F of the blade I ». The detergent dose by moving on the functional surface F of the blade L increases its speed due to rotation and at the outlet edge 0 of the blade L flies out of the blade L at maximum speed.

The invention can be. in the following specific embodiment the functional surface F, the blade I ». At the inlet edge K of the blade L, the elemental surface P is inclined against the direction of rotation of the clamping disk 2 from the radial (stand-up? Blades γ, 1 '). from the previous element P in the direction of rotation of the clamping disc Z by a constant angle of 4. The number of element P is 9. Each element P is from the inlet edge K to the outlet edge O of the blades L longer by two percent of length. The functional surface g of the paddle L is an inscribed envelope of the elemental pads P. This achieves that the inlet edge K is in front of the outlet edge 0 of the functional surface F of the paddle L in the direction of rotation of the clamping disc _Z and the vanes L grip with the radial of the outlet edge of the vanes 52 in the direction of rotation clamping disk 2 0 sentence output angle other than zero degrees.

Claims (1)

SUBJECT OF THE INVENTION The scrubber wheel of the sewage machines, clamped in the scrubber wheel and positioned outside the metering wheel connected coaxially to the clamping wheel, wherein a deflector flange connected to the metering wheel housing is disposed between the metering wheel and the scoop wheel; with the radial of the inlet edge of the blade an inlet angle 20 to 35 ⁹ opposite to the direction of rotation of the clamping disk, characterized in that the functional surface (P) of the blade (L) is formed by an inscribed envelope of elemental faces (Ρ) (0), forming a constant angle ()) of each other greater than zero degrees and less than 8 °, each successive elemental face (P) being longer from the inlet edge (K) to the outlet edge (0), and the number of elemental faces (0) P) is greater than five, where the elemental surface (P) at the exit edge (0) of the blade (L) grips with the radial output edge of the blade (R 2) in the direction of rotation of the chuck (Z), the output angle (C) is greater than zero degrees, with the inlet edge (K) of the functional surface (F) of the blade (L) ahead the operating surface (F) of the blade (L) in the direction of rotation of the clamping disc (Z).