DE3935801A1 - Blade for impeller of sand-blasting machine - incorporates blade profile defined by special curve - 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

The invention relates to a blade of a centrifugal wheel Blasting machine.

The blades of a blast wheel of shot blasting machines are hitherto through a flat functional surface, possibly through a cylindrical concave functional surface is formed, which is tangent to the inner edge of the radial line or inclined against the direction of rotation of the centrifugal wheel by 20 ° to 35 ° is. The majority of known solutions are limited to that Establishing the boundary conditions at the entry and exit edge of the shovel. The design of the curve of the cut of the Functional area of the bucket is with the exception of the straight line and the circular line part not determined.

The disadvantage of these blades of blasting wheels from Strahlma machine is too much wear due to the accelerated Abrasive and in too high an energy consumption for it Acceleration.

The invention overcomes these disadvantages. It is the job of Invention to design the blades so that wear and energy consumption are reduced.  

The invention relates to a blade of the centrifugal wheel Blasting machine, which in the clamping disc of the slingshot wheel clamped and aligned outside the dosing wheel which is connected to the clamping disc at the same axis, being between the dosage level and the clamping plate an orientation flange is accommodated with the shovel is connected to the cover of the centrifugal wheel, the Functional area of the blade at the leading edge with the radial line of the blade leading edge an entry angle of 20 ° to 35 ° against the direction of rotation of the clamping plate includes.

The essence of the invention is that the functional surface the shovel through the inscribed envelope of the elementary surfaces is formed, which from the leading edge to the exit edge are located and a constant angle to each other close that is greater than zero and less than 8 °. Each following elementary surface is in the direction from the leading edge longer to the trailing edge. The number of elementary areas is greater than five. The elementary surface at the trailing edge of the Blade closes with the radial line of the blade leading edge an exit angle in the direction of the rotation of the clamping plate one that is greater than zero. The leading edge of the functional surface the shovel is located at the front in front of the radio's trailing edge tion surface of the blade in the direction of rotation of the clamping disc.

The advantage of this blade of the blast wheel of a jet machine ne according to the invention lies in the reduction of wear the blades through the accelerated abrasive, in the min change in blade dimensions and in the reduction of Energy consumption in operation.

The essence of the invention is based on one in the Drawing schematically illustrated embodiment of the  Blade of the blasting wheel of the blasting machines explained in more detail. Show it:

Fig. 1 is a partial view of the face plate of the impeller with the direction indicated by the arrow revolution Rich processing and to the fixed blade in a perpendicular to the axis of rotation of the centrifugal wheel out section,

Fig. 2 shows the part T from the blade functional area in the section designated in Fig. 1.

The blade L of the centrifugal wheel of the blasting machine is clamped in the clamping plate Z and aligned outside the Dosierungsra des D , which is connected to the clamping plate Z with the same axis. Between the clamping plate Z with the blade L and the dosing wheel D, the orientation flange U is accommodated coaxially with the dosing wheel D and is fixed to the cover of the centrifugal wheel. In the orientation flange U , a rectangular opening in the width of the functional surface F of the blade L is formed. In the dosing wheel D , the cutouts E are formed, the number of which is the same as the number of blades L. The blade L is provided with the functional surface F , which is formed by the inscribed envelope of the elementary surfaces P , which are located in the leading edge K to the trailing edge O. The elementary surfaces P mutually include a constant angle A , which is greater than zero and less than 8 °. Each elementary surface P is longer in the direction from the leading edge K to the trailing edge O. The elementary surface P encloses the entry angle B at the entry edge K of the blade L with the radial line R 1 of the blade entry edge, which is guided by the center of rotation S of the centrifugal wheel and passes through the entry edge K against the direction of rotation of the clamping disk Z. The number of elementary areas P is greater than five. The elementary surface P includes at the trailing edge O with the radial line R 2 of the blade trailing edge, which is guided from the center of rotation S of the centrifugal wheel and passes through the trailing edge O in the direction of the rotation of the clamping plate Z , the exit angle C , which is greater than zero . The leading edge K of the functional surface F of the blade L is located in front of the leading edge O of the functional surface F of the blade L in the direction of the rotation of the clamping plate Z.

The function of the blade L of the blast wheel of the jet machines is as follows:

During rotation of the chuck plate with Z L of the blade and at the same time the dosing wheel in the direction of arrow D in the detail E of the metering wheel, a dose D of the jet is entrained by means of. The dose of the blasting agent flies out through the rectangular opening in the orientation flange U over the trailing edge O of the functional surface F of the blade L. The abrasive dose increases due to the movement on the functional surface F of the blade L by the rotational influence of its speed and flies on the trailing edge O of the blade L at maximum speed out of the blade L.

According to the invention, the functional surface F of the blade L is specifically designed:

On the leading edge K of the blade L , the elementary surface P is inclined against the direction of rotation of the clamping plate Z from the radial line R 1 of the blade leading edge by the entry angle 20 °. Each further elementary surface P from the leading edge K to the trailing edge O is inclined from the above element surface P in the direction of rotation of the clamping plate Z by a constant angle 4 °. The number of elementary areas P is nine. Each elementary surface P is longer from the above elementary surfaces P in the direction from the leading edge K to the trailing edge O of the blade L by two percent of the length of the projecting elementary surface P. The functional surface F of the blade L is the inscribed envelope of the elementary surfaces P. This ensures that the leading edge K is in front of the trailing edge O of the functional surface F of the blade L in the direction of rotation of the clamping plate Z and the elementary surface P on the trailing edge O of the blade L with the radial line R 2 of the blade trailing edge in the direction of rotation of the clamping plate Z includes a larger exit angle C than zero degrees.

The functional area is through the inscribed envelope of the elementary surfaces formed by the inner edge the outside edge of the shovel and a constantwin include mutually greater than zero and less than Is 8 °. Each subsequent elementary surface is in the direction of that Inner edge to outer edge longer. The number of elementary areas is greater than five. The elementary surface at the trailing edge the blade closes with the radial line of the blade leading edge an exit winch in the direction of the rotation of the clamping plate angle that is greater than zero. The leading edge of the functional The surface of the bucket is in front of the trailing edge the functional area of the blade in the direction of rotation of the Clamping plate.  

List of reference numerals:

S rotation center
R 1 radial line of the blade leading edge
R 2 radial line of the blade leading edge
L shovel
F functional surface
K leading edge
O trailing edge
D dosage wheel
E neckline
U orientation flange
Z clamping plate
P elementary surface
T part of the functional area
A constant angle
B entry angle
C exit angle

Claims (1)

Blade of a blast wheel of blasting machines, which is clamped in the clamping disc of the blast wheel and is aligned outside the metering wheel, which is connected coaxially with the clamping disc, an orientation flange being located between the metering wheel and the clamping disc with the blade, which is connected to the cover of the centrifugal wheel is, the functional surface of the blade at the leading edge with the radial line of the blade leading edge enclosing the entry angle 20 ° to 35 ° against the direction of rotation of the clamping disk, characterized in that
that the functional surface ( F ) of the blade ( L ) is formed by the inscribed envelope of the elementary surfaces ( P ) which are located from the leading edge ( K ) to the trailing edge ( O ) and mutually enclose the constant angle ( A ), the larger is as zero and less than 8 °,
that each subsequent elementary surface ( P ) in the direction from a leading edge ( K ) to the trailing edge ( O ) is longer and the number of elementary surfaces ( P ) is greater than five, and
that the elementary surface ( P ) at the exit edge ( O ) of the blade ( L ) with the radial line ( R 2 ) of the blade exit edge in the direction of rotation of the clamping plate ( Z ) includes the exit angle ( C ) which is greater than zero,
wherein the leading edge ( K ) of the functional surface ( F ) of the blade ( L ) lies at the front in front of the trailing edge ( O ) of the functional surface ( F ) of the blade ( L ) in the direction of the rotation of the clamping plate ( Z ).