EP2946882A1 - Impeller for feeding blast abrasive into a spinner gate - Google Patents

Abstract

The invention relates to an impeller for feeding blasting agent to be accelerated into the blast wheel (12) of a blasting machine (10), the impeller (14) being designed as a blade wheel rotatable about a longitudinal center axis and locatable in the central region of the blast wheel (12), the impeller (14) has one of several or all blades (13) formed, at least radially outwardly limited inner space (24) extending to a through the blades (13) formed feed end (20) with feed opening (20 a), by which the interior (24) originating from a blasting agent source blasting agent can be supplied. The invention is characterized in that, in cross section, the interior surface defined by the blades (13) is larger in at least one interior section than at the inlet end (20) formed by the blades.

Description

The invention relates to an impeller for feeding blasting agent to be accelerated in the blast wheel of a blasting system, wherein the impeller is designed as a blade wheel rotatable about a longitudinal central axis and can be arranged in the central region of the impeller, wherein the impeller formed by one of several or all blades, of these at least radially outwardly limited interior has, which extends up to a feed end formed by the blades with feed opening, through which the interior of a blasting medium source derived blasting agent can be fed. The invention further relates to a blasting device for the mechanical surface irradiation of workpieces with a blast wheel and such, in the central region arranged impeller.

With blasting machines equipped with blast wheels, surfaces of metallic rolled products are freed of scale and / or rust before the surface is given a protective coating by flinging a blasting medium consisting of fine metal particles against the surface.

In such a blast wheel, not all of the particles of the blasting medium, when exiting the impeller, move preferably tangentially and as far as possible parallel to the blades of the rotating blasting wheel to the outside. A considerable number of these particles strike the side windows and blades and bounce off comparable to a ping-pong ball, which does not only have a negative effect on the exit speed of the blasting agent from the blast wheel, but also leads to an uneven distribution of the blasting agent on the surface to be cleaned. The impact of the abrasive particles on the parts of the impeller also subject to heavy wear.

Also a strong wear by the blasting agent is subject to the impeller.

The object of the invention is to reduce the abrasion caused by the blasting agent of the impeller and at the same time to produce a spray pattern with uniform coverage over the entire ejection angle of the blasting agent from the blast wheel with approximately parallel side boundary.

This object is achieved in that the blades of the impeller of the type mentioned are formed so that in cross-section each of the vanes limited interior surface in at least one (other) interior section is greater than at the formed by the blades, in particular in the region of an axial End of the impeller arranged feed end.

The feed port at the feed end forms part of the interior space formed by the blades by forming the axial end of this interior space. Accordingly, at least a portion of the formed interior space is widened compared to the inlet opening of the interior formed by the blades. Surprisingly, it has been shown that as a result of the wear of the impeller is significantly reduced.

According to an important embodiment of the invention, the individual blades are arranged on at least one side pane of the impeller.

The blades are furthermore preferably distributed with a certain, in particular in each case identical, angular distance from each other over the side window.

They are regularly arranged in each case radially standing, ie pointing in cross section in a radial direction. Expediently, they can furthermore each extend perpendicularly to the side window in the axial direction and in this case run in different planes positioned at an angle to each other, each extending parallel to the longitudinal central axis.

The blades of the impeller preferably each have at least in the region in which they define the interior, via a free, radially inwardly arranged blade end. These radially inwardly arranged blade ends of the blades then bound together radially outside the regularly around the longitudinal center axis rotationally symmetrical interior formed. In cross section, the free blade ends are arranged distributed along a common circle.

However, the blade ends surrounding the interior radially on the outside expediently do not form a closed boundary surface, but in each case adjacent blade ends are arranged at a distance from one another.

Accordingly, in the circumferential direction of the impeller between each between two of the radially inner blade ends or between two adjacent blades regularly in each case a free space or it is formed in each case a channel can pass through the blasting agent from radially inward to radially outward.

In a longitudinal section of the interior according to the invention preferably between two imaginary, radially spaced, formed by the corresponding radially inwardly arranged blade ends or limited contour lines positioned. Both contour lines extend at least in a portion of the inner space from the feed end or from the feed opening of the feed end in the direction of an opposite axial impeller end. Furthermore, the contour lines run radially further outward in at least one section than at their respective end point at the feed end.

The interior can be formed by appropriate design of the blades further such that the aforementioned contour lines in the aforementioned longitudinal section each have at least one curved portion which extends radially outward than the end point of the respective contour line at the feed end or at the feed opening of the feed end.

As an alternative or in addition, it is also conceivable for the interior to be shaped in such a way that the contour lines each have at least two rectilinear sections, namely via a first section extending from radially further inward to radially further outward and another, in particular directly adjacent thereto , from radially further outward to radially further inwardly extending portion, wherein the radial further inside radially further outwardly extending portion is arranged closer to the feed end than the further, from radially further outward to radially further inside extending portion.

As the person skilled in the art realizes, various forms or contours are conceivable for the formation of the interior through appropriate design of the blades or the free, radially inwardly arranged blade ends. It is crucial that at least one point of the interior or in at least one section is a widening of the interior with respect to its extension at the feed end, i. ultimately an increase in the cross-sectional area.

Fig. 1

einen Ausschnitt einer Strahlanlage mit erfindungsgemäßem Impeller im Längsschnitt.

Further features of the present invention will become apparent from the appended claims, the following description of a preferred embodiment, and from the following drawings. It shows:

Fig. 1

a section of a blasting machine with inventive impeller in longitudinal section.

The blasting device 10 for mechanical surface irradiation of workpieces has a blast wheel 12 which can be set in rapid rotation along a central axis by means of a motor 11.

In the central area of the spinner wheel 12, an auxiliary spinner wheel, which is designed as a paddle wheel, i. an impeller 14 is arranged. This is also set in rotation during operation of the jet device 10. The use of auxiliary centrifugal wheels or impellers in connection with blast machines having blast wheels is well known in the art.

The impeller 14 is seated in a likewise known, stationary dispensing sleeve 16 with discharge opening.

An inlet pipe 18 opens into an inlet end 20 of the impeller arranged at an axial impeller end. Via the inlet pipe 18, a presently circular feed opening 20a of the feed end 20 is supplied from the outside blasting agents such as quartz sand or steel shot.

The individual blades 13 of the impeller 14 accelerate in the operation of the blasting machine the blasting agent supplied to this radially outward. The part of the blasting medium whose trajectory caused by the impeller has suitable directional components exits from an unillustrated upper or radial opening of the dispensing sleeve 16 and is thrown into the area of the blades of the impeller 12.

The accelerated by the impeller 14, later emerging from the discharge of the metering sleeve 16 blasting agent moves even before it enters the impeller on a circular path, so that the blasting agent leaving the discharge passes in a spiral orbit in the blast wheel, creating an excessive Impact of the blasting agent on the blades of the impeller 12 is substantially prevented.

The individual blades 13 of the impeller 14 are - this is only slightly recognizable in the drawing - arranged radially on a side plate 22 of the impeller 14. In any case, in the present exemplary embodiment, they extend in different (non-curved) planes which run parallel to the axial direction or parallel to the longitudinal central axis. But that does not have to be this way. The planes can basically also be curved.

The blades 13 of the impeller bound in an area radially inside an interior space 24, in particular a cavity, or they include this. More specifically, the inner space 24 is formed or bounded by radially inwardly arranged free blade ends 25 of the blades 13.

The inner space 24 extends axially as far as the feed opening 20a of the feed end 20 also formed by the radially inner blade ends 25. The feed opening 20 is therefore part of the inner space 24 and forms the axial end thereof.

In the present embodiment, the feed end 20 and the feed opening 20a also forms one of the two axial (lateral) terminations or ends of the impeller 14. However, this need not be so. Because in the present case only one side window 22 is provided for the impeller 14. It is also conceivable, of course, as in the illustrated impeller 12 to use two axially spaced side windows, between which the individual blades 13 of the impeller 14 are arranged. For this case, the side end plate associated with the feed end 20 would then form the axial impeller termination. In this side window could / should be arranged for this case then a central opening through which the blasting agent would be supplied to the feed end 20 formed by the impeller blades 13 and the feed opening 20a.

The interior 24 of the impeller 14 is formed with respect to the longitudinal center axis or the axis of rotation of the impeller 14 otherwise rotationally symmetrical. The same applies to the impeller 14 itself.

The interior 24 in the present case has a kind of barrel shape, wherein the interior 24 is widened in sections in the direction of the side window 22 or in the direction of the feed end 20 opposite axial end of the impeller 14. This is such that, based on a cross-sectional view, the interior cross-sectional area in at least a portion of the interior 14 is greater than the cross-sectional area of the interior 14 at the inlet end 20, that is, the cross-sectional area of the inlet opening 20a.

In the present example, the radial diameter of the inner space 14, for example in the region of the double arrow 26, is greater than that of the feed opening 20a of the inner space 14. Surprisingly, it has been found that a minimization of the wear of the impeller 14 is achieved by such a widening of the inner space 24.

In the Fig. 1 In the longitudinal section illustration shown, an upper contour line 28a and a lower contour line 28b can be seen. These contour lines 28a, 28b are formed by the free ends 25 of the blades 13. In cross-section (not shown), the free blades 13 and the free blade ends 25 are arranged along a circle.

The upper contour line 28a and the lower contour line 28b are curved in sections. Furthermore, at least a portion of the contour line 28a and the contour line 28b are each arranged radially further outward than the end point 30a or 30b of the contour line 28a or 28b at the feed end 20 or at the feed opening 20a. For example, in each case that section in which the double arrow 26 is located.

Incidentally, the interior 24 is also partially bounded by the blades 13 in an axial direction, for example in the sections 32a, 32b which form part sections of the contour lines 28a, 28b.

Of course, the blades 13 of the impeller 14 need not be configured as shown in the present embodiment. Rather, it is decisive that the blades 13 define a shape of the inner space 24, which leads to the fact that the inner space 24 is widened at least in a section opposite its design at the feed end 20.

LIST OF REFERENCE NUMBERS

10

ray device

11

engine

12

blower

13

impeller blades

14

impeller

16

distribution sleeve

18

supply pipe

20

feed end

20a

feed opening

22

side window

24

inner space

25

blade ends

26

double arrow

28a

upper contour line

28b

lower contour line

30a

endpoint

30b

endpoint

32a

section

32b

section

Claims (6)

Impeller for feeding accelerating blasting into the blast wheel (12) of a blasting machine (10), wherein the impeller (14) formed as a paddle wheel rotatable about a longitudinal central axis and in the central region of the impeller (12) can be arranged, wherein the impeller (14) via one of several or all blades (13) formed by these at least radially outwardly limited interior space (24) which extends to a through the blades (13) formed feed end (20) with feed opening (20a) through which the interior (24) blasting agent originating from a blasting agent source can be supplied, characterized in that in cross-section by the vanes (13) each limited interior surface in at least one interior portion is greater than at the inlet end formed by the blades (20). An impeller according to claim 1, characterized in that the inner space (24) is arranged in longitudinal section between two imaginary, radially spaced, contoured lines (28a, 28b) formed by the blades, both contour lines (28a, 28b) starting from the feed end (28). 20) extend in the direction of a, in particular opposite, axial end of the impeller (14), and wherein the contour lines (28a, 28b) extend radially further outwards in at least one section than at the respective end point (30a, 30b) of the contour lines (28a , 28b) at the feed end (20). Impeller according to Claim 2, characterized in that the contour lines (28a, 28b) formed by the blades (13) each have at least two rectilinear sections, namely via a first section extending from radially further inward to radially further outward and a further, in particular directly adjacent to this, from radially further outward to radially further inwardly extending portion, wherein the radially further inwardly radially outwardly extending portion closer to the feed end (20) is arranged as the further, from radially further outward to radially further inside Section. An impeller according to claim 2 or 3, characterized in that the contour lines (28a, 28b) each have at least one curved portion which is arranged radially further out than the end point of the respective contour line (28a, 28b) at the feed end (20). Impeller according to one or more of the further claims, characterized in that the blades (13) at least partially limit the interior space (24) axially. A blasting device for the mechanical surface irradiation of workpieces, comprising a blast wheel (12) and an impeller (14) arranged in its central region according to one or more of the preceding claims.

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