The present disclosure relates generally to centrifugal blast wheel machines, and more particularly to blades for a centrifugal blast wheel machine and to methods of maintaining a centrifugal blast wheel machine.
Centrifugal blast wheel machines generally include a rotatable hub to which is mounted a disk or a pair of spaced disks which carry radially extending blades. Particulate matter is discharged from a center of the wheel disk onto rotating surfaces of the blades, which propel the particulate matter against surfaces of a work piece to be cleaned or treated. Specifically, blast media is fed from a feed spout into a rotating impeller situated within a control cage at the center of the blast wheel. The media is fed from the impeller, through an opening in a control cage and onto leading edges of the rotating blades. The media travels along top surfaces of the blades and is thrown from trailing edges of the blades at the work piece surfaces to be treated.
Operating and properly maintaining a blast wheel can incur multiple ongoing expenses. For example, a cost associated with supplying blast media is one such expense. Another example is a cost associated with maintaining the blast wheel by replacing blades that have become worn down.
One embodiment of the disclosure is directed to a centrifugal blast wheel machine comprising a housing and a wheel assembly coupled to the housing. The wheel assembly has a plurality of blades configured to throw blast media introduced into the wheel assembly against a work piece. Each blade of the plurality of blades includes a curved portion positioned adjacent a central hub of the wheel assembly, and a straight portion integrally formed with the curved portion extending radially outwardly from the wheel assembly.
According to certain embodiments of the centrifugal blast wheel machine, each blade of the plurality of blades may have a first edge proximate the curved portion, and a second edge proximate the straight portion. According to certain embodiments of the centrifugal blast wheel machine, the first edge and the second edge may form an angle of between 105° and 145°. According to certain embodiments of the centrifugal blast wheel machine, the first edge and the second edge may form an angle of between 120° and 130°. According to certain embodiments of the centrifugal blast wheel machine, the curved portion may extend approximately one half a length of each blade.
Another aspect of the present disclosure is directed to a centrifugal blast wheel machine comprising a housing, and a wheel assembly coupled to the housing. The wheel assembly includes a first wheel disk with a first side and a first plurality of grooves in the first side and a plurality of blades configured to throw blast media introduced into the wheel assembly against a work piece. Each blade includes a first side rail extending along the blade, the first side rail having a first recess, and a first grommet positioned in the first recess. Each groove is configured to receive a corresponding blade of the plurality of blades. The corresponding blade is secured in place through a compression fit between the first side of the first wheel disk and the first grommet of the corresponding blade.
According to certain embodiments of the centrifugal blast wheel machine, the first side rail may be tapered to aid in creating the compression fit. According to certain embodiments of the centrifugal blast wheel machine, each of the blades further may comprise a second side rail extending along the blade, the second side rail being opposite the first side rail. According to certain embodiments of the centrifugal blast wheel machine, the second side rail may comprise a second recess and a second grommet positioned in the second recess. According to certain embodiments of the centrifugal blast wheel machine, the wheel assembly further may include a second wheel disk having a second side and a second plurality of grooves in the second side, the second side of the second wheel disk being spaced apart from the first side of the first wheel disk.
According to certain embodiments of the centrifugal blast wheel machine, each groove of the first plurality of grooves and each groove of the second plurality of grooves may be configured to receive a corresponding blade from the plurality of blades, the corresponding blade being secured in place through compression fit between the first side of the first wheel disk and the first grommet of the corresponding blade and between the second side of the second wheel disk and the second grommet of the corresponding blade. According to certain embodiments of the centrifugal blast wheel machine, each of the first side rail and the second side rail may be tapered to aid in forming the compression fit. According to certain embodiments of the centrifugal blast wheel machine, the first grommet and the first recess may be configured to allow removal of the first grommet from the first recess at an end of a service life of the blade. According to certain embodiments of the centrifugal blast wheel machine, each of the first grommet and the first recess may be rounded.
According to certain embodiments of the centrifugal blast wheel machine, each blade further may include a curved portion positioned adjacent a central hub of the wheel assembly and a straight portion integrally formed with the curved portion extending radially outwardly from the wheel assembly. According to certain embodiments of the centrifugal blast wheel machine, each blade of the plurality of blades may have a first edge proximate the curved portion, and a second edge proximate the straight portion. According to certain embodiments of the centrifugal blast wheel machine, the curved portion may extend approximately one half a length of each blade.
Yet another aspect of the present disclosure is directed to a method of maintaining a centrifugal blast wheel machine. In one embodiment, the method comprises: providing a centrifugal blast wheel machine having a wheel assembly, the wheel assembly including a wheel disk with a groove, and a first blade having a first side rail extending along the first blade, the first side rail having a first recess, and a first grommet positioned in the first recess, the first blade being secured in the groove by a compression fit between the first grommet and the wheel disk; inserting a second blade into the groove of the wheel disk, the second blade having a second side rail extending along the second blade, the second side rail having a second recess, and a second grommet positioned in the second recess; and securing the second blade in the groove by compression fit between the second grommet and the wheel disk.
According to certain embodiments of the method, removing the first blade from the wheel disk may comprise applying a force to the first blade sufficient to overcome the compression fit between the first grommet and the wheel disk. According to certain embodiments of the method, the method further may comprise removing the first grommet from the first blade after removing the first blade from the wheel disk.
The accompanying drawings are not intended to be drawn to scale. In the drawings, each identical or nearly identical component that is illustrated in various figures is represented by a like numeral. For purposes of clarity, not every component may be labeled in every drawing. In the drawings:
For the purposes of illustration only, and not to limit the generality, the present disclosure will now be described in detail with reference to the accompanying figures. This disclosure is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the drawings. The principles set forth in this disclosure are capable of other embodiments and of being practiced or carried out in various ways. Also the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting. The use of “including,” “comprising,” “having,” “containing,” “involving,” and variations thereof herein, is meant to encompass the items listed thereafter and equivalents thereof as well as additional items.
The present disclosure is directed blades for a centrifugal blast wheel machine. Specifically, the present disclosure is directed to blades designed to facilitate safer and easier replacement of the blade within the blast wheel and to blades designed to lower abrasive consumption. The present disclosure describes a blade insert to hold the blade during installation and a semi-curved blade for abrasive reduction.
Referring to the drawings, the operation of a centrifugal blast wheel machine, generally indicated at 50, can be understood by reference to
When the particles have passed though the impeller openings, rotational and centrifugal forces move the particles onto edges of the blades. The control cage 58 functions to meter a consistent and appropriate amount of blast media onto the blades. As the blades rotate, the particles are moved along their lengths and accelerate until they reach the edges of the blades and are thrown from the edges of the blades.
A lid 60 of the centrifugal blast wheel machine 50 may be provided. As shown, the housing walls 62, 64 are mounted on a mounting flange 66, with the left housing wall 62 being spaced from the right housing wall 64. The lid 60 may have a liner 20.
A wheel assembly generally indicated at 68 having a plurality of blades is further provided to throw blast media introduced into the wheel assembly to treat the work piece. The arrangement is such that the impeller 52 is positioned about an axis of the wheel assembly 68, with the impeller 52 having a media inlet at one end adapted to receive blast media and a plurality of impeller media outlets constructed and arranged to allow egress of blast media upon rotation of the impeller 52. The control cage 58 surrounds the impeller 52 and has a cage media outlet adapted for passage of blast media to the leading edges of the blades. As mentioned above, the motor 56 is coupled to the impeller 52 to drive the rotation of the impeller 52 and the wheel assembly 68.
The blades 10 shown in
One measure of the curvature of the blade 10 is indicated by the angle theta 20. The angle theta 20 measures an angle formed between the trailing edge 15 and the leading edge 11. More specifically, as shown in
The blade includes two distinct geometries, a curved portion and a straight portion, each providing certain advantages. Different geometries at different locations within the blade perform specific functions in regards to hot spot, velocities, and abrasive consumption. The blade geometry proximate the leading edge 11 controls the abrasive consumption. The blade geometry proximate the trailing edge 15 controls the velocity of the abrasive.
A semi-curved blade having a curved portion 16 proximate the leading edge 11 and a straight portion 17 proximate the trailing edge 15 achieves a reduced abrasive consumption without decreasing blade life from wear, while increasing abrasive velocities. Such a geometry aids in reducing a significant cost in the operation of a blast wheel—abrasive consumption. In certain embodiments, the curved portion 16 may extend for one half the length of the blade, while the straight portion 17 extends for the other half of the blade.
The disclosed blade design may reduce abrasive consumption without the unintended effects of increased abrasive acceleration or decreased blade life, as compared to conventionally designed blades. This blade design may therefore lead to reduced operating costs resulting from reduced abrasive consumption, without increasing operating costs associated with the expense of replacing blades whose blade life has been decreased.
The initial curved shape in the curved portion 10 extending from the leading edge 11, may allow for a more gentle abrasive transition from the exit of the control cage 58 onto the blade 10, as compared to a traditional straight blade. Traditional straight blades act like a ‘battering ram’ in which the abrasive hits the blade at great force, and then bounces off the surface several times before properly sliding over the blade surface.
Unlike traditional full curved blades, the semi-curved blade 10 changes from a curved shape to a straight shape to reduce the ‘acceleration curve’ effect and to minimize the potential of over-accelerating the abrasive and, thus, the forces applied to the abrasive. By reducing the forces applied to the abrasive, consumption of the abrasive may be reduced. Furthermore, by reducing the applied forces, blade life may also be extended, as the result of less wear.
While the blade 110 shown in
Inclusion of a grommet aids in installation and removal of blades into and from a wheel assembly. Methods for maintaining a centrifugal blast wheel machine are disclosed herein. The method includes providing a centrifugal blast wheel machine having a wheel assembly. The wheel assembly includes a wheel disk with a groove, and a first blade. The first blade has a side rail extending along the length of the blade. The side rail has a recess, in which a grommet is positioned. The blade is positioned in the groove of the wheel disk, secured by a compression fit between the grommet and the wheel disk. To install the blade having a grommet in the side rail, the blade is inserted into a groove in the wheel disk of the wheel assembly, where the grommet comes into contact with the wheel disk. From a tapered design, a compression fit is created between the rubber grommet and the wheel disk of the wheel assembly. A plurality of blades may be positioned in the wheel disk in this manner.
When the wheel assembly requires maintenance because, for example, a blade or multiple blades require replacement, the original blade or blades are removed. The blade may be removed by applying a force to the blade sufficient to overcome the compression fit. For example, a simple tap on the blade may be sufficient to free the blade. Once the blade is removed, the grommet can also be removed by use of a simple tool such as pliers or a screw driver. By providing easy removal of the grommet, the grommet and casting can be recycled separately, thus providing an environmentally friendly element to the device.
A different new or refurbished blade is then inserted into the groove. The new blade may include all the features of the first blade, including the grommet positioned in the recess of the side rail. The new blade is secured in the groove by compression fit between the grommet and the wheel disk. In this manner all blades of the wheel disk can be simply and easily replaced when maintenance is required.
Having thus described several aspects of at least one embodiment of this disclosure, it is to be appreciated various alterations, modifications, and improvements will readily occur to those skilled in the art. Such alterations, modifications, and improvements are intended to be part of this disclosure, and are intended to be within the spirit and scope of the disclosure. Accordingly, the foregoing description and drawings are by way of example only.
Filing Document | Filing Date | Country | Kind |
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PCT/US14/57367 | 9/25/2014 | WO | 00 |