The present disclosure concerns vibratory treatment apparatus.
Vibratory treatment apparatus usually includes: a receptacle filled with media; and an actuator for vibrating the receptacle and thereby moving the media within the receptacle. For example, vibratory treatment apparatus may include a bowl vibrator or a trough vibrator having a vibration generator (such as one or more motors located at the bottom or side of the receptacle for driving rotating shafts with eccentric weights).
In operation, an article to be treated (such as a fan blade of a gas turbine engine) is placed within the receptacle so that it is immersed within the media. The receptacle is then vibrated by the actuator so that the media moves within the receptacle and rubs against the article and thereby performs surface treatment on the article.
According to various examples there is provided vibratory treatment apparatus comprising: a first receptacle arranged to receive media for vibratory treatment of an article, the first receptacle defining a first aperture; and a first valve positioned at the first aperture of the first receptacle, the first valve being arranged to allow passage of the article there through and to prevent the flow of media through the first aperture.
The vibratory treatment apparatus may further comprise a second receptacle arranged to receive the first receptacle therein. The first receptacle may have a first depth and the second receptacle may have a second depth. The first depth may be less than the second depth.
The first receptacle may be coupled to the second receptacle via one or more fasteners.
A width of the first receptacle may be less than a width of the second receptacle.
A length of the first receptacle may be less than a length of the second receptacle.
The vibratory treatment apparatus may further comprise a fixture arranged to support an article for receiving vibratory treatment; and a first actuator arranged to move the fixture relative to the first receptacle.
The fixture may be arranged to support a plurality of articles for receiving vibratory treatment.
The vibratory treatment apparatus may further comprise a second actuator arranged to move the first receptacle to vibrate the media relative to the first receptacle.
The first receptacle may define a second aperture. The vibratory treatment apparatus may further comprise a second valve positioned at the second aperture of the first receptacle. The second valve may be arranged to allow passage of another article there through and to prevent flow of the media through the second aperture.
The media may be vibratory polishing media.
The media may be vibratory peening media.
The article may be a fan blade of a gas turbine engine.
According to various examples there is provided a method of vibratory treating an article, the method comprising: providing vibratory treatment apparatus as claimed in any of the preceding claims; and controlling movement of the article relative to the first receptacle and through the first aperture of the first receptacle.
The method may further comprise controlling a second actuator to move the first receptacle to vibrate the media relative to the first receptacle.
The skilled person will appreciate that except where mutually exclusive, a feature described in relation to any one of the above aspects may be applied mutatis mutandis to any other aspect. Furthermore except where mutually exclusive any feature described herein may be applied to any aspect and/or combined with any other feature described herein.
Embodiments will now be described by way of example only, with reference to the Figures, in which:
In the following description, the terms ‘connected’ and ‘coupled’ mean operationally connected and coupled. It should be appreciated that there may be any number of intervening components between the mentioned features, including no intervening components.
The first receptacle 14 may have any suitable shape and may be trough shaped or bowl shaped for example. The first receptacle 14 defines a cavity having an opening for receiving media 16 therein. The first receptacle 14 also defines an aperture 28 opposite the opening of the cavity. The first receptacle 14 has a depth D1, a length L1, and a width W1 (illustrated in
The aperture 28 of the first receptacle 14 is sized and shaped to allow the article 12 to move there through. For example, the aperture 28 may have a slot shape that extends for at least a portion of the length L1 of the first receptacle 14.
The media 16 may be any suitable media for vibratory treatment of the article 12. For example, the media 16 may be vibratory peening media that comprises a plurality of metallic spheres (steel spheres for example). By way of another example, the media 16 may be vibratory polishing media that comprises a plurality of ceramic spheres.
The valve 18 is positioned at the aperture 28 of the first receptacle 14. For example, the valve 18 may be positioned within the aperture 28. Alternatively, the valve 18 may cover the aperture 28, but may not be positioned within the aperture 28. The valve 18 is sized and shaped to block the aperture 28.
The valve 18 may be reconfigured between a first configuration and a second configuration. In the first configuration, the valve 18 is closed and prevents the media 16 from flowing through the aperture 28 (in other words, the valve 18 blocks the aperture 28). In the second configuration, the valve 18 is open and allows passage of the article 12 there through, but prevents the flow of media 16 through the first aperture 28. In various examples, the valve 18 may comprise an elastic material (such as rubber) that defines an aperture 31 (having a length L3) which is closed when the valve 18 is in the first configuration, and is open when the valve 18 is in the second configuration. The opening 31 of the valve 18 snugly fits around the article 12 when in the second configuration and thus prevents media 16 from flowing through the gap between the article 12 and the valve 18, while the article 12 is moving through the opening 31.
The valve 18 may be a two way valve (that is, allowing passage of the article 12 through the first aperture 28 in both an upward and a downward direction as indicated by arrow 30 in
The second receptacle 20 may have any suitable shape and may be trough shaped or bowl shaped for example. The second receptacle 20 defines a cavity having an opening for receiving the first receptacle 14 therein. The second receptacle 20 has a depth D2, a length L2, and a width W2 (illustrated in
The first receptacle 14 may be coupled to the second receptacle 20 and together, the first receptacle 14 and the second receptacle 20 may form a rigid structure. In various examples, the first receptacle 14 may be coupled to the second receptacle 20 via one or more fasteners 32 (such as one or more nut and bolt arrangements as illustrated in
The fixture 22 is arranged to support the article 12 and may comprise one or more fasteners (for example, one or more clamps) for holding the article 12. The first actuator 24 is arranged to move the fixture 22 (and consequently, the article 12) relative to the first receptacle 14 in the directions of arrow 30. The first actuator 24 may also be arranged to rotate the fixture 22 (and thus the article 12) about a vertical axis 34 (which is parallel to the arrow 30) in the directions of arrow 36. The first actuator 24 may include any suitable device or devices for moving the fixture 22, and may include one or more servomotors.
The second actuator 26 is arranged to move the first receptacle 14 to vibrate the media 16 relative to the first receptacle 14. For example, the second actuator 26 may include one or more motors located at the bottom or side of the second receptacle 20 for driving rotating shafts with eccentric weights for moving the second receptacle 20 and consequently, the first receptacle 14.
The article 12 may be any object, product, component, or assembly of components for receiving vibratory treatment. For example, the article 12 may be an aerospace component (such as a fan blade of a gas turbine engine), or an assembly of aerospace components. The article 12 has a depth D4, a length L4 and a width (not illustrated in
The vibratory treatment apparatus 101 differs from the vibratory treatment apparatus 10 in that the vibratory treatment apparatus 101 includes a plurality of valves positioned at a plurality of apertures defined within the first receptacle 14. In the example illustrated in
The vibratory treatment apparatus 101 also differs from the vibratory treatment apparatus 10 in that the vibratory treatment apparatus 101 comprises a fixture 38 that is arranged to support a plurality of articles. In the example illustrated in
The vibratory treatment apparatus 102 differs from the vibratory treatment apparatus 10 in that the vibratory treatment apparatus 102 does not include a second receptacle 20. Instead, the vibratory treatment apparatus 102 includes a support 40 for holding the first receptacle 14 above the ground 42. The support 40 may have any suitable structure and may comprise any suitable materials. For example, the support 40 may comprise a metal cylinder and the first receptacle 14 may be coupled to the top end of the cylinder. The second actuator 26 is arranged to move the first receptacle 14 to vibrate the media 16 within the first receptacle 14.
The operation of the vibratory treatment apparatus 10, 101, 102 is described in the following paragraphs with reference to
At block 44, the method includes providing the vibratory treatment apparatus 10, 101, 102. An operator may couple the first receptacle 14 to the second receptacle 20 or to the support 40 and then pour the media 16 into the cavity of the first receptacle 14. The operator may then provide the article 12 to the fixture 22 (or articles to the fixture 38) and manipulate the fixture 22, 38 (by operating one or more clamps of the fixture 22, 38 for example) so that the article 12 is securely held by the fixture 22, 38.
At block 46, the method includes controlling the second actuator 26 to move the first receptacle 14 to vibrate the media 16 relative to the first receptacle 14. In some examples, an operator may turn on one or more motors of the second actuator 26 to move the second receptacle 20 or the support 40, and thus the first receptacle 14, to vibrate the media 16. In other examples, the second actuator 26 may be controlled by a computer running a computer program.
At block 48, the method includes controlling movement of the article 12 relative to the first receptacle 14 and through the first aperture 28 of the first receptacle 14 and thus through the valve 18. The movement of the article 12 may force open the valve 18 and thus cause the valve 18 to change state from the first closed configuration to the second open configuration. In some examples, an operator may manually move the fixture 22, 38. In other examples, the first actuator 24 may be controlled by a computer running a computer program. The fixture 22, 38 may be moved upwards relative to the first receptacle 14 (that is, from the gap between the second receptacle 20 and the first receptacle 14, through the first aperture 28, and then into the cavity of the first receptacle 14). Alternatively, the fixture 22, 38 may be moved downwards relative to the first receptacle 14 (that is, into the cavity defined by the first receptacle 14, through the first aperture 28, and then into the gap between the second receptacle 20 and the first receptacle 14).
As the article 12 is moved into the cavity of the first receptacle 14, the article 12 enters the media 16. The movement of the media 16 within the first receptacle 14 causes the media 16 to impact or rub the article 12 and thus surface treat the article 12. For example, where the media 16 comprises metal spheres for vibratory peening, the metal spheres impact the surface of the article 12 and peen the article 12. By way of another example, where the media 16 comprises ceramic spheres for vibratory polishing, the ceramic spheres rub against the surface of the article 12 and polish the article 12.
The inventors of the present patent application have determined that the effect of peening increases with the increasing depth of the article 12 within the media 16.
As the article 12 is moved upwards or downwards (as indicated by the arrow 30) and through the first aperture 28 of the first receptacle 14, each portion of the article 12 may receive the same cumulative peening effect from the media 16 because each portion may be moved through the whole depth of the media 16 at a constant rate.
At block 48, the article 12 may also be rotated relative to the first receptacle 12 as indicated by arrow 36. For example, where the article 12 is a fan blade of a gas turbine engine, the fixture 34 may be rotated while being moved vertically through the valve 18 (as indicated by arrow 30) so that the twisted structure of the fan blade may move through the first aperture 28. This may provide an additional benefit in that the media 16 may impact the surface of the article 12 perpendicularly and therefore maximise the peening effect of the media 16.
The apparatus 10, 101, 102 may provide several advantages. First, the apparatus 10, 101, 102 may uniformly treat the surface of the article 12. For example, where the media 16 is vibratory peening media, the movement of the article 12 may enable each portion of the article 12 to receive the same cumulative peening effect.
Second, the apparatus 10, 101, 102 may advantageously use less media 16 because the first receptacle 14 has a smaller volume than the second receptacle 20. The reduced amount of media 16 may lower the cost of the apparatus 10, 101, 102. Furthermore, the reduced amount of media 16 may reduce the power consumed by the second actuator 26 in moving the first receptacle 14. This may advantageously reduce the operating cost of the apparatus 10, 101, 102.
Third, the apparatus 101 may advantageously enable multiple articles to receive surface treatment simultaneously and this may reduce the time required to surface treat a batch of articles.
Fourth, the apparatus 10, 101, 102 may advantageously allow surface treatment to be concentrated at a particular portion of the article 12. For example, where it is desired to provide greater surface peening to a particular portion of an article, that portion of the article may be held at the deepest part of the media 16 for longer than the remainder of the article 12.
It will be understood that the invention is not limited to the embodiments above-described and various modifications and improvements can be made without departing from the concepts described herein. For example, the different embodiments may take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment containing both hardware and software elements.
Except where mutually exclusive, any of the features may be employed separately or in combination with any other features and the disclosure extends to and includes all combinations and sub-combinations of one or more features described herein.
Number | Date | Country | Kind |
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