A ROTARY VALVE

Abstract

 A rotary valve (1) comprising a housing (2) with a removable housing cover (3), a rotor (4) within the housing (2) which is at least partially placeable outside the housing (2) by detaching and displacing the housing cover (3) away from the housing (2) so as to enable access for cleaning or inspection of the rotary valve (1), wherein an end portion (5) of a shaft (6) of the rotor (4) is mounted in a bearing assembly (7) supported by the housing cover (3), which bearing assembly (7) comprises a first bearing (11) and a second bearing (12) that are adjustable in position so as to maintain the shaft (6) of the rotor (4) in a level orientation with reference to the housing (2) when the housing cover (3) is moved away from the housing (2), wherein the first bearing (11) and the second bearing (12) are movable with respect to each other in a direction transversely to a longitudinal direction of the shaft (6).

Description

[0001] The invention relates to a rotary valve comprising a housing with a removable housing cover, a rotor within the housing which is at least partially placeable outside the housing by detaching and displacing the housing cover away from the housing so as to enable access to an interior of the rotary valve for instance for cleaning or inspection, wherein an end portion of a shaft of the rotor is mounted in a bearing assembly supported by the housing cover, which bearing assembly comprises a first bearing and a second bearing that are adjustable in position so as to maintain the shaft of the rotor in a level orientation with reference to the housing when the housing cover is moved away from the housing.

[0002] Such a rotary valve is known from EP 3 000 754. In this known rotary valve the bearing assembly comprises a bearing housing and inner and outer bearing adjustment rings, each in threaded engagement with, and rotatable within, the bearing housing. The bearing assembly may comprise a first, inner rolling bearing, a second, outer rolling bearing and a spacing ring disposed therebetween, all located between the inner and outer bearing adjustment rings. The entirety of the bearing assembly is tiltable so as to keep the shaft of the rotor level to avoid the problem of 'drop' or downward pitch' of the rotor shaft when the rotor shaft is supported at a single end only. This occurs when the housing cover is detached and moved away from the housing so as to place the rotor at least partially outside the housing to enable access to the interior of the rotary valve.

[0003] A problem with the construction known from EP 3 000 754 is that it is rather complicated and its results in keeping the rotor shaft level heavily depend on the effectiveness of locking the constituent elements of the bearing assembly between the inner and outer bearing adjustment rings so as to avoid that they can move with respect to each other.

[0004] It is one of the objectives of the invention to avoid the drawbacks of the prior art, and to provide an alternative solution that does not require the application of inner and outer bearing adjustment rings.

[0005] US 6,186,164 discloses a rotary valve according to the preamble of claim 1, wherein the first bearing and the second bearing are movable with respect to each other in a direction perpendicular to the shaft's longitudinal direction.

[0006] The rotary valve according to the invention is provided with the features of one or more of the appended claims.

[0007] In a first aspect of the invention at least one of the first bearing and second bearing is mounted in an adjustment flange that is transversely movable with reference to the shaft of the rotor and which is screw connected with a base flange of the housing cover. The base flange is positionally fixed with respect to the housing cover, so that the said perpendicular movement of the adjustment flange results in relative lateral motion of the first bearing with respect to the second bearing. In this way the positioning of the first bearing and second bearing with respect to each other can be used to maintain the shaft of the rotor level when the rotor shaft is supported at a single end only. The mentioned bearings may be rolling bearings or any other suitable type of bearing.

[0008] A preferable way to realize the screw connection between the adjustment flange and the base flange, is that the screw connection comprises at least one bolt with screw thread mating with corresponding screw thread in an aperture of the adjustment flange, which at least one bolt is further provided with a tapered end portion that abuts an oblique engagement surface of an aperture in the base flange. By turning the bolt the tapered end portion cooperating with the oblique engagement surface in the aperture of the positionally fixed base flange, will cause that the adjustment flange will move in the plane of the adjustment flange with respect to the positionally fixed base flange. This in particular applies to the movement in the vertical direction, but also relates to a possible movement in the horizontal direction, as will be explained further hereinbelow.

[0009] In order to enable movement of the adjustment flange in two orthogonal directions in the plane of the adjustment flange it is preferred that the screw connection between the adjustment flange and the base flange comprises at least three bolts, each bolt having screw thread mating with corresponding screw thread in apertures of the adjustment flange, which bolts are each provided with a tapered end portion abutting oblique engagement surfaces of apertures in the base flange.

[0010] Suitably two of the at least three bolts are on opposite positions in a horizontal plane through the shaft of the rotor so as to provide for horizontal adjustment of the shaft, whereas the third bolt is in a vertical plane through the shaft of the rotor and above the shaft so as to provide for vertical adjustment of the shaft. For movement in this vertical plane there is no need for a fourth bolt on an opposite side of the said third bolt, because gravity assists in any desired movement in an opposite direction than what can be enacted with the third bolt. It is however possible to apply also such a fourth bolt opposite to the third bolt for movements in the vertical plane.

[0011] In another aspect of the invention which can be applied independent from the features discussed above or in addition thereto, it is preferable that an end portion of the rotary valve is provided with a center bolt and a lock plate, which lock plate is placeable in an operative position wherein the lock plate provides support for the center bolt to enable longitudinal movement of the shaft with the rotor by turning of the center bolt.

[0012] It is further preferred that in a nonoperative position the lock plate is below the center bolt to avoid unintentional damage to the screw thread of the center bolt. In this way gravity will assist in keeping the lock plate in the nonoperative position, so that it will require a purposeful handling by an operator to place the lock plate in an operative position.

[0013] Preferably the lock plate is provided with a lock plate handle to move the swivable lock plate between the nonoperative position and the operative position.

[0014] It is further desirable that the lock plate is provided with at least one protrusion for engaging one or more notches on the shaft hub of the rotor shaft. In this manner rotation of the rotor can be blocked by placing the protrusion in one of the notches in the shaft hub.

[0015] The invention will hereinafter be further elucidated with reference to the drawing of an exemplary embodiment of a rotary valve according to the invention that is not limiting as to the appended claims.

[0016] In the drawing:

• figures 1 and 2 show schematically a rotary valve in an operative position and in a nonoperative position, respectively;
• figure 3 shows an end portion of a rotary valve of the invention in an isometric and partly cut open view;
• figures 4A/B show the end portion of the rotary valve of the invention in a vertical section representing two different positions of the first bearing and the second bearing;
• figure 5A/B show the end portion of the rotary valve of the invention in a horizontal section representing two different positions of the first bearing and the second bearing;
• figures 6A/6B, 7A/7B and 8A/8B show cross-sectional side views and frontal views of an end portion of the shaft on the side of the detachable house cover.

[0017] Whenever in the figures the same reference numerals are applied, these numerals refer to the same parts.

[0018] With reference first to figures 1 and 2, a rotary valve 1 is shown, comprising a housing 2 with a removable housing cover 3 (as shown in figure 2), a rotor 4 within the housing 2 which is at least partially placeable outside the housing 2 by detaching and displacing the housing cover 3 away from the housing 2 so as to enable access to the interior of the rotary valve 1, for instance for cleaning or inspection. Figures 1 and 2 show further that an end portion 5 of a shaft 6 of the rotor 4 is mounted in a bearing assembly 7 supported by the housing cover 3.

[0019] When according to figure 1 the rotor 4 is completely inside the housing 2 with the housing cover 3 mounted on the housing 2, the shaft 6 of the rotor 4 is also placed - usually via a sleeve - in a bearing 8 on the side of the housing 2 opposite to where the dismountable and displaceable housing cover 3 is positioned.

[0020] In figure 2 it is depicted that the rotor 4 is partly placed outside of the housing 2. This can be done after first detaching the housing cover 3 from the housing 2, and by subsequently moving, for instance by sliding, the end portion 10 comprising the bearing assembly 7 and the housing cover 3 away from the housing 2 using for instance a construction with guide rails 9. This construction is however not essential, moving the end portion 10 away from the housing 2 can also be implemented differently.

[0021] At the time the shaft 6 of the rotor 4 is only supported by the bearing 7 which is supported by the housing cover 3, the rotor shaft 6 has the tendency to drop or turndown a little distance D as depicted in figure 2. According to the invention the problem of dropping or pitching down of the rotor 4 is countered with features as further elucidated with reference to the following description and drawings.

[0022] Figure 3 provides a detailed view at the end portion 10 of the rotary valve 1. Figure 3 shows that the bearing assembly 7 comprises a first bearing 11 and a second bearing 12. These first and second bearings 11, 12 are adjustable in position so as to maintain the shaft 6 of the rotor in a level orientation with reference to the housing 2 when -as shown in figure 2- the housing cover 3 is detached and moved away from the housing 2. This adjustability of the bearings is provided by the feature that at least one of the first bearing 11 and the second bearing 12 is movable in a direction perpendicular to the longitudinal direction of the shaft 6. Essentially this means that the first bearing 11 and the second bearing 12 are movable with respect to each other in a direction perpendicular to the shaft's longitudinal direction. One thing and another can more clearly be seen in figures 4A/B and 5A/B.

[0023] All of the said figures 3, 4A/B and 5A/B show a preferred embodiment wherein the first bearing 11 is mounted in an adjustment flange 13 that is transversely movable with reference to the shaft 6 of the rotor 4 and which is screw connected with a positionally fixed base flange 14 of the housing cover 3. In principle this could also be done vice versa.

[0024] It is shown in the respective figures that the screw connection between the adjustment flange 13 and the base flange 14 comprises at least one bolt 15 that is provided with screw thread mating with corresponding screw thread in an aperture of the adjustment flange 13 - these screw threads are not shown since the way they can be implemented is clearly within the scope of the skilled person. The at least one bolt 15 is further provided with a tapered end portion 16 that abuts an oblique engagement surface 17 of an aperture in the positionally fixed base flange 14. For the purpose of clarity the angle of the surface 17 which provides the oblique positioning of this surface 17 is shown out of scale. It is further remarked that it is also possible to apply a mirror image construction with two bolts 15 cooperating with tapered end portions 16 of apertures 17, which cooperating bolts 15 and apertures 17 are then on opposite sides of the shaft 6 of the rotor 4. Such a construction will hereinafter be discussed for movement in the horizontal plane with reference to figures 5A and 5B.

[0025] The difference between what is shown in figures 4A/B and figures 5A/B will now be discussed.

[0026] Figures 4A and 4B provide a view at a vertical section representing two different vertical positions of the first bearing 11 and the second bearing 12 with respect to each other.

[0027] In figure 4A the bolt 15 is at the entrance of the aperture in the base flange 14 with the oblique surface 17, causing that the first bearing 11 is at a slightly higher position than the second bearing 12.

[0028] In figure 4B the bolt 15 is screwed into the aperture in the base flange 14 with the oblique surface 17, causing that the first bearing 11 is at a slightly lower position than the second bearing 12.

[0029] The combination of figures 4A and 4B thus demonstrates that by displacing the bolt 15 into or out of the aperture in the base flange 14, the relative vertical position of the first bearing 11 and the second bearing 12 can be adjusted, and accordingly the shaft 6 of the rotor 4 can be maintained level. It is already remarked above that the adjustment of the first bearing 11 and the second bearing 12 with respect to each other can also be implemented with a mirror image construction with two bolts 15 cooperating with tapered end portions 16 of apertures 17, wherein the bolts 15 and apertures 17 are on opposite sides of the shaft 6 of the rotor 4.

[0030] Figures 5A and 5B show the construction as explained with reference to figures 4A and 4B, but now for moving the respective bearings 11, 12 in a horizontal plane. Figures 5A and 5B provide a view at a horizontal section representing two different horizontal positions of the first bearing 11 and the second bearing 12 with respect to each other. A further discussion of figures 5A/5B concerning the operation of the construction would be similar as the above discussion with reference to figures 4A/4B and is for sake of brevity therefore dispensed with.

[0031] The combination of figures 4A/B and 5A/B together depict the for its simplicity preferred embodiment wherein the screw connection between the adjustment flange 13 and the base flange 14 comprises at least three bolts 15, each bolt 15 having a screw thread mating with corresponding screw threads in apertures of the adjustment flange 13, and which bolts 15 are each provided with a tapered end portion 16 abutting oblique engagement surfaces 17 of apertures in the base flange 14.

[0032] Figures 5A/B show that two of the at least three bolts 15 are on opposite positions in a horizontal plane through the shaft 6 of the rotor 4 so as to provide for horizontal adjustment of the shaft 6, whereas figures 4A/4B show that the remaining third bolt 15 is in a vertical plane through the shaft 6 of the rotor 4 and above the shaft 6 so as to provide for vertical adjustment of the shaft 6. It is again repeated that it is also possible to apply for vertical motion a mirror image construction with two bolts 15 cooperating with tapered end portions 16 of apertures 17 on opposite sides of the shaft 6 of the rotor 4.

[0033] Turning now to figures 6A/B, 7A/B and 8A/B it is shown that an end portion of the rotary valve 1 is provided with a center bolt 18 and a lock plate 19, which lock plate 19 is placeable in an operative position (as shown in figures 7A/B and 8A/8B) wherein the lock plate 19 provides support for the center bolt 18 to enable longitudinal movement of the shaft 6 with the rotor 4 by turning of the center bolt 18.

[0034] Figures 6A/6B depict that in a nonoperative position the lock plate 19 is below the center bolt 18 in order to prevent accidental damage of the screw thread of the center bolt 18, which would be possible when the rotor is placed with a high-speed in the shaft hub 23.

[0035] It is further shown that the lock plate 19 is provided with a lock plate handle 20 to move the lock plate 19 between the nonoperative position of figures 6A/6B and the operative position of figures 7A/7B and 8A/8B.

[0036] Figures 7A/7B and figures 8A/8B show in that connection that the lock plate 19 is provided with at least one protrusion 21 for engaging one or more notches 22 on a shaft hub 23 housing the shaft 6 of the rotor 4. In figures 7A/7B the lock plate 19 has not been positioned to block rotation of the rotor 4 since rotation of the rotor is then blocked by the motor connected to the rotor 4. In figures 8A/8B the rotor 4 is disconnected from the motor and one of the protrusions 21 has engaged a notch 22 on a shaft hub 23 of the shaft 6 of the rotor 4 to block rotation of the rotor 4.

[0037] Although the invention has been discussed in the foregoing with reference to an exemplary embodiment of the rotary valve of the invention, the invention is not restricted to this particular embodiment which can be varied in many ways without departing from the invention. The discussed exemplary embodiment shall therefore not be used to construe the appended claims strictly in accordance therewith. On the contrary the embodiment is merely intended to explain the wording of the appended claims without intent to limit the claims to this exemplary embodiment. The scope of protection of the invention shall therefore be construed in accordance with the appended claims only, wherein a possible ambiguity in the wording of the claims shall be resolved using this exemplary embodiment.

Claims

1. A rotary valve (1) comprising a housing (2) with a removable housing cover (3), a rotor (4) within the housing (2) which is at least partially placeable outside the housing (2) by detaching and displacing the housing cover (3) away from the housing (2) so as to enable access to an interior of the rotary valve (1), wherein an end portion (5) of a shaft (6) of the rotor (4) is mounted in a bearing assembly (7) supported by the housing cover (3), which bearing assembly (7) comprises a first bearing (11) and a second bearing (12) that are adjustable in position so as to maintain the shaft (6) of the rotor (4) in a level orientation with reference to the housing (2) when the housing cover (3) is moved away from the housing (2), and wherein the first bearing (11) and the second bearing (12) are movable with respect to each other in a direction transversely to a longitudinal direction of the shaft (6), characterized in that at least one of the first bearing (11) and second bearing (12) is mounted in an adjustment flange (13) that is transversely movable with reference to the shaft (6) of the rotor (4) and which is screw connected with a base flange (14) of the housing cover (3).

2. The rotary valve of claim 1, characterized in that the screw connection between the adjustment flange (13) and the base flange (14) comprises at least one bolt (15) provided with screw thread that is mating with corresponding screw thread in an aperture of the adjustment flange (13), which at least one bolt (15) is provided with a tapered end portion (16) that abuts an oblique engagement surface (17) of an aperture in the base flange (14).

3. The rotary valve of claim 1 or 2, characterized in that the screw connection between the adjustment flange (13) and the base flange (14) comprises at least three bolts (15), each bolt (15) having screw thread mating with corresponding screw thread in apertures of the adjustment flange (13), which bolts (15) are each provided with a tapered end portion (16) abutting oblique engagement surfaces (17) of apertures in the base flange (14).

4. The rotary valve of claim 3, characterized in that two of the at least three bolts (15) are on opposite positions in a horizontal plane through the shaft (6) of the rotor (4) so as to provide for horizontal adjustment of the shaft (6), whereas the third bolt (15) is in a vertical plane through the shaft (6) of the rotor (4) and above the shaft (6) so as to provide for vertical adjustment of the shaft (6).

5. The rotary valve of any one of claims 1 - 4, characterized in that an end portion of the rotary valve (1) is provided with a center bolt (18) and a lock plate (19), which lock plate (19) is placeable in an operative position wherein the lock plate (19) provides support for the center bolt (18) to enable longitudinal movement of the shaft (6) with the rotor (4) by turning of the center bolt (18).

6. The rotary valve of claim 5, characterized in that in a nonoperative position the lock plate (19) is below the center bolt (18).

7. The rotary valve of claim 5 or 6, characterized in that the lock plate (19) is provided with a lock plate handle (20) to move the swivable lock plate (19) between the nonoperative position and the operative position.

8. The rotary valve of claim 7, characterized in that the lock plate (19) is provided with at least one protrusion (21) for engaging one or more notches (22) on a shaft hub (23) which houses the shaft (6) of the rotor (4).

Drawing