This application is a National Stage completion of PCT/EP2017/051806 filed Jan. 27, 2017, which claims priority from European patent application serial no. 16153028.2 filed Jan. 27, 2016.
The invention relates to a carrying device for frontal removal of a roll body from a roller mill, a roller mill having a roll body which can be removed frontally, as well as a method for frontal removal of a roll body from a roller mill.
At present, various solutions are known for the removal of rolls from a roller mill, which are not entirely satisfactory.
The roll can be removed together with the roll stubs. In this case, all parts attached to the roll stubs such as belt wheels and couplings for transmission gearing or direct drive must be removed before the roll is removed by crane or by apparatus from the roller mill. The roller mill needs to be designed such that the roll can be removed with the roll stubs. Possibly further components need to be removed from the roller mill. The roll is generally replaced entirely, which is very cost and time intensive.
The roll can also be removed together with the roll stubs as well as the adjustment and bearing mechanism. In this case, all parts attached to the roll stubs such as belt wheels and couplings for transmission gearing or direct drive must be removed before the roll is removed by crane or by apparatus from the roller mill. The roller mill needs to be designed such that the roll can be removed with the roll stubs. Possibly further components need to be removed from the roller mill. The roll is generally replaced entirely, which is very cost and time intensive.
In order to avoid the above mentioned drawbacks, WO 2005/102531 A1 proposes removing only the roll shell. In this case, the roll stubs are moved apart from each other and the roll shell is lifted and removed from the roller mill. The roll or the roll shell must be accessible from above in this case. This is not possible in all roller mills, especially when several grinding stages are present one above another. Moreover, the feeding of the roller mill also often occurs from above. In such a case, it is also necessary at first to remove any such components. Furthermore, such a solution is only suitable for single-stage roller mills with rolls of smaller dimensions (diameter up to 25 cm and length up to 1 m).
Therefore, the problem which the invention proposes to solve is to indicate a device of the kind mentioned above which avoids the advantages of the prior art and in particular allows an uncomplicated, time and cost saving removal of a roll body even in the case of multistaged roller mills.
The problem is solved by a carrying device according to the independent claim.
The carrying device according to the invention comprises a main frame and a receiving section for the roll body, which can be moved from an introduction position into a supporting position. The receiving section in this case has a profile which encloses the roll body at least partly in the supporting position. The carrying device can be inserted beneath the roll body with the receiving section in the introduction position, while the roll body is supported with the receiving section in the supporting position.
A “frontal removal” of a roll body in the sense of the present invention means that the roll body apart from tolerable deviations can be removed substantially perpendicular to the plumb-line (horizontally) from a roller mill.
In the sense of the present invention, by a “profile of the receiving section which encloses the roll body at least partly” is meant a profile in which a rolling off of the roll body is prevented with the receiving section in the supporting position. The receiving section may be configured such that in the supporting position the roll body is supported at least at two bearing points, which are situated radially with respect to the roll body on either side of a vertical line extending through the axis of the roll body. In other words, the at least two bearing points must be situated higher than the lowest point of the roll body (outermost radial dimension in the vertical direction). If the roll body should have an imbalance, this should be taken into account for the center of gravity. The bearing points may be fashioned for example as two rods, which when used as intended extend parallel to the roll axis. The receiving section may also have a profile which forms a recess to receive the roll body in the supporting position. The shape or the profile of the recess need not correspond to the curvature of the roll body. For example, it is possible for the receiving section to allow a receiving of roll bodies of different diameter. It may happen that roll bodies with a small diameter have play when the receiving section is situated in the supporting position and the roll body is being carried. The only important thing here is that the receiving section encloses the roll body such that the roll body cannot unintentionally leave the receiving section, such as due to vibrations or inertia during the removal process.
Preferably, the height difference between bearing points and lowest point of the roll body in the vertical direction is more than 5% of the roll body diameter, further preferably more than 25% of the roll body diameter and especially preferably between 25% and 40% of the roll body diameter.
Preferably, the receiving section may have a profile with a radius of curvature which can be larger than the radius of curvature of the roll body.
Further preferably, the receiving section has a profile with a curvature which corresponds to the curvature of the roll body. In this way, the weight can be distributed over the entire contact surface of the receiving section. This prevents damage to the roll surface, in particular. Moreover, such a profile enables an automatic centering and positioning of the carrying device when the receiving section is moved from the introduction position into the supporting position.
Preferably, the main frame has a substantially L-shaped form with two legs standing at an angle to each other, wherein the receiving section is pivot-mounted in an end region of one leg, preferably the shorter leg.
This preferred embodiment is especially easy to fabricate, since the receiving section is pivot-mounted on the main frame and its guiding is not complicated.
Preferably, one leg, preferably the longer leg, has guiding means, preferably configured as rollers. The guiding means serve for guiding the carrying device when the carrying device is shoved in underneath the roll and are preferably configured complementary to further guiding means of the roller mill. Preferably, this is accomplished by rollers, which cooperate with a suitably designed guide rail of the roller mill.
Preferably, the receiving section can move by actuating means between the introduction position and the supporting position. Even though a manual transfer of the receiving section is possible, the actuating means preferably comprise mechanical, hydraulic or pneumatic actuating means on account of the weight of the roll body. Besides the above mentioned possibility of swiveling the receiving section, other configurations are conceivable in this context, such as a scissor joint, a vertical guiding of the receiving section, and so forth. Preferably, the actuating means are designed such that when the roll body is resting on the receiving section, a self-locking of the actuating means occurs.
The actuating means preferably comprise a threaded rod. Such a configuration can be fabricated in an especially cost-favorable manner, and it can also be manually actuated and is self-locking, if the thread pitch is properly dimensioned.
The threaded rod is preferably mounted in a threaded bushing, wherein the threaded bushing is mounted in the same leg of the main frame as the receiving section. In this preferred embodiment, the threaded bushing acts as an abutment when actuating the threaded rod and it absorbs any axial force produced.
The threaded rod is preferably connected at one end to an expanding joint in a way that is rotatable, yet firm against pushing and pulling, wherein the expanding joint is expandable by rotating of the threaded rod and the receiving section can be moved from the introduction position into the supporting position. An axial force—with respect to the axis of the threaded rod—is created by turning the threaded rod. Since the threaded bushing is received as an abutment in the main frame, the axial force brings about the spreading of the expanding joint, after which the receiving section is moved and moved from the introduction position into the supporting position.
The expanding joint preferably comprises three joint segments arranged about a common pivot axis, wherein a first joint segment is connected to the threaded rod and the other joint segments are connected pivotably to the main frame and the receiving section, respectively. Hence, by transmission of force from the threaded rod across the first joint segment the other two joint segments are moved apart, after which the receiving section is likewise moved along with them.
Preferably, this occurs by increasing the distance between threaded bushing and the end of the threaded rod which is connected to the expanding joint.
Preferably, the threaded rod is provided with means for accommodating a drive unit. The means may be designed as a seat for a drive shaft, e.g., as a square or a hexagon. The drive unit itself may be, for example, an electric motor, a pneumatic drill or a ratchet whose drive shaft can be inserted into the seat. Alternatively, the seat may also be configured as a threaded nut, so that the threaded rod can be turned with a screw driver or a ratchet with corresponding attachment.
Preferably, means for limiting the swiveling movement of the receiving section are provided. Especially during the transfer of the receiving section into the supporting position it may happen that the receiving section is tensioned too much against the roll surface. Such a tensioning can not only damage the surface of the roll, but also tension the roll body against the roll stub so that a removal is not possible or when the roll stubs are moved apart the roll body is forced upward and drops out from the receiving section.
The invention moreover relates to a roller mill with a plurality of rolls, wherein at least one roll comprises a roll body with two roll stubs, wherein the roll body is releasable by moving apart the two roll stubs from each other.
According to the invention, beneath the at least one roll guiding means for a roll carrying device are arranged, which are or can be arranged beneath the roll such that the roll body can be removed frontally and the roll carrying device is movable in a direction perpendicular to the roll axis.
The roll carrying device is preferably the roll carrying device described above.
The guiding means enable a bracing of the roll carrying device against a frame of the roller mill and a guiding of the roll carrying device along said guiding means, so that no external apparatus such as a crane is needed for the removal of the roll body.
Preferably, the guiding means enable a guiding perpendicular to the plumb-line of the roll carrying device. This ensures that, when the roll body is released, the roll carrying device together with the roll body cannot slide out from the roller mill by gravity in an uncontrolled manner. Alternatively, it is possible for the guiding means to be configured slightly inclined, for example, so that upon releasing the roll body a removal of the roll carrying device by gravity is assisted and simplified. On the other hand, it is conceivable for corresponding inclination of the guiding means to ensure by gravity that the roll carrying device is properly positioned underneath the roll when it is shoved in and that after the releasing of the roll body it prevents an unintentional sliding out of the roll carrying device with the roll body.
Preferably, the guiding means comprise at least one guide rail. The guide rail is complementary in shape to the roll carrying device, so that apart from a tolerable play only a movement of the roll carrying device in a direction perpendicular to the roll axis (and preferably perpendicular to its plumb-line) is possible.
The guiding means are preferably arranged or can be arranged in a product space. By “product space” is meant in the sense of the present invention the space of the roller mill in which the rolls are arranged and have a product passing through them (including a pull-in area and an exit area). The product space is generally separated, preferably sealed off, from other areas of the roller mill by product flow technology.
The invention moreover relates to a method for the frontal removal of a roll body from a roller mill with a plurality of rolls, wherein at least one roll comprises a roll body with two roll stubs and wherein the roll body is releasable by moving apart the two roll stubs from each other, comprising the following steps:
The method according to the invention is preferably carried out with a device according to the invention.
The carrying out of the method according to the invention has already been described above in regard to the device according to the invention and the roller mill according to the invention, so that benefits and preferred sample embodiments mentioned in this respect are applicable accordingly to the method according to the invention.
In the following, the invention shall be better described with the aid of a preferred sample embodiment in conjunction with the drawing. There are shown:
The carrying device 1 is assembled from a main frame 2 and a receiving section 3 for the roll.
The main frame 2, looking from the side, has an L-shaped profile with a long leg 21 extending substantially horizontally and a shorter leg 22 extending substantially vertically. A reinforcing strut 23 joins the two legs 21 and 22 and confers stability on the structure. Rollers 4 are arranged at both ends of the leg 21 and thus allow the displacement of the carrying device 1. The roller 4 situated in the area of the connection of the two legs 21 and 22 is supported by the axle 41. The other roller 4, situated at the end of the long leg 21, is supported by an axle 42.
The receiving section 3 has a bent profile and is mounted at the free end of the short leg 22 on a pivot axis 24 and can thus be moved from an introduction position E, in which the free end of the receiving section 3 lies lower than the lowest point of the roll being removed, into a supporting position S in which the roll being removed is supported on both sides against rolling off.
As can be seen in
Means 5 are provided for actuating the carrying device 1, ensuring the secure supporting and displacement of the roll. The means 5 in this preferred sample embodiment comprise a threaded rod 6, which is pivot-mounted in a threaded bushing 7. The threaded bushing 7 is arranged in one cutout 13 of the short leg 22. The cutout 13 enables an axial transmission of forces—with respect to the threaded rod 6—yet it is profiled such that the threaded rod 6 can swivel about an axis perpendicular to the threaded rod axis in order to follow a change in the height position of one end 8 of the threaded rod 6. The other end of the threaded rod 6 is provided with a T-shaped handle 14.
In order to allow the swiveling of the receiving section 3, the end 8 of the threaded rod 6 interacts with an expanding joint 9. The expanding joint 9 in this sample embodiment comprises three joint segments 91, 92 and 93, which are mounted to swivel about a common axle 10. The joint segment 91 is provided with a rotary joint 81, which receives the end 8 of the threaded rod 6, making possible a rotation of the threaded rod 6 and likewise making possible the axial transmission of forces—with respect to the threaded rod axis. The other joint segments 92 and 93 are in operative connection with the support frame 2 and the receiving section 3, respectively. The joint segment 92 is able to swivel about the axle 42. The joint segment 93 is likewise pivot-mounted with the receiving section 3 by the axle 31.
The joint segment 92 also plays the part of a spacer for the main frame 2.
By turning the threaded rod in the corresponding direction of rotation, the spacing between the end 8 of the threaded rod 6 and the threaded bushing 7 can be increased or decreased, after which the receiving section 3 can be raised or lowered. In the area of the axle 31 the receiving section 3 has a projecting lug 11, which together with the receiving section 3 in the supporting position experiences an end stop against a bolt 12 of the joint segment 93 and limits the movement of the receiving section 3.
Beneath the rolls 51 and 51′, guide rails 53 can be arranged in a product space 55. This can be seen in
Beneath a respective end region of the roll body is situated a guide rail 53, which is designed to receive and guide a carrying device 1. In
The guide rail 53 and the carrying device 1 are coordinated with each other such that the carrying device 1 can only move along the guide rail in the direction perpendicular to the roll axis, apart from a tolerable sideways play. Moreover, the guide rails 53 are situated vertically to the rolls 51 and 51′, so that upon releasing the roll body 52 it cannot roll out uncontrollably from the roller mill 50.
In order to remove the roll body 52 of the roll 51, a carrying device 1 is inserted into the corresponding guide rail 53 and situated underneath the roll body 52 in the product space 55. Of course, the receiving section 3 should be located in the introduction position E, or else the positioning of the carrying device 1 would not be possible. After the carrying device 1 has been arranged underneath the roll body 2, the receiving section 3 is raised into the supporting position S and then the roll body 52 is released by moving apart the roll stubs 51a, 52a. The roll body 52 can then be removed from the roller mill 50.
After the removal of the roll body 52 of the roll 51, the same can be done for the roll 51′.
Number | Date | Country | Kind |
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16153028 | Jan 2016 | EP | regional |
16170918 | May 2016 | EP | regional |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2017/051806 | 1/27/2017 | WO |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2017/129764 | 8/3/2017 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3067884 | Williams | Dec 1962 | A |
4630781 | Brown, Jr. | Dec 1986 | A |
7198452 | Kirykowicz | Apr 2007 | B2 |
20010015425 | Garceau | Aug 2001 | A1 |
Number | Date | Country |
---|---|---|
10 2011 121 495 | May 2013 | DE |
2 662 143 | Nov 2013 | EP |
WO 8904719 | Jun 1989 | WO |
2005102531 | Nov 2005 | WO |
Entry |
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European Search Report Corresponding to 16170918.3 dated Nov. 9, 2016. |
International Search Report Corresponding to PCT/EP2017/051806 dated Mar. 29, 2017. |
Written Opinion Corresponding to PCT/EP2017/051806 dated Mar. 29, 2017. |
Number | Date | Country | |
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20190119082 A1 | Apr 2019 | US |