This application is a national stage application under 35 U.S.C. 371 of PCT Application No. PCT/EP2006/000639 having an international filing date of Jan. 25, 2006, which designated the United States, which PCT application claimed the benefit of German Application Serial No. 102005003501.9, filed Jan. 25, 2005, the entire disclosure of each of which is hereby incorporated herein by reference.
The present invention relates to a device for supporting, stacking, and transporting kiln run, in particular for firing ceramic products.
In order to be able to manufacture ceramic products, they have to be fired in a kiln. For importing and exporting from the oven, these ceramic products are preferably supported on a device, which can be moved into the oven and removed again. In the state of the art, respective kiln carts are known for this purpose, comprising fire resistant superstructures (kiln cart superstructures) made form support assemblies, in which respective holders or support systems for ceramic products or the kiln run in general are formed from several supports and support carriers, like carrier beams, cross beams, large plates or similar.
According to a known embodiment, the supports are provided with window openings, in which carrier beams can be received. Typically the supports are provided as rectangular tubes, so that the window openings are provided in two opposite side walls of the rectangular tubes. When inserting a carrier beam, which is typically also provided as a rectangular tube, thus two support locations of the carrier beam are created in the support, thus in one respective side wall. This leads to the disadvantage that, in case of imprecisions or deformations of the supports, or carrier beams, no equal load is created in the supports, but the carrier beam possibly only rests in one side wall, and in the extreme, even punctiform contact locations are created. This leads to a one-sided loading of the support with the respective induction of moments, which are problematic, in particular, with the typically used material for supports, carrier beams, etc., which has to be suitable for the high firing temperatures of the ceramic kiln run. Typically ceramic materials, e.g. Al2O3, RSiC, SiSiC, NSiC or Mullite, are used for the superstructure of the kin cart, which are known to be sensitive with respect to tension—and/or bending loads.
It is disadvantageous, in particular that, in case of horizontally non aligned window openings and carrier beams, punctiform contact locations are created in the side walls, which creates the risk of chipping off ceramic material from the supports and carrier beams. Through elastic bending of the carrier beams, when they are loaded with ceramic kiln run, the stress peaks at the support locations of the carrier beams on the side walls are even increased.
An additional reinforcement of the load peaks can also be created by the fact that at the typical firing temperatures of over 1000° C., due to the thermal expansion of the materials, motions between the particular components of the support arrangements, thus also between the carrier beams and the supports, inevitably occur. Due to the surface support of the carrier beams on two supports in the side walls, large amounts of friction occur between the carrier beam and the support. Due to this large amount of friction, the thermal expansion of the carrier beams cannot be relieved in a defined manner, whereby the transfer of high lateral forces becomes possible.
Various methods were suggested, in order to eliminate these disadvantages. E.g. through the insertion of carrier plates into the window openings, wherein the carrier plates can also be provided cylindrical or convex, defined contact areas between the side walls and the carrier beams shall be assured. Furthermore, in case of a possible tipping of the carrier beams, chipping on the side walls of the window openings shall be avoided. The Patent document DE 203 05 182 U1 provides e.g. to support the carrier beams on differently shaped support bodies, which are mounted in the support, perpendicular to the window openings. These support bodies are thereby inserted into the support, or tied to the support, loosely but precisely fitting. Thereby, the high amount of friction of a line shaped support between carrier beam and support body is maintained, and the thermal expansion between carrier beams and supports during heating and cooling cannot be relieved in a defined manner.
Thus it is the object of the present invention to provide a device for holding and supporting or stacking and transporting kiln run, in particular, kiln run for firing ceramic products, which avoids the advantages of the above described state of the art. In particular, a device shall be provided, which relieves thermal expansions of the carrier beams in a defined and reliable manner. This relief shall also occur, when heavy ceramic products, e.g. washbowls and toilets, are supported on the device. Furthermore, this device shall be simple to manufacture.
The object is accomplished according to the invention through a device with the features of Patent claim 1, wherein advantageous embodiments of the device are objects of the dependent claims.
The device according to the invention for supporting, stacking, and transporting kiln run, in particular for firing ceramic products, comprises an assembly of supports and support beams, received at the supports, in particular, carrier beams, cross beams, large plates, or similar, on which, in particular, one or several supports for placing the kiln run are provided. For supporting at least one support carrier, at least one loose bearing is provided, comprising a support body, which is moveably disposed, substantially in the direction of the support carrier. The directional reference to the support carrier always refers to the lateral longitudinal extension of this element.
The invention is based on the finding that the high static friction e.g. between carrier beam and support is the reason that a relief of thermal expansion of the carrier beam can be blocked completely. According to the invention, the high static friction is replaced by significantly smaller roll friction and eliminated between the carrier beam and the cross beam or similar, and the support body, on the one hand, and the support body and the receiver of the support body, on the other hand. Through a loose bearing, which avoids static and dynamic friction, the defined and reliable relief of the thermal expansion of the support beam is assured, so that peak stresses and the risk of chipping ceramic material of the kiln cart superstructure can be avoided.
In a preferred embodiment, the loose bearing is provided as a bearing of a carrier beam, which is received in window openings by two supports. Thus, the support body of the loose bearing of the carrier beam is inserted, substantially in the window opening of a support, and perpendicular to the direction of the window opening, and to the carrier beam, in a guide formed by two parallel slotted holes, extending substantially parallel to the carrier beam in the outside of the support. This way, the loose bearing of the carrier beam can be integrated very easily into the support preferably provided as a rectangular tube, and several loose bearings can easily be housed in one support.
Through the support body, the load of the carrier beam, and possibly of additional support beams and of the kiln run is transferred to the side walls of the support, whereby tension can build up. Now, when the window opening of the support for passing through the carrier beam is preferably provided at the bottom and/or at the top with round corners and/or with an arc, in particular, as a semicircle, the compression stress distribution in the support is improved, since stress concentration through notch effects is avoided in the corners of the window opening.
In another preferred embodiment, the loose bearing is provided as a bearing of a cross beam or of a large plate, which are received on two carrier beams. Thereby, the support body of the loose bearing of the lateral beam, or of the large plate loosely rests on the upper surface of a carrier beam, and the upper side is provided with at least one lateral side stop for the support body. Thus the support of this support carrier is integrated in the kiln cart superstructure in a particularly advantageous manner. The fixed bearing of this support carrier can thereby be configured, so that a substantially linear support, or a support with a support area is created, assuring a high amount of static friction. However, also other fixation measures and suitable design fixations are possible.
The upper side of the carrier beam, on which the loose bearing of the cross beam or of the large plate is provided, is provided continuously flat in transversal direction. Additionally, the upper side can also have one or several transversally extending depressions. On them or in them, the support body of the loose bearing can run, wherein its position on the carrier beam is fixed. Furthermore, thus the support surface of the support body on the carrier beam can be reduced, and only roll friction is effective.
According to a preferred embodiment, the loose bearing is tilted relative to the horizontal direction, thus it has a vertical rise. This way, the support body is disposed in front of the support carrier in a vertically lower position, compensating for an expansion of the support carrier during the heating through rolling into a vertically higher position. After the removal of the support carrier from the loose bearing, or contraction due to cooling, the support body independently rolls into the lower position. Thereby, it is assured that the loose bearing always takes such a base position in cooled state, which allows a motion compensating for thermal expansion. Alternatively, the transversal beam for the loose bearing can also be provided prismatic, thus shaped like a roof, and provided with lateral stop edges, and can comprise a loose rolling support body. This way, the loose bearing can compensate for thermal expansions towards two sides.
In order to secure the support body against the risk of sliding out of the slotted hole guide, the support body can have smaller pinions on two face sides or, alternatively, dumbbell shaped reinforcements, thus e.g. discs with a larger diameter than the central part of the support body. But also other kinds of lateral guides are possible. For example, the pinions or dumbbell shaped reinforcement can engage with the transversally extending depressions of the upper side of the carrier beam.
Subsequently, an embodiment of a device for supporting, stacking, and transporting of kiln run is described with reference to the schematic drawing. It is shown in:
The loose bearing of the carrier beam 6 shown in
The carrier beam 6 is supported as shown in
The support beams, in particular, the carrier beam 6, are each preferably supported through a fixed and a loose bearing. The length of the loose bearing is to be selected depending on the thermal expansion coefficient of the ceramic material, the length of the carrier beam, and the temperature range of the kiln. When larger thermal expansions have to be compensated for, or in case of a short length of the loose bearing, e.g. due to a small width of the support, a large vertical rise of the support carrier has to be dealt with, thus the support carrier can also be placed onto two loose bearings. Thereby, the necessary vertical rises would be cut in half, and the support beam would substantially always stay horizontal.
In order to avoid a bending of particularly large carrier beams in the support assembly between two supports, an additional support can be provided, which is provided in alignment with them, comprising respective fixed and loose bearings, or only loose bearings or fixed bearings. This way, chain assemblies with laterally sequentially disposed carrier beams are possible, whereby e.g. the disadvantages (canting, imprecision of support, etc.) of carrier beams, which are supported on three supports, are avoided. With the same method, certainly also long lateral beams can be replaced by lateral beams located behind each other, each resting on a outer carrier beam and a common middle carrier beam, resting between two outer carrier beams.
The prismatic loose bearing for cross beams 7 shown in
The supports 3, 3′, 4, 4′ and the carrier beams 5, 5′, 6, 6′ are provided as hollow rectangular tubes, the support bodies 9, 13, 19, 20 are provided as hollow round tubes, or solid round bars, the cross beams 7 are provided as solid rectangular bars or as hollow profiles, and the support body 18 is provided as a solid round bar. In order to increase stability, it is also possible, in particular, to provide the supports 3, 3′, 4, 4′, the carrier beams 5, 5′, 6, 6′, and the support bodies 9, 13, 19, 20 solid, and to provide the lateral beams 7 and the support bodies 18 hollow, in particular, for reducing the weight of the device 1. Though the support bodies 9, 13, 19, 20, described herein, are provided substantially cylindrical, certainly any other shape, e.g. spherical, which allows a rolling motion of the supports beams 5, 5′, 6, 6′, 7, is useable.
The support bodies 9, 13, 19, 20 and the supports 3, 3′, 4, 4′ and the support beams 5, 5′, 6, 6′, 7 can be made from any ceramic material with sufficient fire resistance, and mechanical strength, as e.g. Al2O3, RSiC, SiSiC, NSiC or Mullite, and other suitable materials combinations. Preferably the support bodies 9, 13, 19, 20 are made from an inert ceramic material, relative to the carrier beam 5, 5′, 6, 6′, and the support 3, 3′, 4, 4′, and the cross beam 7, so that a bonding of the supports 3, 3′, 4, 4′, and the carrier beams 5, 5′, 6, 6′, 7 with the support bodies 9, 13, 19, 20, as it is possible e.g. in a direct contact of identical ceramic materials through surface oxidation, glazing condensation, or sintering, is effectively avoided.
Number | Date | Country | Kind |
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10 2005 003 501 | Jan 2005 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2006/000639 | 1/25/2006 | WO | 00 | 11/6/2007 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2006/079518 | 8/3/2006 | WO | A |
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Number | Date | Country | |
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20080138754 A1 | Jun 2008 | US |