SHELF ASSEMBLY FOR FIRING

Information

  • Patent Application
  • 20100133220
  • Publication Number
    20100133220
  • Date Filed
    November 17, 2009
    15 years ago
  • Date Published
    June 03, 2010
    14 years ago
Abstract
A shelf assembly for firing includes: plural struts for supporting shelf boards arranged upright in two or more rows in a cross direction and in three or more rows in a longitudinal direction on a longitudinally-long car; and tie-beams connecting between the struts. A thermal stress relief structure is provided in which the struts arranged upright in the adjacent rows in the longitudinal direction are connected only with tie-beams slanted in a cross direction between the struts, thereby solving the problems such as warpage or damage of the struts resulting from a bending stress generated in the longitudinal direction at the fixing parts of the struts whose tops are secured.
Description
BACKGROUND OF THE INVENTION

1. Field of the Invention


The present invention relates to a shelf assembly for firing.


2. Description of the Prior Art


With regard to shelf assemblies for firing ceramic, a shelf assembly has been known that is provided with struts on a kiln car, each of the struts having plural projecting sides for mounting shelf boards and the shelf boards being mounted on the projecting sides (Patent Document 1, for example). Conventionally, in order to stabilize the struts extending in a vertical direction on a kiln car, there have been adopted a method of inserting the tops of struts in an upper plate having strut insertion holes to secure the struts as described in Patent Document 1 and a method of securing the tops of struts 2 supported by a car 3 with tie-beams 4 as shown in FIG. 1.


In these conventional methods, however, the bottoms of struts are immovably secured to the car-top with footing members. When thermal expansion occurs on shelf components during firing processing, a large load is applied especially to the upper ends of struts located in the vicinity of the longitudinal ends to thereby generate a bending stress, and the bending stress causes large distortion on the struts, resulting in warpage or damage of the struts. Conventionally, as a mechanism for relieving such a stress, a margin for accommodating thermal expansion was provided by designing the diameter of holes for inserting bolts to be larger than bolt diameters. However, it was not preferable to design the diameter of holes for inserting bolts to be larger than bolt diameters, because it caused new problems such as vibrations to the shelf assembly.


[Patent Document 1] Japanese Unexamined Patent Publication No. 11-257876
SUMMARY OF THE INVENTION
Problems to be Solved by the Invention

An object of the present invention is to solve the above-mentioned problems and to provide a shelf assembly for firing which can prevent warpage or damage of struts resulting from a bending stress generated in a longitudinal direction at the fixed parts of struts whose tops are secured.


Means by which the Problems are Solved

A shelf assembly for firing of the present invention devised to solve the above problems comprises: plural struts for supporting shelf boards arranged upright, in two or more rows in a cross direction and three or more rows in a longitudinal direction on a longitudinally-long car; and tie-beams connecting between the upper ends of the struts, wherein the shelf assembly has a thermal stress relief structure in which the struts arranged upright in adjacent rows in the longitudinal direction are connected only with the tie-beams slanted in the cross direction between the struts.


The invention as set forth in claim 2 is characterized in that in the shelf assembly for firing according to claim 1, the thermal stress relief structure is incorporated in the whole shelf assembly.


The invention as set forth in claim 3 is characterized in that in the shelf assembly for firing according to claim 1, the thermal stress relief structure is incorporated in a part of the shelf assembly.


The invention as set forth in claim 4 is characterized in that in the shelf assembly for firing according to claim 1, the thermal stress relief structure is incorporated in a central portion in a longitudinal direction of the shelf assembly.


The invention as set forth in claim 5 is characterized in that in the shelf assembly for firing according to any one of claims 1 to 4, the tie-beams constituting the thermal stress relief structure decussate with each other.


Effect of the Invention

A shelf assembly for firing according to the present invention has a thermal stress relief structure in which struts are connected only with tie-beams slanted in a cross direction between the struts, thereby scattering a stress generated in the longitudinal direction of the shelf assembly in the cross direction to relieve it and solving the problems such as warpage or damage of struts resulting from a longitudinal stress load. Conventionally, as a stress relief mechanism, a margin for accommodating thermal expansion was provided by designing the diameter of holes for inserting bolts to be larger than bolt diameters. But the margin for accommodating thermal expansion caused new problems, such as vibration of the shelf assembly. The stress relief mechanism according to the invention does not cause problems such as vibration.


In order to scatter a longitudinal stress load in the cross direction most effectively, it is preferable to incorporate a thermal stress relief structure in the whole shelf assembly. On the other hand, by incorporating a thermal stress relief structure in a part of the shelf assembly, the effect of the invention can be obtained while the conventional shelf assembly structure is used as it is wherever possible. In the case where a thermal stress relief structure is incorporated in a part of the shelf assembly, a longitudinal stress load is scattered in the cross direction more effectively by incorporation of the thermal stress relief structure in a central portion in the longitudinal direction of the shelf assembly. In addition, the tie-beams constituting a thermal stress relief structure preferably decussate with each other.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is an illustrative view of the structure of a conventional shelf assembly for firing.



FIG. 2 is an illustrative view of the structure of a shelf assembly for firing of the present invention.



FIG. 3 is a longitudinal side view of the shelf assembly for firing of the present invention.



FIG. 4 is a view showing models of struts connection with tie-beams.





DETAILED DESCRIPTION OF THE INVENTION


FIG. 2 is an illustrative view of the structure of a shelf assembly for firing of the present invention.


The shelf assembly for firing of the present invention has a structure in which struts 2 for supporting shelf boards 1 are arranged upright in two or more rows in a cross direction and three or more rows in a longitudinal direction on a longitudinally-long car 3, each of the struts 2 being connected to other struts with at least two tie-beams 4, and furthermore, a thermal stress relief structure 5 is incorporated in at least one portion of the self assembly. The thermal stress relief structure 5 in the present invention is a structure in which the struts arranged upright in adjacent rows in the longitudinal direction are connected only with the tie-beams 4 slanted in a cross direction between the struts. In order to scatter a longitudinal stress load in the cross direction, the oblique angle of the tie-beams 4 can be set within the range of 10 to 80 degrees with respect to the longitudinal direction. In order to scatter a longitudinal stress load in the cross direction effectively, the angle is preferably set within the range of 30 to 60 degrees, and most preferably at 45 degrees.


The shelf boards 1, struts 2 and tie-beams 4 are made of refractory materials such as silicon carbide. The refractory materials are not specifically limited, but from the aspect of refractory materials for a shelf assembly for firing, it is more preferable that they have the following physical properties: an apparent porosity of 0.1 to 20%, a bulk density of 2.5 to 3.5 and Young's modulus of 200 to 400 GPa. The bottoms of struts 2 are secured on the car 3, and the tops of struts 2 are connected to other struts 2 with at least two tie-beams 4. As shown in FIG. 3, the connection structure of the tops of struts 2 is provided by superposing a hole formed on the top of strut 2, a hole formed on a cap 6 which is used to cover the top of strut 2, and a hole formed at the joint of the tie-beams 4, and then inserting a cap pin 7 through the superposed holes. Such a cap pin insertion structure achieves a greater stress relief effect. However, the present invention is not limited to such a cap pin insertion structure, and a stress relief effect of the invention is also achievable by a structure in which a cap and a pin are integrated or a structure having only tie-beams.



FIG. 4 shows the connection models of struts 2 in a conventional shelf assembly for firing (Comparative Example) and a shelf assembly for firing of the present invention (Examples 1 to 8). Comparative Example does not include a thermal stress relief structure 5 in which longitudinally adjoining struts are connected only with tie-beams slanted in a cross direction. In Examples 1 to 3, a thermal stress relief structure 5 is incorporated in a central portion in a longitudinal direction of the shelf assembly, and in Examples 5 to 8, a thermal stress relief structure 5 is incorporated in the whole shelf assembly.


Shelf assemblies for firing having the strut connection structures according to the strut connection models shown in FIG. 4 (Comparative Example, Examples 1 to 8) were made. The structure dimension of every shelf assembly was: 5000 mm in length×1000 mm in breadth×2000 mm in height. Table 1 below shows the ratio of each longitudinal bending stress generated at the tops of struts in Examples 1 to 8 (assuming that the longitudinal bending stress generated at the tops of struts in Comparative Example is 100%) and the breakage rate in the case where each shelf assembly is used in firing (firing temperature: 1300° C., frequency of use: 100 times/year).


As shown in Table 1, according to the present invention (Examples 1 to 8), a greater stress relief effect is achieved compared to the prior art (Comparative Example), and problems such as warpage or damage of struts can be solved.












TABLE 1







Stress ratio
Breakage rate




















Comparative
100% 

10%




Example



Example 1
29%
 0.5%



Example 2
43%
  1%



Example 3
29%
 0.5%



Example 4
14%
0.01%



Example 5
14%
0.01%



Example 6
14%
0.01%



Example 7
14%
0.01%



Example 8
29%
 0.5%









Claims
  • 1. A shelf assembly for firing comprising: plural struts for supporting shelf boards arranged upright in two or more rows in a cross direction and in three or more rows in a longitudinal direction on a longitudinally-long car; andtie-beams connecting between the upper ends of the struts, wherein the shelf assembly has a thermal stress relief structure in which the struts arranged upright in adjacent rows in the longitudinal direction are connected only with the tie-beams slanted in a cross direction between the struts.
  • 2. A shelf assembly for firing according to claim 1, wherein the thermal stress relief structure is incorporated in the whole shelf assembly.
  • 3. A shelf assembly for firing according to claim 1, wherein the thermal stress relief structure is incorporated in a part of the shelf assembly.
  • 4. A shelf assembly for firing according to claim 1, wherein the thermal stress relief structure is incorporated in a central portion in a longitudinal direction of the shelf assembly.
  • 5. A shelf assembly for firing according to any one of claim 1, wherein the tie-beams constituting the thermal stress relief structure decussate with each other.
  • 6. A shelf assembly for firing according to claim 2, wherein the tie-beams constituting the thermal stress relief structure decussate with each other.
  • 7. A shelf assembly for firing according to claim 3, wherein the tie-beams constituting the thermal stress relief structure decussate with each other.
  • 8. A shelf assembly for firing according to claim 4, wherein the tie-beams constituting the thermal stress relief structure decussate with each other.
Priority Claims (1)
Number Date Country Kind
2008-306115 Dec 2008 JP national