JP7401991B2 - ceramic shelves - Google Patents

Description

The present invention relates to a ceramic shelf assembly.

Generally, a ceramic shelf assembly is used as a kiln tool used when firing an object made of ceramic material in a firing furnace. The ceramic shelf assembly includes a plurality of columns, and each column is provided with a mounting table (for example, see Patent Document 1). A shelf board is placed on the mounting table. The object to be fired is placed on the shelf board and fired in this state in the firing furnace. Also known is a ceramic shelf assembly in which each pillar is connected by a bridging member.

Japanese Patent Application Publication No. 2011-052909

The pillars that make up the ceramic shelf assembly are required to have strength so that they will not be distorted or damaged in the high-temperature environment during firing of objects to be fired. For this reason, the ceramic shelf assembly is made of a ceramic material that is a high-temperature refractory material. The pillars are formed with a desired thickness to ensure strength at high temperatures. However, as the struts become thicker, the heat capacity of the ceramic shelving assembly may increase. In this case, the heat generated in the firing furnace during firing of the object to be fired is absorbed by the ceramic shelf assembly, and the amount of heat generated in the firing furnace during firing can increase.

The present invention was made in consideration of these points, and an object of the present invention is to provide a ceramic shelf assembly that can reduce heat capacity and improve strength in a high-temperature environment during firing. do.

The present invention
A ceramic shelf assembly for supporting a supported object in a firing furnace,
a plurality of columns each including a vertical bar extending in the vertical direction;
a plurality of horizontal bars extending in the horizontal direction and connecting a pair of vertical bars that are adjacent to each other in a direction along the outer edge of the ceramic shelf assembly when viewed from above;
a plurality of joints interposed between each of the horizontal bars and the corresponding vertical bar;
The joint includes a first vertical bar recess into which the vertical bar can be inserted, a first vertical bar support portion provided around the first vertical bar recess, and a horizontal bar recess into which the horizontal bar can be inserted. , a horizontal bar support portion provided around the horizontal bar recess, a ceramic shelf assembly,
I will provide a.

According to the present invention, it is possible to reduce the heat capacity and improve the strength in a high temperature environment during firing.

FIG. 1 is a front view showing an example of a ceramic shelf assembly according to an embodiment of the present invention. FIG. 2 is a perspective view showing the ceramic shelf assembly of FIG. 1. FIG. 3 is a vertical cross-sectional view showing the vertical bar, horizontal bar, and connection structure shown in FIG. 1. FIG. 4 is a partially enlarged sectional view of the connection structure of FIG. 3. FIG. 5 is a partially exploded perspective view of the ceramic shelf assembly of FIG. 2.

Hereinafter, a ceramic shelf assembly according to an embodiment of the present invention will be described with reference to the drawings. A ceramic shelf assembly is a kiln tool for supporting objects in a firing furnace. Examples of the object to be supported include the object to be fired, a shelf board on which the object to be fired is placed, a baking jig for correcting the shape of the object to be fired, and the like.

As shown in FIG. 1, the ceramic shelf assembly 1 according to the present embodiment includes a plurality of columns 2 each including a vertical bar 10 extending in the vertical direction, a plurality of horizontal bars 20 extending in the horizontal direction, and a plurality of columns 2 each including a vertical bar 10 extending in the horizontal direction. A plurality of joints 30 are provided to connect the rods 20. FIG. 1 shows an example in which a supported object 101 is supported on the upper part of a ceramic shelf assembly 1 in a firing furnace 100.

As shown in FIGS. 1 and 2, in this embodiment, the ceramic shelf assembly 1 is formed in the shape of a rectangular parallelepiped, and is formed in a rectangular shape when viewed from above. The ceramic shelf assembly 1 includes the four pillars 2 described above. Each strut 2 has a plurality of vertical bars 10, and the plurality of vertical bars 10 are connected via a joint 30 to constitute the strut 2.

The plurality of vertical bars 10 include a first vertical bar 11 and a second vertical bar 12 arranged above the first vertical bar 11. In this embodiment, as will be described later, the shelf assembly has a two-tier configuration, with the first vertical bar 11 serving as the bottom vertical bar 10, and the second vertical bar 12 serving as the top vertical bar 10. It is configured as. Each vertical bar 10 is formed in a cylindrical shape so as to extend linearly in the vertical direction, and has a ring-shaped cross section. The first vertical bar 11 and the second vertical bar 12 may have the same shape. However, the length of the first vertical bar 11 in the axial direction (vertical direction) and the length of the second vertical bar 12 in the axial direction may be different.

As shown in FIG. 3, each vertical bar 10 includes a vertical bar main body 10a, a lower end fitting part 10b provided at the lower end of the vertical bar main body 10a, and an upper end of the vertical bar main body 10a. The upper end fitting portion 10c is provided at the upper end fitting portion 10c. The diameter of the lower end fitting part 10b and the diameter of the upper end fitting part 10c may be smaller than the diameter of the vertical bar main body part 10a. In this case, the diameter of the lower end fitting part 10b and the diameter of the upper end fitting part 10c The diameters may be the same. However, the diameter of the lower end fitting portion 10b and the diameter of the upper end fitting portion 10c may be the same as the diameter of the vertical bar body portion 10a. The vertical bar 10 is formed by firing a ceramic material, and the lower end fitting part 10b and the upper end fitting part 10c may be formed by machining after firing.

As shown in FIGS. 1 and 2, the horizontal bar 20 connects a pair of vertical bars 10 that are adjacent to each other in the direction along the outer edge of the ceramic shelf assembly 1 when viewed from above. For example, in FIG. 2, the first vertical bar 11 on the front side of the center and the first vertical bar 11 on the right side are connected by one horizontal bar 20 (in the example shown in FIG. 2, the first horizontal bar 21 described later). ing. The first vertical bar 11 on the front side of the center and the first vertical bar 11 on the left side are connected by another horizontal bar 20 (in the example shown in FIG. 2, a fourth horizontal bar 24 described later).

The plurality of horizontal bars 20 constituting the ceramic shelf assembly 1 according to the present embodiment include two first horizontal bars 21, two second horizontal bars 22, two third horizontal bars 23, and two fourth horizontal bars. It includes a horizontal bar 24 and two fifth horizontal bars 25. Each first horizontal bar 21 and each second horizontal bar 22 are arranged at a position between the first vertical bar 11 and the second vertical bar 12 in the vertical direction. When viewed from above, the two first horizontal bars 21 are facing each other, and the two second horizontal bars 22 are facing each other. The first horizontal bar 21 and the second horizontal bar 22 extend in directions perpendicular to each other when viewed from above. Each third horizontal bar 23 and each fourth horizontal bar 24 are arranged at a position lower than the first vertical bar 11 in the vertical direction. When viewed from above, the two third horizontal bars 23 are opposed to each other, and the two fourth horizontal bars 24 are opposed to each other. The third horizontal bar 23 and the fourth horizontal bar 24 extend in directions perpendicular to each other when viewed from above. The fifth horizontal bar 25 is arranged at a position higher than the second vertical bar 12 in the vertical direction. When viewed from above, the two fifth horizontal bars 25 are opposed to each other.

When viewed from above, the first horizontal bar 21, the third horizontal bar 23, and the fifth horizontal bar 25 overlap each other, and the second horizontal bar 22 and the fourth horizontal bar 24 overlap each other. In this embodiment, each horizontal bar 20, like the vertical bar 10, is formed in a cylindrical shape so as to extend linearly in the horizontal direction, and has a ring-shaped cross section. The first horizontal bar 21 to the fifth horizontal bar 25 may have the same shape, but the axial (lateral) lengths of the first horizontal bar 21, the third horizontal bar 23, and the fifth horizontal bar 25 and the The lengths in the axial direction of the second horizontal bar 22 and the fourth horizontal bar 24 may be different.

As shown in FIG. 3, each horizontal bar 20 includes a horizontal bar body portion 20a, a first fitting portion 20b provided at one end of the horizontal bar body portion 20a, and a first fitting portion 20b provided at one end of the horizontal bar body portion 20a. A second fitting part 20c provided at the end. The diameter of the first fitting part 20b and the diameter of the second fitting part 20c may be smaller than the diameter of the horizontal bar body part 20a. The diameters of the joining portions 20c may be the same. However, the diameter of the first fitting part 20b and the diameter of the second fitting part 20c may be the same as the diameter of the horizontal bar body part 20a. The horizontal bar 20 is formed by firing a ceramic material, and the first fitting part 20b and the second fitting part 20c may be formed by machining after firing.

Further, the diameter of the horizontal bar body portion 20a may be the same as the diameter of the vertical bar body portion 10a, and the diameter of the first fitting portion 20b and the diameter of the second fitting portion 20c of the horizontal bar 20 may be the same as the diameter of the vertical bar body portion 10a. The diameter of the lower end fitting portion 10b and the diameter of the upper end fitting portion 10c of the rod 10 may be the same. That is, the vertical bar 10 and the horizontal bar 20 may be formed so that each part has the same diameter. Further, in this embodiment, the length of the vertical bar 10 in the axial direction (vertical direction) and the length of the horizontal bar 20 in the axial direction (horizontal direction) are different, but may be the same.

As shown in FIGS. 1 and 2, the plurality of joints 30 constituting the ceramic shelf assembly 1 according to the present embodiment include four first joints 31, four second joints 32, and four third joints 33. , four fourth joints 34 , and four fifth joints 35 . The first joint 31 to the fifth joint 35 may have the same shape.

The joint 30 is interposed between each horizontal bar 20 and the corresponding vertical bar 10. As shown in FIGS. 3 and 4, each joint 30 includes a first vertical bar recess 40 into which the vertical bar 10 can be inserted, and a first vertical bar support portion 41 provided around the first vertical bar recess 40. It has a horizontal bar recess 42 into which the horizontal bar 20 can be inserted, and a horizontal bar support portion 43 provided around the horizontal bar recess 42.

The first vertical bar recess 40 is open downward, and the upper end fitting part 10c of the vertical bar 10 can be inserted into the first vertical bar recess 40. The first vertical bar recess 40 is formed in a cylindrical shape and is configured to fit with the inserted upper end fitting portion 10c. As shown in FIG. 4, the first vertical bar recess 40 includes a first vertical bar contact surface 40a that can come into contact with the upper end surface 10e on the side of the upper end fitting part 10c.

As shown in FIGS. 3 and 4, the first vertical bar support portion 41 is a portion that is thickened around the entire circumference of the first vertical bar recess 40, and covers the first vertical bar recess 40. There is. The first vertical bar support portion 41 is configured to support the first vertical bar 11 inserted into the first vertical bar recess 40 .

The horizontal bar recess 42 is open laterally, and the first fitting part 20b and the second fitting part 20c (see FIG. 3) of the horizontal bar 20 can be inserted therein. The horizontal bar recess 42 is formed in a cylindrical shape and is configured to fit with the inserted first fitting part 20b or second fitting part 20c. The horizontal bar recess 42 includes a horizontal bar contact surface 42a that can come into contact with the end surfaces 20d and 20e of the horizontal bar 20. In FIG. 3, the first fitting part 20b of the horizontal bar 20 is inserted into the horizontal bar recess 42 of the one joint 30 (on the right side in FIG. 3), and the horizontal bar abutment surface 42a of the horizontal bar recess 42 , the first end surface 20d on the side of the first fitting portion 20b is in contact with the first end surface 20d. The second fitting part 20c of the horizontal bar 20 is inserted into the horizontal bar recess 42 of the other (left side in FIG. 3) joint 30, and the second fitting part 20c is inserted into the horizontal bar abutting surface 42a of the horizontal bar recess 42. The second end surface 20e on the side of the portion 20c is in contact with the second end surface 20e.

The horizontal bar support portion 43 is a portion that is thickened around the entire circumference of the horizontal bar recess 42 and covers the horizontal bar recess 42 . The horizontal bar support portion 43 is configured to support the horizontal bar 20 inserted into the horizontal bar recess 42.

As shown in FIG. 3, the joint 30 according to the present embodiment includes a second vertical bar recess 44 into which the vertical bar 10 can be inserted, and a second vertical bar support portion provided around the second vertical bar recess 44. 45. The second vertical bar recess 44 is open upward, and the lower end fitting portion 10b of the vertical bar 10 can be inserted into the second vertical bar recess 44. The second vertical bar recess 44 is formed in a cylindrical shape and is configured to fit with the inserted lower end fitting portion 10b. The second vertical bar recess 44 is formed concentrically with the first vertical bar recess 40 when viewed from above. As shown in FIG. 4, the second vertical bar recess 44 includes a second vertical bar contact surface 44a that can come into contact with the lower end surface 10d on the side of the lower end fitting part 10b.

As shown in FIGS. 3 and 4, the second vertical bar support portion 45 is a portion that is thickened around the entire circumference of the second vertical bar recess 44, and covers the second vertical bar recess 44. There is. The second vertical bar support portion 45 is configured to support the second vertical bar 12 inserted into the second vertical bar recess 44 .

The joint 30 may be formed by firing a ceramic material. The first vertical bar recess 40, the horizontal bar recess 42, and the second vertical bar recess 44 may be formed by machining after firing.

The first vertical bar support portion 41 and the horizontal bar support portion 43 described above may be connected by a rib 46 for reinforcing the joint 30. That is, in the present embodiment, as shown in FIG. 4, the lower end surface 41a of the first vertical bar support portion 41 is disposed lower than the lower end of the horizontal bar support portion 43 in the vertical direction. There is. In the present embodiment, the upper end surface 45a of the second vertical bar support portion 45 is located at approximately the same position as the upper end of the horizontal bar support portion 43. That is, the upper end surface 45a of the second vertical bar support portion 45 extends above the horizontal bar recess 42, and the upper surface of the joint 30 is formed in a flat shape from the second vertical bar recess 44 to the horizontal bar recess 42. has been done.

The first vertical bar contact surface 40a of the first vertical bar recess 40 may be arranged below the central axis 42b of the horizontal bar recess 42. The second vertical bar contact surface 44a of the second vertical bar recess 44 may also be arranged below the central axis 42b of the horizontal bar recess 42. The vertical dimension between the first vertical bar abutting surface 40a and the central axis 42b of the horizontal bar recess 42 is larger than the vertical dimension between the second vertical bar abutting surface 44a and the central axis 42b of the horizontal bar recess 42. ing.

The first vertical bar support portion 41, the horizontal bar support portion 43, the second vertical bar support portion 45, and the rib 46 are integrally formed. That is, the joint 30 is made of a ceramic material as described above, and the first vertical bar support part 41, the horizontal bar support part 43, the second vertical bar support part 45, and the ribs 46 are made of ceramic material before firing. Formed in one piece during molding.

As shown in FIG. 4, the joint 30 according to this embodiment may further include a circumferential convex portion 47 and a circumferential concave portion 48.

The peripheral convex portion 47 protrudes upward from the upper surface of the joint 30 (the upper end surface 45 a of the second vertical bar support portion 45 ) and is provided around the second vertical bar recess 44 . The peripheral protrusion 47 is formed in a ring shape, and is formed concentrically with the second vertical bar recess 44 .

The circumferential recess 48 is recessed upward from the lower surface of the joint 30 (the lower end surface 41 a of the first vertical bar support portion 41 ), and is provided around the first vertical bar recess 40 . The circumferential recess 48 is formed in a ring shape, and is formed concentrically with the first vertical bar recess 40 . Further, the diameter of the circumferential recess 48 is larger than the diameter of the circumferential protrusion 47, and the first vertical bar recess 40 and the circumferential recess 48 form a stepped recess as a whole.

When the two joints 30 are combined in the vertical direction, the peripheral convex portion 47 of the lower joint 30 is inserted into the peripheral recess 48 of the upper joint 30. In this case, a gap may be formed between the upper surface of the peripheral protrusion 47 of the lower joint 30 and the upper surface of the peripheral recess 48 of the upper joint 30. That is, when the joints 30 are combined in the vertical direction, the upper surface of the lower joint 30 (the upper end surface 45a of the second vertical bar support part 45) and the lower surface of the upper joint 30 (the first vertical bar support part 45) 41 comes into contact with the lower end surface 41a).

As shown in FIG. 4, the lower joint 30 and the upper joint 30 that are combined in the vertical direction are locked by a locking rod 50 that extends in the vertical direction. The lower part 50a of the locking rod 50 is inserted into and fitted into the second vertical bar recess 44 of the lower joint 30, and the upper part 50b of the locking rod 50 is inserted into the first vertical bar of the upper joint 30. It is inserted and fitted into the recess 40. In this way, relative displacement between the lower joint 30 and the upper joint 30 in the horizontal plane is suppressed. The locking rod 50 is formed in a cylindrical shape so as to extend linearly in the vertical direction, and has a ring-shaped cross section. The locking rod 50 may be formed to have the same diameter as the diameter of the lower end fitting part 10b and the diameter of the upper end fitting part 10c of the vertical bar 10 from the lower end surface 50c to the upper end surface 50d. The locking rod 50 is formed by firing a ceramic material, and after firing, the entire outer peripheral surface of the locking rod 50 may be machined.

The lower end surface 50c of the locking rod 50 is in contact with the second vertical rod abutment surface 44a of the second vertical rod recess 44 of the lower joint 30. A gap may be formed between the first vertical bar contact surface 40a of the first vertical bar recess 40 of the upper joint 30 and the upper end surface 50d of the locking rod 50.

The difference between the diameter of the second vertical bar recess 44 and the diameter of the locking rod 50 may be smaller than the difference between the diameter of the peripheral recess 48 and the diameter of the peripheral protrusion 47. Further, the difference between the diameter of the first vertical bar recess 40 and the diameter of the locking rod 50 may be smaller than the difference between the diameter of the peripheral recess 48 and the diameter of the peripheral protrusion 47. In this case, the two joints 30 are primarily locked via the locking rod 50.

Examples of the ceramic material used for the vertical bar 10, horizontal bar 20, joint 30, and locking bar 50 include alumina, mullite, zirconia, silicon carbide, silicon nitride, aluminum nitride, and cordierite. The vertical bar 10, the horizontal bar 20, the joint 30, and the locking bar 50 are obtained by kneading fine powder of a ceramic material with a binder, shaping the mixture, and then firing it in a firing furnace. The fired vertical bar 10, horizontal bar 20, joint 30 and locking bar 50 are at least partially machined. The ceramic material used for the vertical bar 10, the horizontal bar 20, the joint 30, and the locking bar 50 may be the same.

Next, a more specific configuration of the ceramic shelf assembly 1 in this embodiment will be described.

As shown in FIG. 2, in the ceramic shelf assembly 1 of this embodiment, the above-described first joint 31 is interposed between the above-described first vertical bar 11 and the second vertical bar 12. As shown in FIG. 3, the upper end fitting portion 10c of the first vertical bar 11 is inserted and fitted into the first vertical bar recess 40 of the first joint 31. The first horizontal bar 21 described above is inserted and fitted into the horizontal bar recess 42 of the first joint 31 . That is, the first horizontal bar 21 is interposed between a pair of first joints 31 that are adjacent to each other in the direction along the outer edge of the ceramic shelf assembly 1 when viewed from above. The first fitting part 20b of the first horizontal bar 21 is inserted into and fitted into the horizontal bar recess 42 of one of the first joints 31, and the second fitting part 20c of the first horizontal bar 21 is inserted into the horizontal bar recess 42 of the first joint 31. , is inserted and fitted into the horizontal bar recess 42 of the other first joint 31.

The above-mentioned second joint 32 is interposed between the first joint 31 and the second vertical bar 12. The lower end fitting portion 10b of the second vertical bar 12 is inserted and fitted into the second vertical bar recess 44 of the second joint 32. The above-described second horizontal bar 22 (see FIG. 2) is inserted and fitted into the horizontal bar recess 42 of the second joint 32. That is, the second horizontal bar 22 is interposed between a pair of second joints 32 that are adjacent to each other in the direction along the outer edge of the ceramic shelf assembly 1 when viewed from above. The first fitting part 20b of the second horizontal bar 22 is inserted into and fitted into the horizontal bar recess 42 of one of the second joints 32, and the second fitting part 20c of the second horizontal bar 22 is inserted into the horizontal bar recess 42 of one of the second joints 32. , is inserted and fitted into the horizontal bar recess 42 of the other second joint 32. The second horizontal bar 22 extends in a different direction from the first horizontal bar 21, and when viewed from above, the first horizontal bar 21 and the second horizontal bar 22 extend in directions perpendicular to each other.

As shown in FIG. 3, the first joint 31 and the second joint 32 are locked by the locking rod 50 described above. The second joint 32 is arranged on the first joint 31. The locking rod 50 is inserted into the second vertical bar recess 44 of the first joint 31 and also inserted into the first vertical bar recess 40 of the second joint 32. As shown in FIG. 4, the circumferential convex portion 47 of the first joint 31 is inserted into the circumferential concave portion 48 of the second joint 32. As shown in FIG.

As shown in FIG. 2, the third joint 33 described above is arranged below the first vertical bar 11. The third joint 33 is placed on the floor 100a of the firing furnace 100 and connected to the first vertical bar 11. The third horizontal bar 23 described above is inserted and fitted into the horizontal bar recess 42 (see FIG. 3) of the third joint 33. That is, the third horizontal bar 23 is interposed between a pair of third joints 33 that are adjacent to each other in the direction along the outer edge of the ceramic shelf set 1 when viewed from above. The first fitting part 20b of the third horizontal bar 23 is inserted and fitted into the horizontal bar recess 42 of one third joint 33, and the second fitting part 20c of the third horizontal bar 23 is inserted into the horizontal bar recess 42 of one of the third joints 33. , is inserted and fitted into the horizontal bar recess 42 of the other third joint 33.

As shown in FIG. 2, the above-mentioned fourth joint 34 is interposed between the third joint 33 and the first vertical bar 11. The lower end fitting portion 10b of the first vertical bar 11 is inserted and fitted into the second vertical bar recess 44 (see FIG. 3) of the fourth joint 34. Thereby, the first vertical bar 11 is connected to the third joint 33 via the fourth joint 34. The above-mentioned fourth horizontal bar 24 is inserted and fitted into the horizontal bar recess 42 of the fourth joint 34 . That is, the fourth horizontal bar 24 is interposed between a pair of fourth joints 34 that are adjacent to each other in the direction along the outer edge of the ceramic shelf set 1 when viewed from above. The first fitting part 20b of the fourth horizontal bar 24 is inserted into and fitted into the horizontal bar recess 42 of one of the fourth joints 34, and the second fitting part 20c of the fourth horizontal bar 24 is inserted into the horizontal bar recess 42 of one of the fourth joints 34. , is inserted and fitted into the horizontal bar recess 42 of the other fourth joint 34. The fourth horizontal bar 24 extends in a different direction from the third horizontal bar 23, and when viewed from above, the fourth horizontal bar 24 and the third horizontal bar 23 extend in directions perpendicular to each other.

As shown in FIG. 2, the third joint 33 and the fourth joint 34 are locked by the above-mentioned locking rod 50 (see FIG. 3). The fourth joint 34 is arranged on the third joint 33. The locking rod 50 is inserted into the second vertical bar recess 44 of the third joint 33 and into the first vertical bar recess 40 of the fourth joint 34 . A circumferential convex portion 47 (see FIG. 4) of the third joint 33 is inserted into a circumferential concave portion 48 of the fourth joint 34.

As shown in FIG. 2, the above-mentioned fifth joint 35 is arranged above the second vertical bar 12. The fifth joint 35 is connected to the second vertical bar 12. The fifth horizontal bar 25 described above is inserted and fitted into the horizontal bar recess 42 (see FIG. 3) of the fifth joint 35. That is, the fifth horizontal bar 25 is interposed between a pair of fifth joints 35 that are adjacent to each other in the direction along the outer edge of the ceramic shelf assembly 1 when viewed from above. The first fitting part 20b of the fifth horizontal bar 25 is inserted and fitted into the horizontal bar recess 42 of one fifth joint 35, and the second fitting part 20c of the fifth horizontal bar 25 is inserted into the horizontal bar recess 42 of one of the fifth joints 35. , is inserted and fitted into the horizontal bar recess 42 of the other fifth joint 35.

As shown in FIG. 2, the ceramic shelf assembly 1 according to the present embodiment configured as described above is composed of a first assembly unit 61 and a second assembly unit 62 stacked on the first assembly unit 61. It has a two-tiered shelf structure. As shown in FIG. 5, the first assembly unit 61 includes four first vertical bars 11, two first horizontal bars 21, two fourth horizontal bars 24, four first joints 31, four fourth joints 34. The second assembly unit 62 includes four second vertical bars 12, two second horizontal bars 22, two fifth horizontal bars 25, four second joints 32, four fifth joints 35, It is made up of.

The first assembly unit 61 and the second assembly unit 62 have the same configuration. That is, although the names of the vertical bar 10, the horizontal bar 20, and the joint 30 are different, the first assembly unit 61 and the second assembly unit are constructed using the same vertical bar 10, the same horizontal bar 20, and the same joint 30. 62 can be configured. In this way, the ceramic shelf assembly 1 shown in FIGS. 1 and 2 is mainly composed of two assembly units, and therefore can be referred to as a two-tiered shelf assembly. Below the first assembly unit 61 are two third horizontal bars 23 with joints 30 (third joints 33) fitted on both ends, and two third horizontal bars 23 with joints 30 (fourth joints 34) fitted on both ends. 4 horizontal bars 24 are provided.

Note that the tier configuration of the ceramic shelf assembly 1 is not limited to the two-tier configuration as shown in FIGS. 1 and 2. For example, the ceramic shelf assembly 1 may have a one-stage configuration, that is, a shelf assembly that is mainly composed of one assembled unit, or a three-tiered configuration, that is, that it is mainly composed of three or more assembled units. It may also be a set of shelves.

The vertical bar 10 and the joint 30 may be bonded together using an adhesive (for example, cement material). In this case, at least one or more vertical bars 10 and the corresponding joints 30 may be bonded with an adhesive. Similarly, the horizontal bar 20 and the joint 30 may be bonded together using an adhesive, or at least one horizontal bar 20 and the corresponding joint 30 may be bonded together using an adhesive. By using the adhesive in this way, the strength of the ceramic shelf set 1 can be improved.

In the shelf assembly according to this embodiment, for example, as shown in FIG. 1, a supported object 101 is placed on the upper part of the ceramic shelf assembly 1. For example, the supported object 101 may be composed of a shelf board stretched between two fifth horizontal bars 25 and an object to be fired (both not shown) placed on the shelf board. good. The shelf board is not limited to being spanned over the fifth horizontal bar 25. For example, the shelf board may be spanned across the two first horizontal bars 21 or the two second horizontal bars 22, or may be spanned between the two first horizontal bars 21 or the two second horizontal bars 22. It may be spanned over the third horizontal bar 23 or the two fourth horizontal bars 24. Alternatively, the supported object 101 is hung between two connecting jigs that connect a pair of fifth joints 35 that are adjacent to each other in the direction along the outer edge of the ceramic shelf assembly 1 when viewed from above, and two connecting jigs. It may be composed of a passed support jig rod and a hanging jig (both not shown) suspended from the support jig rod. In this case, the object to be fired may be placed on the floor surface 100a of the firing furnace 100 inside the ceramic shelf assembly 1.

When assembling the ceramic shelf assembly 1 according to the present embodiment, each vertical bar 10, each horizontal bar 20, and each joint 30 may be assembled in sequence to obtain the ceramic shelf assembly 1 shown in FIG. 1. Alternatively, as shown in FIG. 5, first, the first assembly unit 61 and the second assembly unit 62 are assembled, and then the second assembly unit 62 is stacked on the first assembly unit 61, and the ceramics shown in FIG. Alternatively, shelf set 1 may be obtained. As described above, the first assembly unit 61 and the second assembly unit 62 have the same configuration. Therefore, the size of the ceramic shelf assembly 1 can be flexibly changed by preparing several such assembly units in advance and stacking the desired number of assembly units to form the desired tiered configuration. Therefore, the degree of freedom in combining the ceramic shelf set 1 can be improved.

When firing an object to be fired using the ceramic shelf assembly 1 according to the present embodiment, first, the supported object 101 containing the object to be fired is placed on the upper part of the ceramic shelf assembly 1 outside the firing furnace 100. Ru. The ceramic shelf assembly 1 is carried into the firing furnace 100 with the supported object 101 placed thereon. Subsequently, the object to be fired in the firing furnace 100 is fired. At this time, heat is also applied to the ceramic shelf assembly 1, and the temperatures of the vertical bars 10, horizontal bars 20, joints 30, and locking bars 50 rise. However, since the vertical bar 10, the horizontal bar 20, the joint 30, and the locking bar 50 are made of ceramic material, even if the temperature inside the firing furnace 100 becomes high for firing the object to be fired, , the strength of the ceramic shelf assembly 1 can be ensured. Therefore, the supported object 101 can be stably supported. When the firing of the object to be fired is completed, the ceramic shelf assembly 1 is carried out from the firing furnace 100 with the object to be fired after firing placed thereon. After cooling the object to be fired, the object to be fired is taken out from the ceramic shelf assembly 1.

While the supported object 101 is placed on the ceramic shelf assembly 1, the force due to the weight of the supported object 101 is distributed to each support column 2. The vertical bars 10 constituting each column 2 are connected to the horizontal bars 20 via joints 30, and the force applied to each column 2 can be distributed to other columns 2 via the horizontal bars 20. Further, when moving the ceramic shelf assembly 1 with the supported object 101 placed thereon, the ceramic shelf assembly 1 can be prevented from being distorted in the moving direction or in the opposite direction to the moving direction.

After the firing of the object to be fired is completed, the ceramic shelf set 1 may be disassembled. That is, each vertical bar 10 is removed from its corresponding joint 30, and each horizontal bar 20 is removed from its corresponding joint 30. The locking rod 50 can also be removed in the same way. The removed vertical bar 10, horizontal bar 20, joint 30, and locking bar 50 may be stored. When assembling the ceramic shelf assembly 1 again, it can be assembled using the stored vertical bars 10, horizontal bars 20, joints 30, and locking bars 50. Therefore, the vertical bar 10, the horizontal bar 20, the joint 30, and the locking bar 50 can be reused.

According to this embodiment, the vertical bars 10 constituting each support 2 are connected to the horizontal bars 20 via the joints 30, and the joints 30 connect to the first vertical bars 10 into which the vertical bars 10 are inserted. It has a first vertical bar support part 41 provided around the bar recess 40 and a horizontal bar support part 43 provided around the horizontal bar recess 42 into which the horizontal bar 20 is inserted. Accordingly, in the joint 30 that connects the vertical bar 10 and the horizontal bar 20, the portion where the vertical bar 10 is inserted and the portion where the horizontal bar 20 is inserted can be made thicker. Therefore, the connection strength between the vertical bars 10 and the horizontal bars 20 can be improved, and the strength of the ceramic shelf assembly 1 in a high-temperature environment during firing can be improved. In this case, the thickness of the vertical bar 10 and the thickness of the horizontal bar 20 can be made thinner than the first vertical bar support portion 41 and the horizontal bar support portion 43 of the joint 30. Therefore, the heat capacity of the vertical bar 10 and the heat capacity of the horizontal bar 20 can be reduced, and the amount of heat required during firing can be reduced.

Further, according to the present embodiment, the first vertical bar recess 40 of the joint 30 opens downward, and the joint 30 further includes a second vertical bar recess 44 that opens upward into which the vertical bar 10 can be inserted. have. Thereby, the vertical bars 10 can be respectively arranged above and below the joint 30, and the upper vertical bar 10 and the lower vertical bar 10 can be connected. Therefore, the size of the ceramic shelf set 1 can be changed flexibly, and the degree of freedom in combining the ceramic shelf set 1 can be improved. The joint 30 further includes a second vertical bar support portion 45 provided around the second vertical bar recess 44 . As a result, the portion where the lower vertical bar 10 is inserted (the first vertical bar support portion 41) and the portion where the upper vertical bar 10 is inserted (the second vertical bar support portion 45) are made thicker. I can do it. Therefore, the connection strength between the vertical bar 10 and the horizontal bar 20 can be improved. Further, the lower vertical bar 10 and the upper vertical bar 10 can be made thinner, and the heat capacity of these vertical bars 10 can be reduced.

Further, according to the present embodiment, the horizontal bar recess 42 of the first joint 31 interposed between the first vertical bar 11 and the second vertical bar 12 disposed above the first vertical bar 11 A first horizontal bar 21 is inserted. By this, the first vertical bar 11, the first horizontal bar 21, and the second vertical bar 12 can be firmly connected, and the connection strength of the first vertical bar 11, the first horizontal bar 21, and the second vertical bar 12 is can be improved.

Further, according to the present embodiment, the second joint 32 is interposed between the first joint 31 and the second vertical bar 12, and the first horizontal bar 21 is located in the horizontal bar recess 42 of the second joint 32. A second horizontal bar 22 extending in a different direction is inserted. By this, mutually adjacent columns 2 can be connected by the first horizontal bar 21 and the second horizontal bar 22 extending in mutually different directions. Therefore, the strength of the ceramic shelf assembly 1 can be improved. In particular, the first horizontal bar 21 and the second horizontal bar 22 can be arranged close to each other in the vertical direction. Therefore, the strength of the ceramic shelf assembly 1 can be further improved, and when the ceramic shelf assembly 1 is moved with the supported object 101 placed on it, the ceramic shelf assembly 1 is moved in the moving direction or in the moving direction. It is possible to suppress distortion in the opposite direction.

Further, according to the present embodiment, the first joint 31 and the second joint 32 are locked by the locking rod 50 extending in the vertical direction, and the locking rod 50 is the second vertical bar of the first joint 31. It is inserted into the recess 44 and also into the first vertical bar recess 40 of the second joint 32 . This allows the first joint 31 and the second joint 32 to be firmly connected. Furthermore, by configuring the locking rod 50 as a separate component from the first joint 31 and the second joint 32, the ceramic shelf assembly 1 can be prevented from being distorted by absorbing the positional deviation between the first joint 31 and the second joint 32. Can be suppressed.

Further, according to the present embodiment, the circumferential convex portion 47 of the first joint 31 is inserted into the circumferential concave portion 48 of the second joint 32. This makes it possible to ensure stability when the first joint 31 and the second joint 32 are combined. Moreover, even if the ceramic shelf assembly 1 receives an impact during transportation, this impact can be alleviated.

Further, according to the present embodiment, the first vertical bar 11 is connected to the third joint 33 which is arranged below the first vertical bar 11 and placed on the floor surface 100a of the firing furnace 100, and The third horizontal bar 23 is inserted into the horizontal bar recess 42 of the joint 33. Thereby, the lower end portions of mutually adjacent columns 2 can be connected by the third horizontal bar 23. Therefore, the strength of the ceramic shelf assembly 1 can be further improved.

Further, according to the present embodiment, the fourth joint 34 is interposed between the third joint 33 and the first vertical bar 11, and the third horizontal bar 23 is located in the horizontal bar recess 42 of the fourth joint 34. A fourth horizontal bar 24 extending in a different direction is inserted. This makes it possible to connect the lower ends of adjacent columns 2 with the third horizontal bar 23 and the fourth horizontal bar 24 that extend in different directions. Therefore, the strength of the ceramic shelf assembly 1 can be further improved. In particular, the third horizontal bar 23 and the fourth horizontal bar 24 can be arranged close to each other in the vertical direction. Therefore, the strength of the ceramic shelf assembly 1 can be further improved, and when the ceramic shelf assembly 1 is moved with the supported object 101 placed on it, the ceramic shelf assembly 1 is moved in the moving direction or in the moving direction. It is possible to suppress distortion in the opposite direction.

Further, according to the present embodiment, the third joint 33 and the fourth joint 34 are locked by the locking rod 50 extending in the vertical direction, and the locking rod 50 is the second vertical bar of the third joint 33. It is inserted into the recess 44 and also into the first vertical bar recess 40 of the fourth joint 34 . This allows the third joint 33 and the fourth joint 34 to be firmly connected. Furthermore, by configuring the locking rod 50 as a separate component from the third joint 33 and the fourth joint 34, the ceramic shelf assembly 1 is prevented from being distorted by absorbing the positional deviation between the third joint 33 and the fourth joint 34. Can be suppressed.

Further, according to the present embodiment, the second vertical bar 12 is connected to the fifth joint 35 disposed above the second vertical bar 12, and the fifth horizontal bar is connected to the horizontal bar recess 42 of the fifth joint. 25 has been inserted. Thereby, the upper ends of mutually adjacent columns 2 can be connected by the fifth horizontal bar 25. Therefore, the strength of the ceramic shelf assembly 1 can be further improved.

Further, according to the present embodiment, the first vertical bar support portion 41 and the horizontal bar support portion 43 of the joint 30 are connected by the rib 46 . Thereby, the connection strength between the first vertical bar support portion 41 and the horizontal bar support portion 43 can be improved, and the connection strength between the vertical bar 10 and the horizontal bar 20 can be improved.

In the present embodiment described above, the second joint 32 is interposed between the first joint 31 and the second vertical bar 12, and the first joint 31 and the second joint 32 are connected to the locking rod 50. An example in which the lock is locked has been explained. However, the present invention is not limited to this, and the second joint 32 is not interposed between the first joint 31 and the second vertical bar 12, and the second vertical bar recess 44 of the first joint 31 is provided with the second joint 32. A vertical bar 12 may also be inserted. Also in this case, the first vertical bar 11, the first horizontal bar 21, and the second vertical bar 12 can be connected by the first joint 31, and the strength of the ceramic shelf assembly 1 can be improved. The same applies to the fourth joint 34 interposed between the third joint 33 and the first vertical bar 11, as long as the structure as a shelf assembly can be maintained.

Further, in the present embodiment described above, the first joint 31 and the second joint 32 are locked by the locking rod 50, and the locking rod 50 is inserted into the second vertical bar recess 44 of the first joint 31. An example has been described in which the first vertical bar recess 40 of the second joint 32 is inserted. However, the invention is not limited to this, and another vertical bar 10 may be interposed between the first joint 31 and the second joint 32, so that the lower end fitting portion 10b of the vertical bar 10 is connected to the first joint 31. While being inserted into the second vertical bar recess 44 , the upper end fitting portion 10 c of the vertical bar 10 may be inserted into the first vertical bar recess 40 of the second joint 32 . Even in this case, the first vertical bar 11 and the first horizontal bar 21 can be connected by the first joint 31, and the second vertical bar 12 and the second horizontal bar 22 can be connected by the second joint 32. Therefore, the strength of the ceramic shelf assembly 1 can be improved. The same applies to the locking rod 50 that locks the third joint 33 and the fourth joint 34.

Further, in the present embodiment described above, the third joint 33 disposed below the first vertical bar 11 and placed on the floor surface 100a of the firing furnace 100 is connected to the first vertical bar 11, and the third joint 33 is connected to the first vertical bar 11 and An example in which the third horizontal bar 23 is inserted into the horizontal bar recess 42 of the third joint 33 has been described. However, the present invention is not limited to this, and the third joint 33 and the third horizontal bar 23 may not be used as long as the strength of the ceramic shelf assembly 1 can be ensured. The same applies to the fourth joint 34 and the fourth horizontal bar 24.

Further, in the present embodiment described above, the second vertical bar 12 is connected to the fifth joint 35 disposed above the second vertical bar 12, and the fifth joint 35 is connected to the horizontal bar recess 42 of the fifth joint 35. An example in which the horizontal bar 25 is inserted has been described. However, the present invention is not limited to this, and the fifth joint 35 and the fifth horizontal bar 25 can eliminate the need to support the supported object 101 by the fifth horizontal bar 25, and the ceramic shelf assembly 1 As long as the strength can be ensured, it may not be used.

Furthermore, in the present embodiment described above, an example has been described in which the upper end surface 45a of the second vertical bar support portion 45 is arranged at approximately the same position as the upper end of the horizontal bar support portion 43. However, the present invention is not limited to this, and the upper end surface 45a of the second vertical bar support portion 45 may be arranged above the upper end portion of the horizontal bar support portion 43. In this case, the second vertical bar support portion 45 and the horizontal bar support portion 43 may be connected by a rib.

The present invention is not limited to the above-described embodiments and modifications as they are, but can be implemented by modifying the constituent elements within the scope of the invention at the implementation stage. Moreover, various inventions can be formed by appropriately combining the plurality of constituent elements disclosed in the above embodiments and modified examples (including combinations of modified examples).

1 Ceramic shelf assembly 2 Support 10 Vertical bar 11 First vertical bar 12 Second vertical bar 20 Horizontal bar 21 First horizontal bar 22 Second horizontal bar 23 Third horizontal bar 24 Fourth horizontal bar 25 Fifth horizontal bar 30 Joint 31 First joint 32 Second joint 33 Third joint 34 Fourth joint 35 Fifth joint 40 First vertical bar recess 41 First vertical bar support wall 41a Lower end surface 42 Horizontal bar recess 43 Horizontal bar support wall 44 Second vertical Bar recess 45 Second vertical bar support portion 45a Upper end surface 46 Rib 47 Surrounding convex portion 48 Surrounding recess 50 Locking rod 100 Firing furnace 100a Floor surface 101 Supported object

Claims (8)

A ceramic shelf assembly for supporting a supported object in a firing furnace,
a plurality of columns each including a vertical bar extending in the vertical direction;
a plurality of horizontal bars extending in the horizontal direction and connecting a pair of vertical bars that are adjacent to each other in a direction along the outer edge of the ceramic shelf set when viewed from above;
a plurality of joints interposed between each of the horizontal bars and the corresponding vertical bar;
The joint includes a first vertical bar recess into which the vertical bar can be inserted, a first vertical bar support portion provided around the first vertical bar recess, and a horizontal bar recess into which the horizontal bar can be inserted. , a horizontal bar support part provided around the horizontal bar recess, a second vertical bar support part into which the vertical bar can be inserted, and a second vertical bar support part provided around the second vertical bar recess. and has a
the first vertical bar recess opens downward; the second vertical bar recess opens upward;
The support column has a plurality of vertical bars including a first vertical bar and a second vertical bar arranged above the first vertical bar,
The plurality of joints include a first joint interposed between the first vertical bar and the second vertical bar, and a second joint interposed between the first joint and the second vertical bar. a second joint disposed on the first joint ;
the first vertical bar is inserted into the first vertical bar recess of the first joint;
the second vertical bar is inserted into the second vertical bar recess of the second joint;
The first vertical bar and the second vertical bar are connected to each other via the first joint and the second joint,
The plurality of horizontal bars are arranged in different directions from the first horizontal bar inserted into the horizontal bar recess of the first joint and the first horizontal bar inserted into the horizontal bar recess of the second joint. and a second extending horizontal bar. further comprising a locking rod extending in the vertical direction and locking the first joint and the second joint,
the second joint is placed on the first joint,
The ceramic shelf assembly according to claim 1, wherein the locking rod is inserted into the second vertical bar recess of the first joint and inserted into the first vertical bar recess of the second joint. The joint includes a peripheral convex portion provided around the second vertical bar recess that protrudes from the upper surface of the joint, and a peripheral recess provided around the first vertical bar recess that is recessed from the lower surface of the joint. and further has
The ceramic shelf assembly according to claim 1 or 2, wherein the circumferential convex portion of the first joint is inserted into the circumferential concave portion of the second joint. A ceramic shelf assembly for supporting a supported object in a firing furnace,
a plurality of columns each including a vertical bar extending in the vertical direction;
a plurality of horizontal bars extending in the horizontal direction and connecting a pair of vertical bars that are adjacent to each other in a direction along the outer edge of the ceramic shelf assembly when viewed from above;
a plurality of joints interposed between each of the horizontal bars and the corresponding vertical bar;
The joint includes a first vertical bar recess into which the vertical bar can be inserted, a first vertical bar support portion provided around the first vertical bar recess, and a horizontal bar recess into which the horizontal bar can be inserted. , a horizontal bar support part provided around the horizontal bar recess, a second vertical bar support part into which the vertical bar can be inserted, and a second vertical bar support part provided around the second vertical bar recess. and has a
the first vertical bar recess opens downward; the second vertical bar recess opens upward;
The plurality of joints include a third joint connected to the vertical bar, which is disposed below the vertical bar and placed on the floor of the firing furnace, and a third joint between the third joint and the vertical bar. a fourth joint interposed therebetween , the fourth joint being disposed on the third joint ;
The vertical bar is inserted into the second vertical bar recess of the fourth joint,
The vertical bar is connected to the third joint via the fourth joint,
The plurality of horizontal bars are arranged in different directions from the third horizontal bar inserted into the horizontal bar recess of the third joint and the third horizontal bar inserted into the horizontal bar recess of the fourth joint. and an extending fourth horizontal bar. further comprising a locking rod extending in the vertical direction and locking the third joint and the fourth joint,
the fourth joint is placed on the third joint,
The ceramic shelf assembly according to claim 4, wherein the locking rod is inserted into the second vertical bar recess of the third joint and inserted into the first vertical bar recess of the fourth joint. The plurality of joints include a fifth joint arranged above the second vertical bar and connected to the vertical bar,
The ceramic shelf assembly according to claim 1, wherein the plurality of horizontal bars include a fifth horizontal bar inserted into the horizontal bar recess of the fifth joint. The plurality of joints include a fifth joint arranged above the vertical bar and connected to the vertical bar,
The ceramic shelf assembly according to claim 4, wherein the plurality of horizontal bars include a fifth horizontal bar inserted into the horizontal bar recess of the fifth joint. The ceramic shelf assembly according to any one of claims 1 to 7, wherein the joint further includes a rib connected to the first vertical bar support portion and the horizontal bar support portion.