JP6378155B2 - Heat treatment shelf - Google Patents

Description

  The technology disclosed in the present specification relates to a heat treatment shelf used in a heat treatment apparatus. The heat treatment includes heat treatment and cooling treatment.

  A heat treatment shelf is used to carry a heat treatment object into a heat treatment apparatus such as a furnace or to heat or cool the object. As for this shelf, the shelf board is mounted on the support | pillar. In this shelf, a technique for attaching a column to the shelf so that the shelf is not detached from the column during loading is being studied.

  In the shelf for heat treatment of Patent Document 1, through holes are provided at the four corners of the shelf plate, and the shelf plate is attached so as not to be detached from the support column by inserting the projections of the support column into the through holes.

JP-A-10-141867

  In the heat treatment shelf, since the through hole for inserting the support column is arranged on the shelf board, the strength of the shelf board around the through hole is lowered. For this reason, for example, the total weight of the workpieces placed on the shelf board must be set in consideration of the strength near the through hole. In this specification, the technique which attaches a shelf board to a support | pillar, without arrange | positioning a through-hole in a shelf board is provided.

  The technology disclosed in the present specification is a heat treatment shelf used for heat treatment. The heat treatment shelf includes a shelf board, a support column, and a protrusion. The shelf board has a flat plate shape. The support column includes a support portion that supports the shelf board from below, and a facing portion that is located above the support portion and faces the upper surface of the shelf board. The protrusion protrudes from one surface in the vertical direction of the shelf arranged between the support portion and the opposing portion, and movement along the plane of the shelf is restricted. One part of the supporting part and the opposing part, which is located on the side where the protruding part protrudes, faces the side surface of the protruding part, contacts the protruding part, and the shelf moves along the plane with respect to the column To regulate.

  In said structure, it can control that a shelf board shifts | deviates to an up-down direction with respect to a support | pillar by arrange | positioning a shelf board between the support part and opposing part of a support | pillar. In addition, the protrusion protruding from the shelf can contact the supporting portion and the portion facing the protruding portion of the opposing portion so that the shelf can be prevented from being displaced along the plane of the shelf with respect to the support column. . According to this structure, it can attach so that a shelf may not remove from a support | pillar, without arrange | positioning a through-hole in a shelf.

The perspective view of the shelf for heat processing of an Example is shown. The perspective view of the support | pillar of an Example is shown. The perspective view of the shelf board of an Example is shown. The expansion perspective view near the support | pillar of the shelf for heat processing of an Example is shown. Sectional drawing of the VV cross section of FIG. 4 is shown. The perspective view for demonstrating the assembly method of the shelf for heat processing of an Example is shown. The perspective view of the shelf for heat processing at the time of combining the shelf for heat processing of an Example in multiple steps is shown. The expansion perspective view near the support | pillar of the shelf for heat processing of 2nd Example is shown. The expansion perspective view near the support | pillar of the shelf for heat processing of 3rd Example is shown. The expansion perspective view near the support | pillar of the shelf for heat processing of 4th Example is shown. The expansion perspective view near the support | pillar of the shelf for heat processing of 5th Example is shown.

  The main features of the embodiments described below are listed. Note that the technical elements described below are independent technical elements, and exhibit technical usefulness alone or in various combinations.

(Feature 1) In the heat treatment shelf of this embodiment, the protrusion may protrude from one end in the vertical direction of the support column. The support | pillar may have a recessed part larger than a projection part in the other end of an up-down direction. In this heat treatment shelf, a plurality of shelves can be formed by stacking a plurality of heat treatment shelves with columns. At this time, by inserting the protrusions of the lower heat treatment shelf columns into the lower recesses of the upper heat treatment column columns, the vertically stacked columns can be prevented from shifting from each other.

(Characteristic 2) In the heat treatment shelf of the present embodiment, the protrusion is fixed to the shelf plate, is engaged with the pin arranged with a gap from one part, and the pin and one of the pins And a spacer disposed in a gap with the portion.

(Characteristic 3) In the heat treatment shelf of the present embodiment, when one part moves the shelf board with respect to the support along the plane of the shelf board, the pin can pass and the spacer cannot pass. You may have a notch. According to this structure, after fixing a pin to a shelf beforehand, a shelf can be assembled | attached to a support | pillar by passing a notch from the outer side of one part and arrange | positioning inside. Moreover, it can prevent that a shelf board remove | deviates from a support | pillar by arrange | positioning a spacer between a pin and one part after a shelf board is assembled | attached to a support | pillar.

(Characteristic 4) In the shelf for heat treatment of the present embodiment, the facing portion may be arranged with a gap from the shelf board. When the shelf board is assembled to the support column, the shelf board can be prevented from coming into contact with the support column when the shelf plate is inserted into the gap between the support portion and the facing portion. For this reason, when a shelf board is assembled | attached to a support | pillar, the situation which a shelf board and a support | pillar contact and break can be avoided.

(Characteristic 5) In the heat treatment shelf of the present embodiment, the protrusions may be arranged with a gap from one portion.

(First embodiment)
The heat treatment shelf 10 will be described with reference to FIG. The heat treatment shelf 10 is used when, for example, an object to be processed such as a ceramic part is arranged in a heat treatment apparatus such as a firing furnace. Specifically, the object to be processed is placed on the heat treatment shelf 10 and the heat treatment shelf 10 is carried into a firing furnace. Thereby, a to-be-processed object is arrange | positioned in a baking furnace. The object to be processed is heated by the firing furnace while being placed on the heat treatment shelf 10. That is, the heat treatment shelf 10 is also heated simultaneously with the object to be processed.

  The heat treatment shelf 10 includes a shelf board 30 and four support columns 20, and the shelf board 30 is supported by the four support columns 20. The shelf board 30 and the support | pillar 20 are produced with the same material. The material of the shelf board 30 and the support | pillar 20 is a high-strength silicon carbide (namely, SiC) type ceramic material, for example.

  As shown in FIG. 2, the support column 20 has a rectangular tube shape. The support column 20 includes a facing portion 22, a support portion 24, and a connecting portion 26. The facing portion 22, the support portion 24, and the connecting portion 26 are integrally formed. Specifically, the material before firing is processed into a cylindrical shape by extrusion molding or the like, a part of the cylindrical shape is cut out to form an opening 27 described later, and an intermediate part in the shape of the column 20 is manufactured. Then, the opposing part 22, the support part 24, and the connection part 26 are integrally molded by baking the said intermediate part. The support portion 24 has a rectangular cylindrical shape. The support plate 24 has a shelf 30 mounted on the upper end (see FIG. 1), and supports the shelf 30 from below. At the upper end of the support portion 24, a connecting portion 26 that extends upward outside the outer edge of the shelf board 30 is disposed (see FIG. 1). The connecting portion 26 is configured by two side walls sandwiching one apex of the square cylindrical shape of the support column 20. In other words, a portion of the square cylindrical shape of the support column 20 where the connecting portion 26 is not disposed is an opening (hereinafter referred to as “opening 27”). The length of the connecting portion 26 in the vertical direction is slightly larger than the thickness of the shelf board 30.

  A facing portion 22 is disposed at the upper end of the connecting portion 26. In the facing portion 22, a part of the two side walls sandwiching one vertex (vertex on the near side in FIG. 2) where the connecting portion 26 is not arranged in the rectangular cylindrical shape of the support column 20 is cut out. . That is, the facing portion 22 has a notch 28 at a position corresponding to one vertex where the connecting portion 26 is not disposed. The notch 28 is disposed above the opening 27 of the connecting portion 26.

  As shown in FIG. 3, the shelf board 30 has a rectangular flat plate shape. The upper surface 30a and the lower surface 30b (refer FIG. 5) of the shelf board 30 have a planar shape, and are arrange | positioned in the horizontal direction. The shelf board 30 is supported by the support | pillar 20 in four corners (refer FIG. 1). Pins 40 a are arranged at each of the four corners of the shelf board 30. The pin 40a is integrated with the shelf board 30 by baking. Specifically, the pins 40 a are formed separately from the shelf board 30, and then fired in a state where the pins 40 a are placed on the shelf board 30. Thereby, the pin 40a and the shelf board 30 are fixed integrally. The pin 40a has a cylindrical shape.

  FIG. 4 is an enlarged perspective view of the vicinity of the support column 20 of the heat treatment shelf 10. The pin 40 a is disposed inside the facing portion 22. A spacer 40b is disposed in the gap between the pin 40a and the facing portion 22. The spacer 40b has a quadrangular ring shape. One side of the square of the spacer 40 b is longer than the width of the notch 28 of the column 20. A through hole 40c into which the pin 40a is inserted is disposed at the center of the spacer 40b. The pin 40a and the spacer 40b are collectively referred to as a protrusion 40. The protrusions 40 protrude upward from each of the four corners of the shelf board 30.

  As shown in FIG. 5, the pin 40 a protrudes upward from the upper end of the column 20. The spacer 40 b is lower than the pin 40 a and lower than the upper end of the column 20.

  Next, the process of assembling the support column 20 to the shelf board 30 will be described. In addition, the support | pillar 20, the shelf board 30 containing the pin 40a, and the spacer 40b are each produced before an assembly | attachment process. Specifically, a clay obtained by adding a binder such as polyvinyl alcohol and moisture to SiC powder is press-molded using a mold corresponding to the shape of each part. Next, it is fabricated by sintering in a carbon crucible and impregnating with silicon.

  The column 20 shown in FIG. 2 is assembled to each of the four corners of the shelf board 30 shown in FIG. As shown in FIG. 6, the corner of the shelf board 30 is inserted into the opening 27 of the column 20 from the side where the notch 28 of the facing portion 22 of the column 20 is disposed. The diameter of the pin 40 a fixed to the shelf board 30 is smaller than the width of the notch 28. For this reason, the pin 40 a passes through the notch 28 and is disposed inside the facing portion 22.

  Next, the spacer 40 b is disposed in the gap between the pin 40 a and the facing portion 22. The through hole 40c of the spacer 40b is larger than the diameter of the pin 40a. For this reason, a slight gap is formed between the spacer 40b and the pin 40a. Further, the spacer 40 b is slightly smaller than the inner circumference of the facing portion 22. For this reason, a slight gap is formed between the spacer 40 b and the facing portion 22. According to this configuration, the spacer 40b can be easily arranged. In addition, it is not necessary to strictly control the dimensional accuracy of each part 22, 40a, 40b.

  Next, the shelf board 30 and the support portion 24 of the column 20 are bonded. Further, the shelf board 30 and the spacer 40b are bonded. Note that, for example, a SiC-based adhesive is used as the adhesive. For this reason, the spacer 40 b is fixed to the shelf board 30 and cannot move with respect to the shelf board 30. One side of the square of the spacer 40 b is longer than the width of the notch 28 of the column 20. For this reason, in a state where the spacer 40 b is fixed to the upper surface of the heat treatment shelf 10, the spacer 40 b cannot pass through the notch 28. For this reason, the spacer 40 b is surrounded by the facing portion 22 and cannot move from the inside to the outside of the facing portion 22.

  The shelf board 30 is supported from below by the support portion 24 of the column 20. In the vertical direction, the shelf board 30 is sandwiched between the facing portion 22 and the support portion 24. Thereby, it can control that shelf 30 moves to the up-and-down direction to support 20. Further, in the direction parallel to the plane of the shelf board 30 (that is, in the horizontal direction), the pin 40a fixed to the shelf board 30 and the spacer 40b (that is, the protrusion 40) whose movement is restricted by the pin 40a are opposed to the opposing portion 22. Movement is restricted by being surrounded by As a result, the shelf plate 30 can be restricted from moving along the plane of the shelf plate 30 with respect to the support column 20 (that is, parallel to the plane). Thereby, it is possible to prevent the shelf board 30 from being detached from the support column 20. In particular, even if the adhesive is removed, the shelf board 30 can be prevented from coming off from the support column 20. On the other hand, by making the support column 20 and the shelf board 30 separately, compared with the structure in which the support column 20 and the shelf board 30 are manufactured integrally, heating in the heat treatment apparatus and carrying out of the heat treatment apparatus are carried out. It is possible to suppress thermal stress due to cooling after the heat treatment.

  Further, as shown in FIG. 7, the heat treatment shelf 10 can be used as a plurality of shelves by stacking a plurality of heat treatment shelves 10 in the vertical direction. In the multistage shelf, the lower end of the support column 20 of the upper heat treatment shelf 10 is overlapped with the upper end of the support column 20 of the lower heat treatment shelf 10. In this configuration, as shown in FIG. 5, the pins 40 a of the lower column 20 are arranged in the cavity 29 of the upper column 20. As a result, when the upper column 20 is displaced in a direction parallel to the shelf 30 with respect to the lower column 20, the pin 40a of the lower column 20 is caught on the outer wall of the upper column 20, and the upper column 20 is It can prevent falling from the lower column 20. As a result, it is possible to prevent the plurality of shelves from collapsing. For this reason, when carrying a multi-stage shelf in a heat processing apparatus, an operator does not need to confirm visually so that a multi-stage shelf may not collapse. As a result, work efficiency is improved.

(Second embodiment)
With reference to FIG. 8, a different point from 1st Example is demonstrated. In the heat treatment shelf 210 of the second embodiment, the shape of the support column 220 is different from the shape of the support column 20 of the first embodiment. In the support column 220, the facing portion 222 has a quadrangular annular shape that continuously goes around the protrusion 40. That is, the facing portion 222 does not have a notch corresponding to the notch 28 of the facing portion 22. The structure of the other support | pillar 220 is the same as that of the support | pillar 20 of 1st Example.

  Further, in the second embodiment, the step of assembling the support column 220 to the shelf board 30 is different from the first embodiment. In the first embodiment, the shelf board 30 is formed integrally with the pin 40 a, and the shelf board 30 to which the pin 40 a is fixed is assembled to the column 20. On the other hand, in 2nd Example, the shelf board 30 and the pin 40a are shape | molded separately. And the shelf board 30 is inserted in the opening 227 of the support | pillar 220, after that, the pin 40a is arrange | positioned inside the opposing part 222, it fixes to the shelf board 30, and the spacer 40b is arrange | positioned. Note that, in the configuration in which the facing portion 222 makes a round of the pin 40a as in the second embodiment, the protrusion 40 may not include the spacer 40b. Even without the spacer 40 b, when the shelf board 30 is displaced in parallel to the plane of the shelf board 30 with respect to the support column 220, the support post 220 is detached from the shelf board 30 by the pins 40 a coming into contact with the facing portion 222. Can be avoided.

(Third embodiment)
With reference to FIG. 9, differences from the first embodiment will be described. In the heat treatment shelf 310 of the third embodiment, the shape of the support column 320 is different from the shape of the support column 20 of the first embodiment. The support column 320 has a cylindrical shape. That is, the support portion 324 of the column 320 has a cylindrical shape, and the facing portion 322 has an annular shape having a notch 328 similar to the notch 28. Moreover, the connection part which connects the opposing part 322 and the support part 324 has a partial cylindrical shape. Further, the column 220 has an opening 327 into which the shelf board 30 is inserted, similar to the opening 27, between the facing portion 322 and the support portion 324.

  The spacer 340 b of the protrusion 40 has an annular shape in accordance with the shape of the facing portion 322.

(Fourth embodiment)
With reference to FIG. 10, differences from the first embodiment will be described. In the heat treatment shelf 410 of the fourth embodiment, the shape of the support 420 is different from the shape of the support 20 of the first embodiment. The support column 420 has the same shape as the support column 220 of the second embodiment. That is, the column 420 includes a facing portion 422 similar to the facing portion 222, a support portion 424 similar to the support portion 224, and an opening 427 similar to the opening 227.

  Further, the shape of the protruding portion 440 is different from the protruding portion 40 of the first embodiment. The protrusion 440 is composed of a single component. The protrusion 440 has a quadrangular prism shape along the inner peripheral shape of the facing portion 422. The protrusion 440 and the facing portion 422 are arranged with a slight gap.

(5th Example)
With reference to FIG. 11, differences from the first embodiment will be described. In the heat treatment shelf 510 of the fifth embodiment, the shape of the support column 520 is different from the shape of the support column 20 of the first embodiment. The support column 520 includes a facing portion 522 similar to the facing portion 222, a support portion 524 similar to the support portion 224, and an opening 527 similar to the opening 227. The upper end of the facing portion 522 is closed with a lid 523. A through hole 523a is disposed in the center of the lid 523. The pin 40a is disposed in the through hole 523a.

  Specific examples of the present invention have been described in detail above, but these are merely examples and do not limit the scope of the claims. The technology described in the claims includes various modifications and changes of the specific examples illustrated above.

(Modification 1)
In each of the embodiments described above, the pin 40a has a cylindrical shape. However, the shape of the pin 40a is not limited to a columnar shape, and may be, for example, a cylindrical shape, a polygonal cylinder, or a columnar shape.

(Modification 2)
In the first embodiment, the protrusion 40 includes one pin 40a and one spacer 40b. However, the protrusion 40 may have a plurality of pins or may include a plurality of spacers 40b. For example, in the first embodiment, the protrusion 40 may have a pin fixed to the shelf 30 inside each of the apexes of the three corners excluding the notch 28 of the facing portion 22. At this time, three spacers arranged in the gap between the facing portion 22 may be arranged for each of the three pins, or 1 arranged in the gap between the three pins and the facing portion 22. Individual spacers may be arranged. The same applies to other embodiments.

(Modification 3)
In the first embodiment, the protrusion 40 includes a pin 40a and a spacer 40b. However, the protrusion 40 may include the pin 40a but may not include the spacer 40b. In this case, the diameter of the pin 40 a (that is, the length of the pin 40 a in the planar direction of the shelf 30) may be larger than the width of the notch 28. And the pin 40a may be fixed to the shelf board 30 after the shelf board 30 is inserted in the support | pillar 20 similarly to 2nd Example. The same applies to the third embodiment.

(Modification 4)
In the first to third embodiments, the spacers 40b and 340b do not protrude from the upper ends of the columns 20, 220, and 320. However, the spacers 40b and 340b may protrude from the support columns 20, 220, and 320 similarly to the pin 40a.

(Modification 5)
In each of the above-described embodiments, the struts 20, 220, 320, 420, and 520 have a hollow cylindrical shape. However, the support column may have a solid column shape. In this case, the part where the shelf board 30 is inserted and the part where the protruding part is arranged may be hollow, and the recessed part may be provided in the part where the protruding part of the column arranged at the lower end is inserted. .

(Modification 6)
In the first to third embodiments, the spacers 40 b and 340 b are bonded to the shelf board 30. However, the spacers 40b and 340b may not be bonded to the shelf board 30. In this configuration, the spacers 40b and 340b may be restricted from moving along the plane of the shelf board by engaging with the pins 40a. According to this configuration, for example, in the first embodiment, the support column 20 and the shelf board 30 can be easily disassembled by removing the spacer 40b from the gap between the facing portion 22 and the pin 40a. As a result, for example, when one of the support column 20 and the shelf board 30 is damaged, the damaged side can be easily replaced. Further, when the heat treatment shelf 10 is transported and stored, the heat treatment shelf 10 can be handled in a space-saving manner by disassembling the shelf plate 30 and the support column 20.

(Modification 7)
The opposing portion of the support column moves from the inside to the outside of the opposing portion when the protrusion 40 disposed inside the opposing portion moves along the plane of the shelf 30 along with the shelf 30. What is necessary is just the shape to regulate. For example, the facing portion may be intermittently arranged at intervals in the circumferential direction of the protrusion 40.

(Modification 8)
In the first embodiment, the protrusion 40 is disposed on the upper surface of the shelf board 30. However, the protrusions may be disposed on at least one of the upper surface and the lower surface of the shelf board 30. When the protruding portion is disposed on the lower surface of the shelf board 30, the support portion 24 is in contact with the protruding portion and restricts the shelf board 30 from moving along the plane of the shelf board 30 with respect to the support column 20. Also good. For example, the support portion 24 may face the side surface of the protrusion, and may surround the protrusion. In this case, the opening 27 may be disposed near the lower end of the support column 20. In addition, the protruding portion may protrude downward from the lower end of the support column 20, and in this case, the upper end of the support column 20 disposed below the support column 20 may have a recess for receiving the protruding portion.

(Modification 9)
In the above embodiment, the heat treatment shelves 10, 210, 310, 410, 510 are used for performing heat treatment on the object to be processed. However, the heat treatment shelves 10, 210, 310, 410, 510 may be used for performing a cooling process on the workpiece. For example, it may be used to carry a workpiece into a cooling device for cooling, and to carry the workpiece out of the cooling device. In this case, the heat treatment shelves 10, 210, 310, 410, 510 may be cooled simultaneously with the object to be processed. Alternatively, the heat treatment shelves 10, 210, 310, 410, 510 are used for cooling or heating an object to be processed that has been heated or cooled at room temperature in a room temperature environment (for example, in the atmosphere). Also good. In this case, the heat treatment shelves 10, 210, 310, 410, 510 are not necessarily arranged in the heat treatment apparatus.

  Further, the technical elements described in the present specification or drawings exhibit technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing. Moreover, the technique illustrated in this specification or the drawings achieves a plurality of objects at the same time, and has technical usefulness by achieving one of the objects.

10: heat treatment shelf 20: support column 22: facing portion 24: support portion 28: notch 29: cavity 30: shelf plate 30a: upper surface 30b: lower surface 40: projection 40a: pin 40b: spacer 40c: through hole

Claims (5)

A heat treatment shelf used for heat treatment,
A shelf board having a flat plate shape;
A support column that has a support part that supports the shelf board from below, and a facing part that is located above the support part and faces the upper surface of the shelf board,
A projection that protrudes from one surface in the vertical direction of the shelf arranged between the support portion and the facing portion, and is restricted from moving along the plane of the shelf. ,
One portion located on the one surface side of the support portion and the facing portion is opposed to a side surface of the protruding portion, and is in contact with the protruding portion so that the shelf plate is flat with respect to the support column. Restricting movement along ,
The protrusion protrudes from one end in the vertical direction of the support column,
The strut is in the vertical direction of the other end, to have a larger recess than the protrusion, the heat treatment for the shelf. A heat treatment shelf used for heat treatment,
A shelf board having a flat plate shape;
A support column that has a support part that supports the shelf board from below, and a facing part that is located above the support part and faces the upper surface of the shelf board,
A projection that protrudes from one surface in the vertical direction of the shelf arranged between the support portion and the facing portion, and is restricted from moving along the plane of the shelf. ,
One portion located on the one surface side of the support portion and the facing portion is opposed to a side surface of the protruding portion, and is in contact with the protruding portion so that the shelf plate is flat with respect to the support column. Restricting movement along ,
The protrusion is
Pins that are fixed to the shelf and are arranged with a gap from the one part,
The pin engages in, to have a, a spacer is disposed in a gap between said pin and said one part, heat treatment shelves. Said one part, when moving the shelves along said plane relative to said post, said pin is a passable, the spacer has a notch can not pass, to claim 2 The shelf for heat treatment as described. A heat treatment shelf used for heat treatment,
A shelf board having a flat plate shape;
A support column that has a support part that supports the shelf board from below, and a facing part that is located above the support part and faces the upper surface of the shelf board,
A projection that protrudes from one surface in the vertical direction of the shelf arranged between the support portion and the facing portion, and is restricted from moving along the plane of the shelf. ,
One portion located on the one surface side of the support portion and the facing portion is opposed to a side surface of the protruding portion, and is in contact with the protruding portion so that the shelf plate is flat with respect to the support column. Restricting movement along ,
The said opposing part is the shelf for heat processing arrange | positioned with the said shelf board and the clearance gap . A heat treatment shelf used for heat treatment,
A shelf board having a flat plate shape;
A support column that has a support part that supports the shelf board from below, and a facing part that is located above the support part and faces the upper surface of the shelf board,
A projection that protrudes from one surface in the vertical direction of the shelf arranged between the support portion and the facing portion, and is restricted from moving along the plane of the shelf. ,
One portion located on the one surface side of the support portion and the facing portion is opposed to a side surface of the protruding portion, and is in contact with the protruding portion so that the shelf plate is flat with respect to the support column. Restricting movement along ,
The projection is a shelf for heat treatment, which is disposed with a gap from the one portion .

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