JP6862891B2 - Lintel structure - Google Patents

Description

The present invention relates to a lintel structure of a heating furnace for heating steel materials and the like.

FIG. 11 shows a schematic cross-sectional view of the vicinity of the opening in the batch type heating furnace used for heating steel materials and the like.
In the batch type heating furnace 100 used for heating a steel material or the like as shown in FIG. 11, a portion existing on the back (inside the furnace) of the door 102 of the opening for taking in and out the steel material or the like is called a lintel (lintel 104).
Conventionally, the lower part 104a of the lintel is constructed with a heat-resistant mortar, and the upper part 104b of the lintel has a water-cooled structure.
For example, Patent Document 1 describes a lintel having an amorphous refractory wall formed around it. Further, Patent Document 2 describes a seal structure in which a water gutter is formed on an upper part of a lintel.

Utility Model Application Publication No. 60-54100 Japanese Unexamined Patent Publication No. 10-189989

However, since the upper part 104b of the lintel has a water-cooled structure, the energy loss due to the heat removal of water is large. In addition, the water-cooled structure may be damaged due to deterioration over time, causing a water leakage problem and the operation may be suspended for a long period of time. Further, the lower portion 104a of the lintel is exposed to the atmosphere inside the furnace, and is always inside the door 102 (inside the furnace) and is not exposed to the outside, so that the heat inside the furnace acts directly on the outside and the outside. It may be damaged because heat cannot be dissipated to. In addition, the lower portion 104a of the lintel may be damaged by a thermal shock when the door 102 is opened and closed.

An object of the present invention is to solve the above problems.
That is, an object of the present invention is to provide a lintel structure in which the lower part of the lintel is less likely to be damaged, and the operation is less likely to be suspended for a long period of time because the energy loss is small and no water leakage trouble occurs.

The present inventor has made diligent studies to solve the above problems and completed the present invention.
The present invention is the following (1) to (7).
(1) A lintel structure existing on the inner surface side of the door of the heating furnace.
It has a metal hanging rod, a plate-shaped metal fitting, a blanket laminate A, and an anchor member.
A plurality of the metal hanging rods are arranged so that one end thereof is fixed to the upper part and suspended, and the longitudinal direction is the vertical direction.
The plate-shaped metal fitting is arranged so that the direction of the perpendicular line of the main surface is parallel to the longitudinal direction of the metal hanging rod and the metal hanging rod penetrates the inside of the main surface, and is made of the metal. Multiple are fixed to the hanging rod,
The blanket laminate A is formed by laminating a plurality of felt-like heat-resistant members made of ceramic fibers.
The anchor member is formed by punching the blanket laminated body A in the laminating direction and fixing the blanket laminated body A to the metal hanging rod or the plate-shaped metal fitting.
The blanket laminate A is fixed by the anchor member to at least the other end of the metal lintel so that the direction of the perpendicular of the main surface thereof and the longitudinal direction of the metal lintel are parallel to each other. The lintel structure, which forms at least part of the lintel substructure.
(2) A plurality of felt-like heat-resistant members are laminated so as to cover the upper main surface, the inner side surface of the furnace, the lower main surface and the outer side surface of the furnace of the blanket laminate A, and the lintel is laminated together with the blanket laminate A. The lintel structure according to (1) above, which has a substructure.
(3) With the blanket laminate A formed on the upper side of the blanket laminate A fixed to the other end of the metal suspension rod so that the metal suspension rod penetrates the main surface. The lintel structure according to (1) or (2) above, wherein at least one other blanket laminate B is arranged and fixed by an anchor member.
(4) The lintel structure according to any one of (1) to (3) above, wherein the felt-like heat-resistant member is arranged so as to cover the inside of the furnace of the blanket laminate B.
(5) The lintel structure according to any one of (1) to (4) above, wherein the felt-like heat-resistant member constituting the blanket laminate A and / or the blanket laminate B has a compressibility of 20% or more. ..
(6) Each of the blanket laminates B through which two adjacent metal hanging rods penetrate has a shape in which the blanket laminates B are fitted to each other, and the two adjacent blanket laminates B are viewed from the main surface side. The lintel structure according to any one of (3) to (5) above, wherein the gaps are not in a straight line from the inside of the furnace to the outside of the furnace.
(7) The above (3) to (7), wherein a part of the felt-like heat-resistant member constituting the blanket laminate B overlaps with a part of the felt-like heat-resistant member constituting the adjacent blanket laminate B. The lintel structure according to any one of 6).

According to the present invention, it is possible to provide a lintel structure in which the operation is less likely to be suspended for a long period of time and the lower part of the lintel is less likely to be damaged because energy loss is small and water leakage trouble does not occur.

It is the schematic sectional drawing which shows the preferable example of the lintel structure of this invention. It is a schematic perspective view of an example of a plate-shaped metal fitting. It is a schematic sectional drawing of an example of a blanket laminated body A. It is a schematic side view of an example of an anchor member. It is another figure for demonstrating a preferable embodiment of the lintel structure of this invention. It is another figure for demonstrating a preferable embodiment of the lintel structure of this invention. It is a figure for demonstrating the manufacturing method of the lintel structure of this invention. It is another figure for demonstrating the manufacturing method of the lintel structure of this invention. It is another figure for demonstrating the manufacturing method of the lintel structure of this invention. It is another figure for demonstrating the manufacturing method of the lintel structure of this invention. It is schematic cross-sectional view around the opening in the batch type heating furnace used for heating a steel material and the like.

The lintel structure of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic cross-sectional view showing a preferred example of the lintel structure of the present invention.
The lintel structure 10 of the present invention shown as a preferable example in FIG. 1 is a lintel structure existing on the inner surface side of the door of the heating furnace, and is a metal hanging rod 12, a plate-shaped metal fitting 14, and a blanket laminate A (16). And an anchor member (18), and a plurality of metal hanging rods 12 are arranged so that one end portion 12a is fixed to the upper portion 2 and suspended, and the longitudinal direction is the vertical direction. The plate-shaped metal fitting 14 is arranged so that the direction of the vertical line of the main surface thereof and the longitudinal direction of the metal hanging rod 12 are parallel to each other and the metal hanging rod 12 penetrates the inside of the main surface. A plurality of them are fixed to the hanging rod 12, the blanket laminate A (16) is formed by laminating a plurality of felt-like heat-resistant members (F1) made of ceramic fibers, and the anchor member 18 is a blanket laminate A (16). ) Is pierced in the laminating direction and fixed to the metal hanging rod 12 or the plate-shaped metal fitting 14, and the blanket laminated body A (16) is formed in the direction of the vertical line of the main surface thereof and the longitudinal direction of the metal hanging rod 12. The lintel structure is fixed to at least the other end 12b of the metal hanging rod 12 by an anchor member 18 so as to be parallel to each other and forms at least a part of the lintel substructure.

The lintel structure 10 of the present invention is similar to the lintel structure (lintel 104) existing on the inner surface side (inside the furnace) of the door 102 of the heating furnace described with reference to FIG.

Examples of the heating furnace containing the lintel structure 10 of the present invention include a batch type trolley furnace for heating a steel material. The size of the heating furnace is not particularly limited.
The operating conditions such as the internal temperature of the heating furnace are not particularly limited. For example, an operation can be performed in which the internal temperature is about 1000 to 1300 ° C.

The fuel used in the heating furnace preferably has a low content of sulfur and vanadium compounds. For example, heavy oil is a fuel containing a large amount of sulfur and vanadium compounds, and city gas is a fuel containing almost no sulfur and vanadium compounds. This is because sulfur and vanadium compounds are likely to erode ceramic fibers.

The lintel structure 10 of the present invention has a metal hanging rod 12 described below, a plate-shaped metal fitting 14, a blanket laminate A (16), and an anchor member 18.

<Metal fishing rod>
In the lintel structure 10 of the present invention, the metal hanging rod 12 is suspended by fixing one end portion 12a to the upper portion 2. Here, as the upper part 2, a ceiling in a factory or the like where a heating furnace is installed is exemplified.
The metal hanging rod 12 is arranged so that the longitudinal direction is the vertical direction (vertical direction in FIG. 1).

The mode of the metal hanging rod 12 is not particularly limited. For example, the length in the longitudinal direction is preferably about 2200 mm.
Further, as the material, for example, a Ni-based alloy or the like can be used.
Further, a round bar, a square bar and the like can be used.
Further, the size of the cross section of the metal hanging bar is not particularly limited, and for example, when the metal hanging bar is a round bar, the cross-sectional diameter is preferably about 50 mm.

<Plate-shaped hardware>
In the lintel structure 10 of the present invention, the plate-shaped metal fitting 14 has, for example, the aspect shown in FIG.
The plate-shaped metal fitting 14 shown as a preferable example in FIG. 2 is a rectangular metal plate in which two notches 14a are formed. When the metal hanging rod 12 is a round rod, the diameter of the cross section thereof and the width h of the notch 14a are formed to be substantially the same. In such a plate-shaped metal fitting 14, the metal hanging rod 12 is arranged so that the longitudinal direction of the metal hanging rod 12 and the direction of the perpendicular line of the main surface 14b are parallel (meaning that they are substantially parallel), and further, the metal hanging rod is arranged. If the side surface of the 12 is arranged so as to be in contact with the inner surface 14c of the notch 14a, and the metal hanging rod 12 and the plate-shaped metal fitting 14 are fixed at their contact portions by welding or the like, the metal hanging rod 12 is the main. It can be arranged so as to penetrate the inside of the surface 14b. In the plate-shaped metal fitting 14, the main surface 14b is a surface perpendicular to the vertical direction, and the plate-shaped metal fitting 14 has another main surface on the back side thereof in addition to the main surface 14b shown in FIG. The main surface 14b is a surface having a larger area than the end surface (surface 14c or the like) which is a surface parallel to the vertical direction.

The material of the plate-shaped metal fitting 14 is not particularly limited. For example, stainless steel or the like can be used.
The size of the plate-shaped metal fitting 14 is also not particularly limited. For example, it may be a rectangle having a long side of 400 to 600 mm, a short side of 250 to 300 mm, and a thickness of 12 to 20 mm.

The lintel structure 10 of the present invention has a plurality of plate-shaped metal fittings 14 as described above. The lintel structure 10 of the present invention shown in FIG. 1 has seven plate-shaped metal fittings 14.

<Blanket laminate A>
In the lintel structure 10 of the present invention, the blanket laminate A is formed by laminating a plurality of felt-like heat-resistant members (F1) made of ceramic fibers.
For example, the blanket laminate A included in the lintel structure 10 of the present invention shown in FIG. 1 is formed by laminating four felt-like heat-resistant members (F1) as shown in a perspective view (schematic view) in FIG. .. The number of layers (number of sheets) of the felt-shaped heat-resistant member (F1) is not particularly limited. For example, it can be 2 to 7 sheets.
Further, it is preferable that the felt-like heat-resistant members (F1) are bonded to each other by mortar or the like on their main surfaces.

The size of the felt-shaped heat-resistant member (F1) is not particularly limited.

As a felt-like heat-resistant member, _{ceramic fibers containing Al 2} O ₃ and SiO ₂ as main components are laminated and needle-processed to have a bulk density of 100 to 200 kg / m ^3, and a heat-resistant temperature of about 1000 to 1700 ° C. ( (Preferably about 1450 ° C.) is exemplified. As a felt-like heat-resistant member (F1) made of such a ceramic fiber, the components are Al ₂ O ₃ : 31% by mass, SiO ₂ : 53%, ZrO ₂ : 16% by mass, and the bulk density is 160 to 180 kg / m. ³ and the maximum operating temperature (heat resistant temperature) is 1450 ° C. As such a felt-like heat-resistant member, an FXL-Z blanket manufactured by ITM can be exemplified.
Incidentally, ITM Co., bulk density of the felt-like heat-resistant member typified by FXL-Z blanket is of the order of 130 kg / m ^3, is preferably placed in compacted so that 160~180kg / m ^3. This is because heat shrinkage is less likely to occur during operation, and deterioration due to heat can be suppressed.
In the lintel structure 1 of the present invention, the compressibility (bulk density after consolidation / bulk density before consolidation × 100) of the felt-like heat-resistant member (F1) constituting the blanket laminate A (16) is 20% or more. It is preferable to have.

<Anchor member>
In the lintel structure 10 of the present invention, the anchor member 18 has a blanket laminated body A (16) and a blanket laminated body A (16) pierced in the laminating direction.
The anchor member 18 is, for example, the one illustrated in FIG. The anchor member 18 illustrated in FIG. 4 is used for the lintel structure 10 of the present invention in the embodiment illustrated in FIG. Examples are the stud pin 18a (FIG. 4 (a)) and the L pin 18b (FIG. 4 (b)).
Then, the anchor member 18 is fixed to the plate-shaped metal fitting 14 on the upper part of the blanket laminated body A (16) as shown in FIG. 1 after the blanket laminated body A (16) is pierced in the laminating direction. For example, four holes through which the anchor member 18 penetrates are prepared in advance in the plate-shaped metal fitting 14, a blanket laminate A (16) is pierced from below, and the holes of the anchor member 18 are passed through each anchor member 18. The anchor member 18 can be welded to and fixed to the plate-shaped metal fitting 14 from the upper part of the plate-shaped metal fitting 14.

In the lintel structure 10 of the present invention, as shown in FIG. 1, the blanket laminate A (16) is parallel (meaning substantially parallel) in the direction of the perpendicular line of the main surface thereof and in the longitudinal direction of the metal hanging rod 12. As such, it is fixed to at least the other end 12b of the metal lintel 12 by the anchor member 18. And this part forms at least a part of the lintel substructure.

In the lintel structure 1 of the present invention, as shown in FIG. 1, the upper main surface 16a, the inner side surface 16b of the furnace, the lower main surface 16c, and the outer side surface 16d of the furnace are covered. It is preferable that a plurality of felt-like heat-resistant members (F2) are laminated (three laminated in FIG. 1) to form a lintel lower structure 10a together with the blanket laminated body A (16). This is because the heat resistance of the lower part of the lintel becomes higher and it becomes more difficult to break.

The felt-shaped heat-resistant member (F2) used here may have the same material, bulk density, and the like as the felt-shaped heat-resistant member (F1) described above, but may differ only in size.
In the lintel structure 1 of the present invention, the compressibility (bulk density after consolidation / bulk density before consolidation × 100) of the felt-like heat-resistant member (F2) covering the outer peripheral surface of the blanket laminate A (16) is It is preferably 20% or more.

In the lintel structure 1 of the present invention, the metal hanging rod is formed on the upper side of the blanket laminate A (16) fixed to the other end portion 12b of the metal hanging rod 12 so as to penetrate the inside of the main surface. , At least one blanket laminate B (22) different from the blanket laminate A (16) is arranged (five blanket laminates B (22) are arranged in FIG. 1), and each of them is an anchor member 18. It is preferable that it is fixed by.

The blanket laminate B (22) is made of the same felt-like heat-resistant member (F1) as the blanket laminate A. However, the size can be different.
Further, the number (number) of felt-like heat-resistant members (F1) constituting the blanket laminated body B is not particularly limited. In FIG. 1, 5 or 7 sheets are laminated, but it can be, for example, 3 to 10 sheets.
Further, it is preferable that each felt-like heat-resistant member (F1) is adhered by mortar or the like on their main surfaces.

The anchor member 18 for fixing the blanket laminate B (22) is preferably L-shaped as shown in FIG. As shown in FIG. 1, after the blanket laminate B is welded by one end of the L-shaped anchor member 18, the other end of the L-shaped anchor member 18 is arranged on the upper part of the blanket laminate B. It can be fixed by welding to the metal fitting 14 or the metal hanging rod 12.

In the lintel structure 1 of the present invention, as shown in FIG. 1, it is preferable that the felt-like heat-resistant member (F3) is arranged so as to cover the inside of the furnace of the blanket laminate B (22). This is because the heat resistance of the upper part of the lintel becomes higher and it becomes more difficult to break.

The felt-shaped heat-resistant member (F3) may have the same material, bulk density, and the like as the felt-shaped heat-resistant member (F1) described above, but may differ only in size.
In the lintel structure 1 of the present invention, the compressibility (bulk density after consolidation / bulk density before consolidation × 100) of the felt-like heat-resistant member (F3) covering the inner surface of the furnace of the blanket laminate B (16). ) Is preferably 20% or more.

The felt-like heat-resistant member (F3) is preferably adhered to the blanket laminate B with mortar or the like.

The lintel structure of the present invention has a shape in which the felt-like heat-resistant members constituting each of the blanket laminates B formed on two adjacent metal hanging rods are fitted to each other, and the two adjacent to each other 2 When the two blanket laminates B are viewed from the main surface side, the gaps between them are not aligned from the inside of the furnace to the outside of the furnace, and the structure is such that the heat inside the furnace is difficult to escape from the inside of the furnace to the outside of the furnace. It is preferable to have.

Such a preferred embodiment will be described with reference to FIG.
FIG. 5 is a cross-sectional view taken along the line AA in FIG. However, the description of the anchor member 18 and the felt-like heat-resistant member (F3) is omitted.
In FIG. 5, the lintel structure 10 of the present invention has an embodiment in which six metal hanging rods 12 are provided. Then, two metal hanging rods penetrate one plate-shaped metal fitting and the blanket laminate B.
For ease of explanation, the metal hanging rods are _{labeled 12 u} , 12 _v , 12 _w , 12 _x , 12 _y , 12 _z in FIG. _{In addition, 14 x the} plate-shaped metal fittings through which the two metal hanging rods (12 _u , 12 _v ) penetrate, and 14 x the plate-shaped metal fittings through which the two metal hanging rods (12 _w , 12 _x ) penetrate. _y , a plate-shaped metal fitting through which two metal hanging rods (12 _y , 12 _{z ) penetrate was designated as 14 z} . _{Further, 22 x} the blanket laminate B through which the two metal hanging rods (12 _u , 12 _v ) penetrate, and the blanket laminate B through which the two metal hanging rods (12 _w , 12 _x ) penetrate. 22 _y , and the blanket laminate B through which the two metal hanging rods (12 _y , 12 _{z ) penetrate was designated as 22 z} .

In the lintel structure 10 of the present invention, as shown in FIG. 5, two adjacent metal hanging rods (that is, metal hanging rods 12 _v and 12 _w , or 12 _x and 12 _y ) penetrate each of them. The blanket laminate B (ie, the blanket laminate B (22 _x and 22 _y ) or (22 _y and 22 _z )) has a shape that fits into each other, and mainly consists of two adjacent blanket laminates B. When viewed from the surface (22a) side, it is preferable that the gaps S are not aligned from the inside of the furnace to the outside of the furnace, and the structure is such that the heat inside the furnace is difficult to escape from the inside of the furnace to the outside of the furnace. ..
On the other hand, if the felt-like heat-resistant member (F1) constituting the blanket laminate B is rectangular, the adjacent blanket laminates B are not in a shape to be fitted to each other as shown in FIG. The heat inside the furnace easily escapes from the outside of the furnace.

In the lintel structure of the present invention, a part of the felt-like heat-resistant member constituting the blanket laminate B overlaps with a part of the felt-like heat-resistant member constituting the adjacent blanket laminate B. Is preferable.

Such a preferred embodiment will be described with reference to FIG.
FIG. 6 is a view of two adjacent blanket laminates B (22) viewed from the outside of the furnace, and as in the case of FIG. 5, two metal hanging rods penetrate one blanket laminate B. It is the one of the present aspect. Further, as in the case of FIG. 5, the metal hanging rods were labeled _{with 12 u} , 12 _v , 12 _w , and 12 _{x. In addition, 22 x} the blanket laminate B through which the two metal hanging rods (12 _u , 12 _v ) penetrate, and the blanket laminate B through which the two metal hanging rods (12 _w , 12 _x ) penetrate. Was attached as 22 _y.

In the preferred embodiment shown in FIG. 6, a part (α) of the felt-shaped heat-resistant member (F1) constituting the _{blanket laminated body B (22 x ) is in the felt-like shape forming the adjacent blanket laminated body B (22 y} ). It overlaps with a part (β) of the heat-resistant member (F1). In such a case, the heat inside the furnace is difficult to escape from the inside of the furnace to the outside of the furnace, which is preferable.

<Manufacturing method>
Next, the method for producing the lintel structure of the present invention will be described with reference to FIGS. 7 to 10.
First, one end 12a of the metal hanging rod 12 is fixed to the upper portion 2 (gate pillar of the heating furnace) and hung. Usually, by hanging, the longitudinal direction becomes the vertical direction. Then, the plate-shaped metal fitting 14 is fixed to the other end portion 12b of the metal hanging rod 12 by welding or the like (FIG. 7A).
Next, a felt-shaped heat-resistant member (F1) is laminated below the plate-shaped metal fitting 14, to form a blanket laminated body A (16) (FIG. 7 (b)). Here, the felt-like heat-resistant member (F1) is compacted so that the compressibility (bulk density after consolidation / bulk density before consolidation x 100) is 20% or more, and the bulk density is 160 to 180 kg / m ³ . It is preferable to do so. After that, the anchor member 18 is pierced from the lower side to the upper side in the stacking direction. After that, the tip of the anchor member 18 is fixed to the plate-shaped metal fitting 14 by welding or the like (FIG. 7 (c)).

Next, the felt-like heat-resistant member (F2) is laminated so as to cover the upper main surface 16a, the inner side surface 16b of the furnace, the lower main surface 16c, and the outer side surface 16d of the blanket laminate A (16). FIG. 8A). In FIG. 8A, three sheets are laminated. Here, the felt-like heat-resistant member (F2) is compacted so that the compressibility (bulk density after consolidation / bulk density before consolidation x 100) is 20% or more, and the bulk density is 160 to 180 kg / m ³ . It is preferable to do so. Then, after installing the plate-shaped metal fitting 14 on the upper part, a felt-shaped heat-resistant member (F2) is pierced from above to below using two L-shaped anchors 18, and the L-shaped anchor 18 is made of the plate-shaped metal fitting 14 or metal. It is fixed to the hanging rod 12 by welding or the like (FIG. 8 (b)).

Next, by laminating the felt-shaped heat-resistant member (F1) on the plate-shaped metal fitting 14, the blanket-shaped laminated body B (22) is formed on the upper side of the blanket-shaped laminated body A (16) (FIG. 8 (c)). ). Here, the felt-like heat-resistant member (F1) is compacted so that the compressibility (bulk density after consolidation / bulk density before consolidation x 100) is 20% or more, and the bulk density is 160 to 180 kg / m ³ . It is preferable to do so. Then, after installing the plate-shaped metal fitting 14 on the upper part, a felt-shaped heat-resistant member (F1) is pierced from above to below using two L-shaped anchors 18, and the L-shaped anchor 18 is made of the plate-shaped metal fitting 14 or metal. It is fixed to the hanging rod 12 by welding or the like (FIG. 9 (a)).

Next, the felt-like heat-resistant member (F3) is arranged so as to cover the inside of the furnace of the blanket laminate B (22) (FIG. 9 (b)). Here, as shown in FIG. 9B, it is preferable to also cover the inside of the furnace of the blanket laminate A (16).

Next, by laminating the felt-like heat-resistant member (F1) on the plate-shaped metal fitting 14, another blanket laminated body B (22) is formed on the upper side of the blanket laminated body B (22) (FIG. 9 (FIG. 9). c)). Here, the felt-like heat-resistant member (F1) is compacted so that the compressibility (bulk density after consolidation / bulk density before consolidation x 100) is 20% or more, and the bulk density is 160 to 180 kg / m ³ . It is preferable to do so. Then, after installing the plate-shaped metal fitting 14 on the upper part, a felt-shaped heat-resistant member (F1) is pierced from above to below using two L-shaped anchors 18, and the L-shaped anchor 18 is made of the plate-shaped metal fitting 14 or metal. It is fixed to the hanging rod 12 by welding or the like (FIG. 10 (a)).

Next, the felt-like heat-resistant member (F3) is arranged so as to cover the inside of the furnace of the blanket laminate B (22) (FIG. 10 (b)).

After that, in the same manner as the methods shown in FIGS. 9 (c) to 10 (b), another blanket laminate B (22) is further formed on the upper side, which is a preferred embodiment shown in FIG. The lintel structure 10 of the present invention can be produced (FIG. 10 (c)).

10 Lintel structure 12 Metal hanging rod 12a One end of metal hanging rod 12b Other end of metal hanging rod 14 Plate-shaped metal fittings 14a Notch formed in plate-shaped metal fittings 14b Main surface of plate-shaped metal fittings 14c The back surface of the notch formed in the hardware 16 Blanket laminate A
16a Upper main surface of blanket laminate A 16b Inner side surface of blanket laminate A 16c Lower main surface of blanket laminate A 16d Outer side surface of blanket laminate A 18 Anchor member 18a Stud pin 18b L pin F1, F2, F3 Felt-like heat-resistant member S Gap between adjacent blanket laminates 100 Heating furnace 102 Door 104 Lintel 104a Lintel lower part 104b Lintel upper part 106 chains

Claims (7)

And exist on the inner surface side of the door of the furnace, a lintel structure forming the upper portion of the opening portion of the heating furnace,
It has a metal hanging rod, a plate-shaped metal fitting, a blanket laminate A, and an anchor member.
A plurality of the metal hanging rods are arranged so that one end thereof is fixed to the upper part and suspended, and the longitudinal direction is the vertical direction.
The plate-shaped metal fitting is arranged so that the direction of the perpendicular line of the main surface is parallel to the longitudinal direction of the metal hanging rod and the metal hanging rod penetrates the inside of the main surface, and is made of the metal. Multiple are fixed to the hanging rod,
The blanket laminate A is formed by laminating a plurality of felt-like heat-resistant members made of ceramic fibers.
The anchor member is formed by punching the blanket laminated body A in the laminating direction and fixing the blanket laminated body A to the metal hanging rod or the plate-shaped metal fitting.
The blanket laminate A is said to be parallel to the direction of the vertical line of the upper main surface, which is the end surface perpendicular to the lamination direction of the felt-like heat-resistant member, and the longitudinal direction of the metal lintel. A lintel structure that is fixed to at least the other end of a metal hanging rod by the anchor member and forms at least a part of the lintel substructure. A plurality of felt-like heat-resistant members are laminated so as to cover the upper main surface, the inner side surface of the furnace, the lower main surface and the outer side surface of the furnace of the blanket laminate A, and the lintel lower structure is formed together with the blanket laminate A. The lintel structure according to claim 1. On the upper side of the blanket laminate A fixed to the other end of the metal suspension rod, the inside of the upper main surface where the metal suspension rod is the end surface perpendicular to the stacking direction of the felt-like heat-resistant member. At least one blanket laminate B different from the blanket laminate A, which is formed by laminating a plurality of felt-like heat-resistant members made of ceramic fibers and formed so as to penetrate the blanket laminate A, is arranged, and another anchor member is attached to the anchor member. The invention according to claim 1 or 2 , wherein the blanket laminate B is fixed by drilling the blanket laminate B in the lamination direction and then fixing the blanket laminate B to a plate-shaped metal fitting or a metal hanging rod arranged above the blanket laminate B. Lintel structure. The lintel structure according to claim 3, wherein the felt-shaped heat-resistant member is arranged so as to cover the inside of the furnace of the blanket laminate B. The lintel structure according to claim 3 or 4, wherein the felt-like heat-resistant member constituting the blanket laminate A and / or the blanket laminate B has a compressibility of 20% or more. Two metal hanging rod penetrating though that before Symbol blanket laminate B neighboring the a plurality arranged when viewed from the main surface side, provided with a shape to be fitted to each other, each of which when viewed from the main surface side, they The lintel structure according to any one of claims 3 to 5, wherein when the two adjacent blanket laminates B are viewed from the main surface side, their gaps are not in a straight line from the inside of the furnace to the outside of the furnace. A plurality of the blanket laminates B are arranged when viewed from the main surface side, and a part of the felt-like heat-resistant member constituting the blanket laminate B is a felt-like heat-resistant member constituting the adjacent blanket laminate B. The lintel structure according to any one of claims 3 to 6, which overlaps a part.

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