JP3384698B2 - Storage room panel - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is used as a wall panel of a storage room for storing valuables, such as a safe or a magnetic tape storage for a computer. To a wall panel for a warehouse room suitable for 2. Description of the Related Art The ceiling and side walls of a storage room for storing valuables, such as a safe or a magnetic tape storage for a computer, etc.
In general, cabinet panels used for walls such as floors are required to have fire resistance, destruction resistance, and earthquake resistance.
Depending on the setting location of the storage room, it is required to be as light as possible because the floor load needs to be suppressed. Further, in the production of the cabinet room panel, it is required that processing and assembly of the members of the cabinet room panel are easy, and further, in transporting and constructing the cabinet room panel, the members of the cabinet room panel are required. The panels are required to be lightweight and easy to assemble at the construction site. In addition, when handling unnecessary storage room panels, it is easy to remove the storage room panel from the assembly part of the storage room and disassemble the storage room panel after removal, and it is possible to disassemble each member of the dismantled panel. It is required that it can be reused as much as possible. Under the above-mentioned various requirements, it is conventionally used for walls such as ceilings, side walls and floors of storage rooms for storing valuables, such as safes and magnetic tape storages for electronic computers. As a cabinet room panel, for example, the front and back surfaces of a core material made of a plate-like refractory material are coated with a shallow dish-shaped coated steel plate, and the above-described shallow dish-shaped coated steel plate that covers the front and back surfaces of the same core material A cabinet room panel was considered in which a holding plate for holding a panel shape was applied to the peripheral portion and welded, and the core material and the coated steel plates on both front and back surfaces of the core material were integrated. [0004] However, as described above, both the front and back surfaces of a core made of a plate-like refractory material are covered with shallow dish-shaped coated steel plates, and the front and back surfaces of the same core material are covered. To the periphery of the coated shallow dish-shaped coated steel sheet, a holding plate for holding the panel shape is applied and welded, and the core material, and the shallow dish-shaped coated steel sheet on both the front and back surfaces of the same core material. In the case of a cabinet room panel integrating the above, the front and back surfaces of the core material are covered 1
Since the pair of coated steel sheets are integrated with each other via the holding plate welded to each coated steel sheet, the man-hours required to manufacture the cabinet room panel are large, and the weight of the manufactured cabinet room panel is large. See
It takes a lot of time and trouble to dismantle unnecessary storage room panels, and the coated steel sheet after disassembly is difficult to reuse due to damage during disassembly. Accordingly, the present invention is excellent in fire resistance, destruction resistance, and earthquake resistance, is lightweight, is easy to process and assemble members, and is easily assembled and assembled at a construction site by transporting each member. When it is no longer necessary, it is easy to remove it from the assembly part of the storage room, it is easy to disassemble after removal, and it is possible to reuse each member after disassembly It is intended to provide a cabinet room panel. [0006] In order to solve the above-mentioned problems, a warehouse room panel of the present invention has a front surface, a back surface, and a peripheral end surface extending over the entire periphery between the front and back surfaces. A core material made of a refractory material formed in a plate shape, and a bottom plate portion covering the entire surface of the core material and only a part of the peripheral end surface of the core material in a width direction along the entire periphery of the bottom plate portion. A first coated steel plate having a rising edge bent and formed so as to cover the entire surface with a predetermined width, a bottom plate covering the entire back surface of the core material, and the core along the entire periphery of the bottom plate. Only a part of the peripheral end face in the width direction of the material has a predetermined width leaving a slight gap from the leading edge of the rising edge of the first coated steel sheet.
In a second coated steel sheet and a rising edge which is bent so as to cover the entire circumference, the first coated steel sheet covers the portion of the surface and the peripheral end face of the core member, said first 2 in a state where the coated steel sheet covers a part of the back surface of the core material and a part of the peripheral end face, the leading edge of the rising edge of the first coated steel sheet and the rising edge of the second coated steel sheet. The bridging portion is formed by partial penetration welding in which the leading edge is welded using partial penetration of the coated steel plate itself at regular intervals as viewed in the length direction of the gap between the leading edges. Are characterized by being joined to each other. [0007] Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a cross-sectional view of a main part of a cabinet panel according to an embodiment of the present invention, taken along line AA of FIG. 3, and FIG. 2 is a cabinet according to the embodiment of FIG. FIG. 3 is a longitudinal sectional view of a main part of the panel for use as viewed along the line BB in FIG. 3, FIG. 3 is a plan view of the panel for the storage room in FIG. 1, and FIG.
2 is an enlarged view of a main part of a cross section passing through a welding position d parallel to the cross section of FIG. 1 at a part corresponding to the D part of FIG. 1, and FIG. 4 (2) is a part corresponding to the E part of FIG. The principal part enlarged view of the cross section which passes through the welding position d parallel to a cross section is shown, respectively. First, in FIGS. 1 to 3, as an example, a fitting groove 4 a formed on an end face on one side of a warehouse room panel 1 a having a rectangular planar shape, and a rectangular planar shape also having The fitting ridges 4b formed on the end face on one side of the cabinet room panel 1b are fitted together to form the cabinet room panel 1b.
a and the compartment room panel 1b are combined, and the compartment room panel 1a and the compartment room panel 1b are partially penetrated and welded at each welding position e spaced apart from each other in the longitudinal direction of the edge of each panel. Are connected to each other via a narrow bridge portion. [0009] box compartment panel 1a comprises a core 2a, the first coated steel sheet 3a _1, and a ₂ second coated steel sheet 3a. The core 2a is made of a refractory material and has a surface 5a ₁
When a back surface 5a _2, and is formed in a plate shape and a peripheral edge face 6a having a predetermined width dimension in the thickness direction. First coated steel sheet 3a _1, together has a bottom plate portion 7a ₁ covering the entire surface 5a ₁ of the core 2a, the edge portion 8a ₁ rising along the periphery of the bottom plate portion 7a ₁ is bent And
Peripheral end surface 6a of the core material 2a by the rising edge 8a ₁
It covers the entire circumference of the core 2a of the peripheral edge surface of the surface 5a ₁ side of the width of only a portion of the thickness direction, i.e., the width direction of the. On the other hand, the second coated steel plate 3a ₂
Together and a bottom plate portion 7a ₂ which covers the entire area of the back surface 5a _2, edges 8a rising along the periphery of the bottom plate portion 7a _2
2 are bent by the rising edge 8a _2, the peripheral end face of the back surface 5a ₂ side of the width of only a portion of the thickness direction, i.e., the width direction of the peripheral end face of the core member 2a,
At a slight clearance c from the first rising edge of 8a ₁ leading edge of the coated steel sheet 3a _1, and covers the entire circumference of the core 2a. [0010] As shown in FIGS. 1 and 2, the first coated steel sheet 3a ₁ covers the peripheral edge surface of the surface 5a ₁ and the surface 5a ₁ side of the core 2a, the second coated steel sheet 3a ₂ is the core 2
while covering the peripheral edge face of the back 5a ₂ and the back surface 5a ₂ side of the a, first coated steel sheet 3a ₁ of the rising edge 8a
₁ and the rising edge 8 of the _second coated steel plate 3a2.
As shown in FIG. 3, as shown in FIG. 3, the leading edge of a ₂ is spaced at predetermined intervals in the longitudinal direction of the gap c between the leading edges, that is, at each welding position d spaced at intervals. As shown in FIG. 4 (2), the coated steel plates are joined to each other by forming a narrow bridging portion f by partial penetration welding in which welding is performed using partial penetration of the coated steel plates themselves. Similarly, the cabinet room panel 1b is made of the core material 2
and b, or first coated steel sheet 3b _1, the second coated steel sheet 3b ₂
And The core 2b is made of a refractory material,
The surface 5b _1, the back surface 5b _2, and is formed in a plate shape and a peripheral edge face 6b having a predetermined width dimension in the thickness direction.
First coated steel sheet 3b _1, together has a bottom plate portion 7b ₁ that covers the entire surface 5b ₁ of the core material 2b, the bottom plate 7
b rising edge 8b ₁ along the peripheral edge of the ₁ are bent, the surface 5b of the width of only a portion of the thickness direction, i.e., the width direction of the peripheral end face 6b of the core material 2b by the rising edge 8b _{1 The one-} sided peripheral end surface is covered over the entire circumference of the core material 2b. On the other hand, the second coated steel sheet 3b _2, together has a bottom plate portion 7b ₂ that covers the entire area of the rear surface 5b ₂ of the core member 2b, formed edges 8b ₂ rise along the periphery of the bottom plate portion 7b ₂ is bent The rising edge 8b
The peripheral edge surface of the rear surface 5b ₂ side of the width of only a portion of the thickness direction, i.e., the width direction of the peripheral end face of the core member 2b by _2, the first rising edge leading edge of 8b ₁ of the coated steel plate 3b ₁ , And covers the entire circumference of the core material 2b except for a slight gap c. Furthermore, FIG. 1 and FIG. 2, the first coated steel sheet 3b ₁ covers the peripheral edge surface portions of the surface 5b ₁ and the surface 5b ₁ side of the core member 2b, the second coated steel sheet 3b ₂
State but covering the peripheral edge surface of the rear surface 5b ₂ and a rear surface 5b ₂ side of the core member 2b, the first coating steel 3b ₁ rising edge 8b ₁ tip edge and the second rising edge of the coated steel sheet 3b ₂ and leading edge parts 8b ₂ is, as shown in FIG. 3, every predetermined intervals in the longitudinal direction of the gap c between the distal end edge, i.e. every welding position d placing the sequential intervals, FIG. 4 (1) As shown in (1), they are joined to each other by forming a narrow bridging portion f by partial penetration welding in which welding is performed utilizing partial penetration of the coated steel plates themselves. As the cores 2a and 2b, a fire-resistant material is used. For example, if a calcium silicate-based material or a calcium silicate-based material mixed with noncombustible fibers is used, excellent heat insulating properties are obtained. Thus, a cabinet panel with high fire resistance can be obtained. The first coated steel plates 3a ₁ , 3b ₁ and the second coated steel plates 3a ₂ , 3b ₂ can be mutually compatible according to the shape of the core material. In this case, for example, a coated steel sheet having a single shape and size is manufactured, and the manufactured coated steel sheet is replaced with the first coated steel sheet 3.
Since it can be applied to any of a ₁ , 3b ₁ and the second coated steel plates 3a ₂ , 3b ₂ , it is possible to improve the working efficiency when manufacturing and assembling the cabinet room panel. The first coated steel plates 3a ₁ , 3b ₁ and the second
As the coated steel plates 3a ₂ and 3b ₂ , stainless steel can be used in some cases. Generally, the first coated steel sheets 3a ₁ , 3b ₁ and the second coated steel sheets 3a ₁ , 3b ₁
If the thicknesses of a ₂ and 3b ₂ are too large, distortion is likely to occur. Therefore, when welding the first coated steel sheets 3a ₁ and 3b ₁ and the second coated steel sheets 3a ₂ and 3b ₂ , The first coated steel plates 3a ₁ , 3b ₁ and the second coated steel plates 3a ₂ , 3
a b ₂ to the work pressed by the jig. As a specific example of the dimensions of each coated steel plate, the overall thickness of the cabinet panel is 80 mm, and the overall width of the cabinet panel is 5 mm.
When it is 14 mm, the thickness of the coated steel sheet is, for example, 2.3 m.
m, and the gap width dimension of the gap c at this time can be set to, for example, 3 mm. In assembly, usually, without adhering the each coating steel plate core, first coated steel sheet 3a _1, 3b ₁ and a second coated steel sheet 3a _2, 3b ₂ by core members 2a, 2b and both sides Each of the welding positions d is spaced from each other in the longitudinal direction of the gap c between the leading edges of the coated steel sheets by a narrow bridging portion f formed by partial penetration welding. The leading edges of the coated steel sheets are joined together. In the cabinet room panel according to the present invention, a narrow bridge formed by partial penetration welding performed at each welding position d which is sequentially spaced in the length direction of the gap c between the leading edges of the coated steel plates. The first coated steel plate 3a ₁ , 3
b ₁ , second coated steel plates 3a ₂ , 3b ₂ and core members 2a, 2b
b can be easily separated individually, and the dismantling, repairing and assembling of the cabinet room panel is easy. Conventionally, the dismantling cost is high, so that it is apt to be left undismantled. Since the dismantling cost can be kept low, it is not necessary to leave the unnecessary room room panel unattended, and the dismantling can be performed without damaging the member. The possibility of recycling is further increased, which can greatly contribute to effective use of resources and prevention of environmental pollution. As described above, according to the cabinet room panel of the present invention, the panel is formed in a plate shape having the front and back surfaces and the peripheral end surface extending over the entire periphery between the front and back surfaces. A core material made of a refractory material, a bottom plate covering the entire surface of the core material, and a part of the core material in the width direction along the entire periphery of the bottom plate portion with a predetermined width. A first coated steel plate having a rising edge bent and formed so as to cover the circumference, a bottom plate covering the entire back surface of the core, and the peripheral end surface of the core along the entire periphery of the bottom plate; And a rising edge portion formed to be bent so as to cover only a part of the width direction of the first coated steel sheet over the entire circumference at a predetermined width except for a slight gap from the leading edge of the rising edge portion of the first coated steel sheet. Wherein the first coated steel sheet has the surface of the core material and And a part of the peripheral end face, and a state in which the second coated steel sheet covers a part of the back surface of the core material and a part of the peripheral end face. The leading edge of the rising edge portion of the second coated steel sheet is disposed at predetermined intervals as viewed in the length direction of the gap between the respective leading edges, and as a final welding, utilizing partial penetration of the coated steel sheet itself. Since they are joined together by forming a bridging part by partial penetration welding, they are excellent in fire resistance, destruction resistance, earthquake resistance, lightweight, easy to process and assemble members, Each time it is transported, it can be easily assembled and assembled at the construction site, and when it is no longer needed, it can be easily removed from the assembly part of the storage room, and it can be easily disassembled after disassembly. It is possible to reuse each member after the operation (claim 1)

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view of a storage room panel according to an embodiment of the present invention.
FIG. 4 is a cross-sectional view of a main part taken along line AA of FIG. 3. FIG. 2 is a perspective view of the storage room panel according to the embodiment of FIG. 1;
FIG. 4 is a vertical sectional view of an essential part taken along line BB of FIG. FIG. 3 is a plan view of the storage room panel of FIG. 1; 4 (1) is an enlarged view of a main portion of a cross section passing through a welding position parallel to the cross section of FIG. 1, and FIG. 4 (2) is a cross section of a main portion passing through a welding position parallel to the cross section of FIG. It is a part enlarged view. [Description of Reference Numerals] 1a, 1b panels 2a, 2b core 3a _1, 3b ₁ first coated steel sheet 3a _2, 3b ₂ second coated steel sheet 4a fitting groove 4b Hamagototsujo 5a _1, 5b ₁ core surface 5a _2, 5b ₂ core of the back surface 6a of the timber, peripheral end surface 7a ₁ of 6b core, 7b ₁ first bottom plate portion 7a ₂ of the coated steel sheet, 7b ₂ second coated steel sheet of the bottom plate portion 8a _1, 8b ₁ first rising edge 8a ₂ of the coated steel sheet, 8b ₂ second coated steel sheet of the rising edge c gap d welding position e welding position f partial bridge according penetration welds junction

────────────────────────────────────────────────── ─── Continuation of the front page (56) References JP-A-6-262348 (JP, A) JP-A-49-42568 (JP, A) JP-A-6-159921 (JP, A) JP-A-6-159921 221748 (JP, A) JP-A-5-104250 (JP, A) JP-A-56-47077 (JP, U) JP-A-4-28585 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) E05G 1/00-1/024 E05G 7/00

Claims (1)

(57) [Claim 1] A core material made of a refractory material formed in a plate shape having a front surface and a back surface and a peripheral end surface extending over the entire circumference between the front and back surfaces, and A bottom plate portion that covers the entire surface of the core material and a rising portion that is bent along the entire periphery of the bottom plate portion so as to cover only a part of the peripheral end surface in the width direction of the core material with a predetermined width over the entire circumference. A first coated steel sheet having an edge portion, a bottom plate portion covering the entire back surface of the core material, and only a part of the peripheral end face of the core material in the width direction along the entire periphery of the bottom plate portion. A second coated steel plate having a rising edge bent and formed so as to cover the entire circumference at a predetermined width while leaving a slight gap from the leading edge of the rising edge of the first coated steel plate; The coated steel sheet covers the surface of the core material and a part of the peripheral end face, A tip edge of the rising edge of the first coated steel sheet and a tip edge of the rising edge of the second coated steel sheet with the coated steel sheet covering the back surface of the core and a part of the peripheral end face. To form a bridging portion by partial penetration welding in which welding is performed using partial penetration of the coated steel plate itself as main welding at predetermined intervals as viewed in the length direction of the gap between the respective leading edges. Panel for a warehouse, characterized by being joined to each other by: