KR101738348B1 - Reinforcing cross laminated timber for laminating thin steel plate - Google Patents

Abstract

A thin steel sheet is laminated between the aggregate plates of the respective layers of the crossing aggregate plate to give the tensile material function so that the strength and stiffness of the crossing aggregate plate can be improved and as a result, It is possible to easily utilize it as a wood structure member of the middle layer because the strength and ductility ability can be secured higher than that of the cross section. Further, the shape and the arrangement form of the thin steel plate can be diversified into an X shape, a square plane, There is provided a reinforced cross laminating board in which a thin steel plate capable of increasing the adhesion strength and proof stress between the cross-gathering plate and the thin steel plate and also serving as a finishing material by securing the beauty and fire resistance, which are advantages of wood, is provided.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a reinforced cross-

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cross-gathering plate, and more particularly, to a cross-clustered plate that is formed by cross-assembling first and second collecting plates, (Thin Steel Plate) is inserted between a first plate and a second plate, and then laminated.

Generally, a plate is made of wood in the form of a plate having a thickness less than 8 cm and a width three times greater than the thickness when the wood is processed by processing the wood. These boards are used as they are, and they are made of laminated board, plywood, MDF, particleboard, etc., which are processed for the purpose of making large and wide boards by eliminating the disadvantages of wood.

Particularly, a plate made by using an aggregation method of connecting narrow or short-length trees to utilize limited natural resources without waste is called a laminated plate (or laminated plate). Such an integrated plate is divided into a solid and a finger joint according to a bonding method. The finger joint is divided into a top finger joint in which the joint surface is seen from above and a side finger joint in which the joint surface is invisible . In addition, furniture and small items are important for their respective purposes. However, small-sized furniture and furniture which are not important to the appearance of the furniture are used at a relatively low cost, a finger joint type laminated board is used. In the case of producing furniture or small- Is used.

On the other hand, in the case of a conventional art laminating board, even if it is dried well in a low moisture content during the manufacturing process, when it is stored in a humid place, it absorbs the surrounding moisture and is easily swollen. On the other hand, Repeated shrinkage o Due to the expansion action, deformation such as cracking or twisting along the grain may occur.

In addition, the collecting plate according to the prior art is advantageous in that it is provided with habitat of microorganisms by moisture absorbed when stored in a place where humidity and ventilation are not smooth, and it is easily corroded and blackened by these microorganisms, Not only is it faded, but it also accompanies a bad smell.

The collective plate according to the prior art has a porous structure, for example, a pore structure that performs gas exchange between a tissue in a wood and an extraterrestrial, and there are a lot of micro pores connected to each other. Therefore, The above-described problem arises.

Therefore, in order to solve the above-mentioned problem, it is common to paint the surface of the collective plate so as to prevent water from easily penetrating into the wood. However, since the paint can not penetrate deeply into the wood, There is a problem that the waterproof effect can not be obtained.

In addition, the laminates according to the prior art have poor physical properties such as heat resistance and chemical resistance, and the strength is larger than the specific gravity. However, if the strength is desired, the laminates can not satisfy such requirements.

The aggregated plate according to the conventional art is easily deformed because it has a high porous structure as described above, despite the advantages of low cost and easy supply and receipt when the species is pine treated as a low-grade species, For example, there is a disadvantage that the rosin is secreted and the surface is stained. Therefore, it can not be used for high-grade furniture, flooring, interior materials, etc., and is limited to general construction materials.

1 is a view for explaining a method of manufacturing a lent board according to a conventional technique.

The method of manufacturing a laminated plate according to a conventional technique includes the steps of: a material taking-in step shown in FIG. 1A, a gang Rip step shown in FIG. 1B, an impregnating step shown in FIG. 1), the unit gut cooling step shown in e) of Fig. 1, the resin discharge removing step of the collecting plate body shown in Fig. 1 f), the gluing curing step shown in g) A high frequency agglomeration step, an ultraviolet (UV) sublimation step shown in h) of FIG. 1, an aggregating plate body lapping step shown in i) of FIG. 1, and a coating step shown in FIG. 1J).

Specifically, referring to FIG. 1 (a), in the case of the material taking-in step, a pine wood with a water content of 60 to 70% is prepared in the raw material reclamation, and the remainder portion excluding the central core portion of the log is re- do. Here, the timber is selected to be low in price, low in specific gravity, and excellent in workability. In addition, the reclaimed timber of the timber is formed to have a size of about 90 mm x 250 mm, and the timber can be subjected to forced thermal drying in order to prevent mold, spoilage and the like, The moisture content is preferably dried to maintain 5% to 8%. Accordingly, these logs are put into a factory for manufacturing a laminated board.

Next, referring to Fig. 1 (b), in the case of the gang rup step, when a raw material, which is a raw material, is received in the raw material recycling, in order to form such a raw material as a unit aggregate for manufacturing a lent board, , The unit aggregate 2 in the form of a plate is formed by cutting to a thickness of 3 mm, a width of 250 mm, and a length of 3000 mm.

Next, referring to FIG. 1 (c), the impregnation step is divided into an immersion step and a pressurization step. The unit gypsum 2 formed as described above complements various vulnerabilities related to moisture such as decay, deformation, discoloration, The thermosetting resin 3 is infiltrated and pressed to improve the physical properties such as heat resistance, chemical resistance and strength. In the impregnation step, an unsaturated polyester resin (a mixture of 2 wt% of a heat curing agent, benzoyl peroxide and a certain amount of a reaction retarder, hydroquinone) is contained in the liquid phase thermosetting resin (3) An upper tank 41; A lower tank 42 installed below the upper tank 41; A supply pipe 43 for supplying the thermosetting resin 3 in the upper tank 41 to the lower tank 42; A valve 44 installed in the supply pipe 43; A recovery pipe 45 for recovering the thermosetting resin 3 supplied to the lower tank 42 to the upper tank 41; And a pump (46) installed in the recovery pipe (45).

1 (d)), first, a resin infiltration step (1) in which the thermosetting resin (3) filled in the fine pores of the unit gross aggregate (2) is heated and cured to integrate with the unit gross aggregate (2) The unit glued laminated body 2 is put into the heating chamber 51 and heated by the heating system at a temperature of about 120 DEG C for about 240 minutes and the thermosetting resin 3 is cured by the action of the heat hardening agent.

Next, in the unit ganged tree cooling step shown in Fig. 1 (e), the heated unit glued wood 2 is immediately moved to the cooling chamber 61 connected to the heating chamber 51, Lt; 0 > C or lower.

Next, the step of removing the resin discharges of the collecting plate body shown in Fig. 1F) is carried out by heating the partially discharged resin pellets of the unit gross collecting body 2 to remove the cured resin discharges, ) Of the surface of the substrate. This can be done in any way as long as the work can be performed by the sanding machine 70, or the surface can be finely finished, such as a manual method using a sharp tool. In order to collect the unit aggregated wood 2 filled with the resin, maintaining the straightness of both side edges is extremely important, so that the unit aggregated wood 2 from which the resin discharged is removed is cut by both sides with a grinder or the like.

Next, the high frequency agglomerating step shown in Fig. 1 (g) is a process in which both sides of the unit glued laminated body 2 are brought into contact with each other so as to form a collecting plate of a desired width. For example, a large number of unit aggregated woods 2 are gathered to be formed with a width of 600 mm or more. The collecting plate main body 1 aggregated through this collecting step is provided with a nonwoven fabric 8 as a reinforcing material for reinforcing the binding force between the collecting unit aggregated woods 2 and the strength of the collecting plate main body 1 itself, And the like.

Next, the ultraviolet (UV) sublimation step shown in Fig. 1 (h) is performed on the back surface of the finished collecting plate body 1 to which the nonwoven fabric 8 is bonded in order to obtain a smooth topcoat film in a coating step And then irradiating ultraviolet rays generated by the ultraviolet lamp 80 to perform the step. When the ultraviolet ray leveling step is completed, a single laminating plate is completed, and the finished laminating plate is shipped as a product, and the laminating plate can be used as a desired purpose.

Next, the laminating step of the laminating plate main body shown in Fig. 1 i) is performed by forming a laminating plate by bonding and laminating the laminating plate main body 1 on the upper surface of the base panel 6, At this time, the nonwoven fabric 8 is positioned between the base panel 6 and the collecting plate main body 1 to provide a higher bonding force. Here, the base panel 6 may be formed of a conventional medium-density fiberboard, in addition to general plywood. In particular, the plywood may be a reinforced plywood that has undergone the impregnation and aging curing processes described above. At this time, the bonding method is a cold-pressure bonding method in which the thermal bonding is performed only at a press pressure at room temperature, and a vinyl acetate-based adhesive may be used as the adhesive. Here, the cold-pressure bonding has an advantage that there is no warping or warpage of the adherend after bonding, and the vinyl acetate-based adhesive has excellent heat resistance and water resistance, while the release of formalin (aqueous solution designated as polar drug) There is a characteristic that this is insignificant. This lapping step is a process for selectively performing the laminating plate according to the intended use, and is a process for manufacturing a laminating plate having a higher strength.

Next, the coating step shown in FIG. 1J) is a step of coating a finished paint on the collecting plate to form a paint layer 7. When the bottom surface of the base panel 6 is exposed as it is, Corruption, deformation, or the like occurs. As a work for preventing this, it is also possible to coat the entire outer surface with paint. In this case, it is a urethane acrylate-based paint which is known to have excellent scratch resistance, stain resistance, heat resistance and the like. After that, when the lining plate is coated and packed as required, the lining plate is completed.

On the other hand, the steel frame modular unit housing is a system that systemizes to recycle resources, secure a certain quality, and supply high quality housing to many customers. In order to achieve this, a box-type steel frame with a high degree of completeness is required to be produced in the factory, and a technique is required to be completed in a short time by a minimum process in the field. Such a steel frame modular unit housing is less in loss due to the use of factory production members, and is a most suitable housing production method for reuse and recycling use.

In Korea, these steel frame modular unit houses are mainly constructed as single storeys or two stories high, and the height that can be built to the highest level is designed to be within four stories.

In the case of the above-described aggregate plate (or aggregate plate) used in the construction of such a steel frame modular unit housing, since the layers of each wood are formed in a single direction, the elastic modulus or stress change of the wood is large, There is a problem that it is difficult to secure a high strength.

Accordingly, a cross laminated timber (CLT), which is a two-directional face plate, is used for laminating and adhering woods with different directions for each layer in order to solve the above-described problems.

2A and 2B are views showing a crossing board according to a conventional technique.

As shown in FIGS. 2A and 2B, in the case of a cross-building board (CLT: 10) which is a two-directional face material in which woods are laminated and adhered in different directions for respective layers, the bottom plate of the above- There is a problem that it is considerably difficult to secure the ductility at the time of bending strength and lateral resistance of the wall.

Korean Registered Utility Model No. 20-348506 (filed on January 19, 2004), design title: "laminated sheet" Korean Patent Laid-Open Publication No. 2005-75920 (published on July 26, 2005), entitled " Korean Unexamined Patent Publication No. 2003-9923 (published on Feb. 5, 2003), entitled "Laminated flocking using laminated material, laminated laminated sheet and method of producing them" Japanese Laid-open Patent No. 2011-148200 (public date: August 4, 2011), title of invention: " Japanese Unexamined Patent Publication No. 1999-138511 (published May 25, 1999), entitled "Laminated board" Japanese Unexamined Patent Publication No. 1999-156813 (Publication Date: June 15, 1999), entitled "Treating wood by metal impregnation agent and wood treated by the method" Korean Utility Model No. 20-334715 filed on Sep. 9, 2003, entitled "Laminated laminated sheet"

SUMMARY OF THE INVENTION The present invention is directed to a cross laminated timber (CLT) formed by cross-arranging first and second collecting plates, (EN) A reinforced crossing laminating board comprising a thin steel plate laminated by inserting a thin steel plate between two laminated plates and laminating the thin laminated steel plate so as to reinforce the strength and rigidity of the crossed reinforced plate.

Another object of the present invention is to provide a thin steel sheet which can increase the adhesion strength and the proof strength between the cross-laminated plate and the thin steel plate by diversifying the shape and arrangement of the thin steel plate into an X shape, a square plane, And a reinforced cross-laminating board laminated thereon.

It is another object of the present invention to provide a reinforced cross laminating board in which a thin steel plate is laminated, which can serve as a finishing material by securing the beauty and fire resistance which are advantages of wood.

According to another aspect of the present invention, there is provided a reinforced cross plate having laminated steel sheets according to the present invention. The reinforced cross plate comprises a first and a second collecting plates, ) Comprising: a first collecting plate formed by pasting a plurality of first unit aggregates and arranged in a first direction; A second aggregation plate formed in the same shape as the first aggregation plate by connecting a plurality of second aggregation aggregates and arranged in a second direction perpendicular to the first direction; An X-shaped steel plate, comprising: an X-shaped thin steel plate disposed between said first and second aggregation plates; And an adhesive applied to the X-shaped thin steel plate so as to be integrally formed with the first and second collecting plates, wherein the first and second collecting plates are alternately arranged, and the first collecting plate, The X-shaped thin steel plate and the second aggregate plate are sequentially and repeatedly laminated to form a cross-gathering plate having a predetermined thickness; The X-shaped thin steel plate is bent and formed corresponding to the sizes of the first and second collecting plates, and is punched on the first and second collecting plates using a thin plate punching machine. The X- And the through holes are filled with the adhesive to synthesize the first and second lent boards integrally.

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Here, the thickness of the X-shaped thin steel plate is preferably in a range of 1/10 to 1/20 of the thickness of the first and second composite plates.

Meanwhile, a reinforced cross laminating board in which a thin steel plate according to the present invention is laminated is a crossing board formed by laminating first and second laminating boards that are perpendicularly intersected with each other, A first aggregation plate formed to be adhered and arranged in a first direction; A second aggregation plate formed in the same shape as the first aggregation plate by connecting a plurality of second aggregation aggregates and arranged in a second direction perpendicular to the first direction; A square flat steel plate having a plurality of through holes formed in the same shape as the first and second lint plates and disposed between the first and second lint plates; And an adhesive applied so that the rectangular flat steel plate is integrally formed with the first and second collecting plates, wherein the first and second collecting plates are alternately arranged, and the first collecting plate, A rectangular planar thin steel plate and the second aggregate plate are sequentially and repeatedly laminated to form a crossing aggregate plate of a predetermined thickness; The rectangular flat steel plate is bent and formed corresponding to the sizes of the first and second collecting plates, and is punched on the first and second collecting plates using a thin plate punching machine.

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Here, the thickness of the rectangular flat steel sheet is preferably in the range of 1/10 to 1/20 of the thickness of the first and second laminate plates.

Meanwhile, a reinforced cross laminating board in which a thin steel plate according to the present invention is laminated is a crossing board formed by laminating first and second laminating boards that are perpendicularly intersected with each other, A first aggregation plate formed to be adhered and arranged in a first direction; A second aggregation plate formed in the same shape as the first aggregation plate by connecting a plurality of second aggregation aggregates and arranged in a second direction perpendicular to the first direction; A horizontal strip steel plate, comprising: a transverse thin steel plate disposed between a first aggregate plate and a second aggregate plate at a predetermined interval; And an adhesive applied to the transverse strip steel plate so as to be integrated with the first and second collecting plates, wherein the first and second collecting plates are alternately arranged, and the first collecting plate, The thin steel plate and the second aggregate plate are sequentially and repeatedly laminated to form a cross-gathering plate having a predetermined thickness; The transverse strip steel plate is bent and formed in correspondence with the sizes of the first and second collecting plates, and is punched on the first and second collecting plates using a thin plate punching machine.

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The transverse strip steel sheet may be disposed in the first direction or the second direction, or may be alternately disposed in the first direction and the second direction.

The thickness of the transverse strip steel sheet is preferably in the range of 1/10 to 1/20 of the thickness of the first and second laminate plates.

Meanwhile, a reinforced cross laminating board in which a thin steel plate according to the present invention is laminated is a crossing board formed by laminating first and second laminating boards that are perpendicularly intersected with each other, A first aggregation plate formed to be adhered and arranged in a first direction; A second aggregation plate formed in the same shape as the first aggregation plate by connecting a plurality of second aggregation aggregates and arranged in a second direction perpendicular to the first direction; A vertical strip steel plate, comprising: a vertical strip steel plate disposed between first aggregates of a first aggregate plate; And an adhesive to be applied to synthesize the first and the second aggregation plates integrally formed with the thin strip steel plate, wherein the first and second aggregation plates are alternately arranged, sequentially stacked repeatedly to form a predetermined thickness To form a cross-laminating plate; The thin strip steel plate is bent and formed corresponding to the size of the first unit aggregate of the first aggregate plate, and is punched by the first unit aggregate of the first aggregate plate using a thin plate punching machine.

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The thickness of the thin strip steel plate is preferably in the range of 1/10 to 1/20 of the thickness of the first aggregate of the first aggregate plate.

According to the present invention, since the thin steel plates are laminated between the collecting plates of the respective layers of the crossing aggregating plates to give the tensile material function, the strength and rigidity of the crossing aggregating plates can be improved, It can be used easily as a wooden structural member of the middle floor because it can secure higher strength and ductility than the existing engineering wood section.

According to the present invention, the shape and arrangement of the thin steel sheet can be varied into an X shape, a square plane, a transverse strip, or a vertical strip, thereby increasing the bond strength and the proof strength between the cross gathering plate and the thin steel plate.

According to the present invention, it is possible to secure the appearance and fire resistance, which are advantages of wood, and to serve as a finishing material. For example, as domestic demand for wooden construction is expected to increase, it can be used as a structural composite member in large-scale structures such as gymnasiums and commercial buildings.

1 is a view for explaining a method of manufacturing a lent board according to a conventional technique.
2A and 2B are views showing a crossing board according to a conventional technique.
FIG. 3 is an exploded perspective view of a reinforced cross liner plate obtained by laminating an X-shaped thin steel plate according to a first embodiment of the present invention.
4 is a perspective view of a reinforced cross laminating board in which an X-shaped thin steel plate according to the first embodiment of the present invention is laminated.
5 is a diagram illustrating an X-shaped thin steel sheet in a reinforced cross-stitched composite plate laminated with an X-shaped thin steel sheet according to a first embodiment of the present invention.
FIG. 6 is an exploded perspective view of a reinforced cross laminating board obtained by laminating a rectangular flat steel sheet according to a second embodiment of the present invention.
7 is a perspective view of a reinforced cross laminating board obtained by laminating a rectangular flat steel sheet according to a second embodiment of the present invention.
8 is an exploded assembly perspective view of a reinforced cross laminating board in which a transverse thin steel plate according to a third embodiment of the present invention is laminated.
FIG. 9 is a perspective view of a reinforced cross laminating board in which a transverse thin steel plate according to a third embodiment of the present invention is laminated.
FIG. 10 is a view showing an example of a transverse strip steel plate in a reinforced cross-stitched composite plate in which a transverse thin steel plate according to a third embodiment of the present invention is laminated.
11 is an exploded assembly perspective view of a reinforced cross laminating board obtained by laminating thin steel plates of a longitudinal strip according to a fourth embodiment of the present invention.
12 is a perspective view of a reinforced cross laminating board obtained by laminating thin steel plates of a longitudinal strip according to a fourth embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

For example, the X-shaped thin steel plate 100, the rectangular flat thin steel plate 200, and the rectangular flat steel plate 200 may be formed by laminating thin steel plates having various sectional shapes, A transverse thin steel plate 300, and a strip thin steel plate 400. The first to fourth embodiments will be described below.

[The reinforcing crossing plate 100 in which the X-shaped thin steel plates 130 are laminated]

 FIG. 3 is an exploded perspective view of a reinforced cross-stitched composite plate laminated with an X-shaped thin steel plate according to a first embodiment of the present invention, FIG. 4 is a cross- FIG. 5 is a view illustrating an X-shaped thin steel sheet in a reinforced cross-stitched composite plate obtained by laminating an X-shaped thin steel sheet according to a first embodiment of the present invention.

Referring to FIGS. 3 and 4, the reinforcing cross board 100 is formed by laminating an X-shaped thin steel plate according to the first embodiment of the present invention. The first and second build plates, A cross laminated timber (CLT) formed by the first collecting plate 110, the second collecting plate 120, the X-shaped thin steel plate 130, and the adhesive 140.

The first collecting plate 110 is formed by pasting a plurality of first unit collecting molds 111 and arranged in a first direction.

The second collective plate 120 is formed in the same shape as the first collective plate 110 by connecting a plurality of second unit gathers 121 and arranged in a second direction perpendicular to the first direction. At this time, the first collecting plate 110 and the second collecting plate 120 can be manufactured by the method shown in FIG. 1, but the present invention is not limited thereto.

The X-shaped thin steel plate 130 is a steel plate formed in an X shape and disposed between the first and second collecting plates 110 and 120. At this time, the X-shaped thin steel plate 130 is bent and formed corresponding to the sizes of the first and second collecting plates 110 and 120, and the first and second collecting plates 110 and 120 are formed by using a thin plate punching machine Can be punched on the plates (110, 120). The thickness of the X-shaped thin steel plate 130 is preferably in a range of 1/10 to 1/20 of the thickness of the first and second collecting plates 110 and 120.

The X-shaped thin steel plate 130 may be formed as a shape 130a in which no through holes are formed as shown in FIG. 5a), or the X-shaped thin steel plate 130 may be formed in a shape (B), a plurality of through holes (h) are formed, and the adhesive (140) fills the through holes to form the first collecting plate (110) and the second collecting plate The second aggregation plate 120 can be integrally synthesized.

The adhesive 140 is applied such that the X-shaped thin steel plate 130 is integrated with the first and second collecting plates 110 and 120.

Accordingly, the first and second collecting plates 110 and 120 are alternately arranged, and the first collecting plate 110, the X-shaped thin steel plate 130, and the second collecting plate 120 are sequentially It is possible to form the cross-building board 100 having a predetermined thickness.

[The reinforcing crossing plate 200 in which the rectangular flat steel plate 230 is laminated]

6 is a disassembled and assembled perspective view of a reinforced cross-section laminates according to a second embodiment of the present invention. FIG. 7 is a cross-sectional view of a reinforced cross- It is a perspective view of a laminated board.

6 and 7, a reinforced cross-linked building plate 200 in which a square flat-plane thin steel plate according to a second embodiment of the present invention is laminated is constructed by laminating a first and a second build- The first collecting plate 210, the second collecting plate 220 and the rectangular flat steel plate 230 may be used as the crossing collecting plate CLT.

The first collecting plate 210 is formed by pasting a plurality of first unit aggregates 211 and is arranged in the first direction.

The second collecting plate 220 is formed in the same shape as the first collecting plate 210 and is arranged in a second direction perpendicular to the first collecting plate 210 by connecting a plurality of second uniting aggregates 221.

The rectangular flat steel plate 230 is a square flat steel plate having a plurality of through holes and is formed in the same shape as the first and second lint plates 210 and 220. The first lint plate 210 and the second And is disposed between the collecting plates 220. At this time, the rectangular flat steel plate 230 is bent and formed corresponding to the sizes of the first and second collecting plates 210 and 220, and the first and second collecting plates 210 and 220 are formed by using a thin plate punching machine Can be punched on the plates (110, 120). The thickness of the rectangular flat steel plate 230 is preferably in a range of 1/10 to 1/20 of the thickness of the first and second collecting plates 210 and 220.

The adhesive is applied such that the rectangular flat steel plate 230 is integrated with the first and second collecting plates 210 and 220.

Accordingly, the first and second collecting plates 210 and 220 are alternately arranged, and the first collecting plate 210, the rectangular flat steel plate 230, and the second collecting plate 220 are sequentially It is possible to form the cross-building board 200 having a predetermined thickness repeatedly laminated.

[The reinforcing cross plate (300) in which the thin strip steel plate (330) is laminated)

 FIG. 8 is a perspective view of a reinforced cross-laminating board obtained by laminating a transverse thin steel plate according to a third embodiment of the present invention, FIG. 9 is a cross- And FIG. 10 is a view illustrating a transverse strip steel plate in a reinforced cross-laminating board in which a transverse thin steel plate according to a third embodiment of the present invention is laminated.

Referring to FIGS. 8 to 10, the reinforcing cross boarding plate 300 in which the transverse strip steel plates according to the third embodiment of the present invention are laminated is formed by stacking a first and a second stacking plates The second collecting plate 320, the transverse strip steel plate 330, and the adhesive 340. The first collecting plate 310, the second collecting plate 320,

The first collecting plate 310 is formed by pasting a plurality of first unit collecting molds 311 and arranged in a first direction.

The second collecting plate 320 is formed in the same shape as the first collecting plate 310 and is arranged in a second direction perpendicular to the first collecting plate 310 by connecting a plurality of second uniting aggregates 321.

The transverse strip steel plate 330 is a horizontal strip steel plate and is spaced apart from the first and second collecting plates 110 and 120 by a predetermined distance. At this time, the transverse strip steel plate 330 is bent and formed corresponding to the sizes of the first and second collecting plates 310 and 320, and the first and second collecting plates 310 and 320 are formed by using a thin plate punching machine (310, 320). The thickness of the thin strip steel plate 330 is preferably in a range of 1/10 to 1/20 of the thickness of the first and second collecting plates 310 and 320.

The transverse strip steel plate 330 may be a transverse strip steel sheet 330a disposed in a first direction or a transverse strip steel sheet 330b disposed in a second direction. For example, Or as shown in b) of Fig. 10, or may be arranged in a second direction, as shown in Fig. 10C, or may be arranged in the first direction and the second direction, Direction can be alternately arranged.

The adhesive 340 is applied so that the transverse strip steel plate 330 is integrated with the first and second collecting plates 310 and 320.

Accordingly, the first and second collecting plates 310 and 320 are alternately arranged, and the first collecting plate 310, the transverse strip steel plate 330, and the second collecting plate 320 are sequentially The cross-mounting board 300 having a predetermined thickness can be formed.

[Stiffening cross plate (400) in which the strips of thin steel plate (430) are laminated)

FIG. 11 is an exploded perspective view of a reinforced cross-stitched panel obtained by laminating a thin-section steel plate according to a fourth embodiment of the present invention, FIG. 12 is an exploded perspective view of a reinforced cross-stitched plate according to a fourth embodiment of the present invention, FIG.

Referring to FIGS. 11 and 12, a reinforcing cross plate 400 is formed by laminating a thin plate steel plate according to a fourth embodiment of the present invention. The reinforcing cross plate 400 is formed by laminating first and second plates, A second collecting plate 420, and a vertical strip thin plate 430 as cross-collecting plates CLT.

The first collecting plate 410 is formed by attaching a plurality of first unit collecting members 411 and is arranged in a first direction.

The second collecting plate 420 is formed in the same shape as the first collecting plate 410 and is arranged in a second direction perpendicular to the first collecting plate 421 by connecting a plurality of second uniting aggregates 421.

The vertical strip thin steel sheet 430 is a vertical strip steel plate disposed between the first unit aggregate 411 of the first collecting plate 410. At this time, the thin strip steel plate 430 is bent and formed corresponding to the size of the first unit aggregate 411 of the first aggregate plate 410, and the thin plate steel plate 430 is folded and formed by using a thin plate punching machine Can be punched into the first unit glued sheet 411 of the first unit glued sheet 410. The thickness of the thin strip steel plate 430 is preferably in the range of 1/10 to 1/20 of the thickness of the first unit laminate 411 of the first laminate 410.

The adhesive is applied such that the first and the second collecting plates 410 and 420, in which the thin strip steel plates 430 are inserted, are integrally combined.

Accordingly, the first and second collecting plates 410 and 420 are alternately arranged, and the collecting plates 400 having a predetermined thickness can be formed repeatedly and sequentially.

A reinforced cross-laminating plate according to an embodiment of the present invention is an engineering composite member reinforced by a thin steel plate punched per each laminating board of each layer, and a cross-cluster laminating board, which is a typical engineering wood, is combined with a bent thin plate steel plate of various shapes By composing it, it is possible to secure the composite force and the ductility.

The reinforced cross plate having the thin steel sheet laminated according to the embodiment of the present invention may be formed of an X-shaped thin steel plate 130, a rectangular flat thin steel plate 230, a transverse thin steel plate 330, Although they have been described above, they can be used in combination.

As a result, according to the embodiment of the present invention, since the thin steel plates are laminated between the collecting plates of the respective layers of the crossing collecting plate to give the tensile material function, the proof and stiffness of the crossing collecting plate can be improved, And a thin steel plate, it can be used as a wood structure member of the middle layer because it has higher strength and ductility than the existing engineering wood section. Further, by varying the shape and arrangement of the thin steel plate into an X shape, a square plane, a transverse strip, or a vertical strip, it is possible to increase the bond strength and the proof strength between the cross gathering plate and the thin steel plate. In addition, it can serve as a finishing material by securing the beauty and fire resistance that are the advantages of wood. For example, as domestic demand for wooden construction is expected to increase, it can be used as a structural composite member in large-scale structures such as gymnasiums and commercial buildings.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: Cross-laminating plate in which an X-shaped thin steel plate is laminated
110: first aggregation plate
120: second collecting plate
130, 130a, 130b: X-shaped thin steel plate
140: Adhesive
111: First unit gang
121: the second unit aggregate
200: Cross-laminated plate laminated with rectangular flat thin steel plates
210: first collecting plate
220: second collecting plate
230: Square flat thin steel plate
211: First unit gang
221: second unit aggregate
300: Cross-laminating plate laminated with thin strip steel plates
310: first collecting plate
320: second collecting plate
330: Horizontal strip steel plate
340: Adhesive
311: First unit gang
321: 2nd unit gang
400: cross-laminating plate in which thin strips of vertical strips are laminated
410: first collecting plate
420: second collecting plate
430: Vertical strip thin plate
411: First unit gang
421: The second unit glued wood

Claims (14)

A cross laminated timber (CLT) formed by laminating a first aggregation plate and a second aggregation plate which are perpendicular to each other,
A first collecting plate 110 formed by pasting a plurality of first unit collecting grooves 111 and arranged in a first direction;
A second collecting plate (120) formed in the same shape as the first collecting plate (110) by connecting a plurality of second unit collecting molds (121) and arranged in a second direction perpendicular to the first direction;
An X-shaped steel plate, comprising: an X-shaped thin steel plate (130) disposed between the first and second collecting plates (110, 120); And
An adhesive 140 applied to the X-shaped thin steel plate 130 so as to be integrated with the first and second collecting plates 110 and 120,
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The first and second collecting plates 110 and 120 are alternately arranged and the first collecting plate 110, the X-shaped thin steel plate 130 and the second collecting plate 120 are sequentially stacked repeatedly, Thereby forming a cross-defining board 100 having a predetermined thickness; And
The X-shaped thin steel plate 130 is bent and formed in correspondence with the sizes of the first and second collecting plates 110 and 120 and is formed on the first and second collecting plates 110 and 120 by using a thin plate punching machine. And the X-shaped thin steel plate 130 is formed with a plurality of through holes, and the adhesive 140 fills the through holes to form the first collecting plate 110 and the second collecting plate 110. [ And the plate (120) are integrally synthesized. delete delete The method according to claim 1,
Wherein the thickness of the X-shaped thin steel plate (130) is in a range of 1/10 to 1/20 of the thickness of the first and second collecting plates (110, 120). . A cross-building board (CLT) formed by stacking a first aggregate plate and a second aggregate plate which are perpendicular to each other,
A first collecting plate 210 formed by pasting a plurality of first unit collecting molds 211 and arranged in a first direction;
A second collecting plate 220 formed in the same shape as the first collecting plate 210 by connecting a plurality of second unit collecting grooves 221 and arranged in a second direction perpendicular to the first direction;
The first and second collecting plates 210 and 220 are formed in the same shape as the first and second collecting plates 210 and 220 and are disposed between the first and second collecting plates 210 and 220 A square flat thin steel plate 230; And
The thin flat steel plate 230 is bonded to the first and second collecting plates 210 and 220 to be integrated with each other.
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The first and second collecting plates 210 and 220 are alternately arranged and the first collecting plate 210, the rectangular flat steel plate 230 and the second collecting plate 220 are sequentially stacked repeatedly. Thereby forming a crossing board 200 having a predetermined thickness; And
The rectangular planar steel plate 230 is bent and formed corresponding to the sizes of the first and second collecting plates 210 and 220 and is formed on the first and second collecting plates 110 and 120 by using a thin plate punching machine. Wherein the reinforcing cross-linked laminates are formed by laminating a thin steel plate. delete 6. The method of claim 5,
And the thickness of the rectangular flat steel plate 230 is in a range of 1/10 to 1/20 of the thickness of the first and second integrated plates 210 and 220. The reinforced cross- . A cross-building board (CLT) formed by stacking a first aggregate plate and a second aggregate plate which are perpendicular to each other,
A first collecting plate 310 formed by pasting a plurality of first unit collecting molds 311 and arranged in a first direction;
A second collecting plate (320) formed in the same shape as the first collecting plate (310) by connecting a plurality of second unit collecting molds (321) and arranged in a second direction perpendicular to the first direction;
A horizontal strip steel plate, comprising: a thin strip steel plate 330 spaced a predetermined distance between the first and second collecting plates 310 and 320; And
An adhesive 340 applied to the transverse strip steel plate 330 to be integrated with the first and second collecting plates 310 and 320,
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The first and second collecting plates 310 and 320 are alternately arranged and the first collecting plate 310, the transverse strip steel plate 330 and the second collecting plate 320 are sequentially and repeatedly stacked Forming a cross-building board 300 of a predetermined thickness; And
The transverse strip steel plate 330 is bent and formed corresponding to the sizes of the first and second collecting plates 310 and 320 and is formed on the first and second collecting plates 310 and 320 using a thin plate punching machine Wherein the reinforcing cross plate is formed by laminating a thin steel plate. delete 9. The method of claim 8,
Wherein the transverse strip steel plate (330) is arranged in the first direction or the second direction, or alternatively the first direction and the second direction are alternately arranged. 9. The method of claim 8,
Wherein the thickness of the transverse strip steel plate (330) is in a range of 1/10 to 1/20 of the thickness of the first and second lint block plates (310, 320). A cross-building board (CLT) formed by stacking a first aggregate plate and a second aggregate plate which are perpendicular to each other,
A first collecting plate 410 formed by pasting a plurality of first unit collecting molds 411 and arranged in a first direction;
A second collecting plate 420 which is formed in the same shape as the first collecting plate 410 and which is arranged in a second direction perpendicular to the first direction by connecting a plurality of second uniting aggregates 421;
A vertical strip steel plate 430 disposed between the first unit aggregate plates 411 of the first collecting plate 410; And
An adhesive which is applied to synthesize the first and the second collecting plates 410 and 420, in which the strip-shaped thin steel plate 430 is inserted,
, ≪ / RTI &
The first and second collecting plates 410 and 420 are alternately arranged and sequentially laminated repeatedly to form a crossing collecting plate 400 having a predetermined thickness; And
The vertical strip thin steel sheet 430 is bent and formed corresponding to the size of the first unit aggregate 411 of the first aggregate plate 410 and the first unit of the first aggregate plate 410 is formed by using a thin plate punching machine. And the reinforcing cross plate is formed by laminating a thin steel plate which is punched on the glued composite sheet (411). delete 13. The method of claim 12,
Wherein the thickness of the thin strip steel plate (430) is in a range of 1/10 to 1/20 of the thickness of the first unit laminate (411) of the first integrating plate (410) Collective Edition.

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