KR20200001315A - Multi-layer glued structural cross laminated timber panel for perpendicular diaphragm member and manufacturing method thereof - Google Patents

Abstract

A method for manufacturing a multiple junction structural laminated timber panel for a perpendicular diaphragm member according to the present invention comprises following steps of: lumbering smallwood, which is a thinning timber for four faces to have a certain cross-sectional dimension, followed by drying the same to a predetermined water content, and then plane finishing for removing shrinkage or distortion when drying to manufacture a plurality of squared timber (111); side joining the manufactured squared timber (111) to manufacture a core plate (110); and respectively binding a plywood (120,130) stacked with an odd number of sheets of three or more sheets to the upper and lower parts of core plate (110) in an upper floor and a lower floor, in a way that several veneered single plates intersect a fiber direction to manufacture the perpendicular diaphragm member (100).

Description

Multi-layer glued structural cross laminated timber panel for vertical diaphragm member and manufacturing method

The present invention relates to a multi-junction structural aggregate plate for a vertical diaphragm member and a manufacturing method thereof, and more particularly, to a multi-junction structural aggregate plate and a method for manufacturing the same, which can be used as a vertical diaphragm member in a wooden house.

, 2010년 9,585동 연면적781,000

급기야 현재 10,000동이 넘는 목조주택이 들어서, 목조주택 1만 세대이다. 그리고 근래에 들어 설계도가 다양해지고 많은 건축주들의 개성 있는 집을 지으려는 수요가 생기면서 수평부재인 대들보, 장선 등의 길이인 지간거리가 상당히 길어지는 경향이 있다. 기존의 구조용 목재로서는 그 지간거리를 버텨낼 수 있는 구조적 강도가 갖춰지지 않으면서 공학목재인 집성재의 사용이 많아지고 있는 현실이다. Recently, the timber industry market is continuously expanding due to the increase in the use of timber products and the interest in wooden houses due to the improvement of housing and return to homes, the aging culture of low birth rates. According to the recent trend of wood construction, the number of new buildings in 2006 was 4,203 dong, totaling 365,000.

9,585 dong in 2010, total floor area 781,000

At present, more than 10,000 wooden houses are built, with 10,000 wooden houses. In recent years, as the design is diversified and the demand of many owners to build a unique house tends to be considerably longer. Existing structural timber is a reality that the use of aggregate materials, which are engineering wood, is not equipped with structural strength that can withstand the distance.

As shown in FIG. 1, the aggregate 10 is formed by gluing a lumber end plate or an incineration material having a thickness of about 34 mm in parallel with fibers between adjacent laminas 1 in an adhesive direction using an adhesive in a length, width, or thickness direction. Material. Aggregate was developed in earnest after the development of risinol resin, and operating materials began to spread in the 1960s and structural materials in the 1990s. According to the conditions of use, the aggregates are divided into indoor and outdoor use, and there are straight aggregates, curved aggregates, type I cross-section aggregates, upper cross-sections and hollow cross-sections depending on the shape. According to the load direction, it is divided into horizontal laminated aggregate and vertical laminated aggregate, and in Japanese standard JAS, it is divided into operation, structural, and makeup structure according to the use. The grade of adhesive and the appearance of the operating aggregate are the criteria for classifying the grade, and the structural grade is used as a strength member of the building and is used in important places of the structure, so the performance standard is strict.

Structural cross-section aggregates and the characteristics of the building are structurally laminated with lamina, resulting in a material with less variation in strength. As a result, the lower limit of the intensity distribution rises, so that the allowable stress is about 1.5 times the maximum of the lumber. In addition, the raw material of the lamina has a characteristic of less warping and splitting due to the use of a drying material, and a carbonized layer is formed on the combustion part while the surface is ignited and burned, so that the fire resistance is superior to that of ordinary wood.

On the other hand, there is an alternating aggregate (20, Cross Laminated Timber) as shown in Figure 2 as a planar engineered wood formed by laminating orthogonal lamina (1) of the aggregate. Alternating aggregate 20 is an engineered timber with the advantage of being able to construct high-rise wooden building materials. It is a vertically laminated aggregate that has been developed and used in the 2000s in Europe, North America, and Japan. In the United Kingdom and North America, high-level timber constructions are being built using these materials, and the production and scale of the international materials are 475,000m3 as of 2011. Central Europe accounts for about 95% of the total, with production expanding in the UK, Germany and Austria.

However, such a conventional alternating aggregate 20 may cause problems such as twisting and splitting of lamina due to different degrees of shrinkage occurring in each layer when exposed to changes in external conditions such as temperature and humidity. The twisting of the lamina desorbs the adhesive surface between the lamina, and the dry stress caused by the lamina surface and the internal water inclination may cause cracking and splitting on the surface of the alternating aggregate, which may cause deformation by moisture. This can lead to strength degradation which is very unfavorable for use as structural materials. Therefore, it is insufficient to use as a vertical diaphragm in a wooden house.

Accordingly, an object of the present invention is to develop a multi-junction structural aggregate plate that can be used as a vertical diaphragm member in a wooden house to solve the conventional problems.

In the manufacturing method of the multi-junction structural aggregate plate for the vertical diaphragm member according to a preferred embodiment of the present invention, the small diameter wood, which is a thinning material, is made of four surfaces with a center of water depth to have a predetermined cross-sectional dimension, and then dried to a predetermined moisture content, and dried. Manufacturing a plurality of right angle members 111 having a predetermined length by finishing the planer to remove shrinkage or warping during the time, and manufacturing the judgment by side-joining the prepared right angle members 111, and a plurality of veneers And plywood (120,130) laminated with three or more odd sheets so that the fiber direction crosses the end plate, and manufacturing a vertical diaphragm member (100) by joining the upper and lower portions of the judgment, respectively, in a surface layer and a two layer layer. do.

In addition, the manufacturing method is to arrange the plywood 130 to form a two-layer of the vertical diaphragm member 100, apply an adhesive to the upper surface of the plywood 130 to form the two-layer, then on the upper side of the plywood 130 In order to form a judgment, the adhesive is applied to the left and right sides of the plurality of right angle members 111, and then the right angle members 111 are vertically arranged, and then the adhesive is applied to the top surface of the right angle members 111 forming the judgment. It is characterized by consisting of plywood 120 to form the surface layer of the vertical diaphragm member 100.

In addition, the manufacturing method is made by a manufacturing apparatus consisting of a lower frame 200 and an upper frame 300 each formed of a steel structure, extending to a predetermined length and arranged side by side left and right hardware members 210, A plurality of sections (230) are arranged in parallel at a predetermined interval between the 220, and the support bracket 235 having a vertical plane is installed on the right side of each section (230), the section of the 230 A support bracket 231 is formed on the left side of the support bracket 231, and a tightening bolt 232 is screwed into the screw hole of the support bracket 231 on the support bracket 231, and a pressure is applied to the right end of the tightening bolt 232. Plywood 130 is formed on a plurality of section steel 230 of the lower frame 200, the pad 233 is formed, forming a two-layer of the vertical diaphragm member 100, and an adhesive is applied to the upper surface of the plywood 130 Then, to form a judgment on the upper side of the plywood 130 The adhesive is applied to the left and right side surfaces of the plurality of right angle members 111, and then the right angle members 111 are vertically disposed, but the side surfaces of the right angle members 111 disposed on the right side of the referee are the support brackets 235 of the shaped steel 230. ) Is placed in contact with, and laminated on the plywood 120 to form the surface layer of the vertical diaphragm member 100 after applying an adhesive to the upper surface of the right angle member 111 forming the judgment, and extends to a predetermined length and side by side The upper frame 300 formed by joining a plurality of section steels 330 arranged in parallel at predetermined intervals between the left and right hardware members 310 and 320 to be disposed is disposed on the plywood 120 to form a surface layer. Next, by tightening the tightening bolt 232 of the section steel 230 to a predetermined torque, the pressure pad 233 presses the right angle member disposed on the left side of the judgment, and the left and right joints, and at the same time the upper frame 300 and the lower frame ( 200) up and down by using a fastening bolt at a certain pressure The features.

In addition, by applying the left and right and up and down pressure to the vertical diaphragm member 100 to reach a predetermined thickness and width, nails are attached to the upper and lower surfaces of the vertical diaphragm member 100 to further nail the judgment 110, the table, and the second layer. And dismantling the lower frame 200 and the upper frame 300 is characterized in that for producing a vertical diaphragm member.

According to the present invention there is provided a multi-junction structural aggregate plate that can be used as a vertical diaphragm member in a wooden house.

1 is a view of the existing aggregate material, Figure 2 is a view of the existing alternating aggregate material,
Figure 3 is a plan view of a multi-junction structural aggregate plate for the vertical diaphragm member according to the present invention,
4 to 6 is a view showing a manufacturing process of a multi-junction structural aggregate plate for a vertical diaphragm member according to the present invention.

Hereinafter, the multi-joint structural aggregate plate for the vertical diaphragm member according to the present invention will be described in detail through its manufacturing method. Figure 3 is a plan view of a multi-junction structural aggregate plate for a vertical diaphragm member according to the present invention, Figures 4 to 6 is a view showing a manufacturing process of a multi-junction structural aggregate plate for a vertical diaphragm member according to the present invention.

1) manufacture of the referee 110

The multi-junction structural aggregate plate for the vertical diaphragm member according to the present invention, first to prepare a small timber that is thinning material for the manufacture of the judgment (110). As a thinning timber, a small diameter tree is generally a tree having a diameter of 18 cm or less, and in the present invention, a thinning diameter tree having a diameter of about 120 mm to 140 mm is used. Small tree used in the present invention can be used in all species regardless of species.

Next, the prepared thinning small-sized timber is made of both sides around the depth of water and then rotated 90 degrees to prepare the remaining two sides to prepare a plurality of square materials 111 having a cross-sectional dimension of 80 mm x 80 mm or more. In this case, when the wood is rotated by 90 degrees one by one in order, the small hardwood material has a large amount of immature ghost wood and many growth stresses are present in the interior. Especially in the case of larch, the fiber inclination is large and has a spiral tree, so the torsion is more likely to occur. In addition, in the case of thinning timber, once the sanction on one side and the other side to be sanctioned, the productivity is very low.

Therefore, in order to minimize the occurrence of the torsion during the sanction process and increase the productivity, the two sides facing each other at the same time. In addition, the depth of the small diameter wood is produced with a high density, excellent dimensional stability and excellent strength than the edge, mainly around the water depth.

The prepared corner member 111 is dried at a target moisture content of 15% using a separate drying facility. In the present invention, the cross-sectional dimension of the regular angle member 111 is more than 80mm thick than the thickness (50mm) of commonly used dry wood is judged that the drying process and other drying process is required in the present invention is less dry defects in the present invention The drying process is applied so that it can dry quickly with the least energy.

The drying process applied to the drying of the shell of the present invention is step 1: steaming for 12 hours at 96 ℃ (steaming); Step 2: high temperature drying for 36 hours at 120 ° C. and 90 ° C. wet bulb temperature; Step 3: medium temperature drying for 24 hours at a dry bulb temperature of 100 ° C. and a wet bulb temperature of 70 ° C .; Step 4: low temperature drying for 24 hours at a dry bulb temperature of 80 ° C. and a wet bulb temperature of 60 ° C .; Step 5: It takes 3 days to cure at room temperature.

Therefore, as described above, after the steaming material is steamed for 12 hours at the initial 96 ° C for 12 hours at a predetermined dry / wet bulb temperature, it is dried for a predetermined time through a high temperature, a medium temperature, and a low temperature drying process such as surface splitting and warping. Drying defects are minimized, and the dryness can be dried as quickly as possible with low energy. Through this drying process, the cornerstone 10 is dried to a target moisture content of 15%.

Then, a slight shrinkage or warping may occur when the drying process is performed. To remove this, the dried right angle member 111 is finished with a planer, and the angle angle member 111 having a length of 2.4 m and a cross-sectional dimension of 80 mm x 80 mm or more is removed. To produce.

2) Preparation of front and back layer

In the present invention, the plywood is bonded to the surface layer and the second layer, respectively, of the umpire 110 formed by side-joining the prepared square material.

The species of plywood used as a step of manufacturing the plywood (120, 130) used as the front and back layer is made of domestic materials such as larch, pine wood, locust, lily, birch, chestnut, pine, cypress, cedar, etc. Radiatapine, Eucalyptus, Meranti, MLH (mixed local hardwood), Poplar, Vietnamese acacia, Radiatapine, Namyangjae mixed species including KERUING, etc.The adhesives used are phenol, melamine, urea and isocyanate. Thermosetting resin and thermoplastic resins such as PVAc, PVA, EVA, PUR, epoxy resin, and hot melt and rubber adhesives.

The plywood manufacturing process consists of the processing of lumber and the increase of the timber, the transversal of the wood, the peeling, the cutting of the single board, the drying, the typesetting, the defect repair of the single board, the application of adhesive, cold pressing, hot pressure, and post-treatment.

When cutting the end plate, the thickness of the end plate should be 0.5mm or more and 5mm or less. After drying the single plate, the single plate moisture content is dried to 5-10% level, and in the case of coniferous plywood, it is dried to 3-8% water content. The moisture content range of single plate suitable for adhesion should be adjusted according to the type of adhesive used. When using urea and melamine resin adhesives, the water content should be maintained at 5 ~ 15% and phenol resin adhesives at water content below 8%.

Then, in the typesetting process, there may be a number of defects such as splitting, knots, thickening or the like that are smaller than predetermined dimensions in the dried single plate. Small defects scattered here and there are rounded off with a patching machine, then buried in other healthy single plates of the same size and shape, and tapered and repaired. The narrow end plates are made of transverse joints into the desired end plates. Lateral joining is a method in which the sides of the end plates are smoothly cut by a veneer jointer to be in close contact with each other and then taped thereon, or directly bonded by applying an adhesive to the sides of the end plates to be joined. After finishing the repair and transverse joining, the single plate shall be combined with the top plate, the judge, and the second plate in consideration of the construction of the single plate according to the specifications of the product.

The number of laminates should be at least 3 ply for plywood (120, 130), the thickness of the plates should be at least 0.5mm and less than 5mm, and the total thickness of the plywood is 2.4mm, 2.7mm, 3.6mm, 4.8mm, 5.2mm, 6mm Including international standard of plywood, 7mm, 7.5mm, 9mm, 11.5mm, 12mm, 15mm, 18mm, 22mm, 24mm, 30mm, 40mm, 50mm.

3) Manufacture of vertical diaphragm member 100

In the present invention to manufacture the vertical diaphragm member of the present invention by producing a umpire 110 by side-bonding the angled material 111 prepared as described above and bonding the plywood to the front and back layer of the umpire 110, to this end Developed and manufactured a separate manufacturing equipment and applied it to the manufacture of the vertical diaphragm member of the present invention.

In the present invention, the manufacturing equipment is made of a lower frame 200 and the upper frame 300, each made of a steel structure. In detail, the lower frame 200 is formed by extending a predetermined length and forming a plurality of H-shaped steels 230 arranged in parallel at regular intervals between the left and right hardware members 210 and 220 arranged side by side. . At the right side of each H-shaped steel 230, a support bracket 235 having a vertical surface formed vertically to support the right side of the vertical diaphragm member 100 is installed, and a screw hole is formed at the left side of the H-shaped steel 230. The support bracket 231 is installed, the support bracket 231 is screwed to the screw hole of the support bracket 231 is fastening bolt 232 for pressing the judgment 110 of the vertical diaphragm member 100 from the side The screw is coupled and the pressure pad 233 is formed at the right end of the tightening bolt 232.

The plywood 130 having a width of 1.2m, a length of 2.4m, and a thickness of 12mm to form the back layer of the vertical diaphragm member 100 of the present invention in the lower frame 200 first of the lower frame 200 Shaped steel 230 is disposed as shown above, the right side of the plywood 130 is disposed so as to contact the support bracket 235 of each H-shaped steel 230.

Then, an adhesive is applied to the upper surface of the plywood 130. In the present invention, an adhesive having a viscosity of 24,000 to 26,000 cps / 25 ° C, a main component: vinyl acetate resin, and pH = 4 to 5 was used.

The adhesive is applied to the upper surface of the plywood 130, and then the adhesive is applied to the left and right sides of the plurality of right angle members 111 forming the judgment 110 on the upper side of the plywood 130, and then the right angle member 111 is vertically The side of the right angle member 111 disposed on the rightmost side is disposed so as to contact the support bracket 235 of the H-shaped steel 230. Judgment 110 is placed in the same angle to the plywood size to be 1.2m in width, 2.4m in length, to fit the plywood size can be used with a square material having a width of 80mm or less.

As such, when the arrangement of the right angle member 111 is completed, an adhesive is applied to the upper surface of the right angle member 111 forming the judgment 110, and then 1.2 m horizontal and 2.4 m vertical to form the surface layer of the vertical diaphragm member 100. One laminate plywood 120 having a thickness of 12mm.

When the lamination is completed in this way, the upper frame 300 is disposed on the upper side of the plywood 120 to form a surface layer. The upper frame 300 is formed by extending a predetermined length and a plurality of H-shaped steels 330 arranged in parallel at regular intervals between the left and right hardware members 310 and 320 which are arranged side by side are welded and It has the same size as the frame 200.

When the arrangement of the upper frame 300 is completed, the step of tightening the tightening bolts 232 of each H-shaped steel 230 at a predetermined pressure (torque) in the lower frame 200 and at the same time the upper frame ( 300 and the lower frame 200 is applied up and down pressure at a constant pressure (torque) using a torque wrench likewise by using a plurality of tightening bolts along the longitudinal direction of the square.

In this way, after applying the left and right and up and down pressure for 2 hours, the upper and lower frames 200 and 300 of the manufacturing equipment are dismantled to manufacture the vertical diaphragm member 100 of the present invention. The manufactured vertical diaphragm member 100 is used as a vertical diaphragm member in a wooden house such that the right angle member 111 of the referee 110 is erected vertically.

On the other hand, unlike the above embodiment, after applying the left and right and up and down pressure to reach a predetermined desired thickness and width as another embodiment, the nail 110 can be further nailed to the upper and lower surfaces by nailing the upper and lower surfaces. In this case, it is possible to manufacture the vertical diaphragm member of the present invention by immediately dismantling and curing the upper and lower frames without the compaction time.

Next, a multi-joint structural aggregate plate for a vertical diaphragm member according to a second embodiment of the present invention will be described. In the first embodiment, the plywood is bonded to the front and back layers of the judgment 110, which is made of side joints of the right angle material, in that the multi-junction structural assembly plate for the vertical diaphragm member according to the second embodiment of the present invention is different from the first embodiment. In the second embodiment, the aggregation plate is bonded instead of the plywood. In this embodiment, the size of the aggregate plate bonded to the front and back layer is 12mm thick, the same as the plywood in the first embodiment, each plate is made in the longitudinal direction of the right angle member forming the judgment 110 is made of side joining each other .

In this embodiment, the manufacturing method of the vertical diaphragm member is manufactured using the manufacturing equipment used in the first embodiment, and a detailed description thereof is omitted.

The compressive load resistance performance and the bending load resistance performance test were performed for the multi-junction structural assembly plate for the vertical diaphragm member according to the present invention as described above.

First, the compressive load resistance performance test was carried out the actual compression test according to ASTM D198 by the vertical diaphragm member according to the first embodiment (right angle material-plywood), the second embodiment (right angle material-composite plate) with a width of 150mm The allowable compressive stress was calculated and the compression test results are shown in Table 1.

Test piece Modulus of elasticity
(GPa) Allowable compressive stress (MPa) Average
Compressive strength Standard Deviation 5%
Lower limit Allowable compression
Stress CGC 11.4 26.2 5.27 17.6 9.3 NGC 14.5 30.6 3.58 24.8 13.0 PCGC 13.7 32.9 2.78 28.3 14.9

In the symbols representing each test piece, CGC refers to adhesive bonding in the first example (straight-layer plywood), and NGC refers to adhesive-nail bonding in the first example (straight-layer plywood). PCGC refers to the adhesive bonding in the second embodiment (right angle-assembly plate).

As shown in Table 1, the allowable compressive stress was shown in the order of PCGC, NGC, CGC, and the compressive strength and the allowable compressive stress were excellent in the vertical diaphragm member in parallel with the adhesive and nail bonding than the adhesive bonded vertical diaphragm member.

Next, the flexural load resistance performance test was conducted by bending the vertical diaphragm member of the first embodiment (right angle member-plywood) and the second embodiment (right angle member-composite plate) with a width of 250 mm and bending the solid member according to KS F 2150. The allowable bending stress was calculated by the test, and the results of the bending test are shown in Table 2.

Test piece Lateral bending performance (EB) Planar bending performance (FB) MOE
(GPa) Allowable bending stress (MPa) MOE
(GPa) Allowable bending stress (MPa) MOR Standard Deviation 5%
Lower limit permit
Flexural stress MOR Standard Deviation 5%
Lower limit permit
Flexural stress CGC 6.81 30.5 5.7 21.2 10.1 7.52 10.0 2.0 6.6 3.2 NGC 6.94 34.2 5.7 24.8 11.8 7.63 17.2 1.8 14.2 6.7 PCGC 8.10 25.6 9.8 9.5 4.5 7.58 11.6 3.3 6.1 2.9

In this table, the lateral bending performance is related to the horizontal load resistance performance in the direction parallel to the vertical diaphragm, and the planar bending performance is related to the horizontal load resistance performance in the direction perpendicular to the vertical diaphragm.

As shown in Table 2, both lateral bending performance and planar bending performance were shown in the order of NGC, CGC, and PCGC, and the bending performance was superior to that of the adhesive-bonded vertical diaphragm in the vertical diaphragm member with both adhesion and nail bonding. In addition, the vertical diaphragm member of the first embodiment (right angle member-plywood) was better than the second embodiment (right angle member-assembly plate).

Therefore, when using the multi-junction structural aggregate plate according to the present invention as described above as a vertical diaphragm member, both can be used as a vertical diaphragm member in a wooden house exceeding the limit value that is a standard.

As mentioned above, although this invention was demonstrated with reference to the preferred embodiment, this invention is not limited to the specific embodiment mentioned above, Comprising: It is common in the technical field to which this invention pertains without deviating from the summary of this invention claimed in the Claim. Anyone with knowledge will be able to implement a variety of variations.

100: vertical diaphragm member 111: square angle material
120, 130: plywood 200: lower frame
210: left side member 220: right side member
230: H section steel 231: support bracket
232: tightening bolt 300: upper frame

Claims (5)

Making a small cross-section of thin timber, which is a thinning material, to have a predetermined cross-sectional dimension, and then dried to a predetermined moisture content, and manufacturing a plurality of regular angle members 111 having a predetermined length by finishing the planer to remove shrinkage or warping during drying. Steps,
Manufacturing the umpire 110 by side-joining the prepared angler 111;
A step of manufacturing a vertical diaphragm member 100 by bonding a plurality of veneer end plates laminated in three or more odd sheets so that the fiber direction intersects the upper and lower portions of the judgment 110, respectively, in the surface layer and two layers. Method for producing a multi-junction structural aggregate plate for a vertical diaphragm member comprising a. The method of claim 1,
The manufacturing method is to place the plywood 130 to form a two-layer of the vertical diaphragm member 100,
The adhesive is applied to the upper surface of the plywood 130 forming the two-layer, and then the adhesive is applied to the left and right sides of the plurality of right angle members 111 to form the judgment 110 on the upper side of the plywood 130 and After placing 111 vertically,
Multi-junction structure for vertical diaphragm member, characterized in that the plywood 120 to form the surface layer of the vertical diaphragm member 100 is laminated after applying the adhesive on the upper surface of the right angle member 111 forming the judgment 110 Method of manufacturing aggregate plate. The method of claim 2,
The manufacturing method is made by a manufacturing apparatus consisting of a lower frame 200 and an upper frame 300 each formed of a steel frame structure,
A plurality of beams 230 arranged in parallel at a predetermined interval are formed between the left and right hardware members 210 and 220 extending in a predetermined length and arranged side by side, and the right side of each of the beams 230 A support bracket 235 having a vertical surface is installed, and a support bracket 231 is formed on the left side of the section steel 230, and a screw is formed on the support bracket 231. Plywood (232) is screwed to form a two-layer of the vertical diaphragm member 100 on the plurality of section steel 230 of the lower frame 200, the pressing pad 233 is formed on the right end of the tightening bolt 232 ( 130)
After applying the adhesive on the upper surface of the plywood 130, and then applying the adhesive on the left and right sides of the plurality of right angle member 111 forming the judgment 110 on the upper side of the plywood 130 and then the right angle member 111 Arranged vertically, the side of the right angle member 111 disposed on the right side of the judgment 110 is placed in contact with the support bracket 235 of the section steel 230,
After applying the adhesive on the upper surface of the right angle member 111 forming the judgment 110, and laminated the plywood 120 to form the surface layer of the vertical diaphragm member 100,
The upper frame 300 formed by joining a plurality of section steels 330 arranged in parallel at a predetermined interval between the left and right hardware members 310 and 320 extending in a predetermined length and arranged side by side may form a surface layer. Placed on plywood 120,
Tightening the fastening bolts 232 of each of the section steel 230 to a predetermined pressure, the pressure pad 233 presses the right angle member 111 disposed on the left side of the judgment 110 to perform a left and right joint at the same time the upper frame 300 ) And a method for manufacturing a multi-junction structural aggregate plate for a vertical diaphragm member, characterized in that the lower frame 200 is joined up and down using a fastening bolt at a predetermined pressure. The method of claim 3,
In the manufacturing method, after applying the left and right and up and down pressure to the vertical diaphragm member 100 to reach a predetermined thickness and width, nails are formed on the upper and lower surfaces of the vertical diaphragm member 100, and the nail 110 and the table and the second layer are not nailed. Bonding and dismantling the lower frame 200 and the upper frame 300 to manufacture a vertical junction member 100, characterized in that for manufacturing a multi-junction structural aggregate plate for a vertical diaphragm member. The multi-junction structural assembly plate for vertical diaphragm member manufactured by the manufacturing method of any one of Claims 1-4.

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