JPH0972024A - Standarized small wall panel in two-by-four method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To ensure mass production in an industrialized manner by setting the maximum width of a panel, combining non-open wall panels or open wall panels used at the flat portions. T-shaped portions and the corners with panels and connecting those into a required configulation at a factory production site or a building site. SOLUTION: Non-open wall panels A3, open wall panels B1 and connecting vertical frames 10 are arranged with corner columns 11 therebetween. Head ties 8 and lower frame ties 9 are used for connection. Non-open wall panels A4, connecting vertical frames 10 and open wall panels B4 are arranged and ties 8, 9 are used for connection. At this time, the width of the open wall panel B1 is set to be maximum 2m. The specific dimensions of the vertical frame 2 and a lintel bearer 6 are set to be 38mm×89mm. The position of the vertical frame 2 is set to be 19mm from an allocation core and the position of the lintel bearer 6 is set to be 95mm from the allocation core. The position of the panel A3 is set to be 44.5mm from the allocation core the integrate 63.5mm×89mm assembled materials at the corners. In this way, the standarization, mass production and general use of each wall panel are ensured.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to improvement of a wall panel used in a two-by-four method housing.

[0002]

2. Description of the Related Art Conventionally, the basic structure of a structure of a two-by-four construction house (so-called frame) is to bond a structural face material, which is a structural member, and a frame member together by a prescribed nailing, to form a floor frame structure of the house. , The wall framework and the shed structure. Since the intervals of the frame members are determined by the standard dimensions of the structural face materials, the standard dimensions are the basic module of the house (standard dimensions for building production), and the joints of the structural face materials are the respective frame members. It is provided in the central part of and each structural part is integrated. Based on the above-mentioned basic structure, the two-by-four method housing mass-produces panels whose specifications are standardized for each structural part in the factory, thereby enhancing productivity and demonstrating ease of construction.

[0003]

Generally, when an individual plan desired by a house orderer is to be constructed by the two-by-four method, the wall framework is replaced with panel construction at a panel factory to save labor on site (solve labor shortage). However, it has the following drawbacks at the work stage. First, at the design / estimation stage. It is necessary to create wall panel manufacturing drawings (framework drawings) at the factory, and develop a computer program corresponding to them.
It takes time and cost to create wall panels including wife small walls using a dedicated engineer or an outsourced third party, and the wall panel manufacturing drawing is a plan dedicated to the orderer, Its reuse or conversion is almost impossible, and if further design changes are made, it will affect the work of making wall panel drawings and the estimation work, making it difficult to complete them within the scheduled period.

Second, at the factory stage. Since the wall panel structure includes various opening wall panels with different widths and heights of the openings, it takes time to manufacture, which reduces the production capacity of the factory. In addition, large-sized wall panels are generally manufactured, and it is difficult to stock the panels, which makes them unsuitable for mass production. Not only is the operation efficiency of the factory poor, but a large-area factory and capital investment are required. . Third, at the shipping stage. Large-sized wall panels require a medium-sized or larger freight vehicle to be transported to the construction site, and a special auxiliary shelf for fixing the large-sized wall panels needs to be used for the bed of the vehicle, leading to the construction site. Depending on the road conditions, the problem of vehicle width and height may occur, resulting in poor transportation efficiency. Fourth, at the field stage. Large wall panels increase the cost because a medium or larger crane is indispensable in the assembly work. Further, when it is difficult to carry the wall panel into the construction site by a medium-sized or larger freight vehicle, the wall panel is forced to be downsized, which is inefficient.

In addition to some of the drawbacks mentioned above, there are more important problems to be solved for the openings. That is, when designing the wall framework in the two-by-four construction method, the strength of the load bearing wall itself, proper placement of the load bearing wall, reinforcement of the opening,
It is considered that the wall frameworks should be joined to each other with sufficient care. Therefore, the opening with a width of 900 mm or more should support the lintel and the lintel (the horizontal member that was erected to support the upper part of the window or entrance / exit). ) Is provided in the structure effectively according to the Ministry of Construction notification. In many cases, a metal sash, particularly an aluminum fitting (so-called aluminum sash) is adopted for the opening, which is composed of an extruded aluminum sash bar, an aluminum plate, glass, etc. It is widely used in various fields such as in Japan, and combined with the ease of maintenance, it is highly evaluated for its high processing accuracy and excellent airtightness, and today it is an irreplaceable and important member.

[0006] The aluminum sashes are roughly classified into standard fittings that are expected to be manufactured according to standard dimensions and custom fittings that are manufactured according to the user's specification. As a classification according to the production system, (a) RM sash (ready Maid), (b) H
It is divided into M sash (half-made) and (c) OM sash (custom-made). Although the above (a) is inexpensive, it is expected to be produced according to the standard dimensions with a fixed height and width,
Moreover, the overall size of the sash is limited, and there are few types,
In particular, it is said that there is no sash compatibility between manufacturers because of the standard size. The above (b) is produced according to the cross-sectional shape determined by the manufacturer and is evaluated to have good performance, but it is said to be costly in the assembly process due to high-mix low-volume production. Further, in (c), the height and width dimensions including the shape of the cross section can be specified, and various kinds are supplied, but it is said to be more expensive than (a) and (b).

The above aluminum sash in the two-by-four construction house occupies the above-mentioned characteristics and important positions, and in the construction of the frame members at present, the size of the opening, that is, the aluminum sash is representative. The size of the sash is given priority and is the basis.
The reason is that, conventionally, when an opening wall panel is manufactured in a panel factory, it is generally standard that the mounting position of the lintel receiver is 85 mm from the allocation core of the structure. The meaning of 85 mm here means the wall thickness 90 in the case of the undried material of the size model 204 (thickness 40 mm × width 90 mm).
It is a value obtained by adding a 40 mm lintel receiver to a wall core (1/2 of the wall thickness) of mm. However, in the construction of the two-by-four construction house, the RM described in (a) above was taken into consideration considering its economic efficiency.
When the sash is adopted, it depends on a certain standard dimension set independently by the sash maker, resulting in a slightly different sash width dimension of each sash maker,
In order to adapt to this, it is necessary to shift the mounting position of the lintel receiver from the allocation core. This means that panel construction plans must be newly designed for each individual housing plan construction, which takes a long time and affects the housing production price.

The object of the present invention is to consider the basic structure of the two-by-four construction house in consideration of the problems to be solved in the design, factory production, transportation and on-site, which are related to the large-sized panel, which is implemented in the conventional two-by-four construction house. It is a newly developed small wall panel, and it is premised that the dimensional standard of the aluminum sash used for the opening wall panel related to the development is unified and specified, and the cost reduction is brought about by the large order. Therefore, it is possible to mass-produce the same panel by industrialization.

[0009]

[Means for Solving the Problems] In order to achieve the above object, the concrete means of the present invention will be described as follows. That is, the standardized small-sized wall panel in the two-by-four method of the present invention comprises the following claims 1 to 6. The invention of claim 1 is a miniaturized and standardized panel that can be factory-produced in advance as a structural wall panel,
A non-opening wall panel used for a flat portion, a T-shaped portion, or a corner portion having a maximum panel width of 2 m, or an opening wall panel used for a flat portion, a T-shaped portion, or a corner portion, and those panels Commonly or in combination with any of the above, either one of a connecting vertical frame, a corner post, a head joint, a lower frame joint or a combination thereof, and connected to the required form at the factory production site or construction site. To do.

According to a second aspect of the present invention, there is provided the non-opening wall panel used for a flat portion, wherein the left end portion of the vertical frame at the left end when viewed from the inside in a state where the panel is erected is right from the allocation core on the left side. 19 mm to the right, and the right end of the vertical frame is composed of a panel whose right end is 19 mm to the right from the allocation core on the right side, a head joint, and a lower frame joint.

According to the third aspect of the present invention, there is provided a non-opening wall panel used for the T-shaped portion, of the non-opening wall panel used for the flat portion, the left end of the panel is erected when viewed from the inside. The left end of the vertical frame is 19 mm to the right from the allocation core on the left side,
The right end of the vertical frame at the right end is 19 m to the left from the allocation core on the right side.
m, and a connecting vertical frame having a specified dimension of 38 mm × 89 mm, which is arranged in parallel on the right side of the panel, a head joint, and a lower frame joint.

According to a fourth aspect of the present invention, a non-opening wall panel is used at a corner, and when the left side is the corner when viewed from the inside when the panel is upright, the left end of the non-opening wall panel. The left end of the vertical frame is 44.5 to the right from the allocation core on the left side.
mm, the right end of the vertical frame at the right end is 19 mm to the right from the allocation core on the right side, and when the right side is the corner, the left end of the vertical frame at the left end of the non-opening wall panel is at the left side of the left side. 89 mm x 89 m with a panel in which the allocation core is 19 mm to the right and the right end of the vertical frame is 44.5 mm to the left from the allocation core on the right side.
It consists of a corner post assembled in m, a head joint, and a lower frame joint.

According to a fifth aspect of the present invention, the opening wall panel is used for a flat portion or a T-shaped portion, and the left end portion of the vertical frame which is the left end when viewed from the inside when the panel is upright is the left end portion of the left side. It is 19 mm from the allocation core to the right, and the right end of the lintel receiver joined to the right side is 95 mm from the allocation core on the left side to the right.
The right end of the vertical frame at the right end is 19 m to the left from the allocation core on the right side.
m, and the left end of the lintel joint joined to the left side thereof is 95 mm to the left from the allocation core on the right side, and the connecting vertical frame, head tie, and lower frame that are juxtaposed on the right side of the panel. It consists of a tie.

According to a sixth aspect of the present invention, the opening wall panel is used in a corner portion, and 63.5 m is provided in a corner portion which is either the left or right corner of the opening wall panel used in the flat portion.
A panel in which an assembly of m × 89 mm is integrated is formed, and when the corner portion is on the left side, the panel is connected to the right side of the panel side by side with the connecting vertical frame, the head joint, and the lower frame joint. Although the above claims 1 to 6 describe the outer wall panel, the structure and features of the inner wall panel are the same.

The definitions of the terms used in the present invention are as follows. (B) "Structural wall panel" refers to a small and standardized non-opening wall panel and an opening wall panel in the two-by-four method that are produced in advance in a factory, and include an external wall panel and an internal wall panel, respectively. The external wall panel includes a vertical frame, an upper frame, a lower frame, and a face material, and a vertical frame, an upper frame, a lower frame, a face material, a lintel, a lintel, a window stand, and an assembly material (63 0.5 mm
X 89 mm). In addition, the inner wall panel is composed of a vertical frame, an upper frame, and a lower frame, and a vertical frame, an upper frame, a lower frame, a lintel, a lintel, and a window stand. Since it is laid at the construction site, only the framework is used at the factory production stage, and the face material is not laid. (B) "Panel width" means the length between the allocated cores.
Specifically, there are 0.5 m, 1 m, 1.5 m, and 2 m. (C) "Connected vertical frame" is a new and important vertical frame that constitutes the present invention, and is used when the non-open wall panel or the open wall panel is continuously installed at the factory production site or the construction site. It is a stud-like material used. It is separate from the vertical frame, which is joined to a known lintel receiver to be described later and integrated as a set. (D) "Defined dimension" is defined according to the conventional definition, and corresponds to the "dimensional form" that is the nominal cross section, and corresponds to a undried material (having a water content of more than 19%) and a dried material (water content). Rate of 19% or less).

(E) "38 mm x 89 mm" means JA
Saw timber and laminated lumber based on S (Japanese Agricultural Standards) stipulated size of dried wood with a size type of "204" (thickness 38 mm x 8
9 mm) is meant. (F) "Allocation core" means a reference line for determining the panel width when manufacturing a structural wall panel. (G) “Corner post” means a post assembled with packing material between two vertical frames and assembled in a size of 89 mm × 89 mm to be used in the corner. (H) “95 mm” means that the mounting position of the lintel receiver of the opening wall panel is 95 mm from the nearest allocation core (19 mm, which is one half of the thickness 38 mm of the connecting vertical frame, the thickness of the vertical frame). 38 mm and the thickness of the lintel receiver, which is 38 mm). (I) “Ministry of Construction Notification” means the technical standard “Ministry of Construction Notification No. 56” of the two-by-four construction method (framework construction method). (E) The "sash" used in the present invention corresponds to the above-mentioned "OM sash (custom-made)", and is a custom-made sash that does not comply with the standard determined by the sash manufacturer. Therefore, unlike the prior art, the standardization of the opening wall panel unifies the size of the sash regardless of the mounting position.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments which bring about the best results of the present invention will be described below with reference to the drawings. 1 is an explanatory view of a non-opening wall panel used for a flat portion, FIG. 2 is an explanatory view of a vertical frame connected to the non-opening wall panel used for a T-shaped portion, and FIG. 3 is used for a corner portion. FIG. 4 is an explanatory view of a non-opening wall panel and a corner post, FIG. 4 is an explanatory view of a vertical frame connected to an opening wall panel used for a flat portion or a T-shaped portion, and FIG. 5 is a corner on the left side when viewed from the inside of the opening. Fig. 6 is an explanatory view of a vertical frame that is connected to an opening wall panel that is a part, Fig. 6 is an explanatory view of an opening wall panel whose right side is a corner when viewed from the inside of the opening, and Fig. 7 is factory-manufactured under various dimensions. Fig. 8 is a schematic diagram of a case where a non-open wall panel and an open wall panel of a small wall panel are converted into a large wall panel by using a connecting vertical frame at a factory production site or a construction site. Explanatory diagram showing the assembly construction of the non-opening wall panel and the opening wall panel through the frame 9 is a schematic explanatory view of an essential part showing a completed state of assembly and installation of a corner portion in FIG. 8, and FIG. 10 is an explanatory view showing assembly and installation of an opening wall panel and a non-opening wall panel which have a corner on the left side from the inside of the opening. FIG. 11 is a schematic explanatory view of a main part showing a completed assembly work state of a corner portion in FIG. 10, and FIG. 12 is an opening wall panel, a non-opening wall panel and an internal non-opening wall via a connecting vertical frame in a T-shaped portion. FIG. 13 is an explanatory view showing the assembly and construction of the panels, and FIG. 13 is a schematic view of the essential parts showing the completed assembly and construction of the T-shaped portion in FIG.

In FIG. 1, a non-opening wall panel A1 used for a flat part having a panel width of 2 m is shown, and 1 is a face material and 2 is a vertical frame (the same applies hereinafter). The vertical position of the vertical frame 2 is that the left end of the vertical frame is the left end when viewed from the inside when the panel is upright.
19 mm to the right from the left allocation core, and the right end of the right end vertical frame is 19 mm to the right from the right allocation core. As the size of the non-opening wall panel, the width of each panel is 0.5m, 1m, 1.5m, 2m,
A non-opening wall panel used for flat parts (Fig. 1), a non-opening wall panel used for T-shaped parts (Fig. 2), and no corners (left, right) depending on the use part There is an open wall panel (Fig. 3). In the drawing, in the non-opening wall panel A1,
M1 and M2 (the same applies hereinafter) indicate an allocation core, and b1 and b2 both indicate a distance 19 mm from the allocation core.

In FIG. 2, a non-opening wall panel A2 used for a T-shaped portion having a panel width of 1 m is shown, and the vertical frame 2 is attached to the left vertical frame when viewed from the inside with the panel standing up. The left end of the left allocation core is 19 mm to the right, and the right end of the vertical frame is 19 mm left from the right allocation core.
It shows that the vertical frames 10 connected to the right side of the panel are juxtaposed. In the drawing, both c1 and c2 show a distance of 19 mm from the above-mentioned allocation core. In FIG. 3, the non-opening wall panels A3 and A4 used in the corners of the panel width of 1 m are shown, and the mounting position of the vertical frame 2 is the corner on the left side when viewed from the inside when the panel is upright. The left end of the vertical frame at the left end of the non-opening wall panel A3 is 44.5 mm to the right from the allocation core on the left side, and the right end of the vertical frame at the right end is 19 mm to the right from the allocation core on the right side. The left end of the vertical frame at the left end of the non-opening wall panel A4 having a corner is 19 mm to the right from the allocation core on the left side, and the right end of the vertical frame at the right end is 44.5 mm to the left from the allocation core on the right side.
And indicates that the corner posts 11 are arranged side by side. In the drawing, d1 is a distance from the allocation core 44.5 mm, d2,
d3 indicates a distance of 19 mm from the above-mentioned allocation core. In FIG. 4, an opening wall panel B1 used for a flat portion or a T-shaped portion having a panel width of 2 m is shown, and 6 is a lintel receiver (the same applies hereinafter). The vertical frame 2 is attached at a position where the left end of the vertical frame at the left end is 19 mm from the left side allocation core to the right when viewed from the inside with the panel standing upright.
The right end of the left allocation core is 95 mm to the right, the right end of the vertical frame is 19 mm to the left from the right allocation core, and the left end of the lintel receiver 6 joined to the left side is the It is shown that the vertical frame 10 is connected to the right side of the panel by making it 95 mm to the left from the allocation core on the right side. In the drawing, M3 and M4 (same below) both indicate an allocation core, e
3 and e4 both have a distance of 19 mm from the allocation core,
Both 1 and e2 indicate a distance of 95 mm from the above-mentioned allocation core.

[0020]

[Table 1]

Table 1 shows the types of the opening wall panels. The opening wall panel used for the flat portion or the T-shaped portion (FIG. 4) and the opening wall panel used for the corner portion (FIG. 5, FIG. 5). 6), and there are 9 types as indicated by the circles in Table 1.
For example, in the case of a panel width of 2 m, the mounting positions of the lintel receivers 6 joined to the vertical frames 2 at both ends of the panel as described with reference to FIG. The width of the opening is 1,810 mm [2,000.
-(95 × 2)], and the height of the opening is 500 m
It shows that there are three types, m, 1,250 mm, and 2,000 mm. In FIG. 5, among the opening wall panels used at the corners with a panel width of 2 m, the opening wall panel B2 whose left side is the corner is shown. It is a panel in which an assembly material of 63.5 mm × 89 mm is integrated in the left corner of the opening wall panel used for the flat portion, and the connecting vertical frame 10 is juxtaposed on the right side of the panel. ing. In the drawing, e5 indicates the width 63.5 mm of the assembly material incorporated in the left corner of the panel,
As illustrated by an imaginary line, a non-opening wall panel A4 used for the flat portion is tightly connected to this portion. In FIG. 6, among the opening wall panels used for the corners, the opening wall panel B3 whose right side is the corner is shown, and its configuration is the same as that of FIG. 5 except that the corner is located on the right side. Is the same as The schematic diagram of FIG. 7 is
The shapes of both the non-opening wall panel and the opening wall panel shown in the figure are schematic, and details are omitted.

8 to 13 show the assembly work drawings, and the white arrows show the assembly parts at the factory production site or the construction site. The black arrow indicates the construction site construction site.
In the embodiment of FIG. 8, a non-opening wall panel A3 sandwiching a corner post 11 and having a corner on the left side, an opening wall panel B1 having a panel width of 2 m used for a flat part or a T-shaped part, and a connecting vertical frame. 10
With a head tie 8 and a lower frame tie 9 connected continuously, a non-opening wall panel A4 whose right side is a corner, a connecting vertical frame 10, and a panel width of 1 m used for a flat portion or a T-shaped portion. Opening wall panel B
4 are similarly connected by a head joint 8 and a lower frame joint 9 and are tightly connected to each other as shown in the drawing (FIG. 9) at the construction site.
The embodiment of FIG. 10 differs from that of FIG.
In place of the opening wall panel B2 used in the corner instead of the above, the non-opening wall panel A4 used in the corner and other non-opening wall panels, the opening wall panel is the same method as in FIG. Are continuously installed and constructed (Fig. 11). In the embodiment shown in FIG. 12, the non-opening wall panel A2 used for the T-shaped portion is connected to the opening wall panel B1 used for the flat portion or the T-shaped portion via the vertical frame 10, and the inside No-open wall panel 1
2 shows a state in which 2 is tightly connected to the connecting vertical frame 10 (FIG. 13).

[0023]

As an effect common to the inventions of claims 1 to 6, by specifying the dimensions of the connecting vertical frame and the corner posts, the dimensions of the non-opening wall panel and both ends of the opening wall panel are standardized. This enabled standardization, mass production, and generalization of each wall panel. Also, by standardizing the openings of the opening wall panels, it has become possible to specify and unify the dimensions of various sashes that used to vary. The standardization of all wall panels makes it very easy to estimate and order materials, and the types of panels are limited, making it possible to symbolize the panel manufacturing drawings. By placing it, it can be used repeatedly anytime thereafter.

By using the standard small-sized wall panel production drawing, the wall panel manufacturing efficiency in the factory was improved, and it became possible to mass-produce small kinds in the factory. Further, as a concrete advantage, at the factory production site, even small-sized mechanical equipment can be manufactured, so that the capital investment can be reduced and the depreciation cost can be reduced. The production of open wall panels is simplified and the factory operation rate is high. Therefore, the delivery time required for shipping after receiving an order is shortened. By adopting the small wall panel of the present invention, it becomes possible to carry in even a small freight vehicle for transportation, it is possible to reduce the transportation cost, and it is possible to correspond to the narrow site in the city area,
A special jig for transportation is not required, and a small crane can be used, and it can be omitted. As a result, the construction cost is reduced.

[Brief description of drawings]

FIG. 1 is an explanatory view of a non-opening wall panel used for a flat portion.

FIG. 2 is an explanatory view of a vertical frame connected to a non-opening wall panel used for a T-shaped portion.

FIG. 3 is an explanatory diagram of a non-opening wall panel and a corner post used in a corner portion.

FIG. 4 is an explanatory view of a vertical frame connected to an opening wall panel used for a flat portion or a T-shaped portion.

FIG. 5 is an explanatory diagram of a vertical frame connected to an opening wall panel whose left side is a corner when viewed from the inside of the opening.

FIG. 6 is an explanatory diagram of an opening wall panel whose right side is a corner when viewed from the inside of the opening.

[Fig. 7] A non-open wall panel and an open wall panel of small wall panels produced in factories under various dimensions are converted into large wall panels by using a connecting vertical frame at a factory production site or a construction site. Schematic diagram of the case

FIG. 8 is an explanatory diagram showing the assembly work of the non-opening wall panel and the opening wall panel through the corner post and the connecting vertical frame.

FIG. 9 is a schematic explanatory view of main parts showing a completed state of assembly and installation of a corner portion in FIG. 8;

FIG. 10 is an explanatory diagram showing the assembly work of the opening wall panel and the non-opening wall panel, each of which has a corner on the left side of the inside of the opening.

FIG. 11 is a schematic explanatory view of a main part showing a completed state of assembly and installation of a corner in FIG.

FIG. 12 is an explanatory view showing an assembly construction of the opening wall panel, the non-opening wall panel and the internal non-opening wall panel with each other through the connecting vertical frame in the T-shaped portion.

FIG. 13 is an explanatory view of an outline of main parts showing a completed assembled state of the T-shaped portion in FIG. 12;

[Explanation of symbols]

1 face material 2 vertical frame (38 mm × 89 mm) 3 upper frame 4 lower frame 5 lintel 6 lintel receiver (38 mm × 89 mm) 7 window stand 8 head connecting 9 lower frame connecting 10 connecting vertical frame 11 corner post (89 mm) × 89mm) 12 Internal no-open wall panel (1m) A1 No-open wall panel used for flat part (2m) A2 No-open wall panel used for T-shaped part (1m) A3, A4 Used for corners No-open wall panel (1
m) B1 Opening wall panel used for flat part or T-shaped part (2 m) B2 Opening wall panel with left corner (2 m) B3 Opening wall panel with right corner (2 m) B4 flat part Or opening wall panel (1m) used for T-shaped part M1, M2, M3, M4 allocation core K opening b1, b2, c1, c2, d2, d3, e3, e4
Distance from allocation core 19mm (Thickness of connected vertical frame 38mm
½) d1 Distance from the allocation core 44.5 mm (equivalent to ½ of 89 mm square corner post thickness) e1, e2 This is the mounting position for the lintels joined to the vertical frame. , Distance from allocation core 95mm e5 Distance from allocation core 63.5mm

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI Technical display location E04B 2/56 611 E04B 2/56 611C 621 621J (72) Inventor Shigekazu Hiramatsu Nishi, Shinjuku-ku, Tokyo Shinjuku 1-20-1 Taihei Housing Co., Ltd.

Claims (6)

[Claims] 1. A small and standardized panel that can be produced in a factory in advance as a structural wall panel, and is a non-opening wall panel used for a flat portion, a T-shaped portion, or a corner portion having a maximum panel width of 2 m. Or an opening wall panel used for a flat portion or a T-shaped portion or a corner portion, and any one of the panels, which are commonly connected to each other or combined, and which are connected to each other, a corner post, a head joint, or a lower frame joint. A standardized small-sized wall panel in the two-by-four construction method, which can be continuously installed in a required form at the factory production site or the construction site by using them or together. 2. The non-opening wall panel used for a flat part, wherein the left end of the vertical frame at the left end when viewed from the inside when the panel is upright is 19 mm to the right from the allocation core on the left side, The standardized small wall panel in the two-by-four construction method according to claim 1, characterized in that the right end of the vertical frame is 19 mm to the right from the allocation core on the right side, and comprises a head joint and a lower frame joint. 3. A non-opening wall panel used for a T-shaped part, of the non-opening wall panel used for the flat part, the left end of a vertical frame which is the left end when viewed from the inside in a state where the panel is erected. The part is 19 mm to the right from the left side allocation core, and the right end of the right end vertical frame is 19 mm to the left from the right side allocation core, and the specified dimension that is juxtaposed to the right of the panel is 38 mm.
The standardized small wall panel in the two-by-four construction method according to claim 1, comprising a connecting vertical frame having a size of 89 mm, a head tie and a lower frame tie. 4. The non-opening wall panel is a panel used in a corner, and when the left side is a corner when viewed from the inside when the panel is upright, the left end vertical frame of the non-opening wall panel is formed. The left end is 44.5 mm to the right from the left side allocation core, the right end of the right end vertical frame is 19 mm to the right from the right side allocation core,
When the right side is the corner, the left end of the vertical frame at the left end of the non-opening wall panel is 19 mm to the right from the allocation core on the left side, and the right end of the vertical frame at the right end is left from the allocation core on the right side. To 44.5m
2. A corner post assembled to have a size of 89 mm × 89 mm, a head joint, and a lower frame joint, characterized by being m.
A standardized small wall panel in the described two-by-four method. 5. The opening wall panel is a panel used for a flat portion or a T-shaped portion, and the left end portion of the vertical frame at the left end when viewed from the inside when the panel is erected from the left side allocation core to the right side. 1
9 mm, the right end of the lintel receiver joined to the right side is 95 mm to the right from the left side allocation core, and the right end of the right end vertical frame is 19 mm to the left from the right side allocation core. It is characterized in that the left end of the lintel receiver joined laterally is 95 mm to the left from the allocation core on the right side, and is composed of the connecting vertical frame, head tie, and lower frame tie arranged side by side on the right side of the panel. A standardized small wall panel in the two-by-four method according to claim 1. 6. The opening wall panel is a panel used for a corner portion, and an assembly material of 63.5 mm × 89 mm is provided at a corner portion which is either the left or right corner of the opening wall panel used for the flat portion. 2. The two-by-four construction method according to claim 1, characterized in that the connecting vertical frame, the head joint, and the lower frame joint, which are arranged side by side to the right of the panel when the corner portion is on the left side, are integrated. Standardized small wall panel in.