KR20130051403A - Prefabricating wall shaped mold unit and wall construction method using the same - Google Patents

Abstract

The present invention relates to a prefabricated unit wall frame and a wall construction method using the same, and more particularly, a prefabricated unit wall frame constructed by manufacturing most components by an extrusion method and a wall formwork by connecting such a prefabricated unit wall frame in up, down, left and right. It relates to a method of constructing a wall to finish and cast the filling material in the formwork.
Prefabricated unit wall frame according to the invention, the rectangular frame assembly; A panel coupled to the front surface of the frame assembly; wherein the frame assembly comprises: a first frame assembly formed by two first frames extruded on the outside; and two second frames manufactured by extrusion. The second frame assembly by the; provides a prefabricated unit wall frame, characterized in that both ends are combined to form a frame assembly 30 to form a rectangle so that the coupling portion of the second frame plate coupling portion 26 faces the same direction.

Description

Prefabricating wall shaped mold unit and wall construction method using the same}

The present invention relates to a prefabricated unit wall frame and a wall construction method using the same, and more particularly, a prefabricated unit wall frame constructed by manufacturing most components by an extrusion method and a wall formwork by connecting such a prefabricated unit wall frame in up, down, left and right. It relates to a method of constructing a wall to finish and cast the filling material in the formwork.

The interior space of various buildings is generally partitioned according to the purpose of use by using partition walls. In addition, in the outdoor space, in addition to the bearing wall that plays a structural role, the non-bearing wall is used for various purposes such as blocking the eyes of pedestrians, windbreak, street beautification, and the like.

Conventional non-bearing wall construction method is a wet method, lightweight concrete panel, steel plate, etc., which is finished with a finishing material after masonry cement bricks to complete the wall skeleton, and then install functional materials such as insulation, insulation, soundproofing on one or both walls. Drying method that combines plate member and runner, stud and reinforcement channel and spacer to build outer frame and skeleton of wall, inserts and fills with heat insulating material in inner space and finishes both outer wall parts with finishing material. Has been used.

The wet method of masonry of cement brick is used in the case where it is inconvenient to assemble and dismantle the prefabricated formwork which is currently generalized and used because it is required for the rigidity of the wall structure or the relatively small area of the compartment is used. The place is a toilet and surrounding space.

Walls constructed in this way are mostly finished with mortar plastering and wallpaper or other finishing materials, but inside the walls are primarily buried, fixed and switch terminal boxes for water and telecommunication wire entry. After the installation process of the bracket for the receiver, the waterproofing process is secondarily completed, and the third is completed by attaching a finishing material such as a tile.

Cement brick masonry walls are highly preferred in terms of durability and robustness that can safely cope with the various functions imposed on the walls. However, during the construction of such masonry walls, the process of masonry construction by masonry workers, the installation of wire entry pipes and luminaire switch terminal boxes by telecommunications terminal technicians, and the process of waterproofing all four sides of the wall by waterproofing technicians The process of finishing the plastering of the wall surface by the plasterer and the finishing process of attaching the tile on the wall by the tile functional worker should be repeated two or three times with the time difference by the process, so that the air is delayed, It is very difficult to expect to perform meticulous and precise construction, even taking into account the inefficiency of the work process in consideration of the follow-up work process. There is a problem that a large amount of waste occurs.

On the other hand, the dry method described above in detail, the step of fixing the runner (runner) to the bottom and ceiling of the partition wall installation site, the stud (Stud) is installed between the upper runner and the lower runner at an appropriate interval and welded Fixing step, placing a plurality of channels in a horizontal direction so as to be perpendicular to the studs and weaves to reinforce the entire skeleton, lighting equipment for ensuring the usability and comfort of the space partitioned by the partition wall And installing gas equipment using studs, channels and spacers, and inserting and filling soft material mats (pad type glass wool, rock wool, etc.) for thermal insulation, sound insulation, etc. in the finished partition frame. Step, the finishing board, such as gypsum board proceeds to the finishing step of fixing fixed pieces of nails on both side runner and stud of the partition wall.

The dry partition wall construction method, which is completed by the above process, is generally superior in terms of lifting, construction efficiency, and site management when compared with the conventional wet cement masonry construction method, but is weak in terms of wall safety and robustness.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

First, it is to provide a prefabricated unit wall frame and a wall construction method using the same, which does not leak the filling material in the existing panel connection portion or the hungry phenomenon of the panel.

Second, it is to provide a prefabricated unit wall frame and a wall construction method using the same to reduce the curing time of the filling material and to be able to construct unskilled work quickly with a predetermined quality.

Third, in order to provide excellent prefabricated unit wall frames and wall construction methods using the same in terms of material management, workability, and economics, compared to conventional dry and wet methods.

Fourth, to provide a prefabricated unit wall frame that can freely control the wall thickness and wall construction method using the same.

Fifth, it is possible to assemble a plurality of prefabricated unit wall frame to build a wall having a variety of lengths and heights, and to provide a prefabricated unit wall frame and a wall construction method using the same can be freely configured in the form of the wall.

Sixth, the prefabricated unit wall frame is to provide a prefabricated unit wall frame and a wall construction method using the same can be installed in a variety of devices, facilities, etc. precisely and collectively necessary to secure space utilization and comfort.

Seventh, it is intended to provide a prefabricated unit wall frame and wall construction method using the same, which can significantly reduce the amount of waste generated in the wall construction process compared to the previous method.

Technical configuration of the present invention created to solve the above technical problem is as follows.

The present invention relates to a prefabricated unit wall frame that is connected to the top, bottom, left and right, the outer surface becomes a finished wall surface and the inner surface has a function of formwork and constitutes a wall integrally with the filling material placed on the formwork. And a rectangular frame assembly; and a panel coupled to the front surface of the frame assembly, wherein the frame assembly is a first frame extruded to protrude and form a first frame protrusion on the first frame plate. A first frame coupling body coupled to each other at a right angle so that the first frame protrusions face outwardly; And a second frame assembly coupled to each other so that the second frame inserting grooves are coupled to each other so that the second frame inserting grooves are directed outwards to each other so that the second frame inserting grooves are formed on the upper portion of the second frame plate. It is characterized by forming a rectangle.

In addition, the present invention relates to a method for constructing a wall using the prefabricated unit wall frame, and produced by cutting the first and second frames to a long length and then cutting two first and second frames and two A first step of preparing a prefabricated unit wall frame by combining the first and second frames with high frequency fusion or adhesive to form a frame assembly and attaching or pressing a panel to the front of the frame assembly; The prefabricated unit wall frame is stacked on the floor, and the first and second frame insertion grooves provided in the first and second frames of the frame assembly are fitted at the upper and lower ends and both ends, respectively, so that the adjacent prefabricated unit wall frames are interfitted with each other. The second step of stacking while connecting up, down, left and right by coupling; And a third step of pouring the filling material into the inner side of the prefabricated unit wall frame.

According to the assembled unit wall frame and the wall construction method using the same according to the present invention has the following effects.

First, the materials such as formwork, cement brick, insulation, and finishing materials required for wall construction are unified, and thus have excellent effects in terms of material management, workability, and economics, compared to conventional dry and wet methods.

Second, by assembling a plurality of prefabricated unit wall frame it is possible to build a wall having a variety of lengths and heights, it is possible to freely configure the shape of the wall.

Third, because the amount of filling material is reduced, curing time is reduced and unskilled workers can be constructed quickly with a certain quality, and can be applied to remodeling of existing buildings as well as new buildings.

Fourth, the prefabricated unit wall frame can be equipped with various devices and facilities necessary for space utilization and comfort, precisely and collectively installed.

Fifth, the amount of waste generated during wall construction is significantly reduced compared to the previous methods.

Sixth, when a material such as heat insulation, soundproofing, waterproofing is provided in the inner space of the panel, a corresponding effect can be obtained.

1 is an exploded perspective view of a first embodiment of a prefabricated unit wall frame of the present invention.
FIG. 2 is a perspective view illustrating a first frame assembly and a second frame assembly in the assembled unit wall frame of FIG. 1.
3 is a cross-sectional view and a perspective view of the first frame in the first frame assembly of FIG.
4 is a cross-sectional view and a perspective view of a second frame in the second frame assembly of FIG.
5 is a perspective view of a panel in the prefabricated unit wall frame of the present invention.
6 is an exploded perspective view of a second embodiment of a prefabricated unit wall frame of the present invention.
7 is an exploded perspective view of a third embodiment of the prefabricated unit wall frame of the present invention.
8 is a cross-sectional view and a perspective view of the connector in the prefabricated unit wall frame of FIG. 7.
FIG. 9 is a perspective view of the assembled unit wall frame of FIG. 7.
10 is a first embodiment showing a wall construction method using the prefabricated unit wall frame of the present invention.
11 is a second embodiment showing a wall construction method using a prefabricated unit wall frame of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

1. Prefabricated Unit wall

1 is an exploded perspective view of a first embodiment of a prefabricated unit wall frame of the present invention. Connecting to the top, bottom, left and right of the present invention is the prefabricated unit wall frame which is an element constituting the wall integrally with the filling material placed on the form by forming an outer surface is a finished wall surface and the inner surface of the formwork, the first The frame combiner 18 and the second frame combiner 28 is a rectangular frame combiner 30 is configured to combine; and the panel 60 is coupled to the front of the frame combiner 30; The panel 60 may be coupled in the form of being pressed into the inside of the front of the frame assembly 30 as shown in Figure 1 (a) or attached to the front of the frame assembly 30 as shown in Figure 1 (b). .

2 to 4 are cross-sectional views and perspective views of the frame assembly 30 components. FIG. 2 illustrates a first frame assembly 18 and a second frame assembly 28 constituting the frame assembly 30, and FIG. 3 illustrates a first frame 10 in the first frame assembly 18 of FIG. 2. 4 shows the second frame 20 in the second frame assembly 28 of FIG. 2.

The first frame assembly 18 is composed of two first frames 10 as shown in FIG. As shown in FIG. 3, the first frame 10 is extruded so that the first frame protrusion 14 is formed to protrude from the upper portion of the first frame plate 12. The first frame 10 has a protrusion or groove shape at one end of the side. Plate coupling portion 16 may be manufactured to be further formed. Here, the first frame plate 12 may be formed in a 'date' (Fig. 3 (a), (b)) or a 'b' (Fig. 3 (c)), the first frame projection 14 is also Of course, two or more (FIG. 3B) may be formed. The first frame assembly 18 is formed by coupling the two first frames 10 at right angles to each other with the first frame protrusion 14 facing outward. The two first frames 10 for the first frame assembly 18 are used by cutting the length of the extruded product to the required length, while adopting synthetic resins such as aluminum or ABS, which are easy for extrusion production. It is preferable when considering.

The second frame assembly 28 is composed of two second frames 20 as shown in FIG. The second frame 20 is provided to correspond to the first frame 10, that is, extrusion manufacturing so that the second frame insertion groove 24 is formed in the upper portion of the second frame plate 22 as shown in FIG. And, one end of the side may be manufactured to further form a second frame plate engaging portion 26 of the projection or groove shape. The second frame assembly 28 is formed by coupling two second frames 20 at right angles to each other with the second frame insertion groove 24 facing outward. Like the first frame 10, the two second frames 20 for the second frame assembly 28 are also extruded and made into synthetic resins such as aluminum or ABS, and are preferably cut into required lengths. .

The frame assembly 30 is composed of a combination of the first and second frame assemblies 18 and 28 as described above, and in particular, when the first and second frame plate coupling portions 16 and 26 are further provided, the first and second frames are combined. The plate coupling portions 16 and 26 are coupled to face in the same direction (see FIG. 1). 2 (a) shows the first and second frame assemblies 18 and 28 by the first frame 10 of FIG. 3 (a) and the second frame 20 of FIG. 4 (b). Since the first and second frame plate parts 12 and 22 are provided in a 'date' shape, the two frame assembly bodies 18 and 28 are press-fitted to the inside of the front of the frame assembly 30 as shown in FIG. Can be advantageously combined. 2 (b) shows the first and second frame assemblies 18 and 28 by the first frame 10 of FIG. 3 (c) and the second frame 20 of FIG. 4 (c). The first and second frame assemblies 18 and 28 have first and second frame plate portions 12 and 22 having a wider front surface in an 'A' shape, so that the panel is placed on the front of the frame assembly 30 as shown in FIG. It can be advantageously combined by way of attachment.

5 is a perspective view of the panel 60 of the prefabricated unitary wall frame of the present invention. Panel 60 may be provided in a variety of materials and textures, such as marble panels, wood panels so that the outer surface is a wall finishing surface. In addition, the panel 60 may be used by cutting to a required length after extrusion to a long length as shown in Figure 5, of course, it is also possible to produce a variety of conventional methods other than the extrusion method.

On the other hand, in consideration of the required performance according to the installation site of the wall in terms of reinforcement, the panel 60 is configured to include an intermediate layer composed of any one or more of a heat insulating material, a soundproofing material, and a waterproofing material, separately from the lightweight molding material 70 to be described later. Can be. In addition, the panel 60 may be provided with a through hole (not shown) for wiring or plumbing so that the wire arrangement, lighting device switch terminal box installation, gas equipment, water equipment, internet equipment, and the like may be installed in advance. When the various kinds of facilities are installed in advance before the filling material is injected, the design drawings can be accurately reflected, and the work difficulty can be reduced and the working period can be shortened.

In particular, the panel 60 may be used as the expanded perlite structure of Patent Registration No. 10-870154, in which case, due to its physical properties, it may bring about improvement of sound absorption, fire resistance, and dehumidification performance. You can do In addition, by heating a heat wire such as nichrome wire inside or on the surface, a heating effect and far-infrared emission effect can be obtained with low power consumption.

Figure 6 is an exploded perspective view of a second embodiment of the prefabricated unit wall frame of the present invention, the second embodiment is an example in which the lightweight molding member 70 is further added in the first embodiment. The lightweight molding member 70 is a member made of a lightweight material having a smaller weight than concrete of the same volume, and is typically a foam molded product such as styrofoam or EPS, foam concrete, or foam foam concrete product, and hollow plastic. Or synthetic resin molded products. The lightweight molding member 70 may be manufactured in various planes such as rectangular, square, and circle, but it is preferable to manufacture the lightweight molded member by curving the circumference in order to minimize stress resistance and to facilitate filling and filling of the filling material when permanently embedded. . The lightweight molding member 70 may be integrally attached to the rear surface of the panel 60, or may be spaced apart from each other through the spacer 74 on the rear surface of the panel 60 as shown in FIG. 6.

Figure 7 is an exploded perspective view of a third embodiment of the prefabricated unit wall frame of the present invention, the third embodiment is a pair of prefabricated unit wall frame of the first embodiment are spaced apart and connected to the connector 50, between the lightweight molding material An example in which 70 is further added is an example. In the third embodiment, the frame assembly 30 uses first and second frames 10 and 20 fabricated to form first and second frame plate coupling portions 16 and 26 having protrusions or grooves at one end of the side. . As a result, the panel 50 is fitted with the first and second frame plate coupling portions 16 and 26 of the first and second frame assemblies, while the connectors 50 formed with the connector coupling portions 52 having grooves or protrusions are fitted. ) May be coupled to a pair of frame assembly 30 spaced apart while being coupled. The connector 50 is installed so as to partially connect between the pair of frame assembly 30, so that the filling can be filled between the frame assembly 30.

In addition, in FIG. 7, the lightweight molding member 70 is further installed between the pair of frame assemblies 30 spaced apart from each other while the panel 60 is coupled thereto. To this end, the center connection part 40 is attached to the rear surface of the panel 60, and the through hole 72 is formed in the center of the lightweight molding member 70, and the central connector is penetrated through the through hole 72 of the lightweight molding member. The fitting portion 40 and the coupling. If the locking protrusion 42 is formed in the central connector 40 and the locking groove 82 is formed at the end of the central connector 80, the locking protrusion is formed when the central connector 80 and the central connector 40 are fitted. 42 is firmly fixed while being filled in the locking groove (82).

FIG. 8 shows a connector 50 for preferably use in the third embodiment of FIG. The connector 80 can be used while being extruded to a long length as shown in Figure 8 (a), (b) and cut to the required width. The connector 80 has both ends formed with connector coupling portions 52 having grooves or protrusions, and the first and second frame plate coupling portions 12 and 22 are formed by fitting the connector coupling portions 52 and the groove-protrusions. The fittings are combined. 8 (a) and 8 (b), it can be seen that the connector 50 has a connector coupling portion 52 having a protrusion shape. The connector 50 has a groove-shaped first and second frame plate coupling portion 12. , 22) to form a fitting for fitting the groove-protrusion. Particularly, if the first and second frame plate coupling parts 12 and 22 and the connector coupling part 52 each have a sawtooth shape, the first and second frame plate coupling parts 12 and 22 may be engaged with each other so that they are hardly separated (see FIG. 7).

8 (a) is the most basic connector 50 that the connector coupling portion 52 is made of a constant length, Figure 8 (b) is a connector coupling portion projection 56 is formed next to the connector coupling portion 52 And a connector 50 having a connector concave-convex portion 54 formed at the center thereof. The connector coupling part protrusion 56 stably supports the first and second frame plate coupling parts 12 and 22 when the connector 50 is engaged with the first and second frame plate coupling parts 12 and 22, and maintains the coupling position. It is kept constant, thereby allowing a constant distance between the pair of frame assembly 30 by the connector 50 can be constantly adjusted. Since the connector 50 of FIG. 8 (b) is manufactured while cutting the connector concave-convex portion 54 with the proper length as shown in FIG. 8 (c), the connector 50 can be freely adjusted. have. At this time, the connector concave and convex portion 54 can be engaged with each other in the process of attaching, thereby contributing to the improvement of the bonding force, and also to form a constant width can easily adjust the length of the connector 50, so the easy length adjustment operation of the connector Contribute to. By adjusting the length of the connector 50 in this way it is possible to control the thickness of the prefabricated unit wall frame of the present invention various changes in design are possible.

FIG. 9 is a perspective view of the assembled unit wall frame of FIG. 7. Figure 9 (a) is a basic coupling form of the prefabricated unit wall frame used to construct a straight wall. Figure 9 (b) is a method of constructing the edge of the wall using the prefabricated unit wall according to the present invention, as shown, the wall edge is applied to the flexible fabricated unit wall frame for the corner.

9 (c) is a form in which the connector 50 is changed in FIG. 9 (a), which is a form proposed for filling a filler between a pair of frame assemblies 30. The filling material can be filled in the field as described in the construction method of the prefabricated unit wall frame below, but it can be filled in advance in case the panel is separated from the frame assembly by the pouring pressure of the filling material during the field filling process. . However, in order to block the leakage of the filling material during the filling of the filling material, the connector 50 should be installed to surround the bottom and the side between the pair of frame assembly 30 as shown in FIG. The filling material may be partially filled as well as partially filled only between the pair of frame assembly 30, and the installation state of the connector 50 may be appropriately determined in view of the filling height of the filling material.

2. Prefabricated Unit wall  Construction method

10 and 11 is an embodiment of the wall construction method using a prefabricated unit wall frame. Wall construction method according to the invention, the first step of preparing to prepare the prefabricated unit wall frame described above; A second step of stacking the prefabricated unit wall frames to each other by connecting them to each other by vertical coupling; And a third step of pouring the filling material into the laminated prefabricated unit wall frame. Here, the second and third steps may be performed as one construction cycle for each predetermined height while considering the height of the wall, the side pressure of the filler and the degree of curing.

In the first step, the first and second frames 10 and 20 are extruded to a long length and cut to make two first and second frames 10 and 20, respectively, and two first and second frames 10 and 20 are cut. 20) is made by combining the high frequency fusion or adhesive to make the frame assembly 30, the panel 60 is attached to the front of the frame assembly 30 by the method of attaching or pressing. The first and second frames 10 and 20 are designed in a straight shape to produce a long member by extrusion method, the long member is cut to fit the design, and the cutting member is assembled using high frequency fusion or adhesive, and the like To produce. When the connector 50 is required, it is similarly produced. Therefore, the prefabricated unit wall frame of various dimensions is produced and assembled by simply extruding and cutting members according to the dimensions with the same production line.

In the second step, the first frame protrusion 14 and the second frame insertion groove 24 provided in the first and second frames 10 and 20 of the frame assembly 30 are male and female, respectively, in the upper and lower ends and adjacent to each other. Prefabricated unit wall frame should be connected with each other by connecting up, down, left and right. The second step may be carried out by stacking the prefabricated unit wall frame composed of one frame assembly 30 and one panel 20 as opposed to the structure (pillar or wall) of the building, as shown in FIG. As shown in 11, a pair of frame assemblies 30 are laminated independently of a structure for the purpose of constructing a partition of a prefabricated unit wall frame configured to be connected by a plurality of connectors 50 with a panel 60 coupled thereto. You can do it while. In this process, the coupling parts between the prefabricated unit wall frames may be reinforced by sealing. On the other hand, if using the prefabricated unit wall frame as shown in Figure 1 (a) the prefabricated unit wall frame is formed to form a joint by exposing the cross section of the first and second frame plate 12, 22 of the frame assembly to each other, If (b) and the prefabricated unit wall frame is used, the panel 60 is continuously connected to the joint portions between the prefabricated unit wall frames without exposing the cross sections of the first and second frame plates 12 and 22 of the frame assembly. The joints do not form.

The third step is the process of filling the filling pad and integrating it with the prefabricated unit wall frame. The filling material is light and easy to use, it is preferable to use a material with excellent soundproofing and fire-proofing performance, mainly lightweight foam concrete, cement mortar, ocher may be used. In the case of using the prefabricated unit wall frame of the embodiment in which the lightweight molding member 70 is further included, since the lightweight molding member 70 occupies a large volume, less filling material as much as the volume of the lightweight molding member 70 is required. Therefore, the weight and lateral pressure of the filler material are greatly reduced by the reduced filler volume, so that the filler material does not leak at the connection between the members or the filling of the panel does not occur at all. And in some cases, the construction of the filler can be omitted.

10: First frame
12: first frame plate
14: first frame projection
16: first frame plate coupling portion
18: first frame assembly
20: second frame
22: second frame version
24: 2nd frame insertion groove
26: second frame plate coupling portion
28: second frame assembly
30: frame assembly
40: center connection
42: jamming
50: connector
52: connector coupling portion
54: center of connector
56: connector engaging projection
60: panel
70: lightweight molding material
72: through hole
74: spacer
80: center connector
82: locking groove

Claims (9)

In the prefabricated unit wall frame, which is an element constituting the wall integrally with the filling material placed on the form, the outer surface becomes a finished wall surface by connecting up, down, left and right, the formwork,
It comprises a rectangular frame assembly 30; and a panel 60 coupled to the front of the frame assembly 30,
The frame assembly 30,
Two first frames 10 extruded to be formed to protrude from the first frame plate 14 is formed on the upper portion of the first frame plate 12, the first frame protrusions 14 are perpendicular to each other to face the outside. The first frame assembly 18 coupled to; And,
The second frame 20, which is extruded so that the second frame inserting groove 24 is formed in the upper portion of the second frame plate 22 is combined, so that the second frame inserting groove 24 faces the outside. Prefabricated unit wall frame, characterized in that the rectangular frame is coupled to each other;
In claim 1,
The frame plate assembly 30 has a first frame assembly 18 by two first frames extruded to form a first frame plate coupling portion 16 having a protrusion or groove shape at one end of the side portion, and a side portion. The second frame coupling body 28 by two second frames extruded to be formed to further form a second frame plate coupling portion 26 having a protrusion or groove at one end, the first, second frame plate coupling portion 16 , 26) are oriented in the same direction,
A connector 50 formed at both ends of the connector coupling portion 52 having a groove or a protrusion shape and fitted to the first and second frame plate coupling portions 16 and 26 of the first and second frame coupling bodies; The prefabricated unit wall frame, characterized in that the pair of the frame assembly 30 is connected by the connector 50 in a state in which the panel 60 is coupled to each other while facing each other while being coupled to each other.
In claim 2,
Prefabricated unit wall frame, characterized in that it comprises a; further comprising; a lightweight molding member (70) inserted between the pair of frame assembly (30).
4. The method of claim 3,
The center connection portion 40 is attached to the back of the panel 60,
The lightweight molding member 70 is further formed with a through hole 72 in the center,
Prefabricated unit wall frame, characterized in that it further comprises; a central connector (80) through which the through-hole 72 of the lightweight molding member is fitted with the central connection portion 40 at both ends.
5. The method according to any one of claims 2 to 4,
The connector 50 is installed so as to surround the pair of frame assembly 30 in a state in which the pair of frame assembly 30 are spaced apart to face each other with the panel 60 coupled thereto,
Prefabricated unit wall frame, characterized in that the filler is filled between the pair of frame assembly (30).
5. The method according to any one of claims 2 to 4,
The first and second frame plate coupling portions 16 and 26 and the connector coupling portion 52,
Prefabricated unit wall frame, characterized in that each is configured in the shape of a sawtooth engaging with each other.
4. The method according to any one of claims 1 to 3,
The panel 60,
Prefabricated unit wall frame, characterized in that it comprises a form that is attached to the front of the frame assembly (30), or the form is press-attached to the inside of the front of the frame assembly (30).
4. The method according to any one of claims 1 to 3,
At the back of the panel 60,
Prefabricated unit wall frame, characterized in that the lightweight molding member 70 is integrally attached or spaced apart from the lightweight molding member 70 by a spacer 72.
In the wall construction method using the prefabricated unit wall frame according to claim 1,
After extruding the first and second frames 10 and 20 to a long length, they are cut to form two first and second frames 10 and 20, respectively, and the two first and second frames 10 and 20 are high frequency. A first step of preparing a prefabricated unit wall frame by combining the fusion or adhesive to form the frame assembly 30, and attaching or pressing the panel 60 to the front of the frame assembly 30 by pressing or pressing;
The prefabricated unit wall frame is stacked on the floor, and the first frame protrusion 14 and the second frame insertion groove 24 provided in the first and second frames 10 and 20 of the frame assembly 30 are upper and lower sides and both sides. A second step of stacking the prefabricated unit wall frames adjacent to each other by connecting them up and down, left and right by fitting them with each other; And
A third step of placing a filling material inside the prefabricated unit wall frame;
Wall construction method using a prefabricated unit wall frame, characterized in that comprising a.

Images