KR20110011444A - A prefabricated house construction method and the construction device - Google Patents

Abstract

PURPOSE: A knockdown-building constructing method and device are provided to enhance space availability in construction of the knockdown building and to ensure construction performance and economics without the aid of large transport equipment. CONSTITUTION: A knockdown-building constructing method is as follows. A basic steel frame is installed on the planar ground, and concrete is placed on it to form a basic floor. A roof structure is assembled on the basic floor. The assembled roof structure is lifted using a roof lifting device(100) and a guide member. A wall structure is installed between the lifted roof structure and the basic floor. The roof structure descends and is situated on the wall structure to be assembled.

Description

Prefabricated house construction method and the construction device

The present invention relates to a prefabricated building construction method and a construction apparatus according thereto, and more particularly, to a prefabricated building construction method and a construction apparatus according to the prefabricated building for lifting the roof located above the building when the prefabricated building.

In general, prefabricated buildings using sandwich panels and wire panels are constructed by assembling panels (eg panels with functions of insulation, soundproofing, windproof, etc.) in a standardized size and then finishing the exterior. First, after the ground work, the pillar frame is constructed and then panels are assembled to form walls and roofs.

However, in the above-described prefabricated building, since panels cannot function as structures, construction of pillar frames such as H-beams is performed on the ground to form the structure, and then the panels are assembled.

In order to improve such a problem, the applicant of the present application has proposed a composite lightweight panel that can serve as a structure function in Korean Utility Model Registration Application No. 20-2007-0014617 and Patent Application No. 10-2007-0081856. Since it plays the role of this structure, the building and its construction method excluding the construction of the column frame for the formation of a separate structure have been presented in Korean Patent Application No. 10-2008-0037600.

When constructing a building using the conventional structural composite lightweight panel, first, after leveling the floor, install the foundation frame and cast concrete to form the ground, and then connect the structural composite lightweight panel by welding and bolting to connect the wall. After construction, place the roof formed on the basic steel frame or in a separate space from the wall by using a crane or the like on the wall to assemble and finish the construction of the building by finishing the interior and exterior of the building with a finishing material. do.

However, carrying and assembling the roof structure to the upper part of the wall structure entails a large transportation equipment including a crane, which leads to an increase in the construction cost, and inevitably takes a long time because it must be done manually by a large transportation equipment. There was a problem, and there was a problem that a separate space must be secured to accommodate large equipment such as cranes.

In addition, as the demand for prefabricated buildings gradually increases, the number of city factories is diversified.In particular, due to the well-being culture, the preference for clear air and nature-friendly places has led to the expansion of city factories into difficult mountainous areas. Since it is difficult to enter a large transportation equipment including a crane, it is necessary to proceed by manual and high-work as described above, the construction performance is lowered, and the unit price is increased.

The present invention was calculated to solve the above problems, prefabricated building construction method to ensure the construction and economical efficiency by ensuring that the construction of the prefabricated building without the help of a large transport equipment including a crane while having excellent space utilization It relates to a construction device according to.

Features of the present invention to achieve this object, the step of installing a base steel frame on the ground on which the flattening operation is made and placing concrete to form a foundation floor (B); Assembling the roof structure (1) on the foundation floor; Elevating the assembled roof structure (1) using the roof lifting device (100) and the guide member (200); Constructing a wall structure (2) between the elevated roof structure (1) and the foundation floor (B); Lowering the roof structure (1) and assembling and mounting on the wall structure (2); Characterized in that the construction through.

And another feature of the present invention, a pair of cylinders 110 and a rod rod 112 of the cylinder 110 is installed in a pair on the support plate 114 to face each other and the vertical operation is controlled in the opposite direction to each other The roof lifting device 100 configured to include a lifting rod 130 that is detachably fastened to the vertical direction on the other end and the lifting rod 130 supported on the roof structure 1 to step up and down the roof structure 1. ); There is a construction device consisting of a guide member 200 for supporting the roof structure (1) to be guided in the vertical direction to move the roof structure (1) step by step by the roof lifting device (100).

On the other hand, in the above configuration, the pair of cylinders 110 are each independently operated, or the vertical operation is controlled in the opposite direction by the linkage operation member 120 coupled to the rod rod 112, the cylinder The operation 110 may be manually controlled and may be controlled by a valve to control the direction of hydraulic pressure or pneumatic pressure supplied to the cylinder, or may automatically control an operation means for forming pneumatic pressure or hydraulic pressure in the cylinder using an electric transmission device.

And the linkage operation member 120 is located between the pair of cylinders 110, the connecting pipe 122 is installed so as to pivot the hinge 122a on the support plate 114, the connecting pipe ( One end is inserted into an end of the rod 122, and the other end is provided with an auxiliary rod 124 installed to pivot the hinge 124a on the rod rod 112 of the cylinder 110. Allows operation to be controlled in reverse order.

In addition, the elevating rod 130 is divided, the end portion corresponding to each other is characterized in that the assembly is connected by screw coupling or female and male engagement.

The guide member 200 is installed on the roof structure 1 and is inserted into the guide pipe 210 having the guide hole 210a and the guide hole 210a of the guide pipe 210 and the base bottom B. Vertical guide rod 220 is installed vertically on the), and one end is fixed to the first guide 231 on the vertical guide rod 220, the other end is the second hinge 232 on the base bottom (B) Consists of a plurality of support bars 230 fixed to.

In addition, in order to fix the second hinge 232 installed on the support bar 230 of the guide member 200 in the step of forming the base bottom (B), or a support member coupled to the second hinge 232 or Insert molding of the second hinge 232 in the process of forming the base bottom (B), or to install a second hinge 232 is characterized in that a plurality of fastening holes in the base steel frame.

According to the above configuration and operation, the present invention is a prefabricated building in the order of constructing the wall structure pre-assembled on the foundation floor step by using the roof lifting device and the guide member, and then constructing the wall structure between the roof structure and the foundation floor. As the construction requires no separate space for assembling the roof structure, the space utilization of the construction site is excellent, and the construction can be performed without the support of large transportation equipment including cranes. It works.

In addition, according to the present invention, the lightning rod strikes the foundation steel frame installed on the foundation floor.

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

1 to 2 is a view showing a prefabricated building construction method according to the present invention in sequence, Figures 3 to 8 is a view showing a prefabricated building factory factory according to the present invention.

In the embodiment of the present invention, the roof lifting device is an embodiment in which a pair of cylinders are driven by the linkage operation member, but without the above linkage operation member to adjust the injection direction and timing, such as hydraulic or pneumatic or use a transmission device. You can also control the operation automatically.

The present invention relates to a prefabricated building construction method and a construction device according thereto, wherein the frame frame and roof finishing panels, windows, structural lightweight panels constituting the prefabricated building are processed to a size set at a factory and transported to a construction site, It is simply assembled through the construction method described later step by step.

1, foundation floor forming step

In the foundation floor forming step, after the flattening operation to flatten the floor surface of the prefabricated building location, the foundation steel and formwork are installed to fit the shape of the foundation floor (B), and the concrete is poured to the foundation floor (B). To form. At this time, the water and sewage pipes and the electric wiring are buried together inside the base bottom (B).

In the forming of the foundation floor B, the metal plate-shaped support member for installing the second hinge 232 of the guide member 200 may be integrally insert-molded in the foundation floor B pouring process. The second hinge 232 itself may be insert molded.

In addition, the base bottom (B) is formed by using a base steel frame that is formed by drilling a plurality of fastening holes so that the second hinge 232 is installed on the base steel frame without insert molding for installing the second hinge 232. It may be formed.

2. Roof Structure Assembly

The assembling step of the roof structure (1) is a step of assembling a roof frame frame on the foundation floor (B), and assembling a roof finishing panel on the roof frame frame to form a roof. At this time, the roof structure (1) is positioned in consideration of the roof position of the prefabricated building based on the foundation floor, and installs the roof lifting device (100) between the foundation floor (B) and the roof structure (1) in the roof structure lifting step described later. It is preferable to install a tree at the edge of the roof structure (1) so as to be spaced apart from the base floor (B) for ease.

Thus, since the roof structure (1) is assembled on the foundation floor (B) and vertically elevated by the roof lifting device, etc., it is not necessary to use a large equipment such as a crane for lifting the assembled roof structure (1). There is also no need for space.

3. Roof Structure Lifting Step

The roof structure elevating step is to elevate the roof structure 1 assembled on the foundation floor B using the roof elevating device 100 and the guide member 200.

First, the guide member 200 is installed on all sides of the roof structure 1 to allow the shanghai conveyance of the roof structure 1 to be guided so as not to be transported in the horizontal direction, and between the foundation floor B and the roof structure 1. By installing a plurality of roof lifting device 100 to step up and down the roof structure (1). At this time, the height of the roof structure (1) is located higher than the height of the wall structure (2) to be installed later.

Here, the roof lifting device 100 is installed in a pair to face each other on the base plate 114, a pair of cylinders 110 and the cylinder 110 is provided so that the rod rod 112 is raised and lowered. One end of the rod rod 112 is detachably fastened in the vertical direction, and the other end thereof is provided with a lifting rod 130 supported on the roof structure (1). Cylinder 110 is used by selecting one of the hydraulic, pneumatic, screw type.

In this case, the pair of cylinders 110 are automatically controlled by the hydraulic device, or the vertical operation is controlled in the opposite direction by the linkage operation member 120, where the linkage operation member 120 is a pair of cylinders 110 ) And one end is inserted into the end of the connecting pipe 122 and the other end of the cylinder 110 is installed to pivot the hinge 122a on the support plate 114 in the axis; An auxiliary rod 124 is provided on the rod rod 112 so as to pivot about the hinge 124a.

The connection pipe 122 is provided with a support leg on the support plate 114 for supporting at a position spaced apart from the support plate 114, and is inserted into both ends of the connection pipe 122 and the end of the auxiliary rod 124 is slide-transfer Is installed so as to pivot the hinge 124a on the rod rod 112 of the cylinder (110). When the rod rod 112 of one side cylinder 110 is raised and lowered, the rod rod 112 of the other side cylinder 110 has a linkage operation structure which descends.

Therefore, the pair of cylinders 110 are alternately operated so that the rod 110 of one of the cylinders 110, which is not used when the roof structure 1 is stepped up and down, is not artificially lowered. When the rod rod 112 is raised, the work speed is improved by automatically descending by the seesaw principle of the linkage operation member 120.

That is, after installing the lifting rods 130 (hereinafter referred to as 'first lifting rods') on any one cylinder 110 of the pair of cylinders 110, the roof structure 1 is elevated, and then the other cylinder If the cylinder 110 is operated after installing the elevating rod 130 having a size longer than the first elevating rod used in advance, the roof structure 1 is elevated by the elevating rod 130 and the elevated one side in advance. The cylinder 110 is lowered by the linkage operation member 120, iteratively performs this sequence to step up and down the roof structure (1) as shown in FIG.

On the other hand, the elevating rod 130 is divided, the ends corresponding to each other are assembled and connected by screw coupling or female and male coupling to the appropriate length according to the lifting height of the roof structure (1) bar, Here, the lifting rod 130 is preferably provided with one set of five 10cm length, two 50cm length, one 100cm length in consideration of the Shanghai transport distance (for example, 15 ~ 20cm) of the rod rod 112. .

In addition, the guide member 200 is installed on the roof structure 1, the guide pipe 210 is provided with a guide hole 210a, and inserted into the guide hole 210a of the guide pipe 210 and the base bottom ( Vertical guide rod 220 installed vertically on B), one end is fixed to the first guide 231 on the vertical guide rod 220, the other end is the second hinge 232 on the base bottom (B) There is provided a plurality of support bars 230 fixed with.

At this time, the guide tube 210 is fixed to the fastening means including a screw detachably on the frame frame of the roof structure (1), the vertical guide rod 220 is inserted into the guide hole (210a) of the guide tube 210 The lower end is positioned in a fixed state on the base bottom (B).

And the support bar 230 supports the vertical guide rod 220 to be perpendicular to the base floor (B) as shown in Figure 5, where the support bar 230 is stepwise in accordance with the lifting height of the roof structure (1) One end is fixed through the first hinge 231 provided in a plurality of places from the lower end to the upper end of the vertical guide rod 220 to support the second end, the second end 232 to the base bottom (B) Is fixed.

On the other hand, in the above configuration, the first and second hinges (231, 232) on the outer periphery is provided with nuts (N1, N2) to be engaged with the hinge shaft is formed in the outer circumference to firmly fix the set position of the support bar 230 do.

Looking at this in more detail, the first hinge 231 is a pipe clamp 231a and the pipe clamp 231a formed to be firmly installed outside the vertical guide rod 220 as shown in FIGS. 6A and 6B. The hinge shaft 231b, which is integrally installed on the outer periphery, and the fastening hole 231c inserted into the hinge shaft 231b is drilled, and the fastener 231d is formed in which the support bar 230 is inserted and fixed. It consists of one hinge connecting plate 231e.

As shown in FIG. 7, the second hinge 232 is integrally formed with a fastener 232a into which the support bar 230 is inserted and fixed, and a support bar connecting plate 232b extended to the fastener 232a. It consists of a fastening hole 232c and a screw thread is formed on the outer circumference and the hinge shaft 232d inserted into the fastening hole 232c and the base ground connecting plate 232e in which the hinge shaft 232d is fixed.

On the other hand, the base ground connecting plate 232e is formed in each of the second hinges 232 as shown in FIG. 5, and may be installed on the base bottom B, or as shown in FIG. 8. The base ground connecting plate 232e is integrally installed on the base steel frame to form the hinge shaft 232d at regular intervals so that a plurality of support bars 230 may be installed on one base ground connecting plate 232e. ) Can also be used.

4. Wall Structure Construction Stage

The construction of the wall structure is a step of constructing the wall structure (2) between the elevated roof structure (1) and the base floor (B), the structural lightweight panels assembled to the dimensions in place between the base steel frame and the roof structure After installation is fastened with each other by welding or fastening means to form the walls of the prefabricated building.

Structural lightweight panels are installed in the structural structure for installing the finishing material on both sides of the heat insulating material, and formed by modularizing the steel frame to wrap the edge of the heat insulating material and the finishing material, it can also serve as a structure itself , Even without installing a structure (H beam, column, beam, etc.) for a separate structure serves as a structure with only the above-mentioned lightweight panel for the structure.

5. Assembling Roof Structures and Wall Structures

When the construction of the wall structure (2) is completed, the roof structure (1) is lowered and assembled on the wall structure (2). That is, the roof structure (1) is gradually lowered by the operation of the roof lifting device (100), and at this time, the lower end of the roof structure (1) and the upper end of the wall structure (2) are assembled so as to be precisely engaged, the assembly part is welded and screwed It is fixed by the fastening means including.

On the other hand, when the construction of the roof structure (1) and the wall structure (2) is completed, the finishing member including windows and interior and exterior agents, etc. are constructed.

In the above configuration, one guide member 200 is installed at each corner, but two guide members 200 may be installed at the corners in order to stabilize the operation in the elevation step.

1 is a block diagram sequentially showing a prefabricated building construction method according to the present invention.

Figure 2 is a configuration diagram sequentially showing a prefabricated building construction method according to the present invention.

Figure 3 is a block diagram showing a roof lifting device of the prefabricated building construction apparatus according to the present invention.

Figure 4 is a block diagram showing an operating state of the roof lifting device of the prefabricated building construction apparatus according to the present invention.

Figure 5 is a block diagram showing a guide member of the prefabricated building construction apparatus according to the present invention.

6A and 6B show a first hinge

7 shows a second hinge;

8 shows another installation example of the support rod.

Claims (6)

Pouring concrete to form a foundation floor (B); Assembling the roof structure (1) on the foundation floor; Elevating the assembled roof structure (1) using the roof lifting device (100) and the guide member (200); Constructing a wall structure (2) between the elevated roof structure (1) and the foundation floor (B); Lowering the roof structure (1) and assembling and mounting on the wall structure (2); Prefabricated building construction method constructed through. The method of claim 1, In order to fix the second hinge 232 installed on the support bar 230 of the guide member 200 in the step of forming the base bottom (B), or a support member coupled to the second hinge 232 or the Prefabricated building construction method, characterized in that the base molding (B) is formed by insert molding the second hinge (232) during the base floor (B) forming process, or by using a base steel frame in which a plurality of fastening holes are drilled. A guide member 200 for supporting the roof structure 1 to be guided in a vertical direction; A pair of cylinders 110 are installed on the support plate 114 so as to face each other, and the rod rods 112 are lifted up and down, and one end on the rod rods 112 of the cylinders 110. A roof lifting device 100 configured to include a lifting rod 130 detachably fastened in the vertical direction and the other end supported on the roof structure 1 to step up and down the roof structure 1; Prefabricated building construction device comprising a. The method of claim 3, wherein The pair of cylinders 110, the connecting pipe 122 is installed so as to pivot the hinge 122a on the support plate 114, one end is inserted into the end of the connecting pipe 122 and the other end is a cylinder An auxiliary rod 124 is provided on the rod rod 112 of the 110 to pivot the hinge 124a to the shaft so that the up and down operation of the rod rod 112 is controlled in the opposite direction to each other. Prefabricated building construction device characterized in that it is further provided. The method of claim 3, wherein The elevating rod 130 is divided, the prefabricated building construction device, characterized in that the end corresponding to each other is assembled by screw coupling or female, male coupling. The method of claim 3, wherein The guide member 200 is installed on the roof structure 1, the guide pipe 210 is provided with a guide hole 210a, and inserted into the guide hole 210a of the guide pipe 210 and the base bottom (B) A vertical guide rod 220 installed vertically on the vertical guide rod 220, one end of which is fixed to the first hinge 231, and the other end of which is fixed to the second hinge 232 on the base bottom B. Prefabricated building construction device characterized in that the plurality of support bar 230 is provided.

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