KR200342812Y1 - Hanging type formwork for non-supporting formwork system for top down construction - Google Patents

Abstract

In constructing the underground structure of a building, the technique regarding the suspension formwork used by the unsupported reverse casting method is disclosed.

The present invention is installed by placing the suspended formwork already installed on the lower floor after finishing the casting and curing of the floor, the length installed between the upper frame to mount the slab frame and the lower frame to mount the beam frame Variable height adjustable at the end of the variable support and lower frame that can be adjusted is constructed by adjusting the height of the beam to satisfy the height of the different beams by site, and also the height of the beams that are differently required for each floor in one site. It is designed to provide a suspended formwork for the unsupported reverse pouring method, which satisfies the construction process without any additional formwork and can reduce the air and cost, and makes the construction more efficient. To this end, the present invention is constructed by assembling the steel beam to mount the slab mold on the upper part. Subframe; A lower frame which is constructed by assembling a steel beam so as to mount a beam on the upper part, and spaced apart from the upper frame by a predetermined distance; And it is installed between the upper frame and the lower frame to maintain a predetermined interval, a plurality of variable supports that can be adjusted in length; provides a suspension formwork for a non-inverted back pouring method characterized in that the configuration.

Description

Hanging type formwork for non-supporting formwork system for top down construction}

The present invention relates to a suspension formwork for an unsupported inverse pouring method that can adjust the height of a beam according to the construction situation and structural conditions of a structure when the suspension formwork is constructed in an unsupported reverse placing method for building a building.

Recently, as the economic growth, the demand for buildings is increasing and the land price is steadily rising. As a result, office buildings that are constructed in urban areas with high land prices have tended to increase the height of buildings in order to efficiently use the land.

On the other hand, when constructing a structure underground, the conventional method, first to excavate the underground soil or rock to the depth necessary for the formation of the underground structure, and to prevent the collapse of the excavation surface supporting earth wall (strut strut) or earth anchor ( Excavation was completed by installing earth anchors, and then the construction was carried out in the order of construction from the foundation to the structures of the basement and ground layers. However, according to this conventional method, a considerable cost and time are required for temporary construction and dismantling of the temporary block, and if the construction is inadequate, a large accident may occur due to the collapse of the earth wall. In addition, there is a problem in that the construction period of the basement layer becomes long when the construction of the structure is supported to the underground excavation surface by removing the temporary struts or earth anchors for each underground structure construction step in parallel with the construction of the underground structure.

Accordingly, the conventional method for constructing a structure as described above has been developed and applied to build an underground structure from the ground to the ground and to build a ground structure in parallel. Reverse casting method is called Top down method or Down-construction method. Instead of digging the ground first to the required depth of basement, pre-install steel columns and underground continuous walls (earth walls), and based on the pre-installed steel columns and underground continuous walls, slabs and columns It is a construction method to build a basement structure from the ground floor to the bottom by placing a mold and placing concrete. Since the reverse casting method does not excavate the ground at the same time as the required depth, it can reduce the risk of collapse accidents caused by the excavation of the basement, and the construction of the ground floor can be performed simultaneously with the construction of the basement. It is true that it works.

In the reverse casting method as described above, the method of placing concrete structures such as slabs or beams on the ground in the state of stopping the ground and the method of digging the ground, picking the ground, setting up the clubs and installing the formwork, and then placing the concrete It is used. However, in accordance with these methods, in order to start the excavation work of the lower layer after placing concrete, it is necessary to wait until the structure develops its strength through sufficient curing period, which inevitably occurs. In addition, in order to excavate the ground of the lower part of the structure, the formwork and the copper barge were dismantled and moved to the upper floor so as not to interfere with the work of gulting, and the gulting work was carried out, which was cumbersome and difficult in terms of air and cost.

Therefore, in order to solve the above problems, a suspension member such as strand wire or rock bolt is fixed to the upper layer structure, the slab formwork modularized thereto is suspended and supported, and then the concrete frame is placed on the formwork. After the excavation work of the lower layer and then the suspended supporting formwork is lowered as it is, the suspension type unsupported reverse casting method of the method of repeatedly proceeding the lower layer process has been developed and filed by the present inventors, etc. Can be found in Republic of Korea Patent Publication No. 96-34595 or Republic of Korea Patent Registration No. 10-0261775.

Unlike the ordinary reverse casting method, the suspension type reversal method is a method of performing a reverse casting process using a suspension formwork without using a prop, that is, a slab supporting copper bar, and when using this method, a temporary copper bar is used. By not doing so, the construction work is simplified and the cost is reduced, and when applying the normal reversal method, when the work of the floor is performed, no digging work can be performed under the floor. Even during the curing curing period, it is possible to promote the excavation work under the formwork, which has the advantage of shortening the construction period.

In addition, the above method is to produce a regular modular suspension formwork, and after finishing the laying of one floor, it is lowered and utilized as the formwork of the downstairs, so that the cost and time can be saved according to the installation of the formwork. .

However, the modular suspension formwork as described above consists of a standardized frame with no variability, so that the height of the beam to be constructed is the same for every floor to be constructed. Therefore, when the height of the beam needs to be changed as it goes down to the lower floor of the building, the existing modular formwork becomes very cumbersome because the height of the beam must be added or subtracted through a separate work process by applying a plate to the lower part. There is also an increase in air and aerospace for separate work processes. In addition, the conventional modular suspension formwork, which is constructed as described above, is lowered after finishing the casting of one layer and used as the formwork of the lower layer, thereby reducing the cost and time for installing the formwork, and simplifying the process to improve workability. The effect of using the hanging formwork will be halved.

In addition, when the existing modular formwork as described above is used in all floors while moving to the lower floor without a separate work process for adjusting the height of the beam, the height of the beam to be constructed at the step of assembling the formwork is maximum. As the formwork is assembled according to the height of the beams, high beams are formed that do not fit the construction conditions and structural conditions of the building, resulting in waste of materials, air, and construction personnel.

In addition, the height of the beam of the building is formed differently according to the construction situation of each site to be constructed and the use of the building. Since the above-mentioned suspension formwork is composed of a standardized frame, reuse the suspension formwork used in one site in another site. it's difficult. In other words, when the suspended formwork used in one site is reused in another site, the suspended formwork must be completely dismantled and then reassembled and installed. Therefore, it takes time and money for the dismantlement and reassembly of the formwork. Will fall.

Suspended formwork for the unsupported reverse pouring method of the present invention devised to solve the above problems is the lower layer as it is after the installation of the suspended formwork installed in the form of suspended formwork to build the underground structure of the building. Variable height and variable height installed between the upper frame for mounting the slab frame and the lower frame for mounting the beam frame, and the height of the beam is installed at the end of the lower frame. By adjusting and constructing, it satisfies the height of different beams for each site, and also meets the height of beams differently required for each floor in one site, and can carry out the construction without additional work process, thereby reducing air and public expenses, Suspended formwork for unsupported reverse pouring method that enables more efficient construction To provide it for this purpose.

In addition, the suspension formwork for the unsupported reverse pouring method of the present invention, as described above, to form a beam of a reasonable height suitable for the construction situation and structural conditions of the building, material, air, waste wasted due to the beam having a height higher than the existing required And it is another object to provide a suspended formwork for the unsupported reverse casting method that can reduce the construction manpower, and more economically construct the building.

Figure 1a is a partial perspective view showing an example of assembly of the suspension formwork for the unsupported reverse pouring method of the present invention.

Figure 1b is a cross-sectional view showing an example of the installation of the suspension formwork for the unsupported reverse pouring method of the present invention.

Figure 1c is a cross-sectional view showing a variable state of the installation example of the suspension formwork for the unsupported reverse pouring method of the present invention.

Figure 1d is a partial plan view showing an installation example of the suspension formwork for the unsupported reverse pouring method of the present invention.

Figure 2 is a cross-sectional view showing another installation example of the suspension formwork for the unsupported reverse pouring method of the present invention.

Figure 3a is a partial perspective view showing another assembling example of the suspension formwork for the unsupported reverse pouring method of the present invention.

Figure 3b is a cross-sectional view showing another installation example of the suspension formwork for the unsupported reverse pouring method of the present invention.

Figure 3c is a cross-sectional view showing a variable state of another installation example of the suspension formwork for unsupported reverse pouring method of the present invention.

<Explanation of symbols for the main parts of the drawings>

10, 10a, 10b: Suspended formwork for unsupported reverse casting

100, 100a: upper frame 110, 110a: lower frame

200: variable support 210: appearance

220: inner tube 300: upper and lower frame fixture

310: U-bolt 320: fixed bar

400: Deflection PC steel wire 600: Height variable step

610: Height variable bolt 620: Height variable nut

The present invention to achieve the above object is an upper frame configured by assembling the steel beam to mount the slab frame on the top; A lower frame which is constructed by assembling a steel beam so as to mount a beam on the upper part, and spaced apart from the upper frame by a predetermined distance; It is provided between the upper frame and the lower frame to maintain a constant interval, a plurality of variable supports that can be adjusted in length; provides a suspension formwork for a non-inverted back pouring method comprising a.

The present invention consisting of the above configuration is installed in the unsupported reverse casting method of the suspended formwork installed on the lower floor after finishing the installation and curing of one layer, but can be mounted on the slab mold By adjusting the height of the beam with a variable support that can be adjusted between the upper frame and the lower frame that can be mounted on the beam frame, the height of the beam is satisfied to meet the height of the beam, which is different for each construction site. Since the construction can be carried out without work, it can reduce the time and cost due to the reinstallation of the formwork, and the construction of the building can be performed more efficiently. As a result, the technical problem of the present invention can be achieved. .

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings. However, this is intended to enable those skilled in the art to more clearly understand and easily implement the present invention, and are not intended to limit the protection scope of the present invention thereto. Still other technical features and advantages will be more clearly understood by those skilled in the art through the following description of the preferred embodiment according to the present invention.

Figure 1a is a partial perspective view showing an assembly example of the suspension formwork for the non-inverted back pouring method of the present invention, Figure 1b is an installation example of the suspension formwork for a non-inverted back pouring method of the present invention Figure 1 is a cross-sectional view, Figure 1c is a cross-sectional view showing a variable state of the installation example of the suspension formwork for the unsupported reverse pouring method of the present invention, Figure 1d is a suspension formwork for the unsupported reverse pouring method of the present invention ( 10 is a partial plan view showing an example of installation, Figure 2 is a cross-sectional view showing another installation example of the suspension formwork 10a for the unsupported reverse casting method of the present invention, Figure 3a is a non-supported reverse casting of the present invention Partial perspective view showing another assembly example of the suspension formwork 10b for construction method, Figure 3b is a cross-sectional view showing another installation example of the suspension formwork 10b for unsupported reverse pouring method of the present invention, Figure 3c is another description of the suspension formwork 10b for the unsupported reverse pouring method of the present invention. It is sectional drawing which shows the variable state of a tooth.

Suspended formwork (10, 10a, 10b) for the unsupported reverse casting method of the present invention is the upper frame (100, 100a) and assembling the steel beam to mount the slab frame on the top as described above, and It is constructed by assembling the steel beam so as to mount the beam frame, and the lower frame (110, 110a) and the upper frame (100, 100a) are installed to be spaced apart a predetermined distance below the upper frame (100, 100a) Is installed between the lower frame (110, 110a) is a member that maintains a predetermined interval is configured to include a plurality of variable support 200 is adjustable in length.

In this case, as shown in FIGS. 1A, 1C, 2, 3A, and 3C, the variable support 200 is a columnar member in which a hollow is formed. The exterior 210 and the inner side of the exterior 210 are shown. It consists of an inner tube 220 included in. In addition, a screw thread is formed on the outer circumferential surface of the inner tube 220 such that the outer portion 210 is movable up and down along the outer circumferential surface of the inner tube 220, and ultimately, the upper frame 100, 100a and the lower frame 110. , The interval between 110a) is adjusted and the height of the beam is adjusted. Therefore, the suspended formwork (10, 10a, 10b) for the unsupported inverse pouring method of the present invention by varying the height of each beam to suit the construction situation and building of the site, the suspension formwork already used at one site (10, 10a, 10b) can be reused in other sites to improve the versatility, suppress the construction waste material generation, reduce the time and cost of formwork to improve the economics. At this time, the length of the variable support (200) at the initial stage when the suspended formwork (10, 10a, 10b) is installed is constructed in accordance with the maximum beam height of the construction site, if the height of the beam to change as the construction process proceeds The height is controlled and installed with the variable stage 600 to be described later.

In addition, the suspension formwork (10, 10a, 10b) for the unsupported reverse casting method of the present invention is the end of the lower frame (110, 110a) as shown in Figure 1b, 1c, 2, 3b, and 3c Installed in, the height variable bolt 610 and the height variable nut 620 is composed of a plurality of height adjustable variable stage 600 is configured to further comprise. The height variable stage 600 as described above is adjusted to the height variable bolt 610 and the height variable nut 620, as shown in Figures 1c and 3c, the height of the different beam for each floor in one site Satisfies and forms beams of reasonable height for the floor.

In addition, the beams to be constructed as described above by the suspension formwork 10, 10a, 10b for the unsupported reverse pouring method of the present invention is formed as a light beam having a minimum cross-section of the shape suitable for the construction conditions and structural conditions of the building. However, such a lightweight small beam can secure the safety against the bending strength, there is a problem that can not ensure the safety against the sag. Therefore, in order to compensate for this, as illustrated in FIGS. 1B and 3B, the sagging prevention PC steel wire 400 connecting both ends of the upper frames 100 and 100a to one side of the upper frames 100 and 100a is provided. By further installing, it prevents the sagging of the upper frame (100, 100a) and allows construction of a structurally stable building.

In addition, as shown in Figure 1a, Figure 1b, Figure 1c, Figure 2, Figure 3a, Figure 3b, and Figure 3c, the suspension formwork (10, 10a, 10b) for the unsupported reverse casting method of the present invention is the variable support The upper and lower frames penetrate the 200 and the upper end is fixed to the upper frame (100, 100a) and the lower end is configured to further include a vertical frame fixture 300 to support the lower frame (110, 110a). The upper and lower frame fixtures 300 installed as described above connect the upper frames 100 and 100a and the lower frames 110 and 110a, and the upper and lower frames 100, 100a, 110 and 110a are integrated. As a result, a more structurally stable structure can be constructed. In this case, the upper and lower frame fixtures 300 may be used as the U-bolt 310 or the fixing bar 320, and the selection of the upper and lower frame fixtures 300 may be selected and constructed according to the construction situation.

Hereinafter, a preferred installation example of the suspension formwork (10, 10a, 10b) for the unsupported reverse pouring method of the present invention according to the type of the upper and lower frame fixture (300). At this time, the upper frame (100, 100a) and the lower frame (110, 110a) will be described based on the lightweight H-shaped steel.

1A to 1D, when the upper and lower frame fixtures 300 of the suspension formwork 10 for the unsupported reverse pouring method of the present invention are used as the U-bolts 310, the U-bolts 310 are used. Is wrapped around the upper frame 100 and the lower frame 110 and is fixed on the upper outer surface of the upper frame 100, as shown in Figure 1d, to firmly connect the upper frame 100 and the lower frame 110 By integrating the upper 100 and the lower frame 110 to achieve a stable structure.

In this case, the variable support 200 of the present invention, through which the upper and lower frame fixtures 300 pass, requires a pair of variable supports 200 due to the shape of the U-bolt 310 as shown in FIGS. 1A to 1C. do. In addition, in this case, the construction may be performed using a pair of fixing bars 320 as shown in FIG. 2 instead of the U-bolt 310. The type of fixture 300 may be selected according to the construction site. It may be.

In addition, when installing the U-bolt 310 and a pair of variable support 200 as described above, the upper frame 100 and the lower frame 110 for fixing the U-bolt 310 and the variable support 200. On the upper surface and the lower surface of the padding pad 500 is fixed. Accordingly, as shown in FIGS. 1A to 1C, the U-bolt 310 and the variable support 200 are easily penetrated by the plate 500 without cross-sectional loss of the upper frame 100 and the lower frame 110. Is installed.

In addition, the fixing of the U-bolt 310 to adjust the length of the variable support 200 and the height variable stage 600 to form a suitable beam height of the corresponding construction layer and then in the upper outer surface of the upper frame 100 Make it happen.

Therefore, the suspended formwork for the unsupported reverse pouring method of the present invention installed as described above is installed by moving the existing suspended formwork to the lower floor as it is, to form a beam of the appropriate height required in the floor and the building Construct

As shown in Figure 3a to 3c when the upper and lower frame fixtures 300 of the suspension formwork 10b for unsupported reverse pouring method of the present invention as a fixing bar 320, the fixing bar 320 is the upper It is installed through the frame 100a and the lower frame 110a vertically. In this case, the flanges of the upper frame 100a and the lower frame 110a are formed with insertion holes 120 at positions through which the fixing bar 320 penetrates, and the webs of the upper frame 100a and the lower frame 110a The through hole 130 is formed at a position perpendicular to the insertion hole 120 of the flange, thereby facilitating the penetration of the fixing bar 320.

However, as described above, when the insertion hole 120 and the through hole 130 are formed in the upper 100a and the lower frame 110a, cross-sectional loss of the upper and lower frames 100a and 110b is generated, thereby making the structure fragile. do. Accordingly, as shown in FIGS. 3A to 3C, the plate 500 is attached to the upper and lower outer surfaces of the upper and lower frames 100a and 110a in accordance with the position of the insertion hole 120 of the flange and the through hole. The side plate 510 is added to match the position of 130 to minimize the decrease in strength due to cross-sectional loss.

In addition, the upper and lower frames 100a and 110a through the upper and lower frames 100a and 110a, the insertion hole 120 and the through hole 130 and the variable support 200, as shown in FIGS. The fixing bar 320 is fixed at the upper and lower outer surface of the upper frame (100a) and the lower frame (110a), such as the U-bolt 310 described above, to form an integrated and stable structure do. At this time, the fixing bar 320 may be used, such as reinforcing bars, screw bars, and screw rods, and may be selected by a suitable one for the construction situation.

In addition, the fixing of the fixing bar 320 is to adjust the length of the variable support 200 and the height variable stage 600 to form a suitable beam height of the corresponding construction layer and then in the upper outer surface of the upper frame (100a) Make it happen.

Therefore, the suspension formwork for the unsupported reverse pouring method of the present invention installed as described above is installed by moving the suspended formwork to the lower floor as it is, but varying to the appropriate beam height required in the floor Allow construction.

Suspended formwork for the unsupported reverse pouring method of the present invention is installed by moving the suspended formwork installed at the time of construction to the lower floor as it is after installation and curing of one floor, between the upper frame and the lower frame. Variable height adjustable at the end of the lower frame and the adjustable support and the height of the beams are installed by adjusting the height of the beams to meet the height of the different beams by site, and also the height of the beams required differently for each floor in one site The construction can be carried out without any additional work process, which can reduce the air and cost, maximize the use effect of the suspended formwork, and make the building more efficient. Effective in providing

In addition, the suspension formwork for the unsupported reverse pouring method of the present invention, as described above, to form a beam of a reasonable height suitable for the construction situation and structural conditions of the building, material, air, waste wasted due to the beam having a height higher than the existing required And to reduce the construction manpower, there is another effect in providing a suspension formwork for the unsupported reverse pouring method that can be more economical construction of the building.

In addition, the suspension formwork for the unsupported reverse pouring method of the present invention connects the upper frame and the lower frame with the upper and lower frame fixtures installed through the upper and lower frames and the variable support to form an integrated structure, Another effect is to provide a suspension formwork for the unsupported reverse pouring method, which prevents the upper frame from sagging by installing a PC steel wire for preventing sagging of the upper frame by connecting both ends of the upper frame to one side. have.

Claims (6)

An upper frame configured by assembling a steel beam to mount a slab mold on the upper portion; A lower frame which is constructed by assembling a steel beam so as to mount a beam on the upper part, and spaced apart from the upper frame by a predetermined distance; And A member installed between the upper frame and the lower frame to maintain a predetermined interval, the plurality of variable supports being adjustable in length; Suspension dies for the unsupported reverse casting method comprising a. According to claim 1, The end of the lower frame as a member consisting of a height variable bolt and a height variable nut, the length-adjustable suspension formwork for unsupported back-pouring method further comprises a plurality of height variable stages. According to claim 1, wherein the vertical support penetrates up and down and the upper end is fixed to the upper frame and the lower end further comprises a vertical frame fixture for supporting the lower frame string Formula dies. The outer peripheral surface of the inner tube of claim 1, wherein the variable support is a columnar member having a hollow, and is formed of an outer tube and an inner tube included inside the outer tube, and the outer tube is movable up and down along the outer circumferential surface of the inner tube. Suspended formwork for unsupported reverse pouring method, characterized in that the thread is formed. According to claim 1, One side of the upper frame is a suspension type die for the unsupported reverse pouring method, characterized in that a sagging prevention PC steel wire is further connected to connect both ends of the upper frame. According to claim 3, The upper and lower frame fixture is a U-bolt or fixed bar suspension type dies for reverse casting method, characterized in that.