WO2016129826A1 - Safety-enhanced pc truss wall structure, and underground-structure construction method using same - Google Patents

Abstract

The present invention relates to a PC truss wall structure and to a construction method for same. More specifically, the present invention relates to: a safety-enhanced PC truss wall structure whereby construction quality can be substantially improved despite construction being easy because the invention is installed as one body and safety is greatly enhanced so as to negate the risk of safety incidents during construction, by using a truss linking material to interlink a tensioning PC panel and a compressing PC panel, which are erected while facing each other and are assembled so as to form in the centre thereof a space for on-site concrete casting, such that same behave integrally and are installed after having been transported and moved as one body; and an underground-structure construction method using the safety-enhanced PC truss wall structure. According to the present invention, the safety-enhanced PC truss wall structure and the underground-structure construction method using same are advantageous in that safety is substantially enhanced without any risk of property damage or accidents causing injury or death during the construction process, because the truss linking material is used to interlink the tensioning PC panel and the compressing PC panel, which are erected while facing each other and are assembled so as to form in the centre thereof the space for on-site concrete casting, such that same behave integrally and are installed after having been transported and moved as one body, rather than being installed subsequent to each having been separately manufactured and moved. Also, the present invention is advantageous in that construction quality can be substantially improved despite the assembly and installation processes being very straightforward, because the tensioning PC panel and the compressing PC panel behave integrally due to the truss linking material, and are moved and installed as one body. Also, the present invention has the advantage that there is no need for any separate building materials during installation, because the truss linking material is used to interlink the tensioning PC panel and the compressing PC panel, which are erected while facing each other and are assembled so as to form in the centre thereof a space for on-site concrete casting, such that same behave integrally and can adequately withstand external forces as well as wind loads and impact loads during transport, during erection, during upper-member placement and during simultaneous wall and slab casting, and, in addition, the foundations and a PC wall according to the present invention are linked by a lower metal member.

Description

PC Truss Wall Structure with Enhanced Safety and Underground Structure Construction Method

The present invention relates to a PC truss wall structure and its construction method, more specifically, standing up facing each other and in the center portion is a tension PC panel and compression PC panel is assembled to form a space to be cast concrete on-site By interconnecting with truss connecting material, it is integrated and transported and moved in one way, so that safety is greatly strengthened and installed in one way so that there is no risk of safety accident during construction. The present invention relates to a PC truss wall structure with enhanced safety for greatly improving the quality and an underground structure construction method using the same. That is, the present invention is standing up facing each other and at the center part is integrally acted by interconnecting the tension PC panel and the compression PC panel with a truss connecting material to be assembled so that the space is formed so that the site concrete is poured, when transporting, standing When the upper member is mounted, it is able to withstand the external force at the time of wall and slab simultaneous laying, wind load and impact load, and further, the PC wall and the foundation according to the present invention are connected to the lower hardware, so that additional temporary materials are installed at the time of installation. The present invention relates to a safety reinforced PC truss wall structure having an advantage that it is not necessary and an underground structure construction method using the same.

In general, various underground structures consisting of large and large spaces buried in the basement, such as wastewater treatment plants, underground parking lots, and storm water storage tanks, typically form burrow foundations, and use the formwork thereon to form concrete walls on the exterior walls by RC construction. After constructing, install the PC slab or cast-in-place concrete slab on the upper part of the outer wall again.

However, the construction method of the wall structure by the RC method is necessary to install the formwork to form the wall, and the air is delayed because the subsequent process can be carried out only after the concrete is cast and hardened into the form in the field. In addition, there was a problem in that the formwork was to be removed after installing and removing the formwork one by one, and the formwork broke in the process of pouring concrete at the site, causing frequent safety accidents.

In order to solve the problem of the wall structure by the conventional RC method, as shown in Figure 1, a method for constructing a wall structure using a sandwich PC-Wall is disclosed in Patent Registration No. 10-1001208.

The conventional method is to form a groove for standing the outer wall on the upper surface of the base, and then assembled to stand up facing each other at a predetermined interval, the plurality of panels first PC panel and the second PC panel above the groove, In-situ concrete is poured into the space between the opposing panels so that they can be constructed together with the panels to form the PC wall.

However, in the conventional method, since the first PC panel and the second PC panel are produced in separate factories, respectively, each factory is transported to the site and installed, the site concrete is poured into the central space. The disadvantage is that the panels behave only individually and do not exhibit a composite effect that can act as an integral wall, and furthermore, because each PC panel formed in the longitudinal direction in a narrow and long standing groove is temporarily erected, conduction during construction It is a serious problem that can be overturned and cause fatal human accidents.

In addition, in the conventional method, since the first PC panel and the second PC panel, which are individually erected, must form a through hole to prevent each other from spreading outwards, and then install a form tie. There is a problem in that the form tie is broken, and there is still a problem that the leak occurs from the through-hole formed in the inner panel.

Therefore, while solving the problems of the prior art in constructing the walls of the underground structure as described above, safety is enhanced during construction so that there is no risk of human accident or property damage, and the construction period is stable. There is still a need for new PC wall structures that can significantly shorten and further improve construction quality.

The present invention was devised to solve the above problems, the tension PC panel and the compression PC panel forming a large-scale large-scale wall of the underground structure, such as wastewater treatment plant is standing up while facing each other and the site concrete in the center It is assembled to form a space so that it can be poured, in which case the tension PC panel and the compression PC panel is connected to each other by a truss connecting material to be integrally acting, when transporting, standing, when mounting the upper member, wall and Sufficient to withstand external forces, wind loads and impact loads generated at the time of simultaneous laying of slab, and furthermore, it is not necessary to install additional temporary materials by connecting with the lower hardware between the two PC panels and the foundation. Deadly safety accidents during construction by being moved and installed It provides safety reinforced PC truss wall structure and underground construction method using the same, because the safety is greatly strengthened so that there is no fear of the user, and it is installed in one type so that the construction is simple and the construction quality can be greatly improved. It is for that purpose.

In order to achieve the above object, according to a preferred embodiment of the present invention, a plurality of PC panels are spaced apart by a predetermined distance, standing up facing each other and formed in the central portion by the spaced distance, the site concrete is poured into the waste water In a PC wall structure that forms a wall structure of an underground structure such as a treatment plant, the PC wall structure is made of a rectangular plate-shaped precast concrete panel vertically erected on a foundation concrete and having a predetermined thickness, and comprising a plurality of panels. Of the plurality of tension panel 10 and the plurality of tension panel to be installed in parallel with each other, the plurality of tension panel to be installed at a distance corresponding to the predetermined distance, is installed in the vertical direction on the base concrete and predetermined Precast Concrete Panels with Rectangular Plate Shapes A plurality of compression panel 20, the plurality of panels are installed side by side continuously installed, the tension PC panel 10 and the compression PC panel spaced by the predetermined distance is a truss connecting member (30) The truss connecting member 30 is integrally connected to each other, and the truss connecting member 30 includes a first vertical rail 31a embedded in the tension PC panel 10 and an inside of the compression PC panel 20. The second vertical rail 31b embedded in the first and second vertical rails 31b and the first and second vertical rails horizontally connected at predetermined intervals so that the tensioning PC panel and the compression PC panel can be integrated with each other. It is connected in an inclined direction between the plurality of horizontal members 32 installed in the vertical direction and the plurality of horizontal members 32 so as to effectively distribute the load applied to the tension PC panel and the compression PC panel. It includes a plurality of inclined members 33, each PC panel 10, 20 is provided with a plurality of truss connecting member, the one end of the horizontal member of the truss connecting member and the other end of the horizontal member of the truss connecting member adjacent Is provided with a safety reinforced PC truss wall structure, characterized in that it further includes a cross-sectional connection member to minimize the horizontal displacement of the longitudinal external force during transportation, lifting and standing of the PC wall structure.

According to another exemplary embodiment of the present invention, the horizontal member or the inclined member and the first and the second vertical rail are interconnected between the horizontal member or the inclined member and the first and second vertical rails so as to maximize the area joined. 1,2 connection material (35a, 35b) is characterized in that it is additionally installed.

According to another embodiment of the present invention, the tension PC panel 10 is formed higher than the compression PC panel 20 so as to form an outer wall of the wall structure of an underground structure such as a wastewater treatment plant.

According to another embodiment of the present invention, the lifting plate 36 is additionally installed on the upper free end of the tension panel 10 and the compression PC panel 20 so that the lifting cable can be connected, The lifting plate installed on the upper free end of the compression panel 20 is characterized in that additionally serves as a stopper for the PC slab.

According to another embodiment of the present invention, the PC slab is mounted on the upper free end of the PC panel 20 for compression, and the center concrete between both PC panels and on-site concrete is poured on the PC slab simultaneously. It is characterized by losing.

According to another embodiment of the present invention, the tension PC panel 10, the compression PC panel 20 is formed at the same height to each other to form the inner wall of the wall structure of the underground structure, such as waste water treatment plant. It is done.

According to another embodiment of the present invention, the lifting plate 36 is additionally installed on the upper free end of the tension panel 10 and the compression PC panel 20 so that the lifting cable can be connected, The double plate is characterized in that additionally serves as a stopper for the PC slab.

According to another embodiment of the present invention, the PC slab is mounted on the upper free end of the tension PC panel 10 and the compression PC panel 20, the central space between the two PC panels and the PC slab On-site concrete is characterized in that is poured at the same time.

According to another embodiment of the present invention, the lower end of the tension panel 10 and the compression PC panel 20 is bolted to the base by the lower connection hardware 50 so as to resist wind or impact load It is characterized in that it is fastened.

According to another embodiment of the present invention, the truss girder for shear reinforcement of the wall is additionally installed on the inner surfaces of the tension panel 10 and the compression panel 20 facing each other.

According to another embodiment of the present invention, in the method of constructing an underground structure by using a PC truss wall structure, the construction method includes the steps of (a) placing the discarded concrete, and (b) the PC truss wall structure and the wall reinforcement Marking the position of the lower anchor and the base reinforcing bar; (c) placing the base reinforcing bar and wall reinforcement avoiding the interfering part and installing the index plate at the construction joint; and (d) placing and curing the foundation concrete. (E) marking the position of the PC truss wall structure, the lower anchor, and the pillar; and (f) after drilling the lower anchor, the PC truss wall structure according to the above is erected in a vertical direction in one piece. (G) connecting the lower anchor and the PC truss wall structure by using a lower connection hardware, and (h) Group (e) to step (f) is provided with a underground structure construction method using a precast concrete wall truss structure, characterized in that the precast concrete is continuously repeated in a step that is the truss wall structure is provided.

According to another embodiment of the present invention, in order to further reinforce the underground structure using the PC truss wall structure, (i) for the section connecting the plurality of PC panels arranged side by side with each other and the section requiring reinforcement A step of additionally reinforcing bar (P), (j) a step of backing agent and caulking operation and a mortar construction up to a predetermined height from the lower part of the wall for the gap between the plurality of PC panels arranged side by side; (k) pillar members and girder members are installed, and after the slab members are installed on the pillar members, the girder members and the wall members, the slab reinforcing bars are disposed, and (l) the slab member upper part and the tension member. Simultaneously placing field concrete without a construction joint at a central portion formed by the PC panel 10 and the PC panel 20 for compression, and (m) the above (i) to (l) Are successively repeated in boundaries is characterized in that it comprises a step that precast concrete wall truss structure is installed reinforcement.

According to another embodiment of the present invention, the PC slab is mounted on the upper free end of the PC panel of the PC truss wall, and the site concrete is poured simultaneously on the central space between both PC panels and the PC slab. It is characterized by.

Safety reinforced PC truss wall structure and underground structure construction method using the same according to the present invention made of the above object and configuration is standing up facing each other and in the center portion is assembled to form a space to be cast concrete in the field The PC panel and the PC panel for compression are not manufactured and moved separately, but instead of being installed after being connected to each other by truss connecting materials, they are integrally behaved and are installed and transported in one way. The advantage is that safety is greatly enhanced without fear of property damage.

In addition, the present invention has a merit that the assembly and installation process is very simple and greatly improves the construction quality because the PC panel for tensioning and the PC panel for compression are integrally behaved as a truss connecting member and moved and installed in one type. .

In addition, the present invention is further formed in the upper free end of the compression panel for the prevention of falling off haunche can be stable to the slab seating, there is an advantage that the construction is easy and shorten the air.

Furthermore, the present invention is standing up facing each other and because the center part is acted integrally by interconnecting the tension PC panel and the compression PC panel as a truss connecting material is assembled so that the space is formed so that the site concrete is poured, when transporting, When standing up, when mounting the upper member, it has the advantage of being able to withstand the external force, wind load, and impact load generated at the same time when the wall and the slab are placed simultaneously. There is an advantage that safety is secured even if it is not necessary.

In addition, the present invention has the advantage that it is possible to pour from the slab to the wall at once by increasing the PC strength by using the truss connecting material between the tension PC panel and the compression PC panel.

1 is a view of the prior art

2 shows a PC truss wall structure according to the present invention;

3 and 4 are photographs showing the truss connecting member of the PC truss wall structure according to the present invention

5 to 8 show partial cross sections of the PC truss wall structure according to the present invention;

9 is a view showing an upper portion and an enlarged view of the PC truss wall structure according to the present invention

10 and 11 illustrate a lifting plate of a PC truss wall structure according to the present invention.

12 to 16 are views showing each detail of the truss connecting member of the PC truss wall structure according to the present invention

17 is a view showing the longitudinal cross-sectional strength of the PC truss wall structure according to the present invention

18 and 19 are views showing a horizontal transfer method and horizontal deformation of the PC truss wall structure according to the present invention

20 and 21 are diagrams showing the transverse wall strength of the PC truss wall structure according to the present invention

Fig. 22 shows a safety scaffold truss of a PC truss wall structure according to the present invention;

23 is a view showing a method for reinforcing support when carrying a PC truss wall structure according to the present invention;

24 and 25 are views showing the deformation index of the PC truss wall structure according to the present invention

26 is a view showing a slab extension method of a PC truss wall structure according to the present invention.

27 is a view showing the construction sequence of the PC truss wall structure according to the present invention

28 to 36 is a view showing in detail the construction sequence of the PC truss wall structure according to the present invention

37 and 38 are views showing a method of joining between walls of the PC truss wall structure according to the present invention.

39 is a view showing reinforcement installation of PC truss wall structure according to the present invention.

According to a preferred embodiment of the present invention, a plurality of PC panels are spaced apart by a predetermined distance, stand up facing each other, and stand in the space portion formed in the center by the spaced distance, where concrete is poured on the wall structure of an underground structure such as a wastewater treatment plant. In the PC wall structure to form a, the PC wall structure is made of a rectangular plate-shaped precast concrete panel vertically erected on the foundation concrete with a predetermined thickness, a plurality of panels are installed side by side in succession Is installed at a distance corresponding to the plurality of tension panel of the tension panel and the plurality of tension panel for a predetermined distance, the vertical plate-shaped free standing on the foundation concrete with a predetermined thickness Made of cast concrete panels, The plurality of compression PC panels 20, which are continuously installed side by side, the tension PC panels 10 and the compression PC panels spaced apart by the predetermined distance are connected to each other by the truss connecting member 30 to be integrated. The truss connecting member 30 is made of a first vertical rail 31a which is embedded in the tension PC panel 10 and is embedded in the compression PC panel 20. 2 a plurality of vertical rails (31b), the first and second vertical rails are connected in a horizontal direction and installed in a vertical direction at predetermined intervals so that the tensioning panel and the compression panel can be integrated with each other. Horizontal members 32 and a plurality of inclined members 33 connected in an inclined direction between the plurality of horizontal members 32 so as to effectively distribute the loads applied to the tension PC panel and the compression PC panel. include Each of the PC panels 10 and 20 is provided with a plurality of truss connecting members, and one side end of the horizontal member of the truss connecting member and the other end of the horizontal member of the neighboring truss connecting member transports, lifts and stands the PC wall structure. Safety-reinforced PC truss wall structures are provided, in which cross-sectional connectors are additionally included to minimize horizontal displacement of external force in the longitudinal direction.

The terms or words used in this specification and claims are not to be construed as limiting in their usual or dictionary meanings, and the inventors may appropriately define the concept of terms in order to best describe their invention. Based on the principle that it can, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all of the technical idea of the present invention. It should be understood that there may be various equivalents and variations. In addition, in the description of the present invention, if it is determined that related related arts and the like may obscure the gist of the present invention, detailed description thereof will be omitted.

Hereinafter, with reference to the accompanying drawings will be described for the safety reinforced PC truss wall structure and the underground structure construction method using the same according to a preferred embodiment of the present invention.

First, the PC truss wall structure with enhanced safety according to the present invention is a PC TRUSS WALL structure, which is abbreviated PTW. Meanwhile, in the preferred embodiment of the present invention, the truss structure is described as a truss connecting member, but is not limited to the dictionary meaning of the term and excludes the use of other terms within the scope of achieving the same function and purpose. It is not.

First, as shown in FIG. 2, the base concrete according to the present invention is constructed of a rectangular plate-shaped precast concrete panel which is erected in the vertical direction and formed in the same length and has a predetermined thickness, and is formed of a plurality of panels in the longitudinal direction. The tension PC panel 10 and the compression PC panel 20 installed side by side are standing up to form a predetermined interval and face each other, and are assembled to form a space portion at a central portion thereof, and then the site concrete (40) is formed into the space portion. In the PC wall structure which is formed integrally by pouring), the PC wall structure is mutually to be integrally behaved in the space portion of the plurality of tension PC panels 10 and the plurality of compression PC panels 20. A central connection member 30 is included, and the central connection member 30 is embedded in the tension PC panel 10. Is a first vertical rail 31a, a second vertical rail 31b embedded in the compression PC panel 20, the first vertical rail 31a and the second vertical rail 31b. A plurality of horizontal members 32 installed at predetermined top and bottom intervals so as to be connected in a horizontal direction, and a plurality of inclined members 33 connected in an inclined direction between the plurality of horizontal members 32 as basic components. do.

Meanwhile, in the preferred embodiment of the present invention, the tension PC panel 10 and the compression PC panel 20 are described as compression members and tension members as main components, but compression is performed when the PC wall is installed according to the present invention. The member is changed to a tension member after completion, and when installed, the tension member is changed to a compression member after completion. Accordingly, the compression member and the tension member, which are the main components of the present invention, are not limited to the dictionary meanings of the terms, and do not exclude the use of other terms within the scope of achieving the same function and purpose.

Hereinafter, the components according to the present invention will be described in detail. First, the tension PC panel 10 is preferably formed higher in the longitudinal direction than the compression PC panel 20 so as to form an outer wall among the wall structures of the underground structure such as a wastewater treatment plant. However, the tension PC panel 10 and the compression PC panel 20 may be formed at the same height so as to form an inner wall of the wall structure of an underground structure such as a wastewater treatment plant according to a user's purpose.

The tension PC panel 10 and the compression PC panel 20 are formed to face each other, and the inner surface is further provided with a truss girder for shear reinforcement of the wall, the PC truss wall structure and the PC panel and The integrity of the will be formed more firmly.

Among the components of the truss connecting member 30 of the present invention, the first vertical rail 31a is embedded in the tension PC panel 10, and the second vertical rail 31b is installed in the first vertical rail. It is provided in the opposing position of 31a, and is embedded in the inside of the compression PC panel 20.

Meanwhile, the horizontal member 32 of the truss connecting member 30 connects the first and second vertical rails 31a and 31b in a horizontal direction so that the tension PC panel and the compression PC panel can be integrated with each other. Plural numbers are provided in the vertical direction at intervals of. In addition, a plurality of inclined members 33 of the truss connecting member 30 in a direction inclined between the plurality of horizontal members 32 so as to effectively distribute the load applied to the tension PC panel 10 and the compression PC panel 20. Is connected. Meanwhile, the truss connecting member according to the present invention preferably uses a rectangular steel pipe or an L-shaped steel pipe, but uses members of other shapes such as circular steel pipes, H beams, and steel bars within a range capable of achieving the same purpose and function. It is not excluded.

3 and 4, the first vertical rail 31a and the second vertical rail are installed so that the tensioning panel and the compression panel can be integrated with each other to be installed and moved in a single manner. A plurality of horizontal members 32 are provided to connect the 31b in the horizontal direction. At this time, the vertical space of the plurality of horizontal members is preferably formed at equal intervals over the entire length of the tension panel and the PC panel for compression.

On the other hand, the horizontal member 32 is generally formed at equal intervals, but is not limited to being provided at equal intervals by calculating the strength between the tension PC panel 10 and the compression PC panel 20.

On the other hand, the horizontal member 32 is installed in the lower portion of the tension PC panel 10 and the compression PC panel 20 is formed at a narrower interval than the upper and lower intervals, and also installed in the upper portion The horizontal member 32 to be formed is formed at a narrower interval than the other portions in the vertical interval.

That is, the horizontal member 32 is the horizontal member 32 is installed in the upper and lower parts so that the tension PC panel 10 and the compression PC panel 20 is symmetrical with respect to the middle portion of the height direction. It is installed at a narrower interval than the horizontal member 32 is installed in the central portion.

Next, FIGS. 5 to 8 show partial cross sections of the PC truss wall structure. When the PC truss wall structures are continuously installed, a gap between the wall structures, that is, a gap between a plurality of PC panels arranged side by side, is prevented from being exposed to the external environment. Caulk the backing agent to prevent corrosion of the interior.

Next, FIG. 9 is an enlarged view of an upper portion of the PC truss wall structure and a portion where the truss connecting member 30 is coupled. When the wall structures are connected to each other in a horizontal direction, a plate-plate reinforcement (P) is additionally formed in a section for connecting the plurality of PC panels that are arranged in parallel with each other, that is, in a section requiring reinforcement. In order to minimize the length of the joint is formed of a wire mesh is formed of a small diameter.

In addition, with respect to the enlarged view of the truss connecting member 30, a cross-sectional connecting member 34 is further formed between the horizontal member 32 and the horizontal member 32 to minimize horizontal displacement during transportation, lifting, and standing. That is, each of the PC panels 10 and 20 is provided with a plurality of truss connecting members, and one side end of the horizontal member of the truss connecting member and the other end of the horizontal member of the truss connecting member adjacent to each other when carrying, lifting and standing the PC wall structure. Cross section connectors are additionally included to minimize horizontal displacement of the external force in the longitudinal direction. At this time, the reinforcing bar formed at the bottom of the wall is removed after standing.

Meanwhile, the horizontal member 32 to which the cross-sectional connection member 34 is connected is not excluded from being connected to the inclined member 33 according to the purpose of use.

In addition, plate-shaped first and second connecting members 35a and 35b are further formed between the horizontal member 32 and the first and second vertical rails 31a and 31b, and the first and second connecting members 35a and 35b are formed. Maximizes the area to be joined when the horizontal member and the vertical rail are connected. That is, the horizontal member 32 or the inclined member 33 so as to maximize the area to be joined when the horizontal member 32 or the inclined member 33 and the first and second vertical rails 31a and 31b are interconnected. First and second connecting members 35a and 35b may be additionally installed between the first and second vertical rails 31a and 31b.

Next, FIGS. 10 and 11 are views showing the lifting plate 36 formed on the upper portion of the PC truss wall structure. The lifting plate 36 will be described in detail later.

In addition, after the PC truss wall structure is disposed in the letter 'A', the 'A' shaped support bracket is additionally formed to be coupled to each through hole by a bolt and a nut. In this case, the gap of the PC truss wall structure coupled to the gap is cogged using a material such as a waterproof material to prevent corrosion due to exposure to the external environment.

Next, FIG. 12 is a view showing the truss connecting member 30 inside the PC truss wall structure, FIG. 13 is a view showing part 'A' of FIG. 12, and FIG. 14 is a view showing part 'B' of FIG. 12. One drawing. FIG. 15 is a view illustrating a portion 'C' of FIG. 12, and FIG. 16 is a view showing a portion 'D' of FIG. 12. Each part will be explained later.

Meanwhile, as illustrated in FIG. 22, a safety scaffold truss is additionally installed at an outer side of the upper free end of the tension PC panel 10, and the coupling is to be coupled to the tension panel 10 and the safety scaffold truss. Tighten with bolts and inserts. An upper side of the safety scaffolding truss has an advantage that a safety scaffold such as a gang form or an iron plate is additionally formed so that an operator can safely work.

The maximum allowable load of the safety scaffolding truss is designed up to 400kg / ㎡ to enable more safe work.

Next, as shown in FIG. 18, the tension PC panel 10 and the compression PC panel 20 are integrally bound to be lifted and lifted in one form, and the tension PC panel 10 or compression is carried out. The head anchor is additionally embedded in the outer portion of the PC panel 20 by being equally spaced apart from both ends by a predetermined distance so as to be connected to both cables.

The head anchor is formed with an I-shaped cross section, and the inner head portion embedded in the inner portion is formed to have a longer diameter than the outer head portion protruding from the outside to be fixed more firmly.

When the external head portion protruding to the outside of the head yanka and the double cable is connected, as shown in Figure 18 is connected in an inverted Y shape, when the angle of the double cable connected to the head anchor is more than 60 degrees wide balance beam To prevent inclination to either side.

On the other hand, as shown in Figure 19, when the PC truss wall structure is coupled to the lifting cable as described above, the maximum elastic deformation occurs about 0.8mm, when the lifting load ratio of the truss member during lifting is generated less than about 0.3 It has the advantage of being more secure.

Next, as shown in FIG. 20, the tension PC panel 10 and the compression PC panel 20 are integrally bound together so that the tension PC panel 10 and the compression PC can be erected in one manner. On the upper free end of the panel 20, a double iron plate, that is, a double plate 36 is formed by joining a truss so that a double cable is connected. That is, a lifting plate 36 is additionally installed on the upper free end of the tensioning panel 10 and the compression panel 20 so that the lifting cable can be connected, the wall of the underground structure such as wastewater treatment plant When the tension PC panel 10 is formed higher than the compression PC panel 20 so as to form an outer wall of the structure, the double-sided plate installed on the upper free end of the compression PC panel 20 is PC. In addition, it will serve as a stopper for the slab (FIG. 11). In addition, in order to form the inner wall of the wall structure of the underground structure, such as wastewater treatment plant, the tension PC panel 10, the compression PC panel 20 is formed at the same height, the tension PC panel 10 ) And a lifting plate 36 is additionally installed on the upper free end of the compression PC panel 20 so that the lifting cable can be connected, and both lifting plates serve as stoppers for the PC slab. (FIG. 10). On the other hand, the lower end portions of the tension PC panel 10 and the compression PC panel 20 are provided with breakage prevention acupressure pads and L-shaped steels to prevent the edges from being broken when the PC truss wall structure is erected on the wall. It is additionally provided.

Meanwhile, as shown in FIG. 21, the maximum elastic deformation of the center portion of the PC truss wall structure is generated by about 3.0 mm by connecting the double cable to the double steel plate formed as described above, and the yield ratio of the truss member at the time of lifting is about 0.7. There is an advantage that occurs less structurally safer.

On the other hand, the lifting plate is preferably formed on one side of the upper free end of the PC panel 10 and the compression PC panel 20, but is formed on both sides within the range to achieve the same purpose and function It does not rule out losing.

The lower ends of the tension PC panel 10 and the compression PC panel 20 are coupled to the base portion, where bolt fixing is preferred, but other fixing means within a range that can achieve the same purpose and function. It does not preclude being fixed. That is, the lower ends of the tension PC panel 10 and the compression PC panel 20 are bolted to the base by the lower connection hardware 50 so as to resist wind loads or impact loads.

Meanwhile, the PC truss wall structure is transported as a single structure, and the support reinforcement structure is disposed in a predetermined internal space in order to prevent the wall structure from being deformed during transport in the horizontal direction. In addition, when loaded and transported in the truck, a lumber piece is additionally disposed at a portion in contact with the drop of the truck in order to prevent deformation by external impact.

Next, FIGS. 24 to 25 illustrate the deformation index of the PC truss wall structure, and the external force applied by the external stress in the transverse direction gradually increases from the lower side to the upper side.

On the other hand, as shown in Figure 26, the slab structure (S) is seated on the upper free end of the PC panel 20 for compression, in preparation for when it is not seated due to the insufficient length of the slab structure, Slab reinforcement plate is additionally installed on the upper free end.

In addition, the reinforcing bars are constructed by additionally placing a PC plate connecting horizontal reinforcing bars and horizontal reinforcing steel bars so that the reinforcing bars are additionally disposed inside the tensioning PC panel 10 and the compression PC panel 20. The PC-connected horizontal reinforcing bar is applied to one half of the entire height.

37 is a view showing a step of reinforcing the T-shaped structure using the reinforcing bars, Figure 38 is a view showing a step of reinforcing the structure of the cross section using the reinforcing bars, each Reinforcing bars are arranged to intersect with each other so as to be more firmly coupled between the wall structures.

Meanwhile, the components of the PC truss wall structure, the first and second connection members, the horizontal member spacing, the safety footing, the step length method, and the like may be further added or omitted depending on the construction purpose and construction method. The number of installations is not excluded from being added or omitted.

Meanwhile, referring to FIG. 27, in the method of constructing an underground structure using a PC truss wall structure according to the present invention, the construction method includes the steps of (a) pouring concrete into (b) PC truss wall; Marking the location of structures, wall reinforcements, lower anchors and foundation reinforcing bars; (c) reinforcing the foundation reinforcing bars and wall reinforcement avoiding the interfering parts; Placing and curing, (e) marking the PC truss wall structure, the lower anchor and the column position, and (f) drilling the lower anchor and then the PC truss wall structure having the above components as one unit. In the vertical direction, the step of being installed after being moved integrally to the installation position, and (g) the lower anchor and the PC truss wall structure using the lower connection hardware And which is connected step, (h) wherein (e) to (f) step is a step in the construction which is continuously repeated in PC truss wall structure is provided.

In addition, in order to further reinforce the underground structure using the PC truss wall structure for the construction method, (i) reinforcing bar (P) is further added to the plate-plate connection and the required section, that is arranged side by side Reinforcing bar (P) is additionally added to the section connecting the plurality of PC panels to each other and the section requiring reinforcement, and (j) a backup agent and caulking operation for the gap between the walls and the predetermined from the bottom of the wall Mortar construction up to the height, backing agent and caulking work for the gap between the plurality of PC panels arranged side by side and mortar construction up to a predetermined height from the bottom of the wall, and (k) pillar member and girder After the member is installed and the slab member is installed above the pillar member, the girder member and the wall member, reinforcing the slab reinforcement, and (l) Placing the site concrete on the upper part of the slab member and the central part formed by the tension PC panel 10 and the compression PC panel 20, and (m) the steps (i) to (l) are successively repeated. The PC truss wall structure is reinforced and installed.

At this time, according to a preferred embodiment of the present invention, the PC slab is mounted on the upper free end of the PC panel of the PC truss wall, the site concrete is placed on the PC slab and the central space between the two PC panels at the same time It may be done.

Next, FIGS. 28 to 36 are views showing the construction method in detail, and as shown in FIG. 28, a crane is connected to an upper side of the PC truss wall structure, and a rubber support is disposed on the lower side to further stand the wall structure. When it is done, it is prevented as much as possible from being damaged.

Next, as shown in FIGS. 29 and 30, a temporary support is additionally disposed at a predetermined position of one side end of the PC truss wall structure to prevent the wall structure from falling down, as shown in FIG. 31. In order to prevent the gap between the wall structures from being exposed to the external environment, a caulking agent is filled in the outside, and a backing agent is additionally filled in the inside and double-filled.

Next, when the PC truss wall structure is completely fixed from the ground as shown in FIG. 32, after disassembling the temporary support, the sight plate and the wall on the upper side of the wall structure as shown in FIGS. 33 and 34. The upper and slab rebars are further assembled. Shear reinforcements and cast iron bars are also arranged.

When the above steps are completed, as shown in FIG. 35, the site concrete is additionally poured between the tensioning PC panel 10 and the compression PC panel 20, and as shown in FIG. Waterproofing work is carried out between the gaps.

In the above method, in order to mark the installation position of the PC truss wall structure in the foundation concrete placing and curing step (d step), the position of the feed line and the truss interference part is additionally displayed.

On the other hand, in the base concrete, the lower fixing bolt is additionally installed on the lower connection hardware 50 so as to be resistant to wind load or impact load at the lower end of the PC truss wall structure, thereby fixing the rigidity more securely. There is this.

When the installation is completed as described above, the waterproof truss wall structure is further supplemented to the outside of the PC truss wall structure, wherein the waterproof truss is joined to the parts and the ground to be joined to the slab structure and additionally each PC truss wall structure is bonded to each other In addition to the construction to be made, there is an advantage that can further increase the internal watertightness and durability.

Meanwhile, FIG. 39 is a view illustrating a sleeve installation procedure of the PC truss wall structure. In the first step, the assembly of the wall is performed, and in the second step, the sleeve is installed after removing the exposed steel bars exposed to the outside. In step 4, the reinforcement is installed and the position of the sleeve is fixed. In step 4, the mold is installed and the concrete is poured using the ready-mixed concrete. In step 5, the mold is removed and the surroundings are cleaned up to complete the installation.

<Description of Symbols for Main Parts of Drawings>

10: tension PC panel 20: compression PC panel

30: truss connecting member 31a, 31b: first, second vertical rail

32: horizontal member 33: inclined member

40: field concrete

As described above, the present invention connects the first and second vertical rails embedded in the PC panel with the truss connecting member formed after arranging the horizontal member and the inclined member between the PC panels in the form of the truss, and using the inverter. It is produced as an integral type of internal and external walls. Therefore, the PC truss wall structure according to the present invention is sufficiently resistant to various external forces such as when carrying, standing, wind load, impact load, mounting of the upper member, and simultaneous placing of walls and slabs, and does not require a separate temporary material such as a support wall. There is no limitation of thickness and height, and there is an advantage in that it can be applied not only to the outer wall of the structure but also to the inner wall and the double wall. In addition, the present invention has the advantage of having a structure that can be poured at the same time without the wall and slab. Accordingly, the foregoing embodiments are to be understood in all respects as illustrative and not restrictive, the scope of the invention being indicated by the claims that follow, rather than the foregoing detailed description. And it is to be understood that all changes and modifications derived from the equivalent concept as well as the meaning and scope of the claims are included in the scope of the present invention.

Claims (13)

1. In the PC wall structure in which a plurality of PC panels are spaced apart by a predetermined distance, standing up facing each other and formed in the center portion by the spaced distance, the site concrete is poured to form a wall structure of an underground structure such as a wastewater treatment plant. The PC wall structure is

   A plurality of tension panel PCs 10, which are vertically erected on the foundation concrete and formed of rectangular plate-shaped precast concrete panels having a predetermined thickness, in which a plurality of panels are continuously installed side by side;

   It is installed spaced apart by a predetermined distance at a position corresponding to the plurality of tension panel PC, and is made of a rectangular plate-shaped precast concrete panel standing vertically on the foundation concrete with a predetermined thickness, a plurality of panels A plurality of compression panel 20 for compression is installed in parallel with each other,

   The tension PC panel 10 and the compression PC panel spaced apart by the predetermined distance are connected to each other by the truss connecting member 30 to be integrally behaved, and the truss connecting member 30 is the tension PC panel 10. The first vertical rail 31a embedded in the interior of the press, the second vertical rail 31b embedded in the compression PC panel 20, the tension PC panel and the compression PC. A plurality of horizontal members 32 which connect the first and second vertical rails in a horizontal direction so that the panels can be integrated with each other and are installed in a vertical direction at predetermined intervals, the tension PC panel and the compression PC panel It includes a plurality of inclined members 33 are connected in an inclined direction between the plurality of horizontal members 32 to effectively distribute the load applied to the,

   Each of the PC panels 10 and 20 is provided with a plurality of truss connecting members, and one side end of the horizontal member of the truss connecting member and the other end of the horizontal member of the truss connecting member adjacent to each other have a length during transport, lifting and standing of the PC wall structure. Safety-reinforced PC truss wall structure, characterized in that the cross-section is further included to minimize the horizontal displacement of the external force in the direction
2. The method of claim 1,

   First and second connecting members 35a and 35b between the horizontal member or the inclined member and the first and second vertical rails to maximize the area to be joined when the horizontal member or the inclined member and the first and second vertical rails are interconnected. Enhanced safety PC Truss wall structure, characterized in that the installation
3. The method of claim 1,

   The safety PCC truss wall structure is characterized in that the tension PC panel 10 is formed higher than the compression PC panel 20 so as to form an outer wall among the wall structures of underground structures such as a wastewater treatment plant.
4. The method of claim 3, wherein

   A lifting plate 36 is additionally installed on the upper free end of the tensioning panel 10 and the compression panel 20 so as to be connected to the lifting cable, the compression panel 20 of the Double-mounted plate installed on the upper free end is a safety reinforced PC truss wall structure, characterized in that additionally serves as a stopper for the PC slab
5. The method of claim 4, wherein

   The PC slab is mounted on the upper free end of the PC panel 20 for compression, and the center concrete between the two PC panels and on-site concrete are poured on the PC slab simultaneously. PC Truss Wall Structure
6. The method of claim 1,

   Safety-reinforced PC truss wall, characterized in that the PC panel for tension 10, the compression PC panel 20 is formed at the same height to form the inner wall of the wall structure of the underground structure, such as waste water treatment plant structure
7. The method of claim 6,

   A lifting plate 36 is additionally installed on the free end of the tension PC panel 10 and the compression PC panel 20 so that a lifting cable can be connected, and the lifting plate is a stopper for a PC slab. Safety-enhanced PC truss wall structure characterized by an additional role
8. The method of claim 7, wherein

   The PC slab is mounted on the upper free end of the tension panel 10 and the compression PC panel 20, and the concrete is poured on the center space between the PC panels and the PC slab simultaneously. Safety reinforced PC truss wall structure, characterized in that
9. The method of claim 1,

   The lower end of the tension PC panel 10 and the compression PC panel 20 is bolted to the base by the lower connection hardware 50 so as to resist wind load or impact load Reinforced PC Truss Wall Structure
10. The method of claim 1,

    Safety reinforced PC truss wall structure, characterized in that the truss girder for shear reinforcement of the wall is additionally installed on the inner surface of the tension PC panel 10 and the compression PC panel 20 facing each other.
11. A method of constructing an underground structure using a PC truss wall structure according to any one of claims 1 to 10, wherein the construction method

    (a) placing the discarded concrete,

    (b) indicating the position of the PC truss wall structure and the wall reinforcement, the lower anchor and the foundation reinforcement;

    (c) reinforcing the basic reinforcing bars and wall reinforcing bars and installing the index plate on the construction joint;

    (d) placing and curing the foundation concrete;

    (e) marking the location of the PC truss wall structure, the bottom anchor, the column,

    (f) after perforating the lower anchors, the PC truss wall structure is erected in a vertical direction in one manner as a unit, and is integrally moved to the installation position and then installed;

    (g) bolting the lower anchor and the PC truss wall structure using the lower connecting hardware;

    (h) The method of constructing underground structures using PC truss wall structure, characterized in that the (e) to (f) step is repeated continuously to install the PC truss wall structure.
12. The method of claim 11,

    In order to further reinforce the underground structure using the PC truss wall structure,

    (i) reinforcing bars P are additionally arranged for the section connecting the plurality of PC panels arranged side by side to each other and the section requiring reinforcement;

    (j) a step of backing and caulking and mortaring from a lower part of the wall to a predetermined height for a gap between the plurality of PC panels arranged side by side;

    (k) a pillar member and a girder member are installed, and after the slab member is installed on the pillar member, the girder member and the wall member, reinforcing the slab reinforcement,

    (l) simultaneously placing the field concrete without a construction joint at the center of the slab member and the central part formed by the tension PC panel 10 and the compression PC panel 20;

    (m) the method of constructing underground structures using a PC truss wall structure, characterized in that the steps (i) to (l) are successively repeated so that the PC truss wall structure is reinforced and installed.
13. The method of claim 12,

    The PC truss wall structure is characterized in that the PC slab is mounted on the upper free end of the PC truss wall of the PC truss wall, and on-site concrete is poured simultaneously on the central space between the two PC panels and the PC slab. Underground Structure Construction Method

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