KR102100330B1 - The underground wall structure and construction method thereof - Google Patents

Abstract

The present invention relates to an underground wall structure and a construction method of a new structure that can be effectively constructed the outer wall of the underground structure.
According to the underground outer wall structure according to the present invention, the base 20 is provided on the bottom surface of the pit 10 and is provided with a plurality of foundation rebars 21 extending upwards to correspond to the position where the outer wall is formed, The main reinforcing bar (25) fixed to the basic reinforcing bar (21), and the inner and outer PC panels (31, 32) fixed to the upper surface of the base (20) so as to be located on the inner and outer sides of the main reinforcing bar (25), and one side of the The PC girder 60 constructed to be connected to the inner PC panel 31, the PC slab 70 disposed on the upper side of the PC girder 60, and the PC between the inner and outer PC panels 31 and 32 Consisting of the concrete (80) cast to cover the top surface of the slab (70), there is no need to install a separate form, the construction is easy, there is an advantage that can reduce the time and manpower required for construction.

Description

Underground outer wall structure and construction method {THE UNDERGROUND WALL STRUCTURE AND CONSTRUCTION METHOD THEREOF}

The present invention relates to an underground wall structure and a construction method of a new structure that can be effectively constructed the outer wall of the underground structure.

In general, when constructing a large-scale underground structure such as a rainwater storage facility, a foundation is installed on the bottom surface of a pit formed on the ground, and after reinforcing the reinforcing bar according to the position of the outer wall on the periphery of the constructed foundation, on the inside and outside of the reinforcing bar. Each formwork was used, and a method of pouring concrete into the formwork was used.

However, in the case of such a method, since the formwork is installed on the outside of the reinforcing bar, and the formwork is cured by pouring concrete inside the formwork, the formwork must be removed, resulting in a problem that a long working time and a lot of manpower are required. . Therefore, there is a need for a new method to solve this problem.

On the other hand, recently, a construction method for constructing a building using a precast concrete panel (PC panel) manufactured in a factory has been developed and widely used. The PC panel is manufactured by placing concrete in the mold and hardening it after reinforcing the reinforcing bar inside the mold.

Patent No. 10-0462236

The present invention is to solve the above problems, and an object of the present invention is to provide a new structure of an underground wall structure and a construction method to effectively construct an outer wall of an underground structure.

The present invention for achieving the above object, as a structure for constructing an underground outer wall, is installed on the bottom surface of the pit 10, the upper surface of the plurality of basic rebars extending upward to correspond to the position where the outer wall is formed (21 ) Is provided with a base 20, the main reinforcement 25 fixed to the basic reinforcing bar 21, and the inner and outer PC panels fixed to the upper surface of the base 20 so as to be located on the inner and outer sides of the main reinforcement 25 (31,32), a PC girder (60) constructed so that one side is connected to the inner PC panel (31), a PC slab (70) disposed on the upper side of the PC girder (60), and the inner and outer PC An underground outer wall structure is provided, which includes a concrete (80) cast to cover between the panels (31, 32) and the top surface of the PC slab (70).

According to another feature of the present invention, observation holes 34 penetrating the inner and outer side surfaces are formed under the inner and outer PC panels 31 and 32, and coupled to the observation holes 34, the inner and outer PC panels ( 31, 32) the sealing member (34a) for preventing the concrete 80 filled between the observation hole (34) from flowing out, and the inside and outside of the PC panel (31, 32) the observation hole The LED lamp 35 is provided so as to be close to the inner end of the (34), and provided on the outer surface of the inner and outer PC panels (31,32) and the power socket 36 connected to the LED lamp 35, the It further includes a power supply 37 that is detachably coupled to the power socket 36 to apply power to the LED lamp 35, and the sealing member 34a is made of a transparent synthetic resin material, and the inside and outside PC When pouring the concrete 80 between the panels 31 and 32, the power supply 37 is connected to the power socket 36 so that the LED lamp 35 is turned on. The underground structure, characterized in that the outer wall so that the concrete 80 between the outer PC panel 31 and 32 within the through observation hole (34) to visually monitor the state in which the pouring is provided.

According to another feature of the present invention, the lower bracket is provided on the lower outer surface of the inner and outer PC panels 31 and 32 and fixed to the base 20 to support the lower ends of the inner and outer PC panels 31 and 32. (42), the upper and lower brackets (41) coupled to the top of the inner and outer PC panels (31,32) to mutually fix the upper ends of the inner and outer PC panels (31,32), the upper bracket (41 ) Extends in the front-rear direction, and the through holes 41a are formed to penetrate the upper and lower surfaces at both ends, and both ends of the inner and outer PC panels 31 and 32 are fixed by fixing bolts 41b penetrating the through holes 41a. An underground outer wall structure is provided, which is fixedly coupled to the upper surface of the wall.

According to another feature of the present invention, the inner and outer PC panels 31 and 32 are formed with a plurality of coupling holes 33 formed to penetrate the front and rear surfaces, and are coupled to penetrate the coupling holes 33 and at one end The head 51a is formed, and the other end further includes a screw shaft 51 formed with a thread 51b and a nut member 52 screwed to the thread 51b of the screw shaft 51. 20) the main reinforcing bar (25), and after placing the inner and outer PC panels (31,32) on both sides of the main reinforcing bar (25), the coupling holes (33) formed in the inner and outer PC panels (31,32) ) After inserting and screwing the screw shaft (51), the nut member (52) is coupled to the thread (51b), and when the concrete (80) is placed between the inner and outer PC panels (31,32) An underground outer wall structure is provided, characterized in that the PC panels 31 and 32 can be fixed so as not to be pushed outward.

According to another feature of the present invention, the lower surface of the inner and outer PC panels 31 and 32 is formed with a concave groove 39 that is open to the inner and outer sides of the inner and outer PC panels 31 and 32 to be concave upward, It is provided on the inner lower side of the main reinforcing bar 25, the air is stored in the air bag 90, and is provided on one side of the air bag 90, the inner and outer PC panels (31, 32) through the concave groove (39) The exhaust pipe 100 extending outwardly and the display unit 110 provided at the outer end of the exhaust pipe 100 are further provided, and the concrete 80 is placed between the inner and outer PC panels 31 and 32. When the airbag 90 is pressed by the air, the underground outer wall structure is provided, characterized in that air stored in the airbag 90 is configured to be discharged to the display unit 110.

According to another feature of the invention, the display unit 110 is composed of a cylindrical shape extending in the vertical direction and connected to the outer end of the exhaust pipe 100 of the synthetic resin cylinder 111, and the cylinder 111 The piston 112 provided to be elevated in the interior of the piston, and through the upper surface of the cylinder 111 from the upper surface of the piston 112, the display bar 113 extended to the upper side of the cylinder 111, and the cylinder ( The inside of 111) is provided so that the lower end is in close contact with the upper surface of the piston 112 includes a compression coil spring 114 to press the piston 112 downward, the cylinder 111 is the airbag 90 When the air stored in the interior is supplied to the interior through the exhaust pipe 100, the piston 112 is configured to rise to the top dead center, and the scale 113a is displayed on the display bar 113 to display the piston 112. When raised, the scale 113a is exposed to the upper side of the cylinder 111 It is provided with an underground wall structure characterized in that the operator is configured to be able to check this with the naked eye.

According to another feature of the present invention, a step of forming a pit 10 by excavating the ground, and a plurality of foundation rebars 21 extending upwardly to correspond to the location of the outer wall on the bottom surface of the pit 10 Placing the provided foundation 20, assembling the inner PC panel 31 inside the foundation reinforcing bar 21, and fixing the main reinforcing bar 25 to the reinforcement 21 Step, the outer PC panel 32 is disposed on the outside of the main reinforcing bar 25, and using the upper and lower brackets 42 and the screw shaft 51 and the nut member 52, the inner and outer PC panels 31 and 32 The step of fixing, constructing a PC girder 60 so that one side is connected to the inner PC panel 31, and placing the PC slab 70 on the upper side of the PC girder 60, and It includes a step of pouring and curing the concrete 80 to cover the top surface of the PC slab 70 and between the inner and outer PC panels (31,32). This way underground curtain wall construction is provided with.

According to another feature of the present invention, when pouring concrete 80 between the inner and outer PC panels 31 and 32, the power supply 37 is connected to the power socket 36 and the LED lamp 35 ) Is provided, and the underground exterior wall construction method is provided by visually confirming whether the concrete 80 is filled to the lower side of the space between the PC panels through the observation hole 34.

On the other hand, since the description of the technology disclosed in this specification is merely an embodiment for structural or functional description, the scope of rights of the disclosed technology should not be interpreted as being limited by the embodiments described in the text. That is, since the embodiment can be variously changed and have various forms, it should be understood that the scope of rights of the disclosed technology includes equivalents capable of realizing the technical idea. In addition, the purpose or effect presented in the disclosed technology does not mean that a specific embodiment should include all or only such an effect, and thus the scope of rights of the disclosed technology should not be understood as being limited thereby.

In addition, the meaning of the terms described in the present invention should be understood as follows. Terms such as “first” and “second” are for distinguishing one component from other components, and the scope of rights should not be limited by these terms. For example, the first component may be referred to as a second component, and similarly, the second component may be referred to as a first component.

Furthermore, when a component is said to be "connected" to another component, it may be understood that other components may exist in the middle, although they may be directly connected to other components. On the other hand, when a component is said to be “directly connected” to another component, it should be understood that no other component exists in the middle. On the other hand, other expressions describing the relationship between the components, that is, “between” and “between” or “adjacent to” and “directly neighboring to” should be interpreted similarly.

Singular expressions are to be understood as including plural expressions unless the context clearly indicates otherwise, and terms such as “comprises” or “having” refer to the features, numbers, steps, actions, components, parts or components described. It is to be understood that a combination is intended to be present, and should not be understood as pre-excluding the presence or addition possibility of one or more other features or numbers, steps, operations, components, parts or combinations thereof.

All terms used herein have the same meaning as commonly understood by a person skilled in the art to which the present invention pertains, unless otherwise defined. The terms defined in the commonly used dictionary should be interpreted to be consistent with meanings in the context of related technologies, and cannot be interpreted as having ideal or excessively formal meanings unless explicitly defined in the present invention.

According to the underground outer wall structure according to the present invention, the foundation 20 is provided on the bottom surface of the pit 10 and is provided with a plurality of foundation reinforcement 21 extending upwards to correspond to the position where the outer wall is formed, The main reinforcing bar (25) fixed to the basic reinforcing bar (21), and the inner and outer PC panels (31, 32) fixed to the upper surface of the base (20) so as to be located on the inner and outer side of the main reinforcing bar (25), and one side of the The PC girder 60 constructed to be connected to the inner PC panel 31, the PC slab 70 disposed on the upper side of the PC girder 60, and the PC between the inner and outer PC panels 31 and 32 It is composed of concrete (80) cast to cover the top surface of the slab (70), and there is no need to install a separate formwork, so it is easy to construct, and has the advantage of reducing time and manpower required for construction.

1 is a side cross-sectional view showing an underground outer wall structure according to the present invention,
Figure 2 is a plan view showing an underground outer wall structure according to the present invention,
3 to 8 is a reference diagram showing a construction method of the underground outer wall structure according to the present invention,
9 is a side cross-sectional view showing a second embodiment of the underground outer wall structure according to the present invention,
10 is an enlarged view showing a main part of a second embodiment of the underground outer wall structure according to the present invention;
11 and 12 is a reference diagram showing the action of the second outer basement structure according to the present invention,
13 and 14 is a view showing a support member of the underground outer wall structure according to the present invention,
15A and 15B are perspective views showing a second embodiment according to the present invention;
16 is a plan view showing a coupling means of an underground outer wall structure according to the present invention.

Hereinafter, the present invention will be described in detail based on the attached exemplary drawings.

1 to 8 show the underground outer wall structure according to the present invention, which illustrates the construction of the outer wall of the rainwater reservoir.

According to this, the underground outer wall structure according to the present invention is installed on the bottom surface of the pit 10, as shown in Figures 1 and 2, the upper surface is provided with a plurality of foundation reinforcement 21 to extend upward ( 20), the main reinforcing bar (25) fixed to the basic reinforcing bar (21), and the inner and outer PC panels (31, 32) fixed to the upper surface of the base (20) to be located on the inner and outer side of the main reinforcing bar (25), The upper and lower brackets 42 provided at upper and lower ends of the inner and outer PC panels 31 and 32, and the screw shaft 51 and the screw shaft 51 coupled to penetrate the inner and outer PC panels 31 and 32, respectively. A nut member 52 coupled to the end, a PC girder 60 constructed so that one side is connected to the inner PC panel 31, and a PC slab 70 disposed above the PC girder 60, It is composed of concrete 80 poured between the inner and outer PC panels 31 and 32 and the upper surface of the PC slab 70.

Meanwhile, the outer PC panel 32 is formed higher than the inner PC panel 31.

In more detail, the pit 10 is to dig the ground to the required area and depth.

As shown in FIG. 3, the foundation 20 is constructed by placing the inner rebar 22 on the bottom surface of the pit 10 and pouring and curing the concrete to form a flat surface.

The foundation reinforcing bar 21 is arranged to correspond to the position where the outer wall is formed, the lower end is fixed to the inner reinforcing bar 22 inside the foundation 20, and the upper end is configured to extend to the upper surface of the foundation 20 for a long time. Becomes, it serves to support the main reinforcing bar (25).

Therefore, the inner rebar 22 is reinforced on the bottom surface of the pit 10, and after fixing the lower end of the basic reinforcing bar 21 to the inner reinforcing bar 22, the inner reinforcing bar on the bottom surface of the pit 10 It is possible to construct the foundation 20 by pouring concrete so that 22) is buried.

The main reinforcing bar 25 is located between the inner and outer PC panels 31 and 32, and as described later, concrete 80 is placed between the inner and outer PC panels 31 and 32, ) Is embedded in the inside to function to reinforce the concrete (80).

The inner and outer PC panels 31 and 32 are manufactured to have a height corresponding to the height of the outer wall to be constructed, and are disposed to be in close contact with the inner and outer side surfaces of the main reinforcing bar 25 such that a plurality of them extend in mutual directions. The coupling hole 33 to which 51) is coupled is formed to penetrate the inner and outer side surfaces.

At this time, the coupling hole 33 is formed so that a plurality of spaced apart from each other in the vertical and lateral directions, when the inner PC panel 31 and the outer PC panel 32 are coupled to the inner and outer sides of the main reinforcing bar 25, the inner and outer sides The coupling holes 33 formed in the PC panels 31 and 32 are arranged to be positioned in a straight line with each other.

In addition, observation holes 34 penetrating the inner and outer side surfaces are formed under the inner and outer PC panels 31 and 32, and the observation holes 34 are filled between the inner and outer PC panels 31 and 32. A closed member 34a that prevents the concrete 80 from flowing out of the observation hole 34 is combined.

The observation hole 34 is formed to form a circle with a diameter of about 3 cm. The sealing member 34a is made of a synthetic resin material having high strength, such as PC, and has a circular shape having a diameter corresponding to the observation hole 34 and is coupled to the observation hole 34 to observe the observation hole 34 It is configured to seal.

In addition, the inner and outer PC panel (31,32) of the LED lamp 35 on the inner surface, and the outer surface of the inner and outer PC panel (31,32) is connected to the LED lamp 35, the power supply 37 ) Is provided with a power socket 36 that can be connected.

The LED lamp 35 is provided on the inner surface of the inner and outer PC panels 31 and 32 so as to be closer to the lower side of the inner end of the observation hole 34, concrete into the inner and outer PC panels 31 and 32. When the LED lamp 35 is turned on when pouring 80, the inner space of the inner and outer PC panels 31 and 32 is illuminated by light irradiated from the LED lamp 35, as shown in FIG. .

The power socket 36 is connected to the LED lamp 35 through a power line 36a. The power supply 37 is provided with a plug 37a detachably coupled to the power socket 36 at the front end, and a battery connected to the plug 37a is provided inside, and the plug 37a is provided. When is coupled to the power socket 36, electricity stored in the battery is applied to the LED lamp 35, so that the LED lamp 35 is turned on.

The lower bracket 42 is made of a high-strength metal material, and is fixed to the lower outer surface of the inner and outer PC panels 31 and 32 and the upper surface of the base 20, and the inner and outer PC panels are bolted 42a. The lower ends of (31, 32) are fixed to the upper surface of the foundation (20).

The upper bracket 41 is to use a metal plate extending in the front-rear direction, the through-hole 41a is formed to penetrate the upper and lower surfaces at both ends, and both ends are provided by fixing bolts 41b penetrating the through-hole 41a. The inner and outer PC panels 31 and 32 are fixedly coupled to the upper surfaces.

Thus, as shown in Figure 5, after placing the inner and outer PC panels 31 and 32 on the upper surface of the base 20 so as to be located on the inner and outer side of the main reinforcement 25, the lower bracket 42 By fixing the lower ends of the inner and outer PC panels 31 and 32 to the base 20, and fixing the upper ends of the inner and outer PC panels 31 and 32 to each other by using the upper bracket 41, The PC panels 31 and 32 can be fixed to maintain a constant distance from each other.

The screw shaft 51 is formed with a head 51a at one end and a thread 51b at the other end, penetrating through the coupling hole 33 between the inner PC panel 31 and the outer PC panel 32. The screw thread (51b) is coupled to protrude to the outside of the outer PC panel (32).

The nut member 52 is screwed to the thread 51b of the screw shaft 51 so as to be located outside the outer PC panel 32, and when the nut member 52 is tightened, the head of the screw shaft 51 ( 51a) and the nut member 52 presses the outer surfaces of the inner and outer PC panels 31 and 32 inwards, thereby placing concrete 80 between the inner and outer PC panels 31 and 32. The PC panels 31 and 32 are fixed so as not to be pushed outward.

The PC girder 60 is composed of a vertical bar 61 and a horizontal bar 62 connected to the top of the vertical bar 61, the vertical bar 61 is fixed to the inner PC panel 31 in close contact It is installed as much as possible.

The PC slab 70 is composed of a wide plate shape, and is arranged so that the circumferential surfaces are in close contact with each other on the upper surface of the PC girder 60, so as to cover the entire upper surface of the PC girder 60.

A method of constructing the structure of the underground wall structure constructed as described above is as follows.

First, the ground is excavated to form a pit 10 of a required depth and width. And, as shown in FIG. 3, the inner reinforcement 22 and the foundation reinforcement 21 are reinforced on the bottom surface of the pit 10 and the concrete 80 is poured and cured to form the foundation 20.

And, as shown in FIG. 4, the main reinforcing bar 25 is reinforced to be fixed to the basic reinforcing bar 21, and as shown in FIG. 5, the inner PC panel is in close contact with the front and rear surfaces of the main reinforcing bar 25 ( 31) Assemble.

Then, after fixing the inner PC panel 31 to the main reinforcing bar 25, the outer PC panel 32 is disposed outside the main reinforcing bar 25, the upper and lower brackets 42 and the screw shaft 51 and The inner and outer PC panels 31 and 32 are fixed using a nut member 52.

And, as shown in Figure 6a, after constructing the PC girder 60 so that one side is connected to the inner PC panel 31, a plurality of PC slabs 70 on the upper side of the PC girder 60 Placed to cover the top surface of the PC girder (60).

The vertical bar 61 and the horizontal bar 62 are constructed to be connected to the inner PC panel 31. Here, the upper side of the horizontal bar 62 is composed of the same line as the upper side of the inner PC panel 31.

In addition, a plurality of PC slabs 70 are arranged on the upper side of the inner PC panel 31 and the horizontal wave 62 provided on the same line, so that the upper surface of the inner PC panel 31 and the horizontal bar 62 ).

On the other hand, Figure 6b is a view showing another embodiment of the present invention, the outer PC panel 32 and the inner PC panel 31 coupled to the upper side of the base 20 is formed of the same length can be used have.

And, as shown in Figures 7 and 8, by placing and curing the concrete 80 to cover the upper surface of the PC slab 70 and between the inner and outer PC panels 31 and 32, the inner and outer PC The panels 31 and 32 and the inner and outer PC panels 31 and 32 are simultaneously constructed with the outer wall and the slab 70 by the concrete 80 placed between them.

On the other hand, when pouring concrete 80 between the inner and outer PC panels 31 and 32, the power supply 37 is connected to the power socket 36, and the LED lamp 35 is turned on and off. The concrete 80 is poured between the PC panels 31 and 32, and the operator is in the state of the concrete 80 being poured between the inner and outer PC panels 31 and 32 through the sealing member 34a. By confirming, so that the concrete 80 is completely poured to the inner and lower sides of the inner and outer PC panels 31 and 32.

That is, in order to pour concrete 80 between the inner and outer PC panels 31 and 32, the concrete 80 must be injected into the upper portion of the space portion 38 formed between the inner and outer PC panels 31 and 32. However, such a concrete (80) has a very high viscosity, and when the concrete (80) is injected into the upper part of the space part (38), the concrete (80) cannot be filled to the inner bottom surface of the space part (38). Is generated, in this case, the operator pushes the concrete 80 into the interior of the space part 38 using a long rod, so that the concrete 80 is filled to the lower side of the space part 38.

At this time, the observation hole and the LED lamp 35 is formed on the lower side of the inner and outer PC panels 31 and 32, as shown in FIG. 7, the concrete 80 to the inner lower side of the space portion 38 When the LED lamp 35 is turned on in a state that is not completely filled, the lower end of the space portion 38 between the inner and outer PC panels 31 and 32 is illuminated, and the LED panel through the observation hole 34 The irradiated light can be observed.

And, as shown in Figure 8, the inner and outer PC panels (31,32), when completely filled to the lower side of the space portion 38, the inside of the sealing member (34a) coupled to the observation hole (34) However, since the LED lamp 35 is covered by the concrete 80, the light of the LED lamp 35 cannot be observed through the observation hole 34.

Therefore, when pouring the concrete 80 between the inner and outer PC panels 31, 32, the concrete 80 until the light irradiated from the LED lamp 35 through the observation hole 34 is not observed By pushing into the interior of the space portion 38, it is possible to ensure that the concrete 80 is completely filled up to the inner bottom surface of the space portion 38.

According to the underground outer wall structure configured as described above, the foundation 20 is provided on the bottom surface of the pit 10 and is provided with a plurality of foundation rebars 21 extending upward to correspond to the position where the outer wall is formed, and The main reinforcing bar (25) fixed to the basic reinforcing bar (21), and the inner and outer PC panels (31, 32) fixed to the upper surface of the base (20) so as to be located on the inner and outer side of the main reinforcing bar (25), and one side of the inner The PC girder 60 constructed to be connected to the PC panel 31, the PC slab 70 disposed on the upper side of the PC girder 60, and the PC slab between the inner and outer PC panels 31 and 32 Consisting of the concrete (80) poured to cover the top surface of (70), there is no need to install a separate form, the construction is easy, there is an advantage to reduce the time and manpower required for construction.

In addition, an observation hole 34 penetrating the inner and outer side surfaces is formed on the lower side of the inner and outer PC panels 31 and 32, and coupled to the observation hole 34, between the inner and outer PC panels 31 and 32. The sealing member 34a preventing the concrete 80 filled in from flowing out the observation hole 34 and the inner end of the observation hole 34 on the inner surfaces of the inner and outer PC panels 31 and 32 LED lamp 35 is provided to be close to, and provided on the outer surface of the inner and outer PC panels (31, 32) connected to the LED lamp 35, the power socket 36, and the power socket (36) A power supply 37 that is detachably coupled to apply power to the LED lamp 35 is further provided, and in the state in which the LED lamp 35 is turned on, an operator enters the inside and outside through the observation hole 34. By visually checking the space portion 38 inside the PC panels 31 and 32, the advantage of being able to completely fill the concrete 80 to the inside and outside of the inside and outside of the PC panels 31 and 32 is provided. have.

In addition, the lower bracket 42 is provided on the lower outer surface of the inner and outer PC panels 31 and 32 and fixed to the base 20 to support the lower ends of the inner and outer PC panels 31 and 32, and the inner The upper bracket 41 is coupled to the upper ends of the outer PC panels 31 and 32 to mutually fix the upper ends of the inner and outer PC panels 31 and 32, and the upper brackets 41 extend in the front-rear direction and are both ends. In the through hole (41a) is formed to penetrate the upper and lower surfaces, both ends are fixedly coupled to the upper surface of the inner and outer PC panels (31, 32) by a fixing bolt (41b) passing through the through hole (41a), the Before the concrete 80 is placed between the inner and outer PC panels 31 and 32, there is an advantage that the inner and outer PC panels 31 and 32 can be firmly fixed to each other.

In addition, a plurality of coupling holes 33 formed to penetrate the front and rear surfaces are formed in the inner and outer PC panels 31 and 32, and the head 51a is formed at one end through the coupling holes 33. The other end is provided with a screw shaft 51 formed with a screw thread 51b and a nut member 52 screwed to the screw thread 51b of the screw shaft 51, so that the main reinforcing bar 25 is attached to the base 20. After the reinforcement, and after placing the inner and outer PC panels (31,32) on both sides of the main reinforcing bar (25), the screw shaft (51) to the coupling hole (33) formed in the inner and outer PC panels (31,32) After inserting and coupling, the nut member 52 is coupled to the thread 51b, so that when the concrete 80 is placed between the inner and outer PC panels 31 and 32, the inner and outer PC panels 31 and 32 are attached. There is an advantage that can be fixed so as not to be pushed outward.

9 to 11 show a second embodiment according to the present invention, the lower side of the outer PC panel 32 is a concave groove 39 open to the inside and outside of the outer PC panel 32 is concave upward Is formed.

In addition, an airbag 90 in which air is stored is provided at an inner lower side of the main reinforcing bar 25, and one side of the airbag 90 extends to the outside of the outer PC panel 32 through the concave groove 39. The exhaust pipe 100 is provided, and the display unit 110 is connected to the outer end of the exhaust pipe 100.

The air bag 90 is composed of a bag shape of a flexible material whose upper surface protrudes in a dome shape upward, and is compressed to pressurize the outside, so that the air inside is discharged to the display unit 110 through the exhaust pipe 100 do.

The exhaust pipe 100 is made of a material that can withstand high pressure. The display unit 110 is composed of a cylindrical shape extending in the vertical direction and connected to the outer end of the exhaust pipe 100, a cylinder 111 made of synthetic resin, and a piston provided to be able to elevate inside the cylinder 111 (112), the upper surface of the cylinder 112 from the upper surface of the piston (112) extends to the upper side of the cylinder (111), and the lower end inside the cylinder (111) is It is provided to be in close contact with the upper surface of the piston 112, and is composed of a compression coil spring 114 that presses the piston 112 downward.

At this time, the cylinder 111 is configured so that the piston 112 is raised to the top dead center when the air stored in the airbag 90 is supplied to the inside through the exhaust pipe 100, the display bar 113 The scale 113a is displayed.

When the piston 112 is raised to the top dead center, the scale 113a is exposed to the upper side of the cylinder 111 and is formed at a position where an operator can visually check it.

Therefore, as shown in FIGS. 9 and 10, the airbag 90 is disposed on the inner lower side of the main reinforcing bar 25, and the inner and outer PC panels so that the exhaust pipe 100 is inserted into the concave groove 39. After the installation of (31,32), as shown in Figures 11 and 12, if the concrete 80 is poured into the inside and outside of the PC panel (31,32), the airbag by the concrete 80 90 is pressurized and compressed, and accordingly, air inside the airbag 90 is supplied to the display unit 110 through the exhaust pipe 100.

And, when the concrete 80 is completely poured to the lower side of the space portion 38 between the inner and outer PC panels 31 and 32, the air inside the airbag 90 is all the pressure due to the pressure of the concrete 80. Discharged to the display unit 110, and accordingly, as shown in FIGS. 11 and 12, the piston 112 and the display bar 113 of the display unit 110 are raised to the top dead center and the scale 113a The cylinder 111 is exposed to the upper side.

Therefore, the operator confirms whether the scale 113a is exposed to the upper side of the cylinder 111, and the concrete 80 is completely poured to the lower side of the space portion 38 between the inner and outer PC panels 31 and 32. You can check if it is done.

As such, the method of confirming whether the concrete 80 is completely poured to the lower side of the space portion 38 between the inner and outer PC panels 31 and 32 may be variously changed. In addition, in the present embodiment, although it is illustrated that it is formed at the bottom of the outer PC panel 32 through the concave groove 39, the concave groove 39 may be formed at the bottom of the inner PC panel 31. .

Meanwhile, FIGS. 13 to 14 are views showing the support member 100 according to the present invention, and the support member 100 is provided between the inner PC panel 32 and the base 20.

The support member 100 is a first anchor member provided at a predetermined position on the outer surface of the inner PC panel 31 to connect the inner PC panel 31 and the inner PC panel 31 continuously installed in the width direction. 120, and the second anchor member 130 is configured on the upper surface of the base 20 but configured at a predetermined position.

The first anchor member 120 and the second anchor member 130 are connected to each other, and to support the inner PC panel 31, an angle member 110 formed of a predetermined length is further included.

Therefore, the support member 100 is supported by the inner PC panel 31, and it is possible to resist external earth pressure or side pressure, thereby increasing structural stability.

15A to 15B show a second embodiment according to the present invention, the inner and outer PCs so that the inner and outer PC panels 31 and 32 continuously provided on the upper side of the base 20 are integrated and independent. The connecting member 40 is coupled to a predetermined position on the upper side of the panels 31 and 32.

)모양으로 형성되어진 제1 연결부재(43a)와 제2 연결부재(43b)가 형성된다. 이때 상기 제1 연결부재(43a)는 상기 외측 PC패널(32)의 상측면에 결합되며, 상기 제2 연결부재(43b)는 상기 내측 PC패널(31)의 상측면에 결합된다.One end and the other end of the connecting member 40 (

) The first connecting member 43a and the second connecting member 43b formed in a shape are formed. At this time, the first connecting member 43a is coupled to the upper side of the outer PC panel 32, and the second connecting member 43b is coupled to the upper side of the inner PC panel 31.

Meanwhile, the first connecting member 43a is formed at one end of the upper bracket 41, and the second connecting member 43b is formed at the other end of the upper bracket 41, so that the connecting member 40 is formed. Is formed integrally.

)모양으로 형성된 제1 연결부재(43a)와 (

)모양으로 형성된 제2 연결부재(43b)는 나사산이 형성된 고정볼트(41b)에 의해 고정되어진다.According to another embodiment of the present invention, the (

) The first connecting member (43a) formed in a shape and (

) The second connecting member 43b formed in a shape is fixed by a fixing bolt 41b formed with a thread.

Here, the fixing bolt 41b is inserted and fixed to the through hole 41a formed at a predetermined position of the one end of the first connecting member 43a and the upper bracket 41.

Therefore, due to the connecting member 40, the inner and outer PC panels 31 and 32, which are integrated at predetermined intervals, can be stably freestanding, which has the advantage of improving stability during construction.

Next, Figure 16 is a view showing another embodiment of the present invention, the inner and outer PC panels (31, 32) are coupled to each other through the coupling means (300). Here, the coupling means 300 serves to firmly and securely connect to each other between the inner and outer PC panels 31 and 32 that are continuous in the width direction.

The coupling means 300 is installed on the inner surface where the inner and outer PC panels 31 and 32 are coupled to each other, the first coupling member 311 and the second coupling member 312, and the connecting shaft 321 This is included, and a detailed description thereof will be described later.

The first coupling member 311 and the second coupling member 312 are formed in a U-shape by bending a rebar, wherein the U-shaped first coupling member 311 and the second coupling member 312 are the It is provided on the inner surfaces of the inner and outer PC panels 31 and 32.

Here, one end of the first coupling member 311 is coupled to the inner surface of one side of the inner and outer PC panels 31 and 32, and the other end of the second coupling member 312 is the inner and outer PC panels ( 31, 32) is coupled to the inner surface of the other end portion, the first coupling member 311 and the second coupling member 312 are continuously configured in the height direction of the inner and outer PC panels 31, 32, It is configured at a predetermined interval.

At this time, when the inner and outer PC panels 31 and 32 are continuously installed in the width direction, the first coupling member 311 and the second coupling member configured on the inner surfaces of the inner and outer PC panels 31 and 32 ( 312) are configured to be in contact with each other, and are stacked so as not to interfere with each other.

In addition, when the first coupling member 311 and the second coupling member 312 are stacked with each other, the bent portions form concentric circles 320 with each other, and the connecting shaft 321 is provided with the concentric circles 320. By being inserted, the inner and outer PC panels 31 and 32 are firmly coupled.

In addition, the connecting shaft 321 is preferably formed of a reinforcing bar having a diameter smaller than the diameter of the concentric circle 320, the first coupling member 311 and the second coupling member 312 are cross-aligned. In addition, the underground outer wall structure and the construction method, as described above, after the connecting shaft 321 is inserted between the inner and outer PC panels 31, 32, the on-site concrete is poured.

Therefore, the coupling means 300 provided on the inner surface of the inner and outer PC panels 31, 32, when the concrete is poured into the inner space of the inner and outer PC panels 31, 32, the continuously installed inner and outer PC panels ( 31, 32) and the inner and outer PC panels (31, 32) are firmly fixed, and there is an advantage of structural reinforcement.

Although the present invention has been described with reference to the embodiments shown in the drawings, these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

10. Pit 20. Foundation
31,32. Inside and outside PC panel 41,42. Upper and lower bracket
51. Screw shaft 52. Nut member
60. PC girder 70. PC slab
80. Concrete 90. Airbag
100. Exhaust pipe 110. Display unit

Claims (8)

As a structure for constructing the underground wall,
The base 20 is provided on the bottom surface of the pit 10 and is provided with a plurality of foundation rebars 21 extending upward to correspond to the position where the outer wall is formed, and
The main reinforcing bar (25) fixed to the basic reinforcing bar (21), and the inner and outer PC panels (31, 32) fixed to the upper surface of the base (20) to be located on the inner and outer side of the main reinforcing bar (25)
A PC girder 60 constructed so that one side is connected to the inner PC panel 31,
The PC slab 70 disposed on the upper side of the PC girder 60,
In the inner and outer PC panel (31,32) and the underground outer wall structure comprising a concrete (80) poured to cover the upper surface of the PC slab (70),
Observation holes 34 penetrating the inner and outer side surfaces are formed below the inner and outer PC panels 31 and 32,
A sealing member 34a coupled to the observation hole 34 to prevent the concrete 80 filled between the inner and outer PC panels 31 and 32 from flowing out the observation hole 34,
LED lamps 35 provided to be close to the inner end of the observation hole 34 on the inner surface of the inner and outer PC panels 31 and 32,
A power socket 36 provided on the outer surfaces of the inner and outer PC panels 31 and 32 and connected to the LED lamp 35,
Further comprising a power supply 37 that is detachably coupled to the power socket 36 to apply power to the LED lamp 35,
The sealing member (34a) is made of a transparent synthetic resin material,
When pouring concrete 80 between the inner and outer PC panels 31 and 32, the power supply 37 is connected to the power socket 36 so that the LED lamp 35 is turned on and the observation hole 34 ) Through the inside and outside of the PC panel (31,32) concrete (80) is a basement outer wall structure characterized in that it is possible to visually monitor the state of pouring.
According to claim 1,
A lower bracket 42 which is provided on the lower outer surface of the inner and outer PC panels 31 and 32 and is fixed to the base 20 to support the lower ends of the inner and outer PC panels 31 and 32,
It is further coupled to the top of the inner and outer PC panels (31,32) further includes an upper bracket (41) for mutually fixing the top of the inner and outer PC panels (31,32),
The upper bracket 41 extends in the front-rear direction, and through holes 41a are formed at both ends to penetrate the upper and lower surfaces,
Underground outer wall structure characterized in that both ends are fixedly coupled to the upper surfaces of the inner and outer PC panels (31, 32) by the fixing bolts (41b) penetrating the through hole (41a).
According to claim 1,
A plurality of coupling holes 33 formed to penetrate the front and rear surfaces are formed in the inner and outer PC panels 31 and 32,
It is coupled to penetrate the coupling hole 33, the head 51a is formed at one end and the screw shaft 51 is formed with a thread 51b at the other end,
Further comprising a nut member 52 that is screwed to the thread (51b) of the screw shaft 51,
After the main rebar (25) is reinforced on the base (20), and after placing the inner and outer PC panels (31,32) on both sides of the main reinforcing bar (25), the coupling formed on the inner and outer PC panels (31,32) After the screw shaft 51 is inserted and coupled to the ball 33, the nut member 52 is coupled to the screw thread 51b to pour concrete 80 between the inner and outer PC panels 31 and 32. When the inner and outer PC panel (31,32) is an underground outer wall structure, characterized in that it can be fixed so as not to be pushed outward.
According to claim 1,
On the lower surface of the inner and outer PC panels 31 and 32, concave grooves 39 open to the inner and outer sides of the inner and outer PC panels 31 and 32 are concave upward.
It is provided on the inner lower side of the main reinforcing bar (25) and the air bag 90 is stored therein,
An exhaust pipe 100 provided on one side of the airbag 90 and extending to the outside of the inner and outer PC panels 31 and 32 through the concave groove 39,
The display unit 110 provided at the outer end of the exhaust pipe 100 is further provided,
When the airbag 90 is pressurized by the concrete 80 placed between the inner and outer PC panels 31 and 32, air stored in the airbag 90 is discharged to the display unit 110. Underground outer wall structure.
The method of claim 4,
The display unit 110 is
It is composed of a cylindrical shape extending in the vertical direction and connected to the outer end of the exhaust pipe 100, the synthetic resin cylinder 111,
The piston 112 is provided to be able to elevate inside the cylinder 111,
A display bar 113 extending from the upper surface of the piston 112 to the upper surface of the cylinder 111 through the upper surface of the cylinder 111,
A lower end of the cylinder 111 is provided to be in close contact with the upper surface of the piston 112, and includes a compression coil spring 114 to press the piston 112 downward,
The cylinder 111 is configured so that the piston 112 is raised to the top dead center when the air stored in the airbag 90 is supplied to the inside through the exhaust pipe 100,
A scale 113a is displayed on the display bar 113, and when the piston 112 is raised, the scale 113a is exposed to the upper side of the cylinder 111 so that an operator can visually check it. Underground outer wall structure.
A method for constructing an underground outer wall structure according to any one of claims 1 to 5,
Forming a pit 10 by excavating the ground;
Pouring a foundation 20 provided with a plurality of foundation rebars 21 extending upward to correspond to a position of forming an outer wall on the bottom surface of the pit 10;
Assembling the inner PC panel (31) inside the foundation reinforcing bar (21),
Reinforcing and fixing the main reinforcing bar (25) to the basic reinforcement (21),
The outer PC panel 32 is disposed on the outside of the main reinforcing bar 25, and the inner and outer PC panels 31 and 32 are fixed by using the upper and lower brackets 42, the screw shaft 51, and the nut member 52. Steps,
Constructing a PC girder 60 so that one side is connected to the inner PC panel 31,
Disposing a PC slab 70 on the upper side of the PC girder 60,
A method of constructing an underground exterior wall, comprising pouring and curing the concrete 80 to cover between the inner and outer PC panels 31 and 32 and the upper surface of the PC slab 70.
The method of claim 6,
When pouring concrete 80 between the inner and outer PC panels 31 and 32, the power supply 37 is connected to the power socket 36 so that the LED lamp 35 is lit and the observation hole ( A method of constructing an underground exterior wall, characterized by visually checking whether the concrete 80 is filled to the lower side of the space between PC panels through 34). delete

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