KR20090050127A - A precast foundation structure for installing a drain pipe with poly-etyrene / eps(expandable polystyrene) and method constructing the drain pipe on the precast foundation - Google Patents

Abstract

The present invention minimizes the installation time of sewer pipes by omitting the curing period in areas where traffic is difficult due to narrow traffic or frequent entry of excavation equipment and ready-mixed vehicles to dwellings with frequent traffic. Another object is to prevent the gap between sewage pipe joints from opening by making the precast foundation structure a structure that prevents uneven settlement.

In order to achieve the above object, the precast basic structure is composed of a structural member, a cushion structural member, and a load distribution member. The upper load is the structural member, the cushioning role for the differential settlement, the cushion structural member distributes the upper load transmitted through the structural member evenly to the ground, so that the load distributing member is responsible for the joint to the occurrence of the differential settlement To prevent the occurrence of gaps in the roots.

Cushion structural member of precast basic structure is made of EPS (Expandable Polystyrene) resin, and structural member and load dissipating member are made of polyethylene (PE) such as waste vinyl. It is a useful invention that can be done.

Precast basic structure, cushion structural member, structural member, load balancing member, roller insert groove, reaction force, EPS

Description

Precast foundation structure for installing a drain pipe with Poly-Etyrene / EPS (Expandable Polystyrene) and method constructing (A precast foundation structure for installing a drain pipe with Poly-Etyrene / EPS and method constructing) the drain pipe on the precast foundation}

The present invention relates to a precast basic structure using polyethylene (PE) resin and EPS (Expandable Polystyrene) resin, and a method for constructing a sewage pipe using the same. In order to install the sewage pipe, the foundation must first be constructed so that the junction of the sewage pipe does not open. do. Conventional foundations were conventionally cast in place. The basic structure of the present invention is a precast basic structure made in advance in the factory, unlike the field casting method. The precast infrastructure does not have to wait for the concrete to harden. Precast infrastructure is suitable for the construction of sewage pipes in urban areas where the construction is efficient and requires urgent or uncontrollable traffic because it is possible to install sewage pipes on the site immediately after installation. Not to mention the shortening of the air, it's a very useful way in the city's alleyways where ready-mixed concrete vehicles cannot enter.

The conventional infrastructure is shown in FIG. According to Figure 1 cleans the ground well and cast concrete on the site to construct the foundation structure 500. After the concrete of the foundation structure 500 is cured, the sewer pipe 400 is installed thereon. The sewer pipe 400 is composed of a socket portion 410 and the body 420. The holding member 100 is a member for catching the level of the sewer pipe 400.

As described above, since the conventional foundation structure 500 is a site-pouring method, installation of sewage pipes is possible only when concrete is cured. Hardening time of at least 3 to 4 days is required to have a compressive strength sufficient to install the sewer pipe 400. If the time taken to install the sewage pipe 500 in the downtown area is 3 to 4 days, there is a problem that greatly affects the traffic, such as causing a traffic jam.

Sewage pipe foundation structure 500 of the site-pouring method is not suitable for the urgent construction.

On-site casting is not suitable for narrow alleys. The bigger problem is that the excavation equipment or ready-mixed vehicles for work cannot enter, rather than the time it takes to harden concrete.

In addition, in order to install sewer pipes on site in a narrow alley, ground must be installed. As the surface attachment rises, the width of the attachment increases. There is a problem that people are not allowed to pass because they are usually attached throughout the width of the alleys.

The present invention has the object of enabling the installation of sewage pipes by the precast basic structure in areas where the excavation equipment and ready-mixed vehicle cannot be entered, and narrow roads where dwellings are frequented by people, or the entry of excavating equipment and ready-mixed vehicles It is possible to minimize the installation time of sewage pipes by omitting the curing period in areas where traffic is difficult to control due to frequent traffic, and the precast basic structure is to prevent sedimentation. Another purpose is to prevent gaps from opening,

By forming the precast basic structure into the structural member, the cushion structural member, and the load distributing member, the upper part is in charge of the structural member, and the cushioning member is in charge of the cushioning function against the uneven settlement, and the upper part is transmitted through the structural member. The purpose of distributing the load evenly on the ground is to have the load distribution member in charge to prevent the occurrence of inequality settlement.

The cushion structure member of the precast basic structure has the theme of EPS resin, and the structural member and the load distributing member have the theme of polyethylene (PE) such as waste vinyl for economical construction while recycling waste resources. .

Precast infrastructure is the best alternative to the problem of hardening time, although cast-in-place concrete is not the solution to inequality. Inequality is still a challenge for precast infrastructure. This is because a gap inevitably occurs when the sedimentation occurs.

The ground is the foundation for supporting the upper load. If it is not evenly distributed on the foundation ground, unequal settlement will occur. Uneven sedimentation causes the joints of sewage pipes to open.

The most important requirement is to distribute the upper loads evenly on the ground.

The present invention is a precast basic structure to distribute the upper load evenly on the ground to prevent unequal settlement, the structural member for supporting the upper load, cushion structure member for cushioning the unequal settlement while dispersing the upper load widely, and It is composed of load balancing members.

 It is the present invention that facilitates the construction work while preventing uneven settlement by the combination of three configurations. No matter how certain the inequality is, even if the construction is not easy, you will be left out of the market. The present invention is suitable for the construction of urgent construction or narrow alleyway where heavy equipment cannot enter, and the technical requirements to prevent uneven settlement, and the structure is simple and lightweight, so it is easy to handle. It is an optimized structure consisting of an economic structure that is easy to construct.

 The structural member 30, the cushion structural member 20, and the load distribution member 40, which are the precast basic structures of the present invention, will be described below.

The sewage pipes used here are living sewer pipes and o. General term for waste water pipes and drain pipes.

For convenience of description, it will be described with reference to the sewer pipe 10 and the cushion structural member 20.

1) Relationship between sewage pipe and cushion structural member

Sewage pipe 10 is formed of a socket portion (S ₁ ) and the other end (S ₂ ) corresponding to one end.

The cushion structural member 20 supports the sewer pipe 10. The sewage pipe 10 is a structure supported by the cushion structural member 20a of A-Type (length; l ₁ ) and the cushion structural member 20b of B-Type (length; l ₂ ). When referred to the length L of the sewer (10), and L = ℓ ₁ + ℓ _2, ℓ ₁ is the relationship ≥ℓ _2. Slightly lengthening the A-Type 20a on the socket portion S ₁ side is preferable to balance the load.

2) cushion structural member

The surface of the cushion structural member 20 has a shape corresponding to the outer shape of the sewer pipe 10.

The cushion structural member 20a of the A-Type is located toward the socket portion S ₁ , and the cushion structural member 20b of the B-Type is located toward the end portion S ₂ .

The cushion structural member 20 is provided with through holes 22a and 22b so that the structural member 30 can be inserted therein.

In the case of the A-type cushion structural member 20a, the position of the through hole 22a is preferably located slightly toward the socket portion S ₁ at l _1/2 .

In the case of the B-type cushion structural member 20b, the position of the through hole 22b is close to the front surface of the B-type cushion structural member 20b. The position of the through hole 22b of the B-type cushion structural member 20b with respect to the A-type cushion structural member 20a is a position proximate to the junction where the A-type cushion structural member 20a is joined.

The positions of the through holes 22a and 22b are positions capable of supporting the self load and the upper load of the sewage pipe 10 in a balanced manner over the length L of the sewer pipe 10.

The structural member 30 is inserted into the through holes 22a and 22b.

Although the structural member 30 fully supports the upper load, the cushion structural member 20 also serves as an auxiliary structural member. If it is assumed that the entire structure is formed only of the structural member 30 without the cushion structural member 20, the weight of the basic structure is heavy and not easy to handle, and the work is inefficient. The cushion structural member 20 is a useful member that acts as a flexible structural member, while at the same time lightly absorbing the differential settlement.

The material of the cushion structural member 20 is EPS (Expandable Polystyrene) resin. EPS resin is a petrochemical product called Styrofoam or Schiropol. EPS resin is a foamed product that injects hydrocarbon gas such as pentane or butane into polystyrene resin and inflates it with steam. It is a resource-saving material in which 98% of the volume is air and 2% is resin. It has strong properties such as acid, alkali, oil and alcohol.

3) structural members

Structural member 30 was composed of a side plate 34, a vertical plate 36, and a support plate 38.

Since the vertical plate 36 and the support plate 38 are members supporting the sewer pipe 10, the vertical plate 36 and the support plate 38 are the same as the curvature of the sewer pipe 10.

The support plate 38 firmly holds the vertical plates 36 on both sides. Since the vertical plate 36 is prevented from spreading due to the upper load, the supporting force of the vertical plate 36 is increased by that much.

The guide plate 382 and the roller insertion groove 384 are formed in the support plate 38.

An assembly groove 38a is formed at the lower end of the support plate 38.

The induction furnace 382 is inclined about 1 ° downward but is almost horizontal. Just to facilitate the sewage pipe 10 to the inclined surface. The length of the roller 386 is equal to or slightly larger than the thickness of the support plate 38 and is cylindrical in shape.

Joining of the sewer pipe 10 is made by joining the socket portion S ₁ and the end S ₂ .

In order to join the sewer pipe 10, even if the sewer pipe 10 can be transported near the junction with equipment such as a fork-lane, it is not immediately joined to the socket portion S ₁ . This is because they are not joined unless the end S ₂ of the sewer pipe 10 is pushed toward the socket portion S ₁ . However, the present invention has to rely on manpower because the heavy equipment can not enter. Although the length of pushing the end S ₂ of the sewage pipe 10 into the socket portion S ₁ for bonding is short, it is difficult to push the heavy weight of the sewage pipe 10 into the socket portion S ₁ by attraction force. It is not.

It is easy to push the end S ₂ of the sewer pipe 10 toward the socket portion S ₁ by the guideway 382 and the roller insertion groove 384 and the roller 386 formed in the support plate 38. .

The roller 386 is inserted into the roller insertion groove 384 while being moved together with the sewer pipe 10. At this time, the roller 386 inserted into the roller insertion groove 384 does not interfere with the curvature of the support plate 38.

The material of the roller 386 may be any material as long as it can maintain the circular cross section as it is by the load of the sewer pipe 10. For example, steel rods and rebars may be used, and strong wood or synthetic resins may be used.

Rather than inserting one structural member 30 into the through holes 22a and 22b of the cushion structural member 20, inserting and using two or more structural members 30 increases the bearing capacity of the upper load. This is because the number of vertical plates 36 supporting the vertical load increases.

Referring to the material of the structural member 30 as follows.

Structural member 30 should be a material having rigidity because it must fully support the upper load.

Poly-Etyrene is a suitable material for this. Polyethyl is widely used around us. That is the waste vinyl. Waste vinyl does not decay, and each municipality is struggling with its disposal. If the structural member 30 is made of waste vinyl, it is very economical in terms of recycling waste resources as well as handling headaches.

4) Load distribution member

The load distribution member 40 is installed in the lower portion of the cushion structural member 20 in a wide plate shape. In order to prevent the differential settlement by dispersing the self weight and the upper load of the sewage pipe 10 widely.

The load distribution member 40 is installed before and after the structural member 30. When the sewer pipe 10 is connected, each sewer pipe 10 is connected to the adjacent sewer pipe 10 while the A-type cushion structural member 20a and the B-type cushion structural member 20b are connected to each other. It is in contact with the contact portion between the cushion structural member 20a of the type and the cushion structural member 20b of the B-type.

The load distribution member 40 is installed on the one side of the structural member 20 longer than the contact surface, and the other is shorter than the cushion structural members 20a and 20b. The portion provided longer than the contact portion will be called the reaction force part 42 in particular. Reaction force portion 42 serves as a reaction force to prevent the gap caused by the inequality settled in the contact portion of the sewer pipe (10). The length of the reaction force part 42 is enough to be about 10cm for the convenience of construction because it can only fully play the role of reaction force.

The material of the load distribution member 40 is the same material as the material of the structural member 30 because it is a structural material that can withstand the ground bearing force. In terms of recycling, polyethylene (Poly-Etyrene), that is, waste vinyl resin is most suitable.

5) Relationship between A-Type cushion structural members and B-Type cushion structural members and load distribution members

The sewer pipe 10 is supported by the cushion structural member 20a of the A-Type and the cushion structural member 20b of the B-Type. Since the sewer pipe 10 is connected, the relationship with the adjacent sewer pipe 10 is also important.

In the relationship with the adjacent sewer pipe 10, the joint part of the A-type cushion structural member 20a is two places. One is a joint at the tip of the sewer pipe 10 and the other is a joint with the cushion structural member 20b of the B-Type.

In the A-type cushion structural member 20a or the B-type cushion structural member 20b, the length of the cushion structural member is approximately half of the sewer pipe 10. To facilitate transportation or handling.

If the length of the cushion structural member 20a of the A-Type or the cushion structural member 20b of the B-Type is equal to the length of the sewer pipe, the construction is inefficient because the handling is not easy when transporting or constructing the same.

Even if the load distribution member 40 is not installed equal to the sewage pipe length, if the reaction force portions 42 overlap each other at the joint portion while installing the structure around the structural member 30 before and after, the reaction force of the joint portion acts to cause inequality due to the upper load. The problem of settlement does not occur.

6) Assembly of the basic structure

The structural member 30 is inserted into the through holes 22a and 22b of the A-type cushion structural member 20a and the B-type cushion structural member 20b.

Since the cushion structural member 20 has elastic force in its material, the structural member 30 inserted into the through holes 22a and 22b does not fall out of the cushion structural member 20.

An assembling protrusion 44 is formed in the load distributing member 40. Each of the corresponding members is provided with an assembly groove. That is, the assembly groove 38a is provided on the support plate 38 of the structural member 30, and the assembly groove 24a is formed on the lower surface of the A-type cushion structural member 20a, and the lower surface of the B-type cushion structural member 22b. In the assembly groove 24b is formed.

The structural member 30 is inserted into the through holes 22a and 22b of the cushion structural member 20, and the structural member 30, the A-type cushion structural member 20a, and the B-type cushion structural member. The assembly grooves 38a, 24a and 24b formed on the lower surface of the 20b are inserted into the assembly protrusions 44 formed on the load distributing member 40 to assemble the A-Type. A cushion structural member package or a B-type cushion structural member package assembly.

Meanwhile, a method of constructing a sewage pipe using a precast basic structure formed of polyethylene (PE) resin and EPS resin will be described in the [Details for Implementation of the Invention] section.

The present invention is to form a precast basic structure based on the polyethylene (PE) and EPS resin, such as waste vinyl, it is possible to omit the curing time of concrete in the field casting method, so it is very suitable for the installation of sewage pipes in urban areas where traffic is frequent .

It is possible to install a sewer pipe by the precast basic structure of the present invention in an area where the excavation equipment and ready-mixed vehicle cannot enter.

Since the reaction force portion of the load distribution member of the precast basic structure is connected to the cushion structure member in a state where they overlap with each other, a gap is not generated in the joint of the sewer pipe even if an uneven settlement occurs.

By forming the precast basic structure into the structural member, the cushion structural member, and the load distributing member, the upper part is in charge of the structural member, and the cushioning member is in charge of the cushioning function against the uneven settlement, and the upper part is transmitted through the structural member. Since the load distribution member is responsible for distributing the load evenly on the ground, it is an optimal structure that can prevent the occurrence of uneven settlement.

Since the roller is inserted on the precast base structure, it is easy to push the heavy sewer pipes together.

The cushion structure member of the precast basic structure is made of EPS resin and the structural member and load balancing member are made of polyethylene (PE) such as waste vinyl. Invention.

A method of constructing the sewer pipe 10 using a precast basic structure formed of polyethylene (PE) resin and EPS resin will be described.

터 digging the ground on which the sewer pipe 10 is installed to a predetermined depth, but slightly wider than the width of the cushion structural member 20 and the inclination of the sewer pipe 10 close to the vertical;

⒝ selecting the bottom surface of the trench to correspond to the slope of the sewer pipe;

Inserting the structural member 30 into the penetrating portions 22a and 22b of the A-type cushion structural member 20a and the B-type cushion structural member 20b;

조립 the assembling protrusion 44 of the load distributing member 40 is assembled with the assembling groove 24a of the A-type cushion structural member 20a and the assembling groove 24b of the B-type cushion structural member 20b. Assembling each of the assembling grooves 38a of the support plate 38 of the member 30;

접 is assembled by folding the A-Type cushion structural member 20a and the B-Type cushion structural member 20b assembled in the above step, but the reaction force 42 of the B-type cushion structural member 20b is A. Assembling under the cushion type structural member 20a to form an assembly of the foundation structure;

(B) installing the assembly of the foundation structure on the bottom of the trench;

하 installing the sewer pipe 10 on the assembly of the foundation structure; It is a method of constructing a sewer pipe using a precast basic structure formed of a polyethylene (PE) resin and EPS resin characterized in that it comprises a.

Next, the sewer pipe 10-2 should be connected adjacent to the sewer pipe 10-1 installed as described above. For convenience, the previously installed sewage pipe is referred to as (10-1), and the sewage pipe to be connected thereto and installed later is represented by (10-2).

In order to connect the sewer pipe 10-2 to the sewer pipe 10-1, the assembly of the basic structure corresponding to the sewer pipe 10-2 is installed on the bottom surface, the sewer pipe 10-2 is placed thereon, and the sewer pipe 10 The end S ₂ of -2) must be advanced toward the socket part S ₁ of the sewer pipe 10-1.

And installing a roller 386 in the induction path 382 of the support plate 38 of the structural member 30 corresponding to the sewer pipe 10-2 to facilitate the advancement of the sewer pipe 10-2.

       1 is a cross-sectional view showing a conventional basic structure

2 is a perspective view of a precast basic structure using a polyethylene (PE) resin and an EPS resin of the present invention.

3 is an exploded perspective view of FIG.

4 is a plan view of FIG.

Fig. 5 A-A cross sectional view of Fig. 4

6 is a cross-sectional view taken along line B-B of FIG.

7 is a perspective view of a structural member of the present invention

8 is a cross-sectional view taken along line C-C of FIG.

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

10; Sewer pipe S ₁ ; A socket part; S ₂ ; End 20; Cushion Structural Member

20a; A-Type 22a; Through hole 24a; Assembly groove

20b; B-Type 22b; Through hole 24b; Assembly groove

30; Structural member 34; Side plates 36; Vertical plate 36a; Assembly groove

38; Support plate 38a; Assembly groove 382; Induction furnace, 384; Roller insert groove, 386; roller

40; Load distribution member 42; Reaction force 44; Assembling

Claims (6)

The assembly of the precast basic structure supporting the sewer pipe 10 is composed of a cushion structural member 20, a structural member 30, and a load distribution member 40, and the cushion structural member 20 is A The structural member 30 is composed of a cushion type structural member 20a of the -Type and a cushion structural member 20b of the B-type, and composed of a side plate 34, a vertical plate 36, and a support plate 38. It is inserted into the through holes 22a and 22b of the A-type cushion structural member 20a and the B-type cushion structural member 20b, and the load distribution member 40 is based on the structural member 30. It is installed before and after, and is formed shorter than the length of the A-type cushion structural member 20a and the B-type cushion structural member 20b. Precast basic structure using polyethylene (PE) resin and EPS resin The method of claim 1 An assembling protrusion 44 is provided on the load distributing member 40, and the assembling grooves 24a and 24b are provided on the lower surface of the corresponding A-type cushion structural member 20a and B-type cushion structural member 20b. Precast base structure using polyethylene (PE) resin and EPS resin, characterized in that the assembly groove 38a is formed on the support plate 38 of the structural member 30. The method according to claim 1 or 2 The support plate 38 of the structural member 30 has a guideway 382 and a roller insertion groove 384 formed therein, and a roller 386 is installed therein. Precast Infrastructure The method according to claim 1 or 2 Positions of the through holes 22a and 22b provided in the cushion structural member 20a of the A-type and the cushion structural member 20b of the B-type are approximately the lengths of the lengths of the cushion structural member 20a of the A-Type. Precast basic structure using polyethylene (PE) resin and EPS resin, characterized in that the position of 1/2 and installed close to the front in the cushion structural member (20b) of the B-Type 터 digging the ground on which the sewer pipe 10 is installed to a predetermined depth, but slightly wider than the width of the cushion structural member 20 and the inclination of the sewer pipe 10 close to the vertical; ⒝ selecting the bottom surface of the trench to correspond to the slope of the sewer pipe; Inserting the structural member 30 into the penetrating portions 22a and 22b of the A-type cushion structural member 20a and the B-type cushion structural member 20b; 조립 the assembling protrusion 44 of the load distributing member 40 is assembled with the assembling groove 24a of the A-type cushion structural member 20a and the assembling groove 24b of the B-type cushion structural member 20b. Assembling each of the assembling grooves 38a of the support plate 38 of the member 30; 접 is assembled by folding the A-Type cushion structural member 20a and the B-Type cushion structural member 20b assembled in the above step, but the reaction force 42 of the B-type cushion structural member 20b is A. Assembling under the cushion type structural member 20a to form an assembly of the foundation structure; (B) installing the assembly of the foundation structure on the bottom of the trench; 하 installing the sewer pipe 10 on the assembly of the foundation structure; Method for constructing a sewer pipe using a precast basic structure formed of polyethylene (PE) resin and EPS resin, characterized in that it comprises a The method of claim 5 In order to connect the sewer pipe 10-2 to the sewer pipe 10-1, the assembly of the basic structure corresponding to the sewer pipe 10-2 is installed on the bottom surface and the guideway of the support plate 38 of the structural member 30 is provided. Advancing the sewer pipe 10-2 by installing a roller 386 on the 382; constructing the sewer pipe using a precast foundation formed of a polyethylene (PE) resin and an EPS resin; Way

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