KR20040004264A - Precast segment retaining wall - Google Patents

Abstract

PURPOSE: A construction method for a precast segment retaining wall is provided to shorten a period of construction without the influence of weather conditions, and to cut down direct and indirect construction expenses. CONSTITUTION: The construction method for a precast segment retaining wall comprises the steps of laying an anchorage and a steel bar to the footing, piling up segments zigzag(18), and interposing a PS steel bar to the segments, then connecting with a steel bar in the anchorage.

Description

Precast segment retaining wall

Reinforced concrete retaining walls vary in form and shape, and structurally difficult to separate into foundation parts and wall parts (including subwalls), but construction has been performed by separating them into foundation parts and wall parts (including subwalls).

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a retaining wall construction method. The base portion is a conventional construction method, and relates to a method for constructing a retaining wall in which a wall portion of the retaining wall is applied to a precast segment laminate of reinforced concrete by a high tensile strength bar.

Conventional reinforced concrete retaining walls have various forms and shapes, but the foundation and the walls are constructed by reinforcing steel assembly and formwork, and concrete is poured.

In the construction of the retaining wall wall part, after rebar assembly and scaffolding and formwork were assembled in the upper part of the foundation, concrete was poured. After curing, the scaffold and formwork were dismantled and the concrete surface was cleaned up.

Such work required skilled workers, and it was difficult to add flexible workers because the number of skilled workers needed to be economically reviewed during the construction period. In addition, many temporary materials (forms, scaffolding) had to be brought in and taken out, and the concrete had a lot of trouble to meet certain conditions in order to secure certain concrete quality such as loading time, uninterrupted placing, even compaction, and sufficient curing. .

In addition, the work on the site had a great influence on the weather conditions, and there was a problem that a thermostat for curing of concrete was required in the weather below zero winter season.

As described above, the conventional reinforced concrete retaining wall construction requires a lot of construction time to meet skilled conditions, input and export of materials and temporary materials, and weather conditions.

The present invention is to secure air shortening, construction cost reduction, assured quality, structural stability, the precast segment of reinforced concrete without the formwork, reinforcing steel, concrete casting in the construction of the wall portion of the retaining wall conventional construction To provide a steel bar.

It is another object of the present invention to provide a method for constructing a retaining wall given tension to precast segments and steel bars of good quality reinforced concrete at a fast and low cost by using the precast segments of reinforced concrete.

Precast segments of reinforced concrete of the present invention to achieve mokjeokreul of the first when part forming a rectangular cross-section with ㅠ type and a TT type, and front upper surface凹portion and the front portion is part凸凹凸central portion danmyeonreul circular penetrating Precast segment of reinforced concrete of retaining wall that can be mounted and laminated in retaining wall length and height direction with precast segment member of reinforced concrete, which has holes and has a hole penetrating through the cross section. The base is anchored with steel rod anchorage, the precast segment of reinforced concrete has a steel rod, and its head is provided with a shiatsu plate and a nat.

In order to achieve the second object of the present invention and the steel rod anchorage installation step for the construction of the wall portion in the basic construction ; -Preparatory stage for wall construction after foundation construction ; - single-stage construction phase wall unit segment; -Wall segment stacking step ; - rod fixation rod premises and concluded after the insertion phase; - the tension rod fixing step; - anchorage between the cement paste and after injection of the mortar, filling the opening of the first stage segment with the segment of steel bar cement pool implantation step; - tensioning of the steel rods after the nut is provided with a precast reinforced concrete segment of the step of fixing the rod retaining wall construction bangbeopreul.

1 is a front retaining wall perspective view

2 is a rear retaining wall perspective view

Figure 3 is a ㅠ type precast segment perspective view

4 is a TT type precast segment perspective view

5 is a precast segment top view

6 is a precast segment low shaving

7 is a precast segment left. Right side view

8 is a precast segment back view;

9 is a precast segment front view.

10 is the base PS steel rod anchorage

FIG. 11 is a cross-sectional view taken along line AA 'of FIG.

12 is a cross-sectional view taken along line BB ′ of FIG. 10.

13 is a cross-sectional view using the PS steel wire.

14 is a detailed view of the retaining wall head PS steel wire fixing section

15 is a detailed view of the retaining wall head steel plate fixing plane

An example of the present invention will be described with reference to the drawings, wherein the base 1 of FIG. 2 is fitted with the anchoring rod, the steel rod 11, and the connecting nut 7 of FIG. (15) is the reinforcement and reinforcing bars are arranged so that the force is distributed to the base (1) the main reinforcement, the precast segment of the reinforced concrete of the wall portion Figure 3 is the front part and two tails ㅠ shape, the cross section is As shown in Fig. 7, the front surface of the lower surface 2 has a concave portion and a concave portion on the upper surface 3 of the concave portion, and a center portion of the convex portion 2 has a circular hole 4 passing through the cross section. There is a hole (5) on which the steel rod is to be mounted, and an opening (6) is formed in the segment tail portion used in the first stage. 4 is TT type with a front part and one tail, and is divided into two as the same standard as in FIG.

Mount the segment of Fig. 3 in the longitudinal direction at the retaining wall wall position, and the second segment of the segment is stacked in the form of Fig. 4 TT at the longitudinal point of view, and the connecting portion between the segments is placed in the height direction as shown in Fig. 1 (18). Lay in zigzag to avoid placing them, and stack them up to the finishing height in the order of 3 steps and 4 steps.

After 3 and wall stacking completed with four segments, bar (8) of Figure 10 is connected natteu 7 in the insertion hanhu opening 6 on the tail section hole 5 in the TT 3 ㅠ-type and 4-type After the furnace rod 11 and the rod 8 are fastened, the pressure plate 9 of FIGS. 14 and 15 is inserted into the rod 8, and then tightened with a nat 10 to apply tensile force to the rods 8 and 11. The contact surface between the precast segments of each reinforced concrete is in close contact with the contact surface, and also the contact surface with the foundation (1).

Cement paste is injected into the space 12 between the anchorage 13 and the steel rod 11 of FIG. 11 mounted on the foundation 1 by the FIG. 3? -Shaped opening 6 of one segment, and the opening 6 is cement. The filling is finished by mortar, and the space 19 between the wall hole 5 and the steel bar 8 is also injected into the cement paste inlet 18 of the pressure plate 9.

When the precast segment of the reinforced concrete and the retaining wall of the steel bar are completed by combining each member as described above, refill or fill and retension the nat 10 to check the tensile force, and then reinforce the mesh in the head anchorage (9) (10). After passing through the 16, the precast segment retaining wall is formed of the natt 10 and the pressure plate 9 by a protective mortar 17.

Retaining wall sphere generates bending moment and shear force of main earth pressure

Retaining wall spheres made of precast segments and steel rods of the reinforced concrete of the present invention are made of subwalls and front walls, such as those of subwall retaining walls, and Figure 3 ㅠ and Figure 4 are formed of reinforced concrete. Both tails are fixed to the part, the tail part is the subwall, the front part receives the main earth pressure, the tail part is rectangular cantilever and the front part is compressed, and the tension is generated in the steel rods (8) 11 at the rear part. The seal becomes prestressed.

The front wall acts as a rectangular cantilever fixed to the buttress.

The prestresses of the steel rods 8 and 11 are tightly fixed between the precast segments of the reinforced concrete and are also in close contact with the foundation 1 to behave as rigid structures.

3 과 and 凹 (2) 凸 (3) of Figure 4 TT shape to ensure the position in the laminate construction smoothly and to respond to shear forces.

The hole 4 during the stacking of the segments is to move the segment finely by the insertion of the guide pin to be mounted in the fixed position, or to temporarily pin the pin to prevent the segment movement during the stacking.

Figure ganggyeol 3 ㅠ type tail section bar (8) (11) secured to prevent the protrusion (rotation) of the segment, due to uneven earth pressure to, and stacked upon 3 ㅠ type as shown in 18 Figure 1 The tail of the cross section is crossed to distribute the uneven earth pressure of the segment to neighboring segments.

Julnunreul when crossing like this, in height, 4 TT-type segment is凹(2) a protrusion (rotation) of the uneven earth pressure takes the point portion and the end portion of each layer凸(3) in addition, and although the hole (4 Will be reinforced with a pin.

After the base (1) in segment 3 ㅠ type and, Figure 4 TT wall unit ray shots seuneun removal of hyeongreul mounted upon, based concrete (1), such that when base and the segment attached to the epoxy dispersion, in particular (2)凹portion Filled with epoxy enhances shear

When stacking two or more segments, epoxy is sprayed on the upper and lower surfaces of the segments to eliminate the standard error in manufacturing between segments, making the contact part close to the front to make the force transmission evenly, and the force transmission when tensioning the steel bar 8 of the tail. The uniformity prevents buckling of the segments. It also prevents leakage during cement pool injection between the hole 5 and the steel bar 8.

In this way, the retaining wall wall is rigidly formed by the lamination of the segments and the PS steel rod and acts on the main earth pressure so as to be a structurally stable retaining wall.

As described above, according to the present invention, the wall part of the retaining wall is manufactured as a reinforced concrete precast segment and is constructed as a PS by steel bars after lamination, so that the construction period is shortened because it does not have a great influence on weather conditions. Since many skilled workers are not input, it is possible to secure manpower and reduce the cost of construction work due to less input of temporary materials on site.

Retaining wall construction of the present invention is reduced indirect construction costs by the process management in the planning process, in particular, the reduction of the indirect construction cost is generated largely in case of auxiliary retaining wall construction.

Claims (2)

3 also be added to the wall of the retaining wall ㅠ type and 4 TT reinforced concrete segments of the precast form. Embedding the anchorage and the steel rod in the base portion; Stacking the segments; Inserting the PS rod into the laminated segment and connecting the rod into the anchorage; A method of constructing a retaining wall using a steel rod and a precast segment of reinforced concrete, characterized in that it is formed by the step of tensilely fixing the steel bar.