KR100620746B1 - Constructing Method for Pipe Supporting Concrete Structure - Google Patents

Abstract

The present invention relates to a method for constructing a concrete structure for pipe support, and more particularly, to simplify the process at the construction site and to waste the grouting material by integrating the precast concrete, in which the embedding plate and the pedestal are integrated in advance. The present invention relates to a method for constructing a concrete structure for pipe support without pipes.

In the present invention, the anchoring of the buried plate to the upper side, the reinforcing bars corresponding to the pedestal portion to the upper cast the concrete to prepare a precast composite integrating the buried plate and the pedestal portion; Integrating the precast composite with the foundation by placing the prefabricated precast composite on top of the construction site with its embedded plate facing upwards and placing concrete on the foundation; And it provides a pipe support concrete structure construction method comprising the step of installing the pipe support saddle on the upper surface of the embedded plate of the precast composite.

Pipe, support, concrete, structure, construction, desalination plant, power plant

Description

Constructing Method for Pipe Supporting Concrete Structure             

1 is a schematic view showing the structure of a conventional concrete pipe support concrete structure.

Figure 2a and 2b is a view showing the construction sequence of a conventional concrete structure for supporting pipes.

Figure 3a to 3c is a view showing the construction sequence of the pipe support concrete structure according to the present invention.

4 is a view showing a state in which the construction of the concrete structure for pipe support according to the present invention is completed.

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

100: precast composite 110: embedded plate

112: anchor 120: pedestal

121: internal reinforcement 122: connection reinforcement

200: foundation 210: foundation rebar

The present invention relates to a method for constructing a concrete structure for pipe support, and more particularly, to simplify the process in the construction site by integrating the precast concrete, in which the embedding plate and the pedestal have been previously integrated, at the time of foundation laying, The present invention relates to a method for constructing a concrete structure for supporting pipes without waste.

In the desalination plant or power plant (boiler) plant, a large diameter pipe of 1.2 m in diameter is common.

In desalination plants, for example, the inlet or outlet pipes of the Brine Recirculration Pump, which support the lower part of the pipe as a concrete structure in case of vibration or sag.

1 shows a conventional concrete structure for supporting pipes, a pedestal portion 20 made of reinforced concrete is placed on a foundation 10 made of reinforced concrete, and an upper plate of the pedestal portion 20 is embedded. 30 is installed, and the saddle 40 for supporting the pipe (2) is installed on the embedding plate (30).

The conventional construction sequence for such a pipe support concrete structure is shown in Figures 2a and 2b.

That is, in the related art, as shown in FIG. 2A, the reinforcing bars 12 are disposed on the base part 10, and then the concrete is poured to complete the base part 10, and the pedestal part is placed on the base part 10. After reinforcing the reinforcing bar 22 corresponding to (20), the concrete is poured and integrated.

Then, as shown in FIG. 2B, the anchors 32 of the embedding plate 30 are inserted into the recess groove 24 formed concave on the upper surface of the pedestal portion 20, and then the pedestal portion 20 and the embedding plate are inserted. The grouting material 50 was filled in the space between the 30 to integrate.

As such, in the related art, since the three-step process of constructing the foundation part 10, constructing the pedestal part 20, and installing the embedding plate 30 therein has to be performed, the construction period is delayed. In particular, the gap between the bottom of the buried plate 30 and the upper surface of the pedestal 20 and the filling groove 24 must be filled with the grouting material 50, thereby resulting in a complicated construction and waste of grouting material. .

The present invention has been developed to overcome the various disadvantages and limitations of the prior art as described above, the object of the present invention is to simplify the process in the construction site and to avoid the waste of grouting material.

The present invention was developed in order to overcome various disadvantages and limitations of the above-described conventional method for constructing concrete structures for cast-in-place concrete pipes, and in the present invention, the precast plate and pedestal unit are separately pre-integrated and manufactured. There is provided a method of constructing a concrete structure for pipe support, which provides a structure and integrates it when placing the foundation part of a construction site.

Specifically, the method for constructing a concrete structure for pipe support according to the present invention is to precast the buried plate and the pedestal part by placing the anchors of the buried plate facing upward and reinforcing the reinforcing bars corresponding to the pedestal part. Preparing the composite in advance; Integrating the precast composite with the foundation by placing the prefabricated precast composite on top of the construction site with its embedded plate facing upwards and placing concrete on the foundation; And installing a pipe support saddle on the upper surface of the embedded plate of the precast composite.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3a to 3c are drawings showing the construction sequence of the pipe support concrete structure according to the present invention.

As shown in FIG. 3A, the anchors 112 of the embedding plate 110 are seated upwards in the previously prepared formwork 4, and then the concrete is poured into the embedded pedestal 120. 110 and the pedestal portion 120 forms an integrated precast composite 100.

In FIG. 3A, the reinforcing bars forming the pedestal part 120 are omitted, but it is natural to reinforce the reinforcing bars forming the pedestal part 120 on the embedding plate 110 before the concrete is placed.

Then, at the construction site, as shown in FIG. 3B, the foundation reinforcing bars 210 forming the foundation 200 are placed.

In addition, the precast composite 100 previously prepared is connected to and installed on the foundation reinforcement 210 bagged on the foundation 200, and then cast concrete on the foundation 200 to precast the composite 100. It is integrated with the base portion 200.

Therefore, the conventional three-step process of constructing the foundation part at the construction site, constructing the pedestal part therein, and installing the embedding plate there again is a two-step process of integrating the precast composite 100 into the foundation part 200. Is reduced to the process of.

In addition, as shown in FIG. 3C, the conventional process, which had to fill the grouting material in the recess and the space between the buried plate bottom and the top of the pedestal, is eliminated.

Here, the connection method of the precast composite 100 and the base reinforcement 210, as shown in Figure 3b, connecting reinforcing bars 122 connected to the internal reinforcement 121 of the precast composite 100 By exposing to the outside and connecting it to the base reinforcement 210 may be used.

In this way, if the curing for a certain period, as shown in Figure 4, the precast composite 100 having a buried plate 110 is integrally provided on the upper surface of the pipe support concrete structure is integrally installed on the base 200 Construction is completed.

Therefore, it is possible to support the pipe by seating the above-described saddle on the upper surface of the embedded plate (110).

According to the present invention as described above, the three-step process of conventionally constructing the foundation part at the construction site, constructing the pedestal part therein, and installing the embedding plate therein, integrates a precast composite prepared beforehand into the foundation part. By reducing to a simple two-step process, the process can be simplified to shorten the construction period.

In addition, since the embedding plate is made integrally with the pedestal part in advance, there is no need to form a space between the embedding plate bottom and the pedestal upper surface, and there is no need for an embedding groove for fixing the anchor of the embedding plate. Since the grouting material does not need to be filled in the recess groove, the waste of the grouting material can be prevented.

Claims (1)

In the case of supporting the bottom of the pipe with a saddle, in the method for constructing a support concrete structure for seating the saddle, Pre-fabricating the precast composite in which the embedding plate and the pedestal portion are integrated by placing the anchors of the embedding plate upward and reinforcing the concrete corresponding to the pedestal portion upward; Integrating the precast composite with the foundation by placing the prefabricated precast composite on top of the construction site with its embedded plate facing upwards and placing concrete on the foundation; And The pipe support concrete structure construction method comprising the step of installing a pipe support saddle on the upper surface of the embedded plate of the precast composite.

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