KR101293549B1 - Structure of precast concrete water tank using prestressing - Google Patents

Abstract

PURPOSE: An installation structure of a precast concrete water tank using prestressing is provided to improve the watertightness and constructionability of a water tank and to prevent the water tank from cracking due to the length increase of the water tank. CONSTITUTION: An installation structure of a precast concrete water tank using prestressing comprises a bottom part, a plurality of outer wall parts (200), and outer pillar part (300). The bottom part is constructed by applying reinforced concrete on the ground surface under water and forms the bottom surface of a water tank. An outer wall part forms a storage space on the upper surface of the bottom part. The outer wall part comprises a plurality of concrete panels (210) and a strand (220). A plurality of concrete panels is arranged on the outer upper surface of the bottom part to be connected to each other in a longitudinal direction. The strand penetrates the duct of a concrete panel to connect a plurality of concrete panels. The strand introduces prestress to closely fix a plurality of concrete panels. The outer pillar part hermetically connects gaps between corresponding outer wall parts. [Reference numerals] (AA) Mortar

Description

Installation structure of precast concrete tank using prestressing {STRUCTURE OF PRECAST CONCRETE WATER TANK USING PRESTRESSING}

The present invention relates to an installation structure of a precast concrete tank using prestressing, and more particularly, a bottom portion cast in concrete and an outer wall portion for forming a wall to form a storage space, wherein the outer wall portion includes a plurality of concrete panels. And, by installing using a strand wire to secure the plurality of concrete panels connected to minimize the cracks generated on the surface of the tank to increase the water tightness, and also to the installation structure of the precast concrete tank using pre-stressing to shorten the air will be.

In general, a reservoir is a structure for storage for a period of time before using temporary or treated water to treat water, heavy water or sewage.

As shown in FIG. 1, the prior art water storage tank 1 is constructed by using concrete reinforced at the site of the bottom surface 10 and the side wall 20 by using reinforced concrete, such a water storage tank 1 As the industry develops, the scale becomes larger in the transverse direction.

However, the above-described prior art water storage tank 1 is easily cracked by external force when the length is extended in the transverse direction, and when the crack is severe, durability and safety are remarkably degraded, and the cost for repair and reinforcement of such crack is also greatly increased. There is a growing problem.

In order to solve such a problem, the conventional water tank 1 is installed with expansion joints to control the cracking of concrete.

However, the expansion joint is frequently damaged by the groundwater pressure and the earth pressure or the hydrostatic pressure inside the reservoir, so that the usability is greatly reduced, and the repair reinforcement cost is greatly increased.

Technical problem to be solved by the present invention for solving the above-mentioned problems, the water tank construction including a water tank bottom portion and a water tank outer wall portion to be installed in the form of a box connected to the upper surface of the water tank bottom portion, the outer wall The Department arranges a plurality of pre-fabricated concrete panels and connects them using a stranded wire to secure the construction and watertightness of the tank, thereby preventing cracks caused by the length of the tank. It is to provide an installation structure of precast concrete tank using prestressing.

As a means for achieving the above-described technical problem, the installation structure of the precast concrete tank using the prestressing of the present invention is a bottom portion to the construction of the concrete on the ground; An outer wall portion provided on the bottom surface to provide a storage space; And an outer pillar part for placing concrete between the corresponding outer wall parts to connect the outer wall parts corresponding to the outer wall parts, wherein the outer wall part includes a plurality of concrete panels arranged to be connected to the outer side of the upper surface of the bottom part, and the concrete panel. The construction includes a stranded wire that penetrates and introduces a prestress to fix a plurality of concrete panels.

The contact surfaces of the concrete panels corresponding to each other are coupled to each other to form a coupling groove and a coupling protrusion to increase the sealing force.

The contact surface of the mutually corresponding concrete panel is provided with a waterproof material.

The outer surface of the bottom portion is formed with an outer insertion groove, the concrete panel is formed with a reinforcing bar to be inserted into the outer insertion groove, and the outer insertion groove into which the reinforcing bar is inserted to close the outer insertion groove.

"The upper surface side of the bottom part is provided with a partition wall part for increasing the support rigidity of the outer wall part.

The partition wall includes a plurality of concrete panels disposed to be connected to the inside of the upper surface of the bottom portion, and a strand that penetrates the plurality of concrete panels and introduces a prestress to fix the plurality of concrete panels. Concrete is poured between the outer wall and the partition wall to connect the outer wall, and the bottom of the other end of the partition wall is cast concrete to install the inner pillar to secure the other end of the partition to the bottom.

An inner insertion groove is formed at an inner side of the upper surface of the bottom portion, a reinforcing bar is formed at the lower portion of the concrete panel to be inserted into the inner insertion groove, and the inner insertion groove where the reinforcement is inserted is closed by inserting mortar to close the inner insertion groove. .

The upper part of the outer wall to provide the storage space is installed by pouring the top plate to close the storage space.

The strand passes through the duct embedded in the concrete panel.

According to the present invention, by installing a water tank including a bottom portion that is poured into concrete, and an outer wall portion that is constructed using a plurality of concrete panels and strands, the construction performance is increased to greatly reduce the cost, and moreover, regardless of the length of the water tank, It is effective to prevent the occurrence of cracks by maintaining the.

1 is a cross-sectional view showing a reservoir structure according to the prior art.
Figure 2 is a side view showing the installation structure of the precast concrete tank using prestressing according to the present invention.
Figure 3 is a plan view showing the installation structure of the precast concrete tank using prestressing according to the present invention.
Figure 4 is an enlarged view showing the coupling means in the installation structure of the precast concrete tank using prestressing according to the present invention.
5a and 5b is an enlarged view showing a concrete panel of a precast concrete tank using prestressing according to the present invention.
Figure 6 is an enlarged view showing the outer column in the installation structure of the precast concrete tank using prestressing according to the present invention.
7A and 7B are enlarged views showing coupling grooves and coupling protrusions or coupling protrusions and coupling protrusions corresponding to each other in the installation structure of precast concrete water tank using prestressing according to the present invention;
Figure 8 is a side view showing the partition wall in the installation structure of the precast concrete tank using prestressing according to the present invention.
9 is a plan view showing the partition wall in the installation structure of the precast concrete tank using prestressing according to the present invention.
Figure 10 is a side view showing the top plate in the installation structure of the precast concrete tank using prestressing according to the present invention.
11 is a view showing a method for installing a water tank by prestressing precast concrete according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

The precast concrete tank using prestressing structure according to the present invention is installed in the tank including the bottom and the outer wall, the outer wall is constructed by using a plurality of pre-fabricated concrete panels and strands, construction, watertightness and crack generation This is to prevent the configuration.

As shown in Figures 2 and 3, the installation structure of the precast concrete tank using the pre-stressing according to the present invention, the bottom portion 100 to the concrete construction and the upper surface of the bottom portion 100 A plurality of outer wall portion 200 to provide a storage space, and the outer column portion 300 for sealingly connecting between the corresponding outer wall portion 200.

Hereinafter, the configuration of the installation structure of the precast concrete tank using prestressing according to the present invention will be described in more detail.

The bottom portion 100 of the present invention forms the bottom surface of the water tank, and constructs reinforced concrete on the ground of the ground.

Here, the outer surface of the bottom portion 100 forms an outer insertion groove 110 for inserting the reinforcing bars 212 formed in the concrete panel 210 of the outer wall portion 200, the outer insertion groove 110 The bottom portion 100 is formed integrally when pouring.

The outer wall portion 200 of the present invention is to provide a storage space by connecting a plurality of the upper surface of the bottom portion 100, a plurality of concrete panels arranged to be connected in the longitudinal direction on the outer side of the upper surface of the bottom portion 100 (210), through the duct 211 formed in the concrete panel 210 is connected to a plurality of concrete panels 210 and by introducing a prestress made of a connection portion for fixing a plurality of concrete panels 210 in close contact The connection part uses the strand 220 having excellent rigidity.

In addition, below, the connection part is described as the stranded wire 220. FIG.

The concrete panel 210 is produced in large quantities in advance using reinforced concrete in a separate factory, and connects a plurality of such pre-made concrete panel 210 in the longitudinal direction to form the outer wall portion 200. That is, the outer wall of the tank having a variety of sizes according to the number of concrete panels 210 can be easily constructed.

On the other hand, between the concrete panel 210 and the bottom portion 100, as shown in Figure 4, to form a coupling means for increasing the bonding force, the coupling means is formed on the upper surface of the bottom portion 100 The insertion groove 110 and the bottom of the concrete panel 210 is provided and is inserted into the outer insertion groove 110 is made of a reinforcing bar 212 for fixing the concrete panel 210.

That is, the outer insertion groove 110 is integrally formed at the position where the outer wall portion 200 is to be installed when the bottom portion 100 is placed, and the reinforcing bar 212 is formed of a vertical reinforcing bar 212a and a horizontal reinforcing bar 212b. When the concrete panel 210 is poured, it is inserted in advance and formed integrally.

The coupling means is arranged to connect the concrete panel 210 to the upper surface of the bottom portion 100, the reinforcing bar 212 of the concrete panel 210 is inserted into the outer insertion groove 110 to increase the fixing force. When the arrangement of the plurality of concrete panels 210 is completed, the mortar is injected into the outer insertion groove 110 to close the outer insertion groove 110 to integrally construct the concrete panel 210 and the bottom part 100. This further increases the sealing force and fixing force.

On the other hand, one side of the concrete panel 210 of the present invention, as shown in Figures 5a and 5b, it is possible to selectively install a sub-wall (200a) for increasing the bearing capacity of the concrete panel 210, the sub-wall 200a It is preferable to construct at least two or more on one surface of the concrete panel 210, and to increase the workability by integrally constructing the concrete panel 210 during construction.

That is, the sub-wall 200a increases the bearing capacity and rigidity of the concrete panel 210 to prevent cracking caused by external force, and furthermore, it can minimize or eliminate the support used when installing the concrete panel 210 to reduce the cost. do..

On the other hand, the outer insertion groove 110 forms an extension groove so that the reinforcing bar formed in the lower portion of the sub-wall 200a is inserted, the mortar is injected into the extension groove to integrate the sub-wall 200a and the bottom portion 100. Construct with.

Meanwhile, as shown in FIG. 7A, coupling grooves 213 and coupling protrusions 214 are formed between the corresponding concrete panels 210 to prevent leakage by increasing adhesion.

That is, one of the contact surfaces of the concrete panel 210 corresponding to each other to form a coupling groove 213 in the longitudinal direction, the other contact surface in the longitudinal direction to be inserted and coupled to the coupling groove 213. Coupling protrusion 214 is formed.

In addition, the coupling groove 213 and the coupling protrusion 214 are formed in an arc shape to increase the bondability. That is, even though a coupling error of the coupling groove 213 and the coupling protrusion 214 occurs, the coupling protrusion 214 may be stably coupled while being guided along the curved surface of the coupling groove 213.

In addition, the contact surface between the concrete panel 210 corresponding to each other centering around the coupling groove 213 and the coupling protrusion 214 may further include a waterproof member 230 to further increase the watertightness, the waterproof material 230 is made of an elastic material to close the fine gap between the concrete panel 210 and the concrete panel 210 to further improve the watertightness.

On the other hand, Figure 7b shows another embodiment to increase the adhesion of the corresponding concrete panel 210 of the present invention.

That is, in the present embodiment, as shown in FIG. 7B, coupling protrusions 214 are formed on the contact surfaces of the corresponding concrete panels 210, respectively, and the coupling protrusions 214 of the concrete panels 210 are formed. Adhesion to prevent leakage.

In addition, the waterproof member 230 is installed in the inner and outer two places around the coupling groove and the coupling protrusion or the coupling protrusion and the coupling protrusion formed between the corresponding concrete panel 210, thereby further increasing the sealing force.

Therefore, the outer wall portion 200 may be constructed using a plurality of concrete panels 210 and the strand wire 220 prepared in advance, thereby minimizing field work, thereby increasing workability and preventing cracking.

As shown in FIG. 6, the outer pillar part 300 of the present invention is constructed between the outer wall parts 200 corresponding to each other, and reinforced concrete is disposed on the bottom part 100 between the outer wall parts 200 corresponding to each other. By pouring the outer wall portion 200 and the outer wall portion 200 is hermetically connected. That is, the outer pillar portion 300 is constructed by placing concrete in the field when the installation of the outer wall portion 200 is completed.

Therefore, the outer pillar portion 300 connects the outer wall portions 200 corresponding to each other to increase bearing capacity and watertightness, and incorporates a strand wire 220 into which a prestress is introduced to protect against external impact.

On the other hand, the installation structure of the precast concrete water tank using the prestressing according to the present invention may be further provided with a partition 400 in the outer wall portion 200.

"The partition 400 of the present invention, as shown in Figures 8 and 9, and a plurality of concrete panels 410 disposed to be connected to the bottom portion 100 between the outer wall portion 200 connected in the form of a box and The penetration line 420 is formed through the ducts (not shown) formed in the plurality of concrete panels 410 and the prestress is connected to fix the plurality of concrete panels 410 to be connected to each other. One end is provided to be supported on the inner surface of the corresponding outer wall portion 200.

And between one end of the partition portion 400 and the outer wall portion 200 is poured concrete to form a finish portion 430, the finish portion 430 is one end of the partition portion 400 and the outer wall portion ( 200) to increase the bearing capacity. In addition, the finish portion 430 may be installed in the outer wall portion 200.

In addition, concrete is poured into the bottom portion 100 of the other end of the partition 400 to form an inner pillar 440, and the inner pillar 440 is the bottom of the other end of the partition 400. By connecting the portion 100 to increase the supporting force of the inner pillar portion 440.

Meanwhile, the installation structure of the precast concrete water tank using prestressing according to the present invention may further include an upper plate 500 for finishing the storage space formed by the outer wall 200 of the box shape.

As shown in FIG. 10, the upper plate 500 of the present invention is manufactured by pouring reinforced concrete on the upper surface of the outer wall portion 200 arranged to be connected in a box shape on the upper surface of the bottom portion 100, and thus in a storage space. Block the ingress of foreign objects.

The construction method of the water tank structure by prestressing the precast concrete of this invention which has such a structure is demonstrated.

In the water tank construction method by prestressing the precast concrete of the present invention, referring to FIG. 11, a step of constructing the bottom portion 100 by placing concrete on the excavated ground (see FIG. 11 a), the bottom portion 100 Step of constructing a plurality of outer wall portion 200 to be connected in the form of a box on the upper surface of the (see b of FIG. 11), by pouring concrete to the plurality of outer wall portion 200 connection portion to construct the outer column portion 300 Step (see d of FIG. 11), filling the soil into the space between the ground and the wall (see e of FIG. 11).

That is, in the water tank construction method by prestressing the precast concrete of the present invention, as shown in Figure 11a, excavating the ground for installing the water tank, and then cast concrete on the floor surface to the bottom portion 100 Construct.

Then, as shown in b of FIG. 11, a plurality of concrete panels 210 are arranged to be connected along the periphery on the upper surface of the constructed bottom portion 100, and then the plurality of concrete lines 220 are used to connect the plurality of concrete panels. Fixed to be connected to the concrete panel 210 to construct the outer wall portion 200.

In this case, as shown in FIG. 11C, a temporary support may be installed to increase the supporting force of the outer wall portion 200.

Then, as shown in FIG. 11d, the outer pillar part 300 is constructed by pouring concrete between the corresponding outer wall parts 200.

Then, as shown in Fig. 11e, when the soil is put in the excavated space between the outer wall portion 200 and the ground and the tank installation work is completed.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

100: bottom portion 200: outer wall portion
300: outer column 400: partition wall
500: top plate

Claims (10)

A bottom part which is constructed by placing concrete on the ground;
An outer wall portion provided on the bottom surface to provide a storage space; And
Including concrete between the outer wall portion corresponding to the outer pillar portion to be constructed so that the mutually corresponding outer wall portion,
The outer wall portion includes a plurality of concrete panels disposed to be connected to the upper surface of the bottom portion, and a connecting portion for penetrating the plurality of concrete panels and introducing a prestress to secure the plurality of concrete panels connected,
An outer insertion groove is formed on an upper surface of the bottom portion,
The concrete panel forms a reinforcement to be inserted into the outer insertion groove,
An installation structure of a precast concrete tank using prestressing to construct the bottom and concrete panels integrally by injecting mortar into the outer insertion groove into which the reinforcing bar is inserted. The method according to claim 1,
One side of the concrete panel installation structure of the precast concrete tank using pre-stressing to install a sub-wall for increasing the bearing capacity of the concrete panel. The method according to claim 1,
The installation structure of the precast concrete tank using prestressing to increase the sealing force by forming a coupling groove and a coupling protrusion or a coupling protrusion and a coupling protrusion to be in close contact with each other on the contact surface of the concrete panel corresponding to each other. The method according to claim 1 or 2,
Installation structure of the precast concrete tank using prestressing provided with a waterproof material on the contact surface of the concrete panel corresponding to each other. delete The method according to claim 1,
An installation structure of a precast concrete tank using prestressing having a partition wall portion connected to the outer wall portion on the upper surface of the bottom portion. The method of claim 6,
The partition wall portion includes a plurality of concrete panels arranged to be connected to the upper surface of the bottom portion, and a connecting portion for penetrating the plurality of concrete panels and introducing a prestress to fix the plurality of concrete panels,
Between the end of one side of the partition wall portion and the outer wall portion is poured concrete to integrally construct the partition wall portion and the outer wall portion,
Installation structure of the precast concrete tank using prestressing to construct the inner pillar portion connecting the other end and the bottom portion of the partition wall by pouring concrete at the other end of the partition wall. The method according to claim 1,
An inner insertion groove is formed on an upper surface of the bottom portion,
Reinforcing bar is formed in the lower portion of the concrete panel to be inserted into the inner insertion groove,
An installation structure of a precast concrete tank using prestressing to construct the bottom and concrete panels integrally by injecting mortar into the inner insertion groove into which the reinforcement is inserted. The method according to claim 1,
An installation structure of a precast concrete tank using prestressing to construct the upper plate to close the storage space in the upper portion of the outer wall to provide the storage space. The method of claim 1 or claim 7,
The connecting portion is a strand wire, the installation structure of the precast concrete tank using prestressing through a plurality of concrete panels through a duct embedded in the concrete panel.

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