KR20100070864A - Temporary retaining wall structure for water works - Google Patents

Abstract

PURPOSE: A temporary retaining wall structure for water works is provided to improve the Construction convenience and safety by increasing the recycling rate of a material. CONSTITUTION: A temporary retaining wall structure for water works comprises a top soil film, a top spacer(110), a lower soil film and a lower spacer(210). The top soil film is formed in an excavator part. The top spacer is located in a gap of the top soil film. The lower soil film is formed in the inner area of the top soil film. The lower spacer is formed between the lower soil film.

Description

TEMPORARY RETAINING WALL STRUCTURE FOR WATER WORKS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an earthquake structure, and more particularly, to a simple earthquake structure (aka SK panel) used in construction for forming a pipeline such as a water pipe.

The trench work in the pipeline construction has a feature that the depth of the excavation depth is very long and the length of the excavation portion is very long, compared to the general structure, so that a prefabricated earth block structure such as SK panel has a structure that is easy to assemble and dismantle. It is desirable to.

1 to 5 shows the structure and construction method of a conventional simple earthenware construction using a pipeline.

As shown in the figure, the simple earth block structure for the pipeline is installed to prevent the side collapse of the pit excavation portion 2 for the pipeline engineer formed by the excavation work of the ground (1), and between the earth block members (10a, 10b) on both sides. The spacing member 20 is installed in the spacing member 20, and the spacing member 20 is installed to be hinged by the earth blocking members 10a and 10b and the hinge 21.

Thereby, structures such as water pipes 3 are installed on the bottom of the reinforced pit 2.

Referring to Figure 2 to 4 will be described the construction method of a conventional simple earthenware construction using a pipeline.

After excavation to the first depth (L1) in the ground (1) where the pipeline is to be formed by the primary excavation work, a simple earthenware structure is placed (FIG. 2).

While performing the secondary excavation work, the earth block members 10a and 10b are gradually typed, but since the spacer member 20 is coupled to the earth block members 10a and 10b by the hinge 21, the left and right earth block members ( 10a, 10b) by alternating driving method (Fig. 3).

In general, the depth (L1) of the first gulto work is about 2m, the total depth (L2) of the second gulto work is about 4m. Due to the nature of the pipeline construction that it should be done at such a high speed, once the primary work is carried out to the limit depth (about 2m), which can proceed with the excavation without the clogging structure, the construction of the clogging structure and the second excavation work are performed in that state. Because it is efficient.

When the simple earthenware structure is completed, the water pipe 3 and the like are embedded in the inner space, and after the backfilling operation, the simple earthenware structure is dismantled, and the construction is carried out again in the burrow portion of the forward position.

By the way, the conventional duct construction simple structure having such a configuration has been pointed out as a problem in the following points.

First, as shown in FIG. 3, once the burrowing work is performed to the first depth L1 and then the burrow and clogging structure type work to the second depth L2 is performed, the clogging members 10a and 10b are provided. It can not be avoided to some extent toward the inner side of the gulchwi 2, which is the primary reason to make the second gulchwa work and the construction of the earth block structure difficult.

Second, despite the situation that the earthen structure is forced to be bent as a whole, because the construction by force is made, many deformations of the earthen member (10a, 10b) can not be avoided, which makes it difficult to recycle after dismantling the material Becomes

Third, because the installation process of the pipeline proceeds in the state that the earth block structure is not properly constructed, the risk of safety accident is high.

Therefore, as shown in FIG. 5, in practice, a method of completing the excavation work up to the design depth in advance, inserting the retaining structure as it is, and then backfilling the soil around it is generally used.

In other words, the structure of the conventional simple earthenware structure was practically useless, which has no help for the dig work for pipeline workers.

The present invention has been made to solve the above problems, and it is an object of the present invention to provide a simple earth block structure for the pipeline construction of an efficient structure to increase the recycling rate of the material while easy and safe construction.

The present invention, in order to achieve the object as described above, in the duct construction simple earthquake structure is installed in order to prevent the side collapse of the ductwork pit for the duct 2 formed by the excavation of the ground (1), the oyster A pair of upper soil blocking members 100a and 100b installed on the soil portion 2; An upper spacer member 110 installed between the pair of upper barrier members 100a and 100b; A pair of lower mud members 200a and 200b installed in an inner region of the pair of upper mud members 100a and 100b so as to be driven upward and in a lower state; It proposes a simple earthwork structure for a pipeline including a; the lower space member 210 is installed between the pair of lower earthwork members (200a, 200b).

It is preferable to further include a guide portion 300 formed on the pair of upper makjae members (100a, 100b) to guide the pair of lower yard members (200a, 200b) in the vertical direction.

The guide part 300 is a side departure prevention part 310 for preventing the side departure of the lower retaining member (200a, 200b); It is preferable to include; the inner direction departure prevention part 320 for preventing the inner direction departure of the lower retaining members (200a, 200b).

A locking jaw 330 is formed at a lower end of the guide part 300 to prevent the lower detachment members 200a and 200b from falling down, and the locking jaw 330 is disposed on the lower blocking member 200a and 200b. It is preferable that the locking portion 340 is formed to be caught.

The guide part 300 extends inward from the inner surfaces of the upper retaining members 100a and 100b, and preferably has a 'b' shaped structure 300a.

The locking jaw 330 is protruded from a lower end of the inner direction departure preventing part 320, and the locking part 340 is a locking member mounting groove 341 formed at an upper end of the lower dirt member 200a or 200b. ; It is preferable to include a; engaging member 342 detachably mounted to the engaging member mounting groove 341.

The guide part 300 is installed on the side of the upper retaining member (100a, 100b), and includes a guide box (300b) formed with a guide groove (301b) in the vertical direction, the lower retaining member (200a, 200b) It is preferable that the guide member 350 is formed to protrude on the outer surface of the guide to be inserted into the guide groove (301b).

Side surfaces of the guide box 300b and side surfaces of the lower retaining members 200a and 200b may be positioned on substantially the same plane.

A locking jaw portion 360 protrudes inward from a lower end of the guide box 300b, and the locking portion 340 is head 351 of the guide member 350 formed to be caught by the locking jaw portion 360. Is preferably.

It is preferable that the blade portion 220 protrudes downward from the lower ends of the lower soil blocking members 200a and 200b.

The upper spacer member 110 is preferably installed in the upper region of the upper soil member (100a, 100b).

As the pair of lower swelling members 200a and 200b are in the folded state, lower ends of the pair of lower swelling members 200a and 200b and lower ends of the pair of upper swelling members 100a and 100b When positioned on substantially the same plane, the upper spacer member 110 is preferably installed so as to be located above the pair of lower retaining members (200a, 200b).

The lower spacer member 210 may include an upper portion and a core portion of inner regions of the pair of lower soil blocking members 200a and 200b.

The present invention provides a simple earth block structure for the pipeline construction of an efficient structure that is easy and safe to construct, and to increase the recycling rate of the material.

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

As shown in FIG. 6 or less, the present invention relates to a conduit construction simple earthquake structure installed to prevent side collapse of the ductwork oyster section 2 formed by the excavation operation of the ground (1) basically.

It is a pair of upper retaining members (100a, 100b) installed in the gulchwi 2; An upper gap member 110 installed between the pair of upper barrier members 100a and 100b; A pair of lower mud members 200a and 200b installed in an inner region of the pair of upper mud members 100a and 100b so as to be driven in a state of being folded upward and in a lowered state; It characterized in that it comprises a ;; the lower spacer member 210 is installed between the pair of lower retaining members (200a, 200b).

In this case, after the excavation to the first depth (L1), the upper retaining member (100a, 100b) and the lower retaining member (200a, 200b) is installed in a folded state (Fig. 6), in this state secondary After proceeding (FIG. 7), by installing the lower retaining members (200a, 200b) in the unfolded state can be proceeded in the order of completing the simple retaining structure (Fig. 8).

Therefore, it is possible to prevent the earthquake member from bending toward the inside of the pit part as in the prior art, which is easy to work, has a low risk of a safety accident, and has an effect of increasing the recycling rate of materials after dismantling of the structure.

The above structure may be sufficient to obtain the above effects, but as shown in FIG. 9 and below, the pair of upper mud members 100a and 100b to guide the pair of lower mud members 200a and 200b in the vertical direction. In the case where the guide portion 300 is formed in the above, the up and down driving of the lower retaining members 200a and 200b can be stably performed, and thus, an advantage that the pit and structure installation work can be performed more easily and stably is added. .

9 and 13, the guide portion 300, the side separation prevention portion 310 for preventing the side detachment of the lower retaining member (200a, 200b); By taking a structure including; the inner deviating prevention portion 320 for preventing the inner deviating of the lower makjae member 200a, 200b, so that the lower makjae member 200a, 200b does not deviate in the lateral and inward directions It is preferable to guide in the vertical direction.

In addition, in order to prevent the lower retainer members 200a and 200b from escaping downward while driving downward, the locking step 330 for preventing the lower retainer members 200a and 200b from escaping downward. ) Is formed, and it is preferable to take a structure in which the catching portion 340 is formed to be caught by the catching jaw 330 in the lower retaining members 200a and 200b.

Specific embodiments of the above configuration are as follows.

First, as shown in Figures 9 to 12, the guide portion 300 is formed to extend inward from the inner surface of the upper retaining members (100a, 100b), can take a structure having a cross-section 'b' shaped structure (300a). have.

In this case, the side portions of the lower retaining members 200a and 200b are partially inserted into the guide part 300 of the 'b'-shaped structure 300a to be driven upward and downward.

In this structure, in order to prevent the detachment during the downward driving of the lower retaining members 200a and 200b, the locking jaw 330 is protruded from the lower end of the inward release preventing part 320, and the locking portion 340 is the lower retaining block. A locking member mounting groove 341 formed on top of the members 200a and 200b; It can take a structure including a; engaging member 342 detachably mounted to the engaging member mounting groove 341.

Second, as shown in FIGS. 13 and 14, the guide part 300 is installed on the side surfaces of the upper soil member 100a and 100b and the guide box 300b in which the guide groove 301b is formed in the vertical direction. It includes, and the outer surface of the lower retaining members (200a, 200b) may have a structure in which the guide member 350 is protruded to be inserted into the guide groove (301b) to guide.

In this case, the guide member 350 protruding outward from the ends of the lower retaining members 200a and 200b is driven up and down while being inserted into the guide box 300b.

When the side of the guide box 300b and the side of the lower retaining members 200a and 200b are positioned on substantially the same plane, the advantage that close contact with adjacent earthing members having the same structure by surface contact is possible. .

In this structure, in order to prevent the detachment during the downward driving of the lower retaining members 200a and 200b, the locking jaw portion 360 is protruded to the inside of the lower end of the guide box 300b, and the head 351 of the guide member 350 is formed. ) May be formed in such a size as to be caught by the locking jaw portion 360.

In order to further facilitate the secondary excavation work and the installation work of the lower retaining members 200a and 200b, it is preferable to take a structure in which the blade portion 220 protrudes downward from the lower ends of the lower retaining members 200a and 200b. .

The upper spacer member 110 installed between the upper retaining members 100a and 100b is installed in the upper region of the upper retaining members 100a and 100b so as to avoid interference with the lower blocking members 200a and 200b in the inner region. It is good.

That is, by the pair of the lower retaining members (200a, 200b) is in a folded state, the lower end of the pair of lower retaining members (200a, 200b) and the lower end of the pair of upper retaining members (100a, 100b) substantially When located on the same plane, it is preferable that the upper spacer member 110 is installed to be located on the upper portion of the pair of lower retaining members (200a, 200b).

In this structure, the upper spacer member 110 serves to prevent the lower retaining members 200a and 200b from escaping upward.

In the state where the lower retainer members 200a and 200b are folded, the upper spacer member 110 and the lower spacer member 210 provided at the core of the lower retainer members 200a and 200b are mainly applied to the earth pressure on both sides of the pit part 2. Resistance (Figs. 6, 10).

In a state where the lower retaining members 200a and 200b are unfolded, the junction region between the upper retaining members 100a and 100b and the lower retaining members 200a and 200b becomes a structurally fragile part, so that the lower retaining members 200a and 200b are located above the lower retaining members 200a and 200b. The lower spaced member 210 is installed to mainly resist the earth pressure on both sides of the gulch (2) (Fig. 8, 12).

That is, the lower spacer member 210 is preferably formed to include the upper and the core portion of the inner region of the pair of lower retaining members (200a, 200b) in terms of the efficiency of the structure.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

1 to 5 shows a simple earth block structure for a conventional pipeline worker,

1 is a perspective view.

2 to 4 is a cross-sectional view showing the construction process.

5 is a cross-sectional view showing another construction process.

Figure 6 below shows an embodiment of the present invention,

6 to 8 are cross-sectional views showing the construction process of the first embodiment.

9 is a perspective view of a second embodiment;

10 to 12 are cross-sectional views showing the construction process of the second embodiment.

Fig. 13 is a perspective view of a third embodiment.

14 is a plan view of a third embodiment;

** Description of the symbols for the main parts of the drawings **

1: Ground 2: Gulto part

100a, 100b: upper soil member 110: upper spacer member

200a, 200b: lower soil member 210: lower spacer member

220: blade portion 300: guide portion

300a: guide portion of the 'b' shaped structure 300b: guide box

301b: guide groove 310: side departure prevention part

320: inward direction departure prevention part 330: locking jaw

340: engaging portion 341: locking member mounting groove

342: locking member 350: guide member

360: locking jaw

Claims (13)

In the conduit construction simple earth block structure that is installed to prevent the side collapse of the conduit gulting part 2 formed by the excavation of the ground (1), A pair of upper soil blocking members (100a, 100b) installed in the oyster portion (2); An upper spacer member 110 installed between the pair of upper barrier members 100a and 100b; A pair of lower mud members 200a and 200b installed in an inner region of the pair of upper mud members 100a and 100b so as to be driven upward and in a lower state; A lower spacer member 210 installed between the pair of lower soil barrier members 200a and 200b; Pipeline simple earthquake structure containing. The method of claim 1, The guide line 300 formed on the pair of upper soil member (100a, 100b) to guide the pair of lower soil member (200a, 200b) in the vertical direction further comprises a simple earth barrier structure. The method of claim 2, The guide part 300 is Side separation prevention part 310 for preventing the side separation of the lower retaining member (200a, 200b); An inner direction departure preventing part 320 for preventing an inner direction departure of the lower earth blocking members 200a and 200b; Pipeline simple earthquake structure for use. The method of claim 3, A locking jaw 330 is formed at a lower end of the guide part 300 to prevent downward detachment of the lower retaining members 200a and 200b. The simple earth block structure for pipeline construction, characterized in that the locking portion 340 is formed on the lower earth block members (200a, 200b) to be caught by the locking step (330). The method of claim 4, wherein The guide portion 300 extends inward from the inner surface of the upper retaining member (100a, 100b), the cross section is a simple earthwork structure for pipeline construction, characterized in that the 'b' shaped structure (300a). The method of claim 5, The locking jaw 330 is protruded from the lower end of the inner direction departure prevention part 320, The locking portion 340 is A locking member mounting groove 341 formed at an upper end of the lower barrier member 200a or 200b; A locking member 342 detachably mounted to the locking member mounting groove 341; Pipeline simple earthquake structure for use. The method of claim 4, wherein The guide part 300 is In addition to being installed on the side of the upper retaining member (100a, 100b), and includes a guide box (300b) formed with a guide groove (301b) in the vertical direction, A simple earthquake structure for a pipeline engineer, characterized in that the guide member 350 is protruded to be inserted into the guide groove (301b) on the outer surface of the lower retaining member (200a, 200b). The method of claim 7, wherein Side of the guide box (300b) and the side of the lower retaining member (200a, 200b) is a simple earthquake structure for a pipeline construction, characterized in that located on the same plane. The method of claim 7, wherein At the lower end of the guide box 300b, the locking jaw portion 360 is formed to protrude inward. The hooking portion 340 is a simple earth block structure for a pipeline construction, characterized in that the head 351 of the guide member 350 formed to be caught by the locking jaw portion 360. The method of claim 1, The simple earth block structure for a pipeline engineer, characterized in that the blade 220 is protruded to the lower side of the lower earth block members (200a, 200b). The method of claim 1, The upper spacer member 110 is a simple earthquake structure for a pipeline engineer, characterized in that installed in the upper region of the upper retaining member (100a, 100b). The method of claim 11, As the pair of lower swelling members 200a and 200b are in the folded state, lower ends of the pair of lower swelling members 200a and 200b and lower ends of the pair of upper swelling members 100a and 100b If located on substantially the same plane, The upper spacer member 110 is a simple earth construction for a pipeline construction, characterized in that installed on the upper portion of the pair of lower retaining members (200a, 200b). The method of claim 12, The lower spacing member 210 is a simple earthquake structure for a pipeline construction, characterized in that it comprises an upper portion and a core portion of the inner region of the pair of lower retaining members (200a, 200b).

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