KR100803921B1 - Pit working method forr undergrund floor railroad operation of elevator - Google Patents

Abstract

The present invention relates to a cavity construction method for extending the elevator basement floor, in particular at a right angle with the lower side outer surface of the existing building 14, the existing elevator is installed so that the ground 12 of the basement 1 floor 10 is exposed. Cutting the base slab 16 of the first basement 10 in contact; Installing a plurality of micropiles 18 perpendicularly to the ground 12 at a predetermined distance from each other along the periphery of the existing building 14; After forming a plurality of perforation holes in the ground (12) of the inner circumference than the ground 12, the plurality of micro piles 18 are installed, by injecting grouting injection material through the reinforcing steel pipe inserted into these holes in multiple stages Curing to form the temporary wall 20 for the mudwall integrated with the ground layer of the ground 12; Excavating the ground (12) to the embedding depth of the foundation footing (22) in the state where the foundation slab (16) is removed; Concrete is placed on the ground 12, the foundation footing part 22, the foundation slab 16, the top of the micropile 18, the top of the temporary wall 20, the ground 12 is integrally connected Curing to form a first concrete pour surface 24; Installing a temporary steel frame (26) so as to penetrate the upper wall of the existing building (14) and both lower ends thereof are seated and supported on the bottom of the first concrete placing surface (24); Cutting the entirety of the foundation footing part 22 connected to the first concrete placing surface 24; Digging the ground (12) obscured by the foundation footing portion (22) to a predetermined depth and cutting the foundation pile (28) protruding into the excavated portion; Curing to form a second concrete placing surface 30 on which the foundation wall 20, the foundation pile 28, and the ground 12 are integrally connected on the ground 12; The third concrete placing surface is connected to the temporary wall 20, the first concrete placing surface 24, the second concrete placing surface 30 by placing concrete on the upper edge of the second concrete placing surface 30 As it is constructed in the step of curing to form (32), when constructing a new cavity 14a so that the elevator extends to the basement 1 floor 10 at the apartment remodeling site, the existing building 14 is not damaged while the earth pressure It is to ensure both safety and efficiency so that the ground (12) is not collapsed by.

Elevator, cavity, basement, pits, micropile, grouting, slab, footing

Description

PIT WORKING METHOD FORR UNDERGRUND FLOOR RAILROAD OPERATION OF ELEVATOR}

The present invention relates to a cavity construction method for extending an elevator basement floor, and more particularly, an existing building during the construction of a pit (hereinafter joint) for extending an elevator from an apartment remodeling site to an underground parking lot. The present invention relates to a cavity construction method for extending the basement level of an elevator that can secure both safety and efficiency so that the ground is not collapsed by earth pressure without being damaged.

In general, most of the elevators in the apartments are constructed to operate only on the ground floor, so the elevator was not available in the parking lot provided on the ground floor.

Therefore, in the past, various construction methods have been proposed to remodel an elevator installed to run only to the first floor in an existing building (apartment) to extend to the first floor of the basement. As an example, one of the widely used methods is to install the pits by excavation without performing additional ground reinforcement methods (e.g., micro pile and reinforcing steel pipe multi-stage grouting) on the foundation concrete floor of existing buildings. Later, the concrete has been constructed in the bottom and walls of the cavity where the elevator can be extended by running.

However, such a pit construction method not only may cause the ground to collapse due to the impact and earth pressure generated when excavating the ground, but also causes the ground to sink after completion of construction. There was a problem that the stability and efficiency, such as being poor.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention is to ground the ground by earth pressure without damaging the existing building when constructing a new cavity so that the elevator extends to the basement 1 floor in the apartment remodeling site It is to provide a joint construction method for extending the basement level of the elevator that can ensure both safety and efficiency so as not to collapse.

Cavity construction method for extending the elevator basement floor according to the present invention made to achieve the above object, the basement 1 floor in direct contact with the lower side outer surface of the existing building is installed an existing elevator so that the ground of the basement 1 floor is exposed. Cutting the foundation slab; Installing a plurality of micropits perpendicularly to the ground at a predetermined distance from each other along the periphery of the existing building; After forming a plurality of perforation holes in the ground around the ground where the plurality of micro piles are installed, the grouting injection material is injected through the reinforcing steel pipe inserted into the multi-stage into the perforated holes, and the soil film temporary equipment integrated with the ground layer of the ground Curing to form a wall; Excavating the ground to the embedding depth of the foundation footing portion with the foundation slab removed; Placing concrete on the ground and curing the foundation footing part, foundation slab, upper end of the micro pile, upper end of the temporary wall for use of a retaining wall, and a first concrete placing surface on which the ground is integrally connected; Installing a temporary steel frame so as to penetrate the upper wall surface of the existing building and both lower ends thereof are supported by being seated on the bottom of the first concrete pouring surface; Cutting the entire footing portion connected to the first concrete placing surface; Digging the ground covered by the foundation footing unit to a predetermined depth and cutting the foundation pile protruding into the excavated portion; Curing to form a second concrete placing surface on which the grounding temporary wall, foundation pile, and ground are integrally connected to the ground; Placing concrete on the upper edge of the second concrete placing surface to form a curing step to form a third concrete placing surface to which the temporary wall for walling, the first concrete placing surface, and the second concrete placing surface are connected. .

In the joint construction method for the elevator basement extension operation according to the present invention, after reinforcing the ground by a micropile and a temporary wall for the construction of the concrete so that the ground is not collapsed by earth pressure without damaging the existing building, By placing the construction process to form a new cavity by pouring, it is possible to secure both safety and efficiency at the remodeling site of the apartment.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings, FIGS. 1 to 12.

The joint construction method for extending the elevator basement floor according to the present invention has a cavity 14a in which an existing elevator (not shown) is installed as shown in FIG. 1 so that the ground 12 of the first basement 10 is exposed. After cutting (S1) the foundation slab 16 of the first basement 10 which is in contact with the lower outer surface of the existing building 14 at right angles, the existing building 14 with respect to the ground 12 as shown in FIG. The ground 12 is not collapsed by earth pressure by vertically installing the plurality of micropiles 18 at a predetermined distance from each other along the outer edge of the buried layer, for example, so as to sequentially reach the sedimentary layer, the weathered rock, and the soft rock. The ground 12 is reinforced and stabilized to prevent it.

When the installation work of the micropile 18 is finished, as shown in FIG. 3, rods and bits of a hydraulic drill or a perforator on the ground 12 of the inner circumference than the ground 12 where the plurality of micropiles 18 are installed. After forming a plurality of drilling holes by using the bit (Bit), and then grouting injection material (for example, a milk solution containing cement, water, bentonite) is injected through a reinforcing steel pipe inserted into these holes in multiple stages The ground 12 is not cured by earth pressure by curing S3 to form the temporary wall 20 for the mud wall integrated with the ground layer of the ground 12 (for example, a buried layer, sedimentary layer, weathered rock, soft rock, etc.). Reinforce and stabilize).

That is, the temporary wall 20 for retaining wall acts as a retaining wall integrated with the soil (stratum) of the ground 12, the characteristic element of this grouting construction is the reinforcing steel pipe and the perforated tightly inserted into the drilling hole The grouting injection material firmly injected into the empty space around the hole is faithfully positioned so that the force of the strain causing factor of the surrounding ground 12 is resisted by the reinforcing steel pipe.

Therefore, when the grouting injection material of cement milk is injected into the reinforcing steel pipe insertion hole at a discharge pressure of 20 kg / cm 2 or more using an equivalent injection pump, most of the injection grouting injection material penetrates into the surrounding ground 12 to compensate for shrinkage. do.

At this time, depending on how faithfully filled space around the reinforcing steel pipe and the reinforcing steel pipe in the drilling hole during the construction process, the temporary wall wall 20 for grouting injecting the driving force (Driving Force) to destroy the ground (12) It is reinforced by the tensile force of the reinforced and reinforcing steel pipe that is filled and solidified. The tensile force is generated by the friction force between the ground 12 and the reinforcing steel pipe, and the greater the friction force between the ground 12 and the reinforcing steel pipe, the stronger the reinforcing effect of the ground 12 is. Will be excellent.

On the other hand, when the curing operation of the temporary wall 20, the base side slab is removed, as shown in Figure 4, for example, so that the foundation extension is formed on the ground 12, the lower side of the existing building 14 After the excavation (S4) to the embedding depth of the foundation footing portion 22 embedded in the ground 12 while forming a, and then cast concrete on the ground 12 to the excavated portion as shown in FIG. ), The foundation slab (16), the top of the micropile (18), the upper end of the temporary wall (20) to form a first concrete pour surface (24) to form an integral connection to the foundation footing part Expand 22.

When the curing work of the first concrete pouring surface 24 is finished, as shown in Figure 6 to prevent the existing building 14 from sag or collapse, while passing through the upper wall surface of the existing building 14, the lower ends of both sides of the first concrete After installing the temporary steel frame 26 seated and supported on the bottom of the pouring surface 24 (S6), the entire foundation footing part 22 connected to the first concrete pouring surface 24 is cut as shown in FIG. 7. By the step (S7), the entire upper end of the ground 12 and the foundation pile 28 covered by the foundation footing part 22 is exposed to the outside.

That is, the existing foundation footing part 22 is cured to form the first concrete placing surface 24 connected with the foundation sleeve 16 before being cut (removed), and then the first concrete placing surface 24 is formed. The existing building 14 is supported by the temporary steel frame 26 penetrating the wall of the existing building 14 while being seated therein, and then removing the foundation footing 22. It will not sag or collapse.

Here, the temporary steel frame 26 is a horizontal H-beam (H-beam) penetrating a plurality of temporary rectangular holes formed in the upper wall surface of the existing building 14 to communicate with the cavity 14a, and the first 1 while being vertically supported and fixed to the bottom of the concrete pouring surface 24, the upper end supports both ends of the horizontal H-beam and is installed as a vertical H-beam coupled by welding.

On the other hand, when the entire cutting operation of the foundation footing portion 22 is finished, the foundation 12 is excavated to a predetermined depth while the ground 12 hidden by the foundation footing portion 22 as shown in Fig. 8 protruded into the excavated portion After cutting the pile 28 (S8), the concrete is placed on the ground 12 as shown in Figure 9 by the temporary wall 20, the foundation pile 28, the ground 12 is integrally connected By curing (S9) to form two concrete pouring surface 30 to construct a floor connected to the cavity 14a.

When the curing operation of the second concrete pouring surface 30 is finished, the concrete is poured on the upper edge of the second concrete pouring surface 30, as shown in FIG. 10 for the temporary wall 20, the first concrete pouring surface ( 24), by curing the curing (S10) to form a third concrete placing surface 32, the second concrete placing surface 30 is integrally connected to the wall connected to the cavity 14a.

That is, when the third concrete placing surface 32 is cured, the first concrete placing surface 24 and the second concrete placing surface 30 are connected together so as to be integrated into one line, and at the same time, between the basement first floor 10 and the base. Since it is also integrally connected to the lower portion (vertical wall) of the existing building 14, which is floating on the same as the foundation footing part 22 removed, the temporary steel frame 26 temporarily installed according to the construction order is After curing of the first concrete pouring surface 24, the second concrete pouring surface 30, and the third concrete pouring surface 32 is completed, the existing building 14 is not sag or collapsed as shown in FIG. 11.

At this time, the second concrete pouring surface 30 and the third concrete pouring surface 32 is formed in the basement 1 floor by forming a new floor and wall connected to the cavity 14a of the existing building 14 as shown in FIG. An elevator (not shown) can be extended to 10), and if there is a parking lot on the first basement floor 10, the apartment allows the user (resident) to get on and off the elevator immediately Can be safely and efficiently remodeled.

Therefore, the step (SEP) from the S1 to S10 is the ground by the earth pressure without damaging the existing building 14 when constructing a new cavity 14a so that the elevator extends to the basement 1F 10. 12, the foundation footings 22 removed after the reinforcement work by the micropile 18, the temporary wall 20 for the retaining wall, the first concrete pouring surface 24 and the temporary steel frame 26 so as not to collapse. The second concrete placing surface (30) and the third concrete placing surface (32) in place of the role of the step to cure the construction procedure to be cured to ensure both safety and efficiency at the remodeling site of the apartment .

On the other hand, the present invention is not limited only to the above-described embodiment, but can be modified and modified within the scope not departing from the gist of the present invention, the technical idea to which such modifications and variations are also applied to the claims Must see

1 to 11 is an exemplary view schematically showing a cavity construction sequence according to the present invention,

12 is a flow chart sequentially showing a cavity construction method according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: first basement floor 12: ground

14: building 14a: common department

16: foundation slab 18: micro pile

20: temporary wall for soil 22: footing foundation

24: first concrete pouring surface 26: temporary steel frame

28: foundation pile 30: the second concrete pouring surface

32: 3rd concrete pouring surface

Claims (1)

Cutting the foundation slab 16 of the first basement 10 in contact with the lower outer surface of the existing building 14 at which the existing elevator is installed so that the ground 12 of the first basement 10 is exposed; ; Installing a plurality of micropiles 18 perpendicularly to the ground 12 at a predetermined distance from each other along the periphery of the existing building 14; After forming a plurality of perforation holes in the ground (12) of the inner circumference than the ground 12, the plurality of micro piles 18 are installed, by injecting grouting injection material through the reinforcing steel pipe inserted into these holes in multiple stages Curing to form the temporary wall 20 for the mudwall integrated with the ground layer of the ground 12; Excavating the ground (12) to the embedding depth of the foundation footing (22) in the state where the foundation slab (16) is removed; Concrete is placed on the ground 12, the foundation footing part 22, the foundation slab 16, the top of the micropile 18, the top of the temporary wall 20, the ground 12 is integrally connected Curing to form a first concrete pour surface 24; Installing a temporary steel frame (26) so as to penetrate the upper wall of the existing building (14) and both lower ends thereof are seated and supported on the bottom of the first concrete placing surface (24); Cutting the entirety of the foundation footing part 22 connected to the first concrete placing surface 24; Digging the ground (12) obscured by the foundation footing portion (22) to a predetermined depth and cutting the foundation pile (28) protruding into the excavated portion; Curing to form a second concrete placing surface 30 on which the grounding temporary wall 20, the foundation pile 28, and the ground 12 are integrally connected to the ground 12; The third concrete placing surface is connected to the temporary wall 20, the first concrete placing surface 24, the second concrete placing surface 30 by placing concrete on the upper edge of the second concrete placing surface 30 Cavity construction method for extending the elevator basement floor, characterized in that it comprises a step of curing to form (32).

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