KR200206706Y1 - Under ground water of fluctuation determinater - Google Patents

Abstract

The object of the present invention is to provide a groundwater level fluctuation measuring instrument used for the construction of underground structures that can accurately measure the groundwater level fluctuations and thereby reduce the cost of building construction.

Groundwater level fluctuation measuring device according to the present invention is an inlet pipe extending from the base of the base of the concrete pouring surface to the bottom of the excavation surface and having a predetermined diameter; A flange coupled to the outer periphery of the water inlet pipe and positioned between the concrete pouring surface and the excavating surface and having a plurality of fixing holes penetrated in the thickness direction, wherein each of the plurality of fixing holes penetrates a wedge to fix the ground. Keeping the intake pipe perpendicular; And an index plate for blocking groundwater penetrating into the concrete pouring surface through a pipe, the index plate being coupled to an outer circumference of the inlet pipe so as to be positioned above the flange, and the outer wall of the underground structure according to the water level penetrating into the inlet pipe. By visually observing changes in the groundwater level, underground structures can be constructed to control the pumping amount of groundwater.

Description

Underground water of fluctuation determinater used for underground construction

The present invention relates to an underground water level gauge for measuring the groundwater level change for the safe construction of underground structures and ground structures during building construction, and more particularly to prevent the structures located underground by groundwater from rising. It is to measure the change of the water level around the structure to prevent the injury of the structure and to use it as a measure for the settlement of the adjacent ground due to the groundwater pumping.

In general, when a large-scale high-rise building is constructed, the underground structure is not only buried deeply in the basement to support the structure of the ground, but also the size of the underground structure is emphasized.

One of the most important problems in the construction of underground structures is that it is necessary to design the foundation of the structure in consideration of the water level and quantity of groundwater around the underground structure. Moreover, the rise of structures, settlements, settlement of adjacent ground and the adjacent structures Considering the cracks and decay of the groundwater pumping the structure or in some cases there is a problem that adds to the construction work should be installed around the building.

Therefore, the basic design of the underground structure requires a robust design so that not only the load of the ground structure but also the rise of the structure due to the buoyancy of the groundwater and the warpage caused by it, but usually the maximum groundwater without the groundwater level and quantity predicted There is a problem of increasing the construction cost by designing the structure in anticipation of the above.

The present invention has been devised in view of the above points, and provides a groundwater level fluctuation measuring instrument used for the construction of underground structures that can accurately measure groundwater level fluctuations and thereby reduce the cost of basic construction of the underground structures and the corresponding construction costs. For that purpose.

Another object of the present invention is to provide a groundwater level change measuring instrument used for the construction of underground structures that can use groundwater after the completion of the building.

Groundwater level fluctuation measuring device of the present invention for achieving this purpose is an inlet pipe extending from above the basement concrete pouring surface to the bottom of the excavation surface and having a predetermined diameter; is fitted into the outer periphery of the water inlet pipe and the concrete pour surface A flange positioned between the excavation surfaces and having a plurality of fixing holes penetrated in the thickness direction, wherein each of the plurality of fixing holes penetrates a wedge to fix the water supply pipe to maintain the verticality of the inlet pipe; In order to block the groundwater permeating to the surface, the index plate is coupled to the outer periphery of the water inlet pipe to be located above the flange; including, with the naked eye to change the groundwater level of the outer wall of the underground structure according to the water level seeping into the water pipe Construction of the structure to see whether it is possible to control the pumping amount of groundwater by observing It provides the groundwater fluctuation meter used.

The present invention is an intake pipe extending from the base of the base of the concrete pouring surface to the bottom of the excavation surface and having a predetermined diameter; A flange coupled to an outer circumference of the water inlet pipe and positioned between the concrete pouring surface and the excavating surface; An index plate coupled to an outer circumference of the inlet pipe so as to block groundwater that penetrates the concrete pouring surface through the pipe; A cap for hermetically sealing an upper opening of the water inlet pipe; And a pressure gauge for measuring the air pressure inside the water inlet pipe; and measuring a change in the groundwater level of the outer wall of the underground structure by measuring a changed air pressure inside the pipe according to a change in the water level penetrating into the water pipe. Provides groundwater level fluctuation measuring instruments used for construction of structures.

The groundwater level fluctuation measuring device accurately observes or measures fluctuations in the groundwater level when constructing underground structures located below the building, thereby pumping an appropriate amount of groundwater, thereby preventing floating of underground structures and pumping groundwater according to the level change. It is possible to prevent the settlement of cracks and collapses of other structures by preventing settlement of adjacent grounds. Furthermore, by appropriately pumping groundwater, it is possible to reduce the cost of constructing structures such as optimizing the retaining wall thickness of underground structures and reducing buoyancy.

1 is an exploded perspective view showing a groundwater level measuring device according to the present invention,

Figure 2 is an exploded perspective view showing a groundwater level meter showing another embodiment of the present invention,

3 is a cross-sectional view of a state installed in the underground structure the groundwater level measuring device of the present invention,

Figure 4 is an exemplary view for explaining the groundwater level measuring method according to the present invention.

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

1: groundwater level meter 10: inlet pipe

11: pitcher 20: flange

23: index plate 30: extension tube

32: Flare Nut

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Figure 1 is an exploded perspective view showing the groundwater level change measuring device according to the present invention, to facilitate the construction of the underground structure of the building through the ground concrete through the bottom of the underground structure to change the groundwater level of the outer wall of the structure To observe.

Referring to the drawings, the groundwater level measuring instrument, which is indicated by the reference numeral 1 as a whole, includes a hollow groundwater inflow pipe 10 having a constant diameter and length. The water inlet pipe 10 has a length extending from above the foundation concrete pouring surface of the underground structure to the bottom of the excavation surface, and measures the groundwater level of the outer wall by observing the groundwater flowing into the water inlet pipe 10.

The water inlet pipe 10 has permeable holes 11 formed at the outer periphery of the portion located under the bottom of the base concrete to free the inflow of ground water. The water permeable hole 11 can adjust the pumping amount by allowing the groundwater level present on the outer wall and the change of the water level to be observed in real time when pumping the groundwater inside the underground structure.

Reference numeral 20 shows a flange that is fitted to the outer circumference of the water inlet 10. The flange 20 is formed in a disk shape having a predetermined thickness, and forms an insertion hole 21 substantially the same as the outer diameter of the inlet pipe 10 at the center thereof, and the inlet pipe 10 is formed through the insertion hole 21. Both fittings may be joined to each other by welding, or may be threaded by forming a thread on the outer periphery of the water inlet pipe 10, and may be integrally injection molded.

The outer side of the insertion hole 21 through a plurality of fixing holes 22 through the concentric circle in the thickness direction, through the wedge 24 through the fixing hole 22 to fix the end end to the ground When pouring concrete is to maintain the vertical of the inlet pipe (10).

Preferably, the flange 20 is positioned between the concrete pouring surface and the underground excavation surface, and the concrete is poured outwardly while the inlet pipe 10 to which the flange 20 is coupled is fixed vertically.

Numeral 23 shows the index plate. The index plate 23 is for blocking groundwater that penetrates to the foundation concrete pouring surface along the outer circumferential surface of the inlet pipe 10, and is preferably fastened to the outer circumference of the inlet pipe 10 embedded in the foundation concrete.

The index plate 23 may be horizontal or may have an inclination downward, and it is preferable to install a plurality of at equal intervals in the vertical direction so as to increase the order effect, and furthermore, concentric corrugations from the radially inner side to the outer side. It is good to allow this to be formed continuously.

The present invention is limited to the length of the inlet pipe 10 to protrude a predetermined length above the base concrete, it can be extended to the length by combining a separate hollow extension pipe 30 to the end. The extension pipe 30 is to observe the water level by allowing the inside to be transparent from the outside by using the material as a transparent material, and to display the scale 31 at regular intervals on the outer periphery to measure the amount of change in the water level, It is possible to adjust the pumping amount of the groundwater while observing the change in the observed water level.

Furthermore, in the embodiment, the extension pipe 30 and the water inlet pipe 10 are screwed together using the flare nut 32. One end of the extension pipe 30 is formed with a locking jaw (30a) on the outer periphery, the other side by forming a screw thread on the outer periphery, to extend another extension pipe or screw the cap 40 as shown in FIG. The opening can be sealed.

The flare nut 32 coupling the inlet pipe 10 and the extension pipe 30 forms a thread on the inner circumference and is screwed with the thread 12 formed on the outer circumference of the inlet pipe 10. The watertight between the two members can be maintained by being in close contact between the bottom surface of the sill chin 30a formed at the end of the extension pipe 30 and the end of the water inlet pipe 10 via a gasket 33. According to the structure, it is possible to easily combine the above-described extension pipe.

According to the embodiment, when the upper part of the extension pipe 30 is installed in the open state, the interior of the extension pipe 30 is exposed to the air, so that the water level introduced into the water inlet pipe 10 and the water level of the outer wall of the underground structure Is raised or lowered equally, and based on this, the level of the outer wall of the structure can be observed from the inside, but in another embodiment, as shown in FIG. 2, the opening of the extension pipe 30 is hermetically sealed with the cap 40, and the cap By installing the pressure gauge 41 on the 40, the outer wall level of the structure may be measured by measuring a change in air pressure existing in the extension pipe 30 according to the change in the water level.

Figure 3 illustrates an installation state for using the groundwater level fluctuation measuring device according to the present invention for the construction of underground structures.

Referring to the drawings, the size of the underground structure is usually determined according to the ground floor area of the ground structure, the ground vein in the process of excavating the ground for the construction of the underground structure can penetrate the structure, These subterranean veins provide buoyancy to float underground structures.

Therefore, when constructing an underground structure, a basic design considering groundwater buoyancy is required, and a lot of difference may occur in the cost of basic design and construction depending on the groundwater level.

In view of these considerations, in the present design, the groundwater level change meter (1) is installed on the excavated underground floor, and the groundwater can be pumped while observing the groundwater level based on this, thereby optimizing the foundation design of the underground structure and the resulting construction cost. Will be used as a cornerstone to save.

The present invention is to set the position to install the ground water level fluctuation meter on the excavated underground floor as illustrated, and forms a pond 26 having a constant depth and area at the set position.

Since the upper surface of the flange 20 fixed to the outer periphery of the inlet pipe 10 in the excavated puddles 26 coincides with the opening surface of the puddles 26, the surroundings are sand to match the basement floor surface. Landfill with and gravel.

In this case, the measuring device 1 is buried in the surrounding gravel to maintain the vertical and at the same time freely flowing out of the groundwater. In this state, the wedge 24 is penetrated through the plurality of fixing holes 22 formed in the thickness direction of the flange 20 so that the measuring device 1 is supported on all sides by being fixed in the ground by the gravel sand embedded in the puddle or further extending. Here, the sump 26 is to prevent the inlet pipe 10 from being blocked by the surrounding soil, and further to obtain a clear ground water when developing groundwater.

Thereafter, a film 25 is coated on the basement floor including a puddle, and the base structure 27 is cast on the upper surface of the film 25 with the same thickness as the basic design. In this case, the outer periphery of the measuring device 1 The fixed index plate 23 is located approximately in the center of the base concrete, and the upper part of the inlet pipe 10 protrudes above the concrete 27 placing surface. At this time, a groove is formed around the inlet pipe 10 protruding from the upper surface of the concrete. (28) may be formed.

In this state, the extension pipe 30 is screwed into the flare nut 32 at the top of the water inlet pipe 10 so as to extend to a predetermined length from the bottom of the underground structure.

Through the installation method, the groundwater level measuring device 1 fixedly installed in the underground structure passes through the pour surface of the foundation concrete 27 and communicates with the groundwater, and the groundwater level measuring device 1 collects on the outer wall of the structure. Groundwater is introduced through the inlet pipe 10, and the introduced groundwater maintains the same level as the groundwater level of the outer wall of the structure.

The present invention can be pumped to the appropriate amount of groundwater required for the construction because it can be gathered on the outer wall of the underground structure or the sewage level can be observed inside the structure as shown in FIG. Not only can it be installed while adjusting the water level, but it can also prevent groundwater exhaustion due to excessive pumping volume.

Although the above-described embodiment has been described by limiting the observation of the groundwater level with the naked eye, as shown in FIG. By measuring the air pressure present in the pressure gauge 41, the ground water level can be measured by the changed air pressure.

In addition, it will be appreciated that the present invention can be used for underground water development after the construction of underground structures.

As described above, the present invention has a structure that can visually check the groundwater fluctuation level with the construction, whereby the settlement and injuries of the structure due to the groundwater buoyancy fluctuation can be found in advance and the corresponding measures can be taken. In addition, it is possible to predict groundwater fluctuations, thus enabling the basic design of economic underground structures and thus reducing the construction cost.

In addition, by suppressing unnecessary pumping of groundwater during construction, it is possible to omit the foundation work due to the settlement of adjacent ground and the prevention of cracking of adjacent buildings. It can also be used to review the stability of buildings due to changes in groundwater levels.

In addition, the groundwater fluctuation measuring instrument installed during the construction of underground structures can be used for groundwater development, which can be useful for both before and after construction.

Claims (5)

An inlet pipe extending from the basement concrete placing surface above the excavation surface and having a predetermined diameter; Flange which is inserted into the outer periphery of the water inlet through the insertion hole formed in the center is located between the concrete placing surface and the excavation surface and a plurality of fixing holes penetrated concentrically in the thickness direction to the outer surface of the insertion hole, wherein Maintaining the verticality of the water inlet pipe by penetrating a wedge through each of the plurality of fixing holes and fixing it to the ground; And In order to block the groundwater penetrating the concrete pouring surface along the outer circumferential surface of the water pipe, the index plate coupled to the outer periphery of the water pipe so as to be located above the flange; Groundwater level fluctuation measuring instrument used in the construction of underground structures that allows the pumping amount of groundwater to be adjusted by visually observing changes in the groundwater level of the outer wall of the structure. According to claim 1, Ground level change measuring instrument used for construction of underground structures, further comprising a transparent extension pipe is tightly coupled to the water supply pipes that are discharged above the concrete pouring surface. 3. The groundwater level variation measuring instrument used in the construction of an underground structure according to claim 2, wherein the inlet pipe and the extension pipe are joined by flare nuts. According to claim 1, Ground water level fluctuation measuring device used for the construction of underground structures, characterized in that a plurality of water holes are formed on the outer periphery of the water pipes submerged in the ground water. According to claim 1, Cap for sealing the upper opening of the inlet pipe, and a pressure gauge installed in the cap for measuring the air pressure inside the inlet pipe; including the change in the water level permeated into the inlet pipe The groundwater level fluctuation measuring instrument used in the construction of underground structures, characterized in that for measuring the change in the groundwater level of the outer wall of the underground structure by measuring the air pressure changes inside the pipe.