KR101805610B1 - Oil tank with good drainage, method for making the oil tank with good drainage and method for making installed oil tank into oil tank with good drainage - Google Patents

Abstract

The present invention relates to an underground drainage type oil storage tank, a constructing method thereof, and a constructing method for repairing the existing underground oil storage tank into the drainage type oil storage tank. The underground drainage type oil storage tank comprises: a tank main body of which side walls, the bottom surface, and the top surface are made of steel plates, and which includes an inside collecting well formed on the bottom surface thereof, and an inside drainpipe for discharging a fluid in the inside collecting well to the outside; a concrete top surface unit which is formed over both a concrete outside wall unit, formed outwards from the side walls of the tank main body, and the top surface of the tank main body unit; a basic concrete unit which is placed in the lower part of the bottom surface of the tank main body unit; and a drainage unit including one or more collecting grooves which are formed on the top surface of the basic concrete unit, a reversed n-shaped collecting channel which is inserted into the collecting groove, of which the top end touches the bottom surface of the tank main body unit, and is made of steel, an outside collecting well which is positioned at the center of the top surface of the basic concrete unit, and an outside drainpipe which discharges a fluid in the outside collecting well to the outside and is made of steel. Therefore, the underground drainage type oil storage tank and a constructing method thereof can effectively prevent damage to the oil storage tank installed under the ground due to underground water, etc.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of making an underground buried oil storage tank, a construction method thereof, and a method for repairing an existing underground oil storage tank with a drainage oil storage tank installed oil tank into oil tank with good drainage}

The present invention relates to an underground drainage type oil storage tank, a construction method thereof, and a construction method for repairing an existing underground oil storage tank by a drainage type oil storage tank. More particularly, Underground drainage type oil storage tank and its construction method to prevent steel plate and concrete of oil storage tank buried underground from being broken and to be damaged, and construction method for repairing existing underground oil storage tank with drainage oil storage tank .

The oil storage tank is a structure having a closed space for storing a large amount of oil, and is often installed underground for safe management. The oil storage tank installed in the basement is usually constructed by forming the inner side surface of the oil storage tank as a steel plate to maintain the oil tightness and the outer wall of the concrete on the outer surface of the steel plate to prevent the water pressure .

Since the outer wall of the concrete is not a watertight structure, water such as ground water penetrates between the steel plate and the outer wall of the concrete over time.

However, since the oil storage tank is continuously brought in or out, the flow rate is continuously changed, so that the height of the oil in the tank fluctuates repeatedly. The pressure applied to the inside of the steel plate due to fluctuations of the oil level and the pressure applied to the outside of the steel plate due to the ground water impregnated between the steel plate and the concrete outer wall portion becomes unbalanced. Repeated loads due to such imbalanced pressure persist in the steel sheet, and the steel sheet is damaged and corroded by fatigue due to the continuous repeated load. Also, the steel sheet is damaged due to changes in the volume of the groundwater or the like that permeates between the steel plate and the concrete outer wall repeatedly freezing and thawing.

One of the conventional techniques for solving the problem of damaging the oil storage tank by ground water is disclosed in Japanese Patent Application Laid-Open No. 10-2013-0043044 (Patent Document 1). Fig. 11 is an explanatory diagram relating to Patent Document 1. The corrosion inhibitor 300 is prevented from being corroded by charging the corrosion inhibitor 300 into the gap between the outer surface of the tank body 110 and the pedestal 220 on which the tank body 110 is placed. However, the corrosion inhibitor 300 exerts the effect of preventing the rust generation by moisture, and can not prevent the storage tank from being damaged due to an imbalanced repetitive load of the internal and external pressures of the storage tank or freezing of groundwater.

12, the storage tank is divided into an inner tank 70, an outer tank 90, and an inner tank (not shown) 70 and the outer tank 90 to prevent the storage tank from being damaged by freezing the ground water or the like by filling the buffer 80 with the heat insulating material. However, it is impossible to prevent damage to the storage tank due to uneven load of pressure inside and outside of the storage tank.

On the other hand, in the case of a conventional oil storage tank having underground water storage tank damaged by ground water or the like, a conventional oil storage tank repair method (patent document 3) of Registration No. 10-0425950 The strips 70 and 80 are welded to the inner surface of the oil storage tank and then welded. FIG. 13 is an explanatory diagram of the above-described Patent Document 3. FIG. However, according to this method, a new endothelium can be formed in the oil storage tank, and damage to the steel sheet due to repeated loads such as ground water impregnated between the steel plate of the oil storage tank and the concrete outer wall portion can not be solved.

KR 10-2013-0043044 A KR 20-0283721 Y1 KR 10-0425950 B1

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above problems occurring in the prior art, and it is an object of the present invention to provide an underground drainage type oil storage tank capable of removing groundwater or the like, which damages a steel plate of a oil storage tank, I want to.

The present invention also provides a method of repairing the oil storage tank installed in the basement with a drainage type oil storage tank capable of removing groundwater around the oil storage tank.

'형 집수채널, 상기 기초콘크리트부의 상면 중앙에 위치하며 상기 집수채널과 연통하는 강재의 외부 집수정, 및 상기 외부 집수정 내의 유체를 외부로 배출시키는 강재의 외부 배수관을 구비하는 배수부;를 포함하되,
상기 '

'형 집수채널은 상기 외부 집수정을 향해 하향 경사지게 형성되고, 상기 외부 배수관은 일단이 상기 외부 집수정에 연통하고 타단을 향해 하향 경사지게 형성되어, 이루어지는 것을 특징으로 하는 지하 매설 배수형 유류저장탱크가 제공된다.According to a preferred embodiment of the present invention for solving the above problems, there is provided a oil storage tank, which is embedded in a basement and is made of a material including a steel plate and concrete, wherein the side wall, A tank main body having an inner water collection pipe formed on the bottom surface and an inner water pipe for discharging the fluid in the inner collection water to the outside; A concrete upper surface portion formed on an upper surface of the tank main body portion and a concrete outer wall portion formed outside the side wall of the tank main body portion; A foundation concrete portion disposed under the bottom surface of the tank main body portion; And at least one water collecting groove formed on the upper surface of the foundation concrete part, and at least one water collecting groove formed in the bottom of the tank body part,

Shaped drainage channel, a drainage section located at the center of the upper surface of the foundation concrete section and having an external drainage pipe communicating with the drainage channel, and an external drainage pipe for discharging the fluid in the external collectionhouse to the outside However,
remind '

Shaped water collecting channel is formed to be inclined downward toward the outer collecting and the outer water discharging pipe is formed such that one end communicates with the outer collecting wall and is inclined downward toward the other end. / RTI >

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According to another embodiment of the present invention, there is provided an underground drainage type oil storage tank, wherein the drainage unit further comprises a water distribution tank connected to the other end of the external drainage pipe.

According to another embodiment of the present invention, the drainage portion may include a second external condensate connected to the other end of the external drain pipe, a water distributor disposed at a higher position than the second external condensate, Further comprising a pump for transferring the fluid in the water storage tank to the water separation tank.

According to another embodiment of the present invention, an underground drainage type oil storage tank is provided, wherein an oil flow sensor is provided at the other end of the external drain pipe.

According to another aspect of the present invention, there is provided a method of controlling a concrete structure, comprising the steps of: further comprising a porous water collecting body disposed on the outer periphery of the concrete outer wall portion and a second external water pipe for discharging the fluid collected in the water collecting body to the outside A buried drainage oil storage tank is provided.

According to another embodiment of the present invention, a plurality of the water collecting bodies are spaced apart from the outer circumference of the concrete outer wall portion, and adjacent water collecting bodies are connected by a connecting pipe. Is provided.

According to another embodiment of the present invention, an underground drainage type oil storage tank is provided, wherein a water supply pipe is connected to the water collection channel.

According to another embodiment of the present invention, a rotating brush is disposed inside the water collecting channel, the external collecting water collecting pipe, and the external water pipe, and an underground buried drain type oil storage tank is provided.

'형 집수채널을 설치하고, 상기 기초콘크리트부용 거푸집 내 공간을 가로지르는 것으로 일단이 상기 외부 집수정에 연통하고 타단이 상기 기초콘크리트부용 거푸집의 외부에 위치하는 강재의 외부 배수관을 설치하는 단계; b) 상기 기초콘크리트부용 거푸집 내에 콘크리트를 타설하여 기초콘크리트부를 형성하되, 상기 집수채널의 상단은 기초콘크리트부의 상면에서 노출되도록 하는 단계; c) 상기 기초콘크리트부의 상부에 측벽, 바닥면 및 상면이 강판으로 이루어지는 탱크본체부를 설치하되, 상기 탱크본체부의 바닥면과 상기 집수채널의 상단이 접하도록 하는 단계; d) 상기 탱크본체부의 측벽 외측으로 콘크리트 외벽부를 형성하고, 상기 탱크본체부의 상면 위로 콘크리트 상면부를 형성하는 단계; 및 e) 상기 콘크리트 외벽부와 상기 콘크리트 상면부 외측으로 토사를 쌓는 단계;를 포함하여 이루어지는 것을 특징으로 하는 지하 매설 배수형 유류저장탱크의 시공방법이 제공된다.According to another embodiment of the present invention, there is provided a method of constructing an underground drainage type oil storage tank embedded in a basement and comprising a steel sheet and concrete, comprising the steps of: a) installing a base concrete formwork, At least one steel material communicating with the outer collecting of the steel material and the outer collecting of the steel material in the inner space of the bushing,

Type water collecting channel and installing an external drain pipe of a steel material crossing the formwork space for the foundation concrete part with one end communicating with the external collector and the other end being located outside the formwork for the foundation concrete part; b) placing the concrete in the formwork for the foundation concrete part to form a foundation concrete part, wherein the upper end of the catchment channel is exposed on the upper face of the foundation concrete part; c) providing a tank main body portion having a sidewall, a bottom surface and a steel plate on an upper portion of the foundation concrete portion, wherein a bottom surface of the tank main body portion and an upper end of the collecting channel are in contact with each other; d) forming a concrete outer wall portion outside the side wall of the tank main body portion and forming a concrete upper surface portion on the upper surface of the tank main body portion; And e) depositing gravels on the concrete outer wall portion and the concrete outer surface portion.

'형 강재 집수채널을 설치하며, 일단이 상기 외부 집수정과 연통하도록 상기 외부 배수관용 홈에 강재의 외부 배수관을 매립하는 단계; f) 상기 탱크본체부의 바닥면을 다시 설치하는 단계; g) 상기 공사 출입문을 폐쇄하는 단계; 및 h) 상기 기존 유류저장탱크를 토사로 매설하는 단계;를 포함하여 이루어지는 것을 특징으로 하는 기존 지하 매설 유류저장탱크를 배수형 유류저장탱크로 보수하는 시공방법이 제공된다.According to still another aspect of the present invention, there is provided a method of manufacturing a tire, comprising: a tank body portion having a side wall, a bottom surface and an upper surface formed of steel plates, a concrete outer wall portion formed outside the side wall of the tank body portion, a concrete upper surface portion formed on the upper surface of the tank main body portion, A method of repairing an existing underground oil storage tank including a foundation concrete portion located at a lower portion of a tank main body, comprising the steps of: a) removing the gravel covering the existing oil storage tank; b) forming a construction door on the outer wall of the concrete and the side wall of the tank body; c) removing the bottom surface of the tank body portion; d) forming an outer collecting groove on the upper surface of the foundation concrete part, at least one collecting groove communicating with the outer collecting groove, and an outer drain pipe groove having one end communicating with the outer collecting groove; e) an outer collecting groove of the steel material is installed in the outer collecting groove,

A step of embedding an external drain pipe of the steel material into the groove for the external drain pipe so that one end thereof communicates with the external collection pipe; f) reinstalling the bottom surface of the tank body part; g) closing the work door; And h) burying the existing oil storage tank with the gravel. The method of repairing an existing underground oil storage tank with a drainage type oil storage tank is provided.

According to another embodiment of the present invention, in the step e), an ultra-high strength non-shrinkage mortar may be disposed between the inner surface of the collector groove and the collecting channel, and between the inner surface of the outer collecting groove and the outer collector, The present invention also provides a method for repairing an existing underground oil storage tank with a drainage type oil storage tank.

The drainage type oil storage tank according to the present invention efficiently removes underground water, rainwater, etc. that permeate between the main body of the steel material tank of the oil storage tank installed in the basement and the concrete outer wall through the installed drainage part, It is possible to prevent damage. The drainage portion of the drainage-type oil storage tank enables the drainage of the external condensate, the inclined outer drainage pipe and the collection channel, and the discharge of the groundwater to the collection pipe and the second outer drainage pipe more efficiently.

Even when the stored oil flows out due to the damage of the main body of the steel material tank of the oil storage tank, it is possible to surely prevent the soil contamination around the oil storage tank by collecting the oil flowed out together with the ground water etc. with the drainage portion. Collected oil can be reused by separating it from water in a water tank.

The drainage type oil storage tank equipped with the oil sensor can quickly check the outflow of the oil, so that the oil storage tank can be checked and repaired conveniently and quickly.

When the drainage type oil storage tank is further provided with a filter, a washing water supply pipe, and a brush, the filter prevents the fine soil from flowing into the house collecting or collecting panel together with the ground water, and the washing water supply pipe or brush It is possible to prevent the water collecting and drainage efficiency of the groundwater and the like from being lowered by removing the inflowing accumulated fine soil.

According to the construction method for repairing the existing underground oil storage tank of the present invention with the drainage type oil storage tank, it is possible to install a construction door at the side wall of the existing oil storage tank and to remove only a part of the oil storage tank, The existing oil storage tanks can be converted into the drainage oil storage tanks through simple repair and installation methods such as installing water pipes and the like so that the cost and time required for the construction can be saved and the existing oil storage tanks can be used at low cost and time And can be reused as an efficient embankment oil storage tank.

In the above repairing method, when an ultra-high strength non-shrinkage mortar is injected, the outer collecting channel and the outer collecting can be accurately installed, and the collecting and collecting channel of the steel is a load applied to the bottom of the tank body by the weight of the oil It is possible to prevent breakage or deformation of the collecting grooves formed in the foundation concrete portion.

1 is a sectional view of a drainage type oil storage tank according to a first embodiment of the present invention,
2 is a plan view of the drainage type oil storage tank according to the first embodiment,
3 is a sectional view of the water collecting channel portion of the drainage type oil storage tank according to the first embodiment,
FIG. 4 is an explanatory view of the effect of groundwater around the oil storage tank on the oil storage tank,
FIG. 5 is an explanatory diagram of a case in which a drainage-type oil storage tank according to the present invention further comprises a water collector;
6 is a sectional view of a drainage type oil storage tank according to a second embodiment of the present invention,
7 is a flowchart of a method of constructing a drainage type oil storage tank according to the present invention,
8 is a step-by-step explanatory view of a method of constructing the drainage type oil storage tank,
9 is a flowchart of a method for repairing an existing underground oil storage tank according to the present invention to a drainage type oil storage tank,
10 is a step-by-step explanatory diagram of a method for repairing the existing underground oil storage tank with a drainage type oil storage tank,
11 to 13 are explanatory diagrams of a conventional oil storage tank.

Before describing in detail the preferred embodiments of the present invention, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings, and meanings and concepts consistent with the technical idea of the present invention .

The present invention relates to a drainage type oil storage tank for discharging groundwater around a oil storage tank so as to prevent the oil storage tank from being damaged by underground water or rainwater in an oil storage tank installed underground, To a construction method for repairing an underground oil storage tank with a drainage type oil storage tank.

1 is a cross-sectional view of a drain type oil storage tank 1 according to a first embodiment of the present invention, and FIG. 2 is a plan view of a drain type oil storage tank 1 according to the first embodiment have. For reference, the first embodiment shown in FIG. 1 is a case where the embankment is formed around the drain type oil storage tank 1 so that the oil storage tank is located underground.

The drainage type oil storage tank 1 according to the present invention includes a tank body 10, a concrete outer wall 21, a concrete upper surface portion 22, a foundation concrete portion 30, and a drainage portion.

The tank body 10 has a bottom surface, a side wall formed along the bottom surface, and an upper surface formed on the side wall, and has a space therein. The bottom surface, the side wall and the upper surface are made of steel, Because of its dense nature, oil can be stored in the internal space.

The concrete outer wall portion 21 is a concrete material structure disposed along the outer periphery of the side wall of the tank main body portion 10 and prevents the water pressure by the earth pressure or ground water from being directly applied to the side wall of the tank main body portion 10 And the concrete upper surface portion 22 is a concrete structure disposed on the upper surface of the tank main body portion 10 to prevent a load on the ground directly from being applied to the upper surface of the tank main body portion 10. [

The foundation concrete part 30 is located under the bottom surface of the tank main body part 10 and is made of concrete in the same manner as the concrete outer wall part 21 and has a structure in which the earth pressure or water pressure is directly applied to the bottom surface of the tank main body part 10 And supports the load due to the tank main body 10 and the oil filled therein.

As described above, the tank main body portion 10, the concrete outer wall portion 21, the concrete upper surface portion 22, and the foundation concrete portion 30 are not significantly different from those of conventional oil storage tanks, An inner collector 11 for collecting the water introduced into the tank main body 10 and an inner collector 11 for collecting the water collected in the inner collector, And an internal water pipe 12 for discharging the water.

The drainage section includes a collecting groove 41, a collecting channel 42, an external collecting channel 43 and an external drain pipe 44.

' 형으로 이루어지며 기초콘크리트부(30)의 상면에 삽입된 형태로 배치되어 기초콘크리트부(30)의 상면에서 상부가 개방된 '

' 형 단면을 가지고 형성되는 집수홈(41)에 삽입되며, 상단부가 기초콘크리트부(30)의 상부에 위치하는 탱크본체부(10)의 바닥면에 접한다. 집수채널(42)은 1개 이상, 바람직하게는 다수 개가 기초콘크리트부(30)의 둘레부에서 중앙부로 모아지는 형태로 형성된다. 이러한 집수채널(42)은 강재로 이루어져 콘크리트 외벽부에서 기초콘크리트부(30)로 흘러든 지하수 등을 기초콘크리트부(30)의 중앙부로 모으게 된다. 특히, 집수채널(42)의 상단부가 탱크본체부(10)의 바닥면과 단순히 접해있기 때문에 집수채널(42)과 탱크본체부(10) 사이의 틈을 통해 지하수 등이 집수채널(42) 내로 유입될 수 있어 탱크본체부(10) 주변에 지하수 등이 머무르게 되는 것을 방지할 수 있다. 집수채널(42)은 또한 탱크본체부(10)의 바닥면에 가해지는 유류의 하중을 지지하여 기초콘크리트부(30)에 형성된 집수홈(41)이 파손되지 않도록 보강한다.3, the water collecting channel 42 has a cross-

And is inserted into the upper surface of the foundation concrete part 30 so as to be inserted into the upper part of the foundation concrete part 30,

Shaped bottom surface of the tank main body portion 10 which is located at the upper portion of the foundation concrete portion 30. The upper end portion of the tank main body portion 10 is in contact with the bottom surface of the tank main body portion 10, The water collecting channels 42 are formed so that at least one, preferably a plurality of the water collecting channels 42 are gathered from the peripheral portion to the central portion of the base concrete 30. The water collecting channel 42 is formed of a steel material and collects groundwater or the like flowing from the outer wall of the concrete to the base concrete 30 to the central portion of the base concrete 30. Particularly, since the upper end of the water collecting channel 42 is simply in contact with the bottom surface of the tank main body 10, ground water or the like flows into the water collecting channel 42 through the gap between the water collecting channel 42 and the tank main body 10 So that it is possible to prevent groundwater or the like from staying in the vicinity of the tank main body portion 10. The water collecting channel 42 also supports the load of the oil applied to the bottom surface of the tank body 10 to reinforce the water collecting grooves 41 formed in the base concrete 30 so as not to be damaged.

The outer collecting channel 43 is disposed at the center of the upper surface of the foundation concrete 30 to communicate with the collecting channel 42. Accordingly, the groundwater or the like guided to the center of the foundation concrete 30 by the water collecting channel 42 is collected by the external collecting 43. The groundwater collected by the external collecting unit 43 is discharged to the outside of the tank main body 10 by the external drain pipe 44.

4 (a) to 4 (c) show the conventional oil storage tanks in which groundwater and the like can not be removed from the vicinity of the tank main body portion 10 because the concrete outer wall portion 21 is not watertight. As shown in the figure, groundwater or the like penetrates between the steel plate of the tank main body 10 and the concrete outer wall portion 21 to maintain a constant groundwater level. However, since the oil is continuously introduced into or out of the oil storage tank, the flow rate is continuously changed, so that the height of the oil in the tank body 10 is repeatedly fluctuated. The pressure in the tank main body 10 due to the fluctuation of the oil level and the constant groundwater such as the ground water impregnated between the tank main body 10 and the concrete outer wall portion 21, The pressures externally applied are imbalanced. The repeated load caused by the unbalanced pressure is continuously applied to the inside and the outside of the tank main body portion 10 and the tank main body portion 10 is fatigued by the repeated load applied continuously, The tank body portion 10 may be damaged and corroded. Further, since the groundwater or the like that permeates between the tank main body 10 and the concrete outer wall portion 21 repeatedly freezes and thaws and changes its volume, the steel plate of the tank main body 10 may be damaged.

However, since the drainage type oil storage tank 1 according to the present invention is provided with a drain portion on the outer side of the tank main body portion 10, ground water and the like can be removed from the vicinity of the tank main body portion 10, 10 can be prevented from being damaged. As a result, leakage of oil from the tank main body 10 can be prevented, so that contamination of the soil by the oil can be prevented and the maintenance cost for the oil storage tank can be reduced.

The water collecting channel 42 is preferably formed to be inclined downward toward the external collecting channel 43.

In this case, since the ground water or the like introduced into the water collecting channel 42 moves naturally in the direction of the external collecting channel 43 along the inclination of the water collecting channel 42, the ground water or the like on the bottom surface of the tank main body 10 can be efficiently Collecting it and discharging it to the outside.

The outer drain pipe 44 of the drainage section is formed so that one end communicates with the outer collecting cores 43 and is inclined downward toward the other end. That is, the external drain pipe 44 has an inclination in a direction opposite to the inclination direction of the water collecting channel 42.

Accordingly, it is possible to discharge the ground water collected in the outer collecting channel 43 without a separate facility such as a pump, and the ground water collected in the outer collecting channel 43 can be immediately discharged, It is possible to prevent the groundwater or the like from staying or the groundwater or the like to flow back into the catchment channel 42.

The drain portion may further include a water separator (45) connected to the other end of the external drain pipe (44). When the oil flows out from the tank main body 10, the outflowed oil and the ground water flow together into the oil separator 45 and are separated from each other by using the specific gravity difference between oil and groundwater in the oil separator 45. The oil separated from the groundwater or the like in the oil separation tank 45 can be reused.

The water separation tank 45 through which the ground water collected in the water collection channel 42 is discharged is formed separately from the water separation tank in which the water collected in the internal collection 11 is discharged.

The oil drain sensor 50 may be provided at the other end of the external drain pipe 44.

The oil detection sensor 50 can detect whether the tank main body 10 is damaged by sensing whether or not oil is contained in the ground water discharged to the external drain pipe 44.

The ground water around the tank main body 10 passes through the water discharge channel 42 and the external water collecting pipe 43 and flows through the external water discharge pipe 44 so that the water in the tank main body 10, It is possible to sense the oil passing through the external drain pipe 44 together with the ground water and the like. The oil sensor provided in the drain type oil storage tank can quickly check the outflow of the oil, so that the oil storage tank can be checked and repaired conveniently and quickly.

The drainage type oil storage tank 1 according to the present invention may further include a water collector 47 and a second external drain pipe 48. Fig. 5 is an explanatory view of this case.

The water collecting body 47 has a small number of spaces inside, for example, a crushed stone pile, and is disposed on the outer circumference of the concrete outer wall portion 21. [ The second outer drain pipe 48 is connected to the water collecting body 47 and discharges the ground water collected in the space between the water collecting bodies 47 to the outside.

Accordingly, ground water or the like around the tank main body 10 can be discharged not only through the drain portion but also through the water collector 47 and the second outside drain pipe 48, so that the ground water or the like can be removed more quickly and effectively.

It is of course also possible to connect the end of the second external drain pipe 48 to the drain water tank 45 like the external drain pipe 44.

A plurality of the water collectors 47 are formed along the outer circumference of the concrete outer wall portion 21. In this case, the adjacent water collectors 47 are connected by a connecting pipe 49.

The connection pipe 49 allows the ground water or the like collected in the respective water collectors 47 to be discharged after being moved to one of the water collectors 47.

As shown in FIG. 3 (b), a filter 51 is preferably disposed at the opening of the collecting channel 42.

When the groundwater around the oil storage tank flows into the water collecting channel 42, the soil can be introduced together with the water collecting channel 42 and the water collecting channel 42 may not be collected and collected.

The filter 51 has numerous small holes so that only the water particles can pass through the filter 51 and the gravel particles can not pass through. Therefore, it is possible to prevent the entrance of the gravel into the water collecting channel (42).

A water supply pipe (not shown) may be connected to the water collecting channel 42.

The wash water supply pipe supplies washing water into the water collecting channel 42 and flows the water or the like when the water or the like enters the water collecting channel 42. The washing water supplied from the washing water supply pipe and having washed the water collecting channel 42 is also washed through the external collecting pipe 43 and the external drain pipe 44. The soil discharged from the external drain pipe (44) together with the washing water enters the water separation tank (45) and is separated from the water.

It is not necessary to continuously supply the washing water into the collecting channel 42 in the washing water supplying pipe, and it is preferable to supply the washing water periodically once.

When the water supply pipe is connected to the water collecting channel 42, a rotating brush 52 may be disposed in each of the water collecting channel 42, the external collecting pipe 43 and the external water pipe 44.

The rotating brush 52 allows smooth movement of the water in the water collecting channel 42 or the like along with the washing water without accumulating the soil.

The brushes 52 preferably work together when supplying wash water into the catchment channel 42 in the wash water supply pipe.

The filter 51 and the wash water supply pipe may be respectively formed, but they are preferably provided together for maintenance efficiency of the drainage part.

When the drainage type oil storage tank is further provided with a filter 51, a washing water supply pipe and a brush 52, the filter 51 is connected to the external collecting pipe 43 or the collecting channel 42, And the washing water supply pipe or the brush 52 can prevent the water collecting and drainage efficiency of the groundwater and the like from being lowered by removing fine gravel that has flowed into the external collecting channel 43 or the collecting channel 42 and accumulated.

6 is a cross-sectional view of a drainage-type oil storage tank 1 according to a second embodiment of the present invention. The drainage-type oil storage tank according to the second embodiment forms a space in the ground by treading the ground, and is installed in the space and is located in the basement.

Since the drainage type oil storage tank according to the second embodiment is not significantly different from the drainage type oil storage tank according to the first embodiment except for the method in which the oil water separation tank 45 is installed, The detailed description will be omitted.

Unlike the first embodiment in which the oil storage tank is located in the vicinity of the oil storage tank, the groundwater around the drainage oil storage tank according to the second embodiment can be located at a higher level than the drainage portion. have.

Therefore, in the drainage type oil storage tank according to the second embodiment, the water separation tank 45 is provided together with the second external collection tank 46 and the pump (not shown).

The second outer collecting pipe 46 is connected to the other end of the outer drain pipe 44 to collect groundwater or the like discharged to the outer drain pipe 44 through the collecting channel 42 and the outer collecting pipe 43, The lower end of the outer collecting compartment 46 is formed at a lower position than the drainage section so that the groundwater can be discharged through the outer drain pipe 44 irrespective of the ground water around the oil storage tank.

The water separation tank 45 is located in contact with the ground at a position higher than the second external collection water 46 and moves the groundwater or the like in the second external water collection 46 located at a lower location to the water separation tank 45. Since the groundwater or the like in the second external collecting pool 46 is discharged to the water separating tank 45 from time to time by the pump, the second external collecting pool 46 continuously maintains a low water level and lowers the groundwater level around the oil storage tank can do.

FIG. 7 is a flow chart of a method of constructing an underground-drainage type oil storage tank according to the present invention, and FIG. 8 is an explanatory view showing major steps of the construction method.

(B) a step of forming a base concrete part (M2); (c) a step of forming a tank body part (M3); and a step (e3) of forming a tank body part ) Concrete outer wall part forming step (M4), and soil piling step (M5).

In the installation step M1 such as a collecting channel, as shown in FIG. 8A, a base concrete form part f for forming the base concrete part 30 is installed, and the base concrete form part The outer collecting 43 of the steel material, the collecting channel 42 and the outer drain pipe 44 are fixed at a predetermined position. The outer collecting channel 43 is installed at the center of the upper end of the mold space for the foundation concrete and one or more of the collecting channels 42 are installed in the vicinity of the outer collecting channel 43 so as to communicate with the outer collecting channel 43 . At this time, it is preferable that the water collecting channel 42 is installed to be inclined downward toward the external collecting channel 43. The outer drain pipe 44 is installed such that one end thereof communicates with the outer collecting corrugation 43 and the other end is located outside the formwork for the foundation concrete part and is installed to be inclined downward from the lower end of the water collecting channel 42 toward the other end .

In the case of constructing the drainage type oil storage tank under the ground, the installation step M1 is immediately performed. However, when the drainage type oil storage tank is installed underground by tearing the ground, It is of course possible to further carry out the step of dismantling the ground before the step (M1).

In the base concrete forming step M2, as shown in FIG. 8 (b), the concrete is poured and cured in the formwork for the foundation concrete part to form the foundation concrete part 30, Concrete is laid so that the top is exposed to the upper surface of the foundation concrete section (30). As a result, the space in the catchment channel 42 remains unfilled by the concrete. The outer collecting channel 43 and the outer drain pipe 44 are embedded in the concrete, and the space therein is not filled with concrete as in the collecting channel 42. The space in the catchment channel 42, the outer collecting compartment 43, and the outer discharge pipe 44 is a path through which groundwater or the like moves.

In the tank main body forming step (M3), as shown in FIG. 8 (c), a tank body portion 10 having a side wall, a bottom surface and a steel plate on the base concrete portion 30 is provided. The bottom of the tank main body portion 10 and the collecting channel 42 exposed to the upper surface of the foundation concrete portion 30 are disposed so as to be in contact with each other so that the gap between the collecting channel 42 and the bottom surface of the tank main body portion 10 The groundwater or the like flows into the water collecting channel 42 through the water collecting channel 42. The tank main body 10 is provided with an inner tank 11 and an inner drain pipe 12.

The concrete outer wall portion 21 is formed outside the side wall of the tank main body portion 10 as shown in Figure 8 (d) and the upper surface of the tank main body portion 10 The concrete upper surface portion 22 is formed so that the tank main body portion 10 made of a steel material is not subjected to direct impact or load.

In the soil erosion step (M5), the gravels are piled up outside the concrete outer wall portion (21) and the concrete upper surface portion (22) so that the drain type oil storage tank can be buried underground. Before or during the soil piling step (M5), the operation of installing the water separation tank (45), the oil detection sensor (50), and the like may be performed.

As described above, the method of constructing the drainage type oil storage tank according to the present invention effectively removes the ground water around the oil storage tank and prevents damage to the tank main body part 10 of the oil storage tank due to the action of ground water or the like However, if a oil storage tank is already installed, it may be costly or time-consuming to remove the existing oil storage tank and install a new drainage oil storage tank.

Therefore, a method of repairing the oil storage tank already installed in the basement to the drainage type oil storage tank will be described below.

FIG. 9 is a flow chart of a method for repairing an existing underground oil storage tank according to the present invention to a drainage type oil storage tank, and FIG. 10 is an explanatory view showing major steps of the repair method.

The conventional oil storage tank generally has a tank body 10 having a side wall, a bottom surface and an upper surface formed of steel plates, a concrete outer wall 21 disposed outside the side wall of the tank body 10, 10, and a foundation concrete portion 30 located at a lower portion of the tank main body portion 10, and may further include an inner pillar or an inner collector, have.

The method of repairing an existing underground oil storage tank according to the present invention to a drainage type oil storage tank is roughly divided into a) soil removal step S1, b) construction entrance door formation step S2, c) bottom surface removal step S3 (d) forming a water collecting groove or the like (S4), (e) installing a water collecting channel or the like (S5), (f) reinstalling a floor surface (S6), g) closing a doorway (S7) S8).

Since the conventional oil storage tank is buried in the underground, in the soil removal step (S1), some of the gravel is removed from the outer circumferential portion of the existing oil storage tank so that the repair work can be performed on the existing oil storage tank, Thereby causing the portion 21 to be exposed.

The construction door forming step S2 forms a construction door (not shown) on the concrete outer wall portion 21 and the side wall of the tank main body portion 10. Accordingly, the operator or the work tool can easily approach the space in the tank main body portion 10, and the air in the tank main body portion 10 can be ventilated smoothly, so that the operation can be performed safely.

In the bottom surface removing step S3, the bottom surface of the tank main body 10 is removed as shown in Fig. 10 (a). The upper surface of the base concrete portion 30 supporting the tank main body portion 10 is exposed at the lower portion of the tank main body portion 10 by removing the bottom surface of the tank main body portion 10.

10 (b), in the forming step S4 of the water collecting grooves and the like, the water collecting grooves 41, the outer collecting grooves g2 and the grooves for the outer drain pipes are formed on the upper surface of the basic concrete portion 30, (Not shown). The outer water collecting groove 42 is formed in the outer water collecting groove 42 and the outer water collecting groove 42 is formed in the outer water collecting groove 43 It is a place to be.

The groundwater collected in the water collecting channel 42 flows into the external collecting compartment 43 so that the collecting grooves 41 and the external collecting grooves g2 are formed to communicate with each other and the groundwater collected in the external collecting compartment 43 One end of the groove for the outer drain pipe is formed so as to communicate with the outer collecting groove g2.

The water collecting grooves 41 are formed to be inclined downward toward the outer collecting groove g2 located at the center of the foundation concrete 30 so that the ground water or the like can naturally move to the outer collecting channel 43 from the water collecting channel 42 The grooves for the outer drain pipe are arranged in the direction in which the other end of the outer drain pipe 44 is disposed, that is, the outer collecting grooves g2 As shown in Fig.

 10 (c), the water collecting channel 42 made of a steel material having an open top is installed in the water collecting groove 41, and the external water collecting groove g2, an outer collecting 43 made of a steel material is installed, and an outer drain pipe 44 is buried in the groove for the outer drain pipe.

In the installation step S5 of the water collecting channel or the like, an ultra high strength (high water resistance) is provided between the inner side of the water collecting groove 41 and the water collecting channel 42, and between the inner side of the external water collecting groove g2 and the external water collecting 43 It is preferable to inject the non-shrinkage mortar (m).

Since the water collecting grooves 41 and the like are formed on the upper surface of the foundation concrete 30 by cutting and crushing the concrete, the water collecting grooves 41 and the like are formed in an exact size corresponding to the size of the collecting channel 42 It is not easy.

Therefore, when the ultra-high strength non-shrinkage mortar m is injected between the water collecting channel 42 and the concrete, the water collecting channel 42 or the like installed in the water collecting groove 41 can be firmly fixed, There is no contraction during the curing of the mortar, and the position of the water collecting channel 42 or the like does not change in the collecting grooves 41 or the like due to the curing of the mortar. The water collecting channel 42 prevents the water collecting grooves 41 from being broken or deformed by the load of the oil or the like even if the repair is completed and the tank body 10 is filled with oil.

Since the external drain pipe 44 is completely embedded in the groove for the external drain pipe, it is not directly affected by the load of the tank main body 10, but the external drain pipe 44 The outer drain pipe 44 can be filled with the ultra high strength non-shrinkage mortar m so that the external drain pipe 44 does not receive the load caused by the contraction of the mortar without changing the position of the outer pipe 44. [

In the installation step S5 such as the collecting channel, the operation of installing the water separation tank 45 and the oil detection sensor 49 at the other end of the external drain pipe 44 may be performed in addition to the above operation.

In the bottom surface reinstalling step S6, the bottom surface of the tank main body 10 is reinstalled as shown in Fig. 10 (d).

The bottom surface of the tank main body 10 is disposed in contact with the water collecting channel 42 so as not to be connected to the water collecting channel 42 so that ground water around the tank main body 10, So that the water can flow smoothly into the water collecting channel 42 through the gap between the water collecting channel 42 and the water collecting channel 42.

In the construction door closing step S7, a part of the side wall of the tank main body part 10 and a part of the concrete outer wall part 21, which were removed in the construction door forming step S2, are reinstalled. As a result, the tank body portion 10 again forms an airtight space for storing the oil.

In the soil erosion step (S8), the gravel removed for maintenance work is re-filled to allow the drainage type oil storage tank to be buried underground.

As described above, according to the construction method for repairing the existing underground oil storage tank of the present invention with the drainage type oil storage tank, the construction door is installed on the side wall of the existing oil storage tank and only a part of the oil storage tank is removed, And external drain pipes, it is possible to convert existing oil storage tanks into drainage type oil storage tanks, which saves cost and time required for construction and reduces existing oil storage tanks to less cost Hour and can be reused as an efficient embankment oil storage tank.

In the repairing method, it is possible to accurately install the outer collecting channel and the outer collecting fixture by injecting the super high strength non-shrinking mortar. The outer collecting and collecting channel of the steel is a load applied to the bottom of the tank body by the self weight of the oil It is possible to prevent breakage or deformation of the collecting grooves formed in the foundation concrete portion.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be obvious that various modifications may be made within the scope of technical thought. It is therefore intended that such modifications are within the scope of the invention as set forth in the claims.

1: drainage type oil storage tank
10: tank main body 21: concrete outer wall part
22: concrete upper surface portion 30: foundation concrete portion
41: collecting channel 42: collecting channel
43: External house correction 44: External drain pipe
45: Oil separation tank 46: Second outer tank correction
47: water collector 48: second outside drain pipe
49: connector 50: oil flow sensor
51: Filter 52: Brush
g2: Groove for external house m: Ultra-high strength non-shrink mortar

Claims (11)

1. An oil storage tank embedded in an underground and comprising a steel sheet and concrete,
A tank main body part having a side wall, a bottom surface and an upper surface made of a steel plate and having an internal water collection formed on the bottom surface and an internal water discharge pipe for discharging the fluid in the internal collection water to the outside;
A concrete upper surface portion formed on an upper surface of the tank main body portion and a concrete outer wall portion formed outside the side wall of the tank main body portion;
A foundation concrete portion disposed under the bottom surface of the tank main body portion; And
And at least one water collecting groove formed on the upper surface of the foundation concrete part, a plurality of water collecting grooves inserted into the water collecting groove and having an upper end contacting the bottom surface of the tank body,

Shaped drainage channel, a drainage section located at the center of the upper surface of the foundation concrete section and having an external drainage pipe communicating with the drainage channel, and an external drainage pipe for discharging the fluid in the external collectionhouse to the outside However,
remind '

Shaped water collecting channel is formed to be inclined downward toward the outer collecting surface, and the outer water discharging pipe is formed such that one end communicates with the outer collecting wall and is inclined downward toward the other end.
delete delete The method according to claim 1,
Wherein the drainage unit further comprises a water separation tank connected to the other end of the external drainage pipe.
The method according to claim 1,
The drainage section includes a second external condensate connected to the other end of the external drain pipe, a water distribution tank disposed at a higher position than the second external condensate, and a pump for transferring the fluid in the second external condensate to the water separation tank Further comprising: an underground drainage type oil storage tank for storing underground water.
The method according to claim 1,
And an oil flow sensor is provided at the other end of the external drain pipe.
The method according to claim 1,
Further comprising a porous water collecting body disposed on an outer periphery of the concrete outer wall portion and a second outer water discharging pipe discharging the fluid collected in the water collecting body to the outside.
8. The method of claim 7,
Wherein a plurality of the water collecting bodies are spaced apart from the outer circumference of the concrete outer wall portion, and adjacent water collecting bodies are connected by a connecting pipe.
A method of constructing an underground drainage type oil storage tank, which is embedded in an underground and is made of a material including a steel plate and concrete,
a) one or more steel members connected to the external gathering of the steel in the formwork space for the foundation concrete and to the external gathering while installing the foundation concrete formwork,

Type water collecting channel and installing an external drain pipe of a steel material crossing the formwork space for the foundation concrete part with one end communicating with the external collector and the other end being located outside the formwork for the foundation concrete part;
b) placing the concrete in the formwork for the foundation concrete part to form a foundation concrete part, wherein the upper end of the catchment channel is exposed on the upper face of the foundation concrete part;
c) providing a tank main body portion having a sidewall, a bottom surface and a steel plate on an upper portion of the foundation concrete portion, wherein a bottom surface of the tank main body portion and an upper end of the collecting channel are in contact with each other;
d) forming a concrete outer wall portion outside the side wall of the tank main body portion and forming a concrete upper surface portion on the upper surface of the tank main body portion; And
and e) depositing gravels on the outer surface of the concrete and on the outer side of the top surface of the concrete.
A concrete upper wall portion formed on an upper surface of the tank main body portion, and a foundation concrete portion located on a lower portion of the tank main body portion, the tank main body portion having a side wall, a bottom surface and an upper surface made of steel plates, a concrete outer wall portion formed outside the side wall of the tank main body portion, A method of repairing an existing underground oil storage tank,
a) removing the gravel covering the existing oil storage tank;
b) forming a construction door on the outer wall of the concrete and the side wall of the tank body;
c) removing the bottom surface of the tank body portion;
d) forming an outer collecting groove on the upper surface of the foundation concrete part, at least one collecting groove communicating with the outer collecting groove, and an outer drain pipe groove having one end communicating with the outer collecting groove;
e) an outer collecting groove of the steel material is installed in the outer collecting groove,

A step of embedding an external drain pipe of the steel material into the groove for the external drain pipe so that one end thereof communicates with the external collection pipe;
f) reinstalling the bottom surface of the tank body part;
g) closing the work door; And
and h) burying the existing oil storage tank with the gravel. [3] The method of claim 1, wherein the existing oil storage tank is a drainage type oil storage tank.
11. The method of claim 10,
Wherein the ultra-high strength non-shrinkage mortar is injected between the inner surface of the collector groove and the collecting channel, between the inner surface of the outer collecting groove and the outer collector, A method of repairing a storage tank with a drainage type oil storage tank.

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