KR102269285B1 - corrugated steel pipe water reservoir with inner protection pipe and construction method of it - Google Patents

Abstract

The present invention relates to a small and medium-sized corrugated steel pipe rainwater storage tank equipped with an abrasion-resistant pipe and a construction method thereof. The small and medium-sized corrugated steel pipe rainwater storage tank equipped with an abrasion-resistant pipe of the present invention includes: a plurality of storage steel pipes (10); an inlet chamber (20) made of a concrete material; a discharge chamber (30) made of a concrete material; and a clamp (50). By installing a control pipe that moves back and forth inside the abrasion-resistant pipe, it is possible to increase the convenience of construction.

Description

Corrugated steel pipe with a wear-resistant pipe and a small and medium-sized rainwater storage tank and its construction method {corrugated steel pipe water reservoir with inner protection pipe and construction method of it}

The present invention relates to a corrugated steel pipe storage tank, and since a wear-resistant pipe is installed inside the shutoff pipe connected to the inlet chamber, the wear resistance is improved by minimizing the wear phenomenon of the inner peripheral surface of the shutoff pipe by the water flow and foreign substances contained in the water flow. It relates to a small and medium-sized storm water storage tank equipped with a corrugated steel pipe and a construction method therefor.

As various structures and facilities are made of non-permeable materials such as concrete or synthetic resin, and surfaces such as sidewalks and roadways are paved with impermeable materials, not only the depletion of water resources is occurring, but also various factors such as flood damage, etc. A problem is occurring

In other words, rainwater must not be stagnant on the ground surface such as roads and must be discharged quickly to avoid inconvenience, but the amount of rainwater flowing underground through the ground surface is significantly reduced.

This phenomenon causes the depletion of groundwater and causes a shortage of water resources.

In addition, as rainwater from relatively high areas flows rapidly to low areas, at least the amount of precipitation in low-lying areas causes flood damage.

To solve this problem, a technology having a storage tank for storing rainwater has been devised.

These reservoirs are designed to provide a structure for preventing river flooding and securing usable water resources for agriculture or cleaning by trapping a large amount of drained rainwater and discharging it naturally or artificially.

Conventional storage tanks usually use concrete to make large tanks or connect blocks made of synthetic resins to create large tanks, so it takes a long time to construct and costs a lot of money. there was

In addition, since it is difficult to properly respond to the shape of the construction site, the workability is also poor, and in the case of a concrete structure, the lifespan of the concrete structure is less than 20 years, so the economic burden is quite large.

In order to solve this problem, the applicant of the present invention has applied for and registered "a storage tank using a corrugated steel pipe and a drainage facility equipped therewith" (Korean Patent Publication No. 10-1247241, Patent Document 1).

The patent document 1 is configured so that water is stored inside the corrugated steel pipe, so that it is only necessary to interconnect and construct the corrugated steel pipe manufactured in the factory, so the construction time is remarkably shortened compared to the prior art, the construction cost is low, and the construction site It has the advantage that there is less courtship.

On the other hand, the cause of flooding in urban areas is a combination of topographical characteristics, such as poor inland water exclusion that is not treated in a timely manner, and low-lying areas where rainwater and road surface water flow in at once, as well as related to external water such as river overflow.

A number of corrugated steel pipe storage tanks have been constructed through support projects to temporarily store peak floods to prevent flood damage in downtown areas.

However, in the case of the storage tank construction project in the past, there was a problem that the effect of the project was reduced by half as a result of establishing only the flood prevention measures through the construction of a large-capacity rainwater storage tank without examining the appropriate characteristics considering the existing drainage facilities.

In addition, a project to discharge rainwater from the region to a nearby river by installing a watershed division tunnel is being promoted, but in this case, there is a risk of aggravating the flood damage in the area around the target river.

Accordingly, there is a need for a method to prevent flooding by reducing the overload by installing a small and medium-sized storm water storage tank in an area where rainwater or sewage pipes are overloaded depending on the ground and topographical characteristics.

In addition, there is a need to maximize the effectiveness of flood prevention by installing small and medium-sized storm water storage tanks in an overloaded drainage area rather than installing large-capacity storm water storage tanks in densely populated residential areas, new urban development areas, and industrial complexes.

In particular, in the case of plans currently being implemented or planned by local governments, stormwater storage tanks for large-capacity concrete and PC structures are being promoted. As a result, defects such as cracks are expected to occur in concrete and PC structures, and structural stability is also predicted to be very weak even at seismic intensity 3 or less.

On the other hand, compared to the large-scale storm water storage tanks around rivers, the medium and small rainwater storage tanks as described above have a very high fluid velocity in the case of heavy rain, and a large amount of foreign substances can be introduced into the corrugated steel pipe. The probability is relatively high compared to large stormwater storage tanks.

In particular, the method of connecting a corrugated steel pipe (retention steel pipe) with a clamp by installing a shutoff end pipe made of a corrugated steel pipe in a concrete chamber can increase durability by reducing the risk of corrosion. And as the foreign material contained therein is supplied, the inner peripheral surface may be easily worn and damaged.

Therefore, in the case of a small and medium rainwater storage tank, it is necessary to further reduce the abrasion of the inner peripheral surface of the short water shutoff pipe compared to a large-scale stormwater storage tank.

KR 10-1247241 (2013.03.19)

The present invention is to solve the problems that occur in the prior art, and arranges small and medium-sized storm water reservoirs in the required locations (populated residential areas, new urban development areas, industrial complex areas, etc.) before reaching large-scale storm water reservoirs. The purpose of this is to minimize the demand for repair work and replacement work due to wear of the water shutoff pipe by increasing the wear resistance performance of the short water shutoff pipe made of corrugated steel pipe.

More specifically, a wear-resistant pipe is installed inside the shut-off end pipe, and this wear-resistant pipe is made to protrude further into the inflow chamber in the case of a point far from the inflow chamber (a point where damage occurs first due to high-velocity fluid) so that the fluid is initially This is to minimize the wear of the water-stop short pipe made of the corrugated steel pipe by guiding it to pass through evenly distributed throughout the storage steel pipe.

In addition, by installing a control tube that moves back and forth inside the wear-resistant tube, it is intended to increase the convenience of construction.

In order to solve the above problems, the corrugated steel pipe small and medium-sized storm water storage tank equipped with a wear-resistant pipe of the present invention is spaced apart from each other in a horizontal or vertical direction and disposed in parallel in parallel, and a plurality of storage steel pipes made of a corrugated steel pipe (10) and; The raw water inlet 21 through which raw water is introduced from the outside is formed, and an inflow storage space 22 is formed in which the inflow raw water is stored, and the inside of the storage steel pipes 10 is the inflow storage space 22 ) and an inlet chamber 20 made of a concrete material in which a water stop end pipe 40 connected to one end of the storage steel pipe 10 is installed so as to communicate with it; A water stop end pipe 40 to which the other end of the storage steel pipes 10 is connected is installed, and a discharge storage space 31 in which raw water passing through the storage steel pipes 10 is stored is formed, and a discharge storage space on one side is provided. a discharge chamber 30 made of a concrete material in which an outlet 32 through which raw water stored in 31 is discharged is formed; In the storage tank configured including; a clamp 50 for interconnecting the storage steel pipe 10 and the water shutoff pipe 40, the short shutoff pipe 40 has a mountain (40a) and a valley (20b) on the outer peripheral surface and the inner peripheral surface It consists of a corrugated steel pipe formed continuously, and is integrally inserted into the concrete wall surface of the inlet chamber 20 or the discharge chamber 30 on one side of the outer peripheral surface of the water stop end pipe 40, and an insert member 41 made of a metal plate. ) is installed, and the inside of the shut-off end pipe 40 installed in the inflow chamber 20 is made of a pipe made of a wear-resistant metal material, and the fitting part 101 to be fitted into the inner space of the acid 40a is formed on the outer circumferential surface. It is characterized in that the wear-resistant pipe 100 is installed.

In the above configuration, the wear-resistant pipe 100 has an end protruding into the inflow storage space 22, and is installed in a plurality of shutoff end pipes 40 connected to the inflow chamber 20, respectively. 100) are characterized in that the farther from the raw water inlet 21, the longer the length protruding into the inflow storage space 22 is made.

In addition, the end of the wear-resistant pipe 100 is made of a tapered portion 102 having a shape inclined in a horizontal or vertical direction, the tapered portion 102 is formed toward the opposite direction of the raw water inlet 21, characterized by having

In addition, it is characterized in that on the opposite side of the tapered part 102, a plurality of flow water passage holes 103 through which raw water flows are formed.

In addition, the wear-resistant pipe 100 is characterized in that it is made of chrome steel manufactured by centrifugal casting.

Alternatively, the wear-resistant pipe 100 has an extension 104 having an end protruding into the inflow storage space 22 and supported on the opposite wall surface, and the extension 104 extends along the longitudinal direction. A plurality of slot holes 105 are formed on the outer circumferential surface, and a thread 106 is machined on the inner circumferential surface of the wear-resistant tube 100 , and the end is screwed into the wear-resistant tube 100 so that the end is the slot. It is characterized in that the opening/closing control tube 120 configured to open and close the hole 105 is installed.

The construction method of the corrugated steel pipe small and medium-sized storm water storage tank equipped with a wear-resistant pipe of the present invention is an inlet chamber made of a concrete material in which an insert member 41 made of a metal plate is coupled to one side of the outer circumferential surface and the water stop end pipe 40 is integrally manufactured ( 20), in the method of continuously installing a plurality of storage steel pipes 10 made of corrugated steel pipes in the horizontal or vertical direction, it is made of a pipe made of a wear-resistant metal material, and the fitting part 101 is protruded on the outer circumferential surface, , one side is provided with an extension portion 104 having a plurality of slot holes 105 formed on the outer circumferential surface along the longitudinal direction, and a wear-resistant tube 100 having a thread 106 formed on the inner circumferential surface opposite to the extension portion 104 . ) a wear-resistant pipe preparation step to prepare; The wear-resistant pipe 100 is inserted into the water shutoff end pipe 40 so that the end of the extension 104 is in contact with the inner wall surface of the inlet chamber 20, and the fitting part 101 is connected to the water shut off end pipe 40. A wear-resistant tube insertion step of installing to fit into the inner space of the mountain (20a); a filling adhesive step of forming a filling layer 110 by inputting and curing a filling adhesive in the space around the fitting portion 101 of the wear-resistant pipe 100; After preparing the opening/closing control tube 120 having the screw thread 121 formed on the outer circumferential surface, screwing the inside of the wear-resistant tube 100 so that the end of the opening/closing control tube 120 causes the opening/closing rate of the slot hole 105 A control tube installation step to control the; After the storage steel pipe 10 is placed against the short water shutoff pipe 40, the circumference of the two pipes is wrapped with a rubber band 53, and then the short water shut off pipe 40 and the storage steel pipe 10 are interconnected with a clamp 50. The clamping step is configured to include, and the farther the distance from the raw water inlet 21 through which the raw water of the inlet chamber 20 is introduced, the longer the length protruding into the inlet chamber 20 by the opening/closing control pipe 120 is greater. It is characterized in that it is constructed to be made long.

According to the present invention, flood prevention efficiency can be maximized by replacing large rainwater storage tanks with a treatment capacity of 10,000 tons or more, or by dispersing and installing medium and small stormwater storage tanks with smaller treatment capacity than large stormwater storage tanks on the upstream side of large stormwater storage tanks. In addition, structural stability, durability, economic feasibility, simplicity of construction work, minimization of defects, and maintenance efficiency are improved.

Moreover, when setting the diameter of the storm pipe, the maximum pipe diameter is generally set in consideration of the average value of rainfall for 30 to 50 years and the maximum daily rainfall per hour in case of heavy rain. However, when a small and medium-sized rainwater storage tank is installed in a stormwater pipe in an overloaded area, the maximum pipe diameter can be reduced and a very large budget can be saved.

In addition, it is possible to reduce the overload of the river by infiltrating rainwater from the lower part of the original river tributary or mountain slope underground, and it is possible to reduce the overload of the river by installing it in the lower stream or the original tributary.

More specifically, in arranging small and medium-sized storm water reservoirs in the required locations (population-dense residential areas, new town development areas, industrial complex areas, etc.) in the storm flow before reaching a large-scale storm water reservoir, the wear resistance performance of the water-stop short pipe made of corrugated steel pipe was evaluated. By increasing it, it is possible to minimize the demand for repair work and replacement work due to wear and tear of the water end pipe.

In addition, it is possible to increase the convenience of construction by installing a control tube that moves back and forth inside the wear-resistant tube.

1 is a perspective view showing the overall arrangement of a small and medium-sized rainwater storage tank according to the present invention.
Figure 2 is an exploded perspective view showing a conventional method for connecting a water stop short pipe and a storage steel pipe.
Figure 3 is an exploded perspective view showing the combined state of the main configuration according to the present invention.
Figure 4 is a cross-sectional flow chart showing a state of installing a wear-resistant pipe in the water stop end pipe in the present invention.
Figure 5 is a cross-sectional flow chart showing the state of connecting the storage steel pipe to the water stop pipe into which the wear-resistant pipe is inserted in the present invention.
6 is a cross-sectional view and a perspective view showing an example in which a tapered portion and a hole are formed at the end of the wear-resistant tube in the present name.
7 is a cross-sectional view and a perspective view showing an example in which an extension part and a slot hole are provided in the wear-resistant tube in the present invention.
8 is a cross-sectional view and a perspective view illustrating an example in which an opening/closing control tube is further provided in the present invention.

1, the present invention is spaced apart from each other in the horizontal or vertical direction and arranged in parallel in parallel, a plurality of storage steel pipes 10 made of corrugated steel pipes, and a raw water inlet 21 through which raw water is introduced from the outside. is formed, and an inflow storage space 22 in which the introduced raw water is stored is formed, and one side of the storage steel pipe 10 so that the inside of the storage steel pipes 10 communicates with the inflow storage space 22 . An inlet chamber 20 made of a concrete material in which a water shutoff end pipe 40 connected to the end is installed, a water shutoff end pipe 40 to which the other end of the storage steel pipes 10 is connected is installed, and the storage steel pipes 10 are installed. A discharge storage space 31 in which the passed raw water is stored is formed, and a discharge chamber 30 made of concrete in which an outlet 32 through which the raw water stored in the discharge storage space 31 is discharged is formed on one side, the storage It relates to a storage tank configured to include a clamp (50) for interconnecting the steel pipe (10) and the shutoff end pipe (40).

In the above configuration, the clamp 50 may be composed of a variety of known ones, but as shown in the figure, flat flanges are formed at both ends in a shape in which the corrugated steel pipe is cut in half, and bolt holes are formed in this flange. The upper clamping member 51 and the lower clamping member 52 are formed so that the storage steel pipe 10 and the water shutoff end pipe 40 are brought into contact, and then the rubber band 53 is wrapped around the connection part and tightened, then the upper clamping The member 51 and the lower clamping member 52 butt each other so as to surround the storage steel pipe 10 and the shut-off end pipe 40, and then are fastened by connecting the flanges with bolts.

Hereinafter, the main configuration of the small and medium-sized storm water storage tank with a corrugated steel pipe equipped with a wear-resistant pipe of the present invention and its construction method will be described in detail with reference to the accompanying drawings.

In the present invention, as shown in FIG. 3 , the water shutoff pipe 40 is made of a corrugated steel pipe in which mountains 40a and valleys 20b are continuously formed on the outer and inner circumferential surfaces.

In addition, an insert member 41 made of a metal plate is integrally inserted into the concrete wall surface of the inlet chamber 20 or the discharge chamber 30 on one side of the outer peripheral surface of the water shutoff end pipe 40 .

When constructing a storm water storage tank made of a corrugated steel pipe, it is very easy to construct the water-stop short pipe with the same corrugated steel pipe and construct it through a clamp.

However, when a foreign material rides on the water flow and applies an impact to the water shutoff pipe 40, damage to the water shutoff pipe 40 is high.

The water stop short pipe 40 and the above-mentioned storage steel pipe 10 are approximately in diameter.

In this configuration, the present invention consists of a tube made of a wear-resistant metal material, and the wear-resistant tube 100 having a fitting portion 101 fitted in the inner space of the acid 40a is formed on the outer circumferential surface is the water-stopped end tube 40. It is characterized in that it is installed inside the.

It is preferable that the wear-resistant pipe 100 is made of a material whose inner peripheral surface is not easily worn compared to the water-stopped short pipe 40 made of at least a corrugated steel pipe.

For this, the wear-resistant pipe 100 may be a structural special steel product.

Examples thereof include nickel-chromium steel, nickel-chromium-molybdenum steel, chromium steel, chromium-molybdenum steel, and the like, and preferably, heat-treated high-carbon chromium steel.

More preferably, high-carbon chromium steel manufactured by centrifugal casting and heat-treated is suitable. In this case, the fitting portion 101 may be integrally formed during manufacturing or may be formed by welding.

In the manufacture of centrifugal cast chromium steel, first, an alloy raw material is mixed with chromium, and then the mixture is heated to a high temperature of 1500℃ ~ 1700℃ to melt, and then the melted mixture is poured into a sand mold heated to 200℃ ~ 250℃, and sand It can be manufactured by rotating the mold to centrifugally cast the semi-finished product shape, then destroy the sand mold, supply cooling water to the semi-finished product shape to cool it, and then surface-treat the surface to match the design dimensions.

The fitting part 101 is to suppress the wear-resistant pipe 100 from freely moving in the internal space of the water-stop short pipe 40 after the wear-resistant pipe 100 is inserted into the water-stopped end pipe 40. It is formed in a stick shape as shown, and a plurality of pieces may be arranged spaced apart from each other on the outer peripheral surface of the wear-resistant tube 100, and the wear-resistant tube 100 is spirally formed along the spiral arrangement in the form of mountains and valleys on the inner peripheral surface of the water stop short tube 40. It may be formed in a wrapped form.

Inserting this wear-resistant pipe 100 into the water stop end pipe 40 is to push in a straight line up to the point where the fitting part 101 is not caught, and spirally wear-resistant at the point where the fitting part 101 is caught in the bone. While rotating the tube 100, it can be inserted to a certain depth.

In addition, a plurality of fitting portions 101 may be formed along the longitudinal direction of the wear-resistant tube 100 as necessary, and the fitting portion 101 may be positioned at a point spaced apart from the end portion.

In this case, a part of the wear-resistant pipe 100 can also be fitted on the inner circumferential surface of the storage steel pipe 10, so that the point connected through the clamp 50 is reinforced against an external load from the inside to minimize damage and leakage of the connection point. do.

In addition, in the present invention, the wear-resistant pipe 100 may be configured such that the end protrudes into the inflow storage space 22 .

In this case, the wear-resistant pipes 100 respectively installed in the plurality of water shutoff pipes 40 connected to the inflow chamber 20 have a longer length protruding into the inflow storage space 22 as they are farther from the raw water inlet 21 . it is preferable

In particular, the wear-resistant pipes 100 respectively installed in the plurality of shutoff end pipes 40 connected to the inflow chamber 20 have a longer length protruding into the inflow storage space 22 as they are farther from the raw water inlet 21 . it is preferable

When a plurality of storage steel pipes 10 are connected to the inlet chamber 20, when a phenomenon in which a large amount of water is instantaneously supplied to the raw water inlet 21 occurs, if there is no separate resistance means inside the inlet chamber 20, the fluid is It is driven toward the storage steel pipe 10 on the farthest side from the raw water inlet 21 .

Accordingly, the collision with the water current and the collision of foreign substances included in the water flow are most actively performed inside the shutoff end pipe 40 that is farthest from the raw water inlet 21 .

In order to prevent this point, the wear-resistant pipe 100 that is farthest from the raw water inlet 21 is made to protrude into the inflow storage space 22 to generate resistance, and the flow velocity inside the water-stop short pipe 40 that is farthest away and, thereby, the water flow can be smoothly dispersed and introduced into the water shutoff pipe 40 close to the raw water inlet 21 as well.

In addition, the wear-resistant pipe 100 protrudes from the end of the short water shutoff pipe 40 into the inflow storage space 22 to suppress damage to the inner peripheral surface of the short water shut off pipe 40 made of a corrugated steel pipe.

At this time, the end of the wear-resistant pipe 100 is made of a tapered portion 102 having a shape inclined in the horizontal or vertical direction as shown in FIGS. 4 to 6 , and the tapered portion 102 is the raw water inlet. (21) may be configured to be formed toward the opposite direction.

In the case of forming the tapered portion 102, a plurality of flowing water passage holes 103 through which the inflow of raw water is made may be formed on the opposite side of the tapered portion 102 as shown in order to allow the passage of an appropriate fluid as well.

Alternatively, as shown in FIG. 7, the end of the wear-resistant pipe 100 is installed to be supported on the opposite side of the inner wall surface of the inflow chamber 20, and the portion located inside the inflow storage space 22, as shown. A slot hole 105 extending in the longitudinal direction of the pipe may be formed.

In this case, since the wear-resistant pipe 100 is inserted up to the inner wall surface of the inflow chamber 20 during construction, there is no need to worry about the construction depth adjustment, and construction is simplified.

In this case, the resistance to the water flow for each wear-resistant tube 100 may be adjusted by varying the width of the slot hole 105 for each wear-resistant tube 100 .

At this time, the fitting portion 24 is formed on the inner wall surface of the inlet chamber 20 so that the end of the wear-resistant tube 100 is fitted, so as to support the wear-resistant tube 100 to keep it horizontal.

However, in the case of the above-described configuration, there is an inconvenience in that a tube having a different slot hole 105 standard must be manufactured and processed.

The configuration shown in FIG. 8 may be proposed as a method for solving this problem.

In the illustrated configuration, the wear-resistant tube 100 has an extension portion 104 having an end protruding into the inflow storage space 22 and supported on the opposite wall surface, and the extension portion 104 extends in the longitudinal direction. A plurality of slot holes 105 are formed on the outer circumferential surface along The opening/closing control tube 120 configured to open and close the slot hole 105 is installed.

In the case of this configuration, when a plurality of wear-resistant pipes 100 are installed, all wear-resistant pipes 100 are inserted up to the inner wall surface of the inlet chamber 20 and only the opening/closing control pipe 120 is rotated and inserted to its depth. By adjusting the opening and closing amount of the slot hole 105 can be adjusted.

The construction of the structure as shown in FIG. 8 is performed in an inlet chamber 20 made of concrete in which an insert member 41 made of a metal plate is coupled to one side of the outer circumferential surface and a plurality of corrugated steel pipes are integrally manufactured. As a method of continuously installing the storage steel pipe 10 in the horizontal or vertical direction, it may be generally composed of a wear-resistant pipe preparation step, a wear-resistant pipe insertion step, a filling and bonding step, an adjustment pipe installation step, and a clamping step.

The wear-resistant tube preparation step consists of a tube made of a wear-resistant metal material as described above, the fitting portion 101 is protruded on the outer peripheral surface, and a plurality of slot holes 105 are formed on the outer peripheral surface along the longitudinal direction on one side. The part 104 is provided, and it proceeds to prepare a wear-resistant tube 100 having a thread 106 formed on the inner circumferential surface opposite to the extension part 104 .

In the wear-resistant pipe insertion step, the wear-resistant pipe 100 is inserted into the water shutoff end pipe 40 so that the end of the extension part 104 is in contact with the inner wall surface of the inflow chamber 20, and the fitting part 101 ) is installed to fit into the inner space of the mountain (20a) of the water stop end pipe (40).

In the filling and bonding step, the filling layer 110 is formed by injecting and curing the filling adhesive into the space around the fitting portion 101 of the wear-resistant pipe 100 .

When the filling layer 110 is formed, the fitting portion 101 suppresses the spiral movement along the mountain of the shut-off end pipe 40 .

In the adjusting pipe installation step, after preparing the opening/closing control pipe 120 having a screw thread 121 formed on the outer circumferential surface, screwing the inside of the wear-resistant pipe 100 to allow the end of the opening/closing control pipe 120 to form a slot hole ( 105) is configured to adjust the opening/closing rate.

In the clamping step, after the storage steel pipe 10 is placed against the water shutoff pipe 40, the rubber band 53 wraps around the two pipes, and then the short water stop pipe 40 and the storage steel pipe 10 are mutually connected with the clamp 50. It proceeds by linking.

At this time, as shown in FIG. 8 , the farther the distance from the raw water inlet 21 through which the raw water of the inflow chamber 20 is introduced, the longer the length protruding to the inside of the inlet chamber 20 by the opening/closing control pipe 120 is increased. It is characterized in that it is constructed to be made longer.

In the above configuration, the wear-resistant ring 100 of the present invention is installed at least inside the water shutoff pipe 40 installed in the inlet chamber 20, and selectively in the shutoff end pipe 40 installed in the discharge chamber 30. Will do can be installed.

In addition, the storage steel pipe 10 and the water shutoff pipe 40 mentioned in the present invention are not limited to general corrugated steel pipes treated with zinc plating, but are conventionally coated with a coating to prevent corrosion by strong acid and strong alkali materials. Covered corrugated steel pipe is also included.

In addition, the small and medium-sized rainwater storage tank described in the title of the present invention refers to a large rainwater storage tank with a treatment capacity of 10,000 tons or more dispersedly replaced, or a small rainwater storage tank of about 500 to 1,000 tons distributed and disposed upstream of a large stormwater storage tank or 1,000 to 1,000 tons. It refers to a medium-sized rainwater storage tank with a capacity of about 5,000 tons, and it will mean a stormwater storage tank with a treatment capacity of less than 10,000 tons (preferably less than 5000 tons).

10: storage steel pipe 20: inlet chamber
21: raw water inlet 22: inflow storage space
24: fitting part 30: discharge chamber
31: discharge storage space 32: discharge port
40: exponential unit pipe 40a: acid
40b: rib 41: insert member
50: clamp 51: upper clamping member
52: lower clamping member 53: rubber band
100: wear-resistant tube 101: fitting part
102: tapered part 103: flowing water through hole
104: extension 105: slot hole
106: thread 110: filling layer
120: opening and closing control tube 121: screw thread

Claims (7)

a plurality of storage steel pipes 10 spaced apart from each other in a horizontal or vertical direction and disposed in parallel in parallel, each of which is made of a corrugated steel pipe;
The raw water inlet 21 through which raw water is introduced from the outside is formed, and an inflow storage space 22 is formed in which the inflow raw water is stored, and the inside of the storage steel pipes 10 is the inflow storage space 22 ) and an inlet chamber 20 made of a concrete material in which a water stop end pipe 40 connected to one end of the storage steel pipe 10 is installed so as to communicate with it;
A water stop end pipe 40 to which the other end of the storage steel pipes 10 is connected is installed, and a discharge storage space 31 in which raw water passing through the storage steel pipes 10 is stored is formed, and a discharge storage space on one side is provided. a discharge chamber 30 made of a concrete material in which an outlet 32 through which raw water stored in 31 is discharged is formed;
In the storage tank configured to include; a clamp 50 for interconnecting the storage steel pipe 10 and the shutoff end pipe 40,

The short water shutoff pipe 40 is composed of a corrugated steel pipe in which mountains 40a and valleys 20b are continuously formed on the outer and inner circumferential surfaces, and an inlet chamber 20 or an outlet chamber on one side of the outer circumferential surface of the shutoff short pipe 40 Inserted integrally into the concrete wall surface of (30), the insert member 41 made of a metal plate is installed,

The inside of the water stop end pipe 40 installed in the inlet chamber 20 is made of a pipe made of a wear-resistant metal material, and the fitting part 101 to be fitted into the inner space of the mountain 40a is formed on the outer circumferential surface of the wear-resistant pipe ( 100) characterized in that it is installed,

Corrugated steel pipe small and medium rainwater storage tank equipped with wear-resistant pipe.
The method of claim 1,
The wear-resistant pipe 100 has an end protruding into the inflow storage space 22,
The wear-resistant pipes 100 respectively installed in the plurality of shutoff end pipes 40 connected to the inflow chamber 20 have a longer length protruding into the inflow storage space 22 as they are farther from the raw water inlet 21. to do,
Corrugated steel pipe small and medium rainwater storage tank equipped with wear-resistant pipe.
3. The method of claim 2,
The end of the wear-resistant pipe 100 is made of a tapered portion 102 having a shape inclined in a horizontal or vertical direction, and the tapered portion 102 is formed toward the opposite direction of the raw water inlet 21 characterized by,
Corrugated steel pipe small and medium rainwater storage tank equipped with wear-resistant pipe.
4. The method of claim 3,
Characterized in that on the opposite side of the tapered part 102, a plurality of flow water passage holes 103 through which raw water flows are formed,
Corrugated steel pipe small and medium rainwater storage tank equipped with wear-resistant pipe.
5. The method of claim 4,
The wear-resistant pipe 100 is characterized in that made of chrome steel manufactured by centrifugal casting,
Corrugated steel pipe small and medium rainwater storage tank equipped with wear-resistant pipe.
The method of claim 1,
The wear-resistant pipe 100 has an extended portion 104 whose end protrudes into the inflow storage space 22 and is supported on the opposite wall surface is formed,
The extension portion 104 has a plurality of slot holes 105 formed on the outer peripheral surface along the longitudinal direction,
A thread 106 is machined on the inner circumferential surface of the wear-resistant tube 100,
characterized in that an opening/closing control pipe 120 configured to be screwed into the inner side of the wear-resistant pipe 100 to control the opening and closing of the slot hole 105 is installed,
Corrugated steel pipe small and medium rainwater storage tank equipped with wear-resistant pipe.
A plurality of storage steel pipes 10 made of corrugated steel pipes are horizontally or vertically formed in an inlet chamber 20 made of a concrete material in which a water stop end pipe 40 to which an insert member 41 made of a metal plate is coupled to one side of the outer circumferential surface is integrally manufactured. In the method of continuous installation in the direction,
It consists of a tube made of a wear-resistant metal material, a fitting part 101 is protruded on the outer peripheral surface, and an extension part 104 in which a plurality of slot holes 105 are formed on the outer peripheral surface along the longitudinal direction is provided on one side, A wear-resistant tube preparation step of preparing a wear-resistant tube 100 having a screw thread 106 formed on the inner peripheral surface opposite to the extension portion 104;
The wear-resistant pipe 100 is inserted into the water shutoff end pipe 40 so that the end of the extension 104 is in contact with the inner wall surface of the inlet chamber 20, and the fitting part 101 is connected to the water shut off end pipe 40. A wear-resistant tube insertion step of installing to fit into the inner space of the mountain (20a);
a filling adhesive step of forming a filling layer 110 by inputting and curing a filling adhesive in the space around the fitting portion 101 of the wear-resistant pipe 100;
After preparing the opening/closing control tube 120 having the screw thread 121 formed on the outer circumferential surface, screwing the inside of the wear-resistant tube 100 to allow the end of the opening/closing control tube 120 to open and close the slot hole 105 A control tube installation step to control the;
After the storage steel pipe 10 is placed against the short water shutoff pipe 40, the circumference of the two pipes is wrapped with a rubber band 53, and then the short water shut off pipe 40 and the storage steel pipe 10 are interconnected with a clamp 50. It consists of a clamping step;
The farther the distance from the raw water inlet 21 through which the raw water of the inlet chamber 20 is introduced, the longer the opening/closing control pipe 120 protrudes into the inlet chamber 20, characterized in that the construction is made longer. ,
A construction method for a small and medium-sized storm water storage tank with a corrugated steel pipe equipped with a wear-resistant pipe.

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