KR100486852B1 - Distributing reservoir using storage tank - Google Patents

Abstract

The present invention can be used as a structurally stable structure for earth pressure, water pressure, earthquake, wind pressure as a reservoir having a diameter of several tens of meters and a depth of several meters, and to provide a reservoir using at least one storage tank to control the water balance will be.

The drainage using the storage tank of the present invention is configured to bond the upper plate 109 to the upper end of the outer wall body 106, the bottom plate 114 to the lower end of the outer wall 106 to contain the fluid, the panel in multiple stages A main body (100, 101) having a plurality of divided spaces according to the lamination and configured to separate the inner spaces individually by adjusting the water inlet and outlet length by the panel; An internal structure 105 having any one of at least one of a flow barrier wall, a rectifying wall, a partition, an inner wall, a partition wall, a circulating wall, a guide wall, and a small tank wall shape provided in the main bodies 100 and 101; ; An outer wall body of the main body (100, 101) includes a plurality of ventilation facilities 110 in the form of a ventilator provided with a filtering net in the through hole of the upper plate (109) to supply water from the main body (100, 101) to each other It has a water balance tube 102 connected to penetrate through.

Description

Drainage using storage tanks {DISTRIBUTING RESERVOIR USING STORAGE TANK}

The present invention relates to a drainage tank using a storage tank, which can be used semi-permanently in a place of storing liquids such as water and oil, and is particularly suitable for chlorine disinfection of water, such as purified water of an advanced water treatment system. It relates to a drain using a tank.

In general, the drainage is one of the water treatment facilities for storing water at night when water is not used much, and for supplying water during the day.

Conventional drainage is composed of ground or underground structures, but is installed as a ground structure to solve problems of maintenance and sanitation.

Ground structure according to the prior art, as shown in Figure 1, there is a cylindrical storage tank having multiple partitions of the patent registration No. 03-399488 designed by the applicant.

Cylindrical storage tank with multiple partitions is not a small water storage facility, but has a capacity of more than 1,000 tons, and is a structure that can contain fluid by sealing the top plate 2 and the bottom plate 3 to the outer wall 1. Inside the outer wall 1, cylindrical units 4 and 5 having different diameters and stacked in multiple stages are arranged in multiples having a ring shape from the shaft center, and an inlet through which fluid can pass through the upper and lower portions ( A plurality of partitions 9, 10, 11 having 6, 7, 8, and a plurality of chambers 12, 13, divided by the outer wall 1 and the partitions 9, 10, 11, 14, 15, comprising a cylindrical body 16. In the interior of this cylindrical body 16, as the fluid obtained flows through the inlets 6, 7, 8 while circulating circumferentially when it is sequentially filled in the chambers 12, 13, 14, 15, The residence time and flow direction of the fluid from the inlet to the outlet are controlled.

At least one internal ladder 17 is installed in the chambers 12, 13, 14, 15 between the manhole of the top plate 2 and the bottom plate 3, and supports the top plate 2 with the reinforcing table 18. Doing.

However, the cylindrical storage tank having multiple partitions according to the prior art is difficult to efficiently adjust the drainage due to the absence of means capable of equally adjusting the water balance when installed in plurality.

 In addition, the cylindrical storage tank having multiple partitions according to the prior art does not have an internal structure corresponding to the type of water treatment desired by the water and sewage establishment because any one of the multiple partitions, the ditch walls, and the rectifying walls is relatively simple.

In addition, the cylindrical storage tank having a multiple partition wall according to the prior art has a disadvantage in that the chlorine gas can not be efficiently discharged because it is provided with a simple gas discharge pipe of the bent pipe shape.

In addition, the cylindrical storage tank having multiple partitions according to the prior art has a disadvantage that the top plate is a flat plate, it is not easy to drain the water according to rain or snow.

In addition, the cylindrical storage tank having multiple partitions according to the prior art is of a type for stacking cylindrical units, there is a difficulty in the field construction of a curved or straight wall for the drainage having a diameter of several tens of meters or more.

Accordingly, an object of the present invention is to solve the conventional problems described above, and can be used as a structurally stable structure for earth pressure, water pressure, earthquake, and wind pressure as a drainage reservoir having a diameter of several tens of meters and an effective depth of several meters. It is intended to provide a drain using at least one adjustable storage tank.

In addition, another object of the present invention is to be able to easily panel construction of a curved or straight wall with a material such as stainless steel, duplex, etc. by the panel construction, easy gas discharge and rainwater drainage by the conical radial arrangement, sagging of the top plate It is to provide a drain using a storage tank that can prevent the phenomenon.

In addition, another object of the present invention is to provide a separate storage area or inner tank wall independently in each of the storage tank body of the reservoir, the storage tank that can maintain the structural rigidity and efficiently manage the water resources To provide a basin using.

In addition, another object of the present invention is to provide an internal structure corresponding to the desired water treatment type in the water and sewage establishment by arranging the internal multiple bulkhead, the ditch wall, the rectifying wall in various forms in the storage tank of the drainage basin. It is to provide a reservoir using a storage tank that allows for a variety of choices and has an internal structure most suitable for the required water treatment.

Objects of the present invention as described above is configured to contain a fluid by bonding the top plate to the top of the outer wall, the bottom plate to the bottom of the outer wall, having a plurality of divided spaces by stacking the panels in multiple stages A drainage tank using a storage tank, comprising: a main body configured to separately separate an inner space while adjusting water inlet and outlet length by the panel; An internal structure having any one of at least one flow wall, a rectifying wall, a partition, an inner wall, a partition wall, a circulating wall, a guide wall, and a small tank wall shape disposed inside the main body; A storage tank including a plurality of ventilation facilities in the form of a ventilator provided with a filtering net in the through hole of the upper plate, and having a water balance tube connected to the outer wall of the main body so that water of the main body is mutually supplied; Achieved by used drainage basins.

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

In the drawings, Figure 2 is a perspective view of any one of the top plate to explain the configuration of the drainage having a wall structure according to an embodiment of the present invention. 3A to 3C are perspective views and cross-sectional views illustrating a first modified example of a drainage assembly panel, and FIGS. 4A to 4C are perspective views and cross-sectional views illustrating a second modified example of the drainage assembly panel. 5 is a cross-sectional view illustrating a third modified example of the drainage assembly panel, and FIGS. 6A and 6B are perspective views of a straight panel and an arc-shaped panel among the drainage assembly panels, and FIGS. 6C to 6E show FIG. 6A. 6A and 6H are plan views illustrating the planar shape variants of the panels shown in FIGS. 6A and 6C. 7 and 8 are plan views for explaining the constitution of the cylindrical ditch wall of the drainage basin shown in FIG. 2, FIG. 9 is a plan view for explaining the constitution of the rectifying wall of the drainage basin shown in FIG. 2, and FIG. 10. 14 to 14 are plan views illustrating modifications of the drainage basin shown in FIG. 2.

As shown in FIG. 2, the present invention is a drainage reservoir having a plurality, that is, at least one main bodies 100 and 101, and the outer walls of the main bodies 100 and 101 so that water of each of the main bodies 100 and 101 are mutually supplied. Water balance can be adjusted by the water balance tube 102 connected to penetrate through. In the middle of the water balance tube 102 is provided with an on-off valve 104 protected by the management box 103 exposed to the ground, the water balance can be adjusted by the manager's choice. The on-off valve 104 is preferably a lever rotatable product which can be opened and closed manually, or a solenoid type product which can be opened and closed by automatic control.

Each of the main bodies 100 and 101 has a diameter of 21 m and an effective depth height of 3.4 m (actual main body height of 5 m or more), and at least one of the multiple bulkheads and the drifting walls disposed inside the main bodies 100 and 101. Structural rigidity stable to earth pressure, water pressure, earthquake and wind pressure by internal structure 105 and outer wall 106 built on bottom plate to correspond to rectification wall, partition, inner wall, partition wall, circulating wall, guide wall and small tank wall Can be maintained.

The main bodies 100 and 101 are provided with the inflow pipe, the outflow pipe, the drain pipe, and the overflow pipe of predetermined diameter according to the conventional tank construction method.

Each of the main bodies 100 and 101 is installed on the upper surface of the concrete foundation in a state of being spaced apart from each other, and both ends of the bridge-shaped connecting passage 107 is attached to the upper plate 109 joined to the upper end of the main bodies 100 and 101. This joining is made to facilitate maintenance of the plurality of main bodies 100 and 101.

The bridge connecting passage 107 is connected to the reinforcement plate so that the deformation of the structure does not occur even if the worker ascends to the upper plate 109, and a plurality of manholes are formed at predetermined positions of the reinforcement plate, and inside each manhole. A ladder is provided so that an operator can enter into each of the main bodies 100 and 101.

Each manhole cover has a locking device to control entry and exit.

The pipe boundary is up to 300 mm outside the concrete foundation and to the pipe flange outside the concrete foundation.

In particular, as the outer ladder 108 is installed at the center of the bridge connecting passage 107, it is possible to reduce the cost and effort used to make the ladder.

Safety hand rails used for balconies and the like are attached to the edges of the outer ladder 108, the bridge connecting passage 107, and the respective top plates 109, so that high-altitude management or maintenance work can be performed safely. have.

The upper plate 109 is provided to penetrate through a plurality of cleaning pipe connecting flanges. The cleaning pipe connecting flange is for connecting the cleaning hose by the usual flange coupling, which is normally sealed by the flange cover, is opened only when cleaning is required, and the cleaning water is supplied from the outside to the main body (100, 101). It will be possible to perform the cleaning operation inside the.

The upper plate 109 is provided with at least six ventilation facilities 110 of a ventilator type.

Ventilation facility 110 is installed perpendicular to the through installation hole of the upper plate 109, provided with a filter net in the through installation hole, the foreign matter does not flow into the interior of the main body (100, 101), contaminated gas such as chlorine gas Is well discharged.

The exterior member 111, such as an aluminum plate, is quenched and fixed by the sealing material, such as silicon | silicone, outside the upper plate 109 or the outer wall 106. As shown in FIG.

The exterior member 111 has a bending deformation at a circumferential ratio of its size that can surround the outer wall body 106 of the main body 100, 101. The exterior member 111 is preferably made of a simple flat plate shape or arc shape, or a curved panel (corrugated plate material) arranged so that the semicircular cross section or the trapezoidal cross section is continuous in the arc direction.

The exterior member 111 applied to the present invention is installed by extending a plurality of panels by welding or bolting in the circumferential direction of the main bodies 100 and 101. Here, the top and bottom of the exterior material 111 is preferably finished to be wrapped by the band finishing portion 112, 113 of the same material.

The main bodies 100 and 101 are preferably manufactured by welding or bolting, using a panel for assembling reservoirs having KS quality such as stainless steel for low temperature water tanks and duplex materials.

For example, the drainage assembly panel has a thickness of 1.5t to 2.5t, or 2.5t or more, depending on the drainage capacity, and has a shape corresponding to the circumference of the outer wall 106 and the shape of the inner structure 105, respectively.

That is, a straight panel, an arc-shaped panel, etc. may be used for the drainage assembly panel, and the cross-sectional shape and the assembled cross-sectional shape thereof may be modified and manufactured in various forms as will be described in detail below. In particular, the change of the cross-sectional shape of the panel also has a dimension of simple design change, but the structural rigidity is largely influenced accordingly, and the exterior material 111 and the band finishing parts 112 and 113 with the effect of securing the installation space of the insulation / insulation material. ), It is used as a fixed position for fixing the capacity, and also has a great influence on the required durability increase or expensive material usage according to the capacity of the drainage basin, which is a very important issue in the case of a large-capacity drainage basin. Here, the thermal insulation / heat insulating material uses at least 40 tons of atyrone.

An arc panel or a straight panel is formed by a bending device similar or identical to the apparatus for manufacturing a flanged cylindrical unit of a storage tank of 2004 Korean Patent Registration No. 42587.

As shown in FIG. 3A, the first panel 120 having an arc-shaped panel type has a bending deformation by bending a sheet having a width of 1000 mm in the longitudinal direction corresponding to the circumference of either the outer wall or the inner structure. As produced, it is cut to have a length of a certain arc of approximately 2.5m to 3m, 4m, 5m, 6m each.

Subsequently, the base material which is bent in the longitudinal direction is bent at least once or twice at both ends in the height direction from the 'b' shape, 'c' shape, or 'b', 'c' shape to the outside or the inside at least once or twice. It is formed by bending in the height direction to have a 'ㄷ' or 'ㅁ' shape.

In the same manner, the base material which is bent in the longitudinal direction is bent and formed in the height direction to have a 'o' shape formed by curling processing from the 'b' and 'c' shapes.

In the same way, the base material which is bent in the longitudinal direction has an uneven shape which improves the interlocking according to the unevenness formed by locally bending each of the flange portions of the 'b' and 'c' shapes. , It is bent to have a).

That is, when the panels having the cross sections are laminated to each other in the height direction at the construction site, 'Shape,' 'Shape,' 'Shape,' 'Shape,' 'Shape,' 'Shape,' 'Shape,' 'Shape,' 'It will have a cross-sectional shape of the shape, which is not a problem in use, it is preferable to bend the molding according to the type of shape suitable for the construction site conditions, of course, also bent to fit the diameter of the outer wall of the body or the internal structure do.

The cross-sectional shapes described above are preferably applied equally to linear panels as well as arc-shaped panels.

The panel configuration having the cross-sectional shape described above will be described in more detail with reference to FIGS. 3A to 3C. The first panels 120 and 120 ′ are flanged portions 122, respectively, at the upper and lower ends of the body portion 121. After the 123 is integrally formed, the end of the flange portion 122 is further bent to form the reinforcing flange portion 124 integrally, or the end of the reinforcing flange portion 124 is bent inward to further torsional deformation. The torsion reinforcement part 125 which prevents is formed.

The operator may selectively stack the reinforcing flange portion 124 or the torsion reinforcement portion 125 side of the first panel 120 or 120 'upwardly or downwardly to adjust the installation direction thereof. If necessary, the first panels 120 and 120 ′ having similar shapes to the aforementioned cross-sectional shapes but having different flange portions 122 and 123 may be mixed and stacked.

As shown in FIGS. 4A to 4C, the second panel 130 has a stacked shape between panels. 'Or' or ' 'It is formed to have a shape, when the hydraulic pressure is applied in the radial direction, there is a special advantage that can increase the structural rigidity while wrapping the inner flange portion of the outer right flange portion.

In particular, as shown in FIG. 4B or 4C, the edges of the second panel 130 and the bottom plate 114 at the bottom are places where water pressure is concentrated in the tangential direction between the radial direction and the inner circumference and diagonally between the upper and lower edges. This is the most vulnerable part of a water tank.

Therefore, in order to increase the rigidity of such a vulnerable portion, a plurality of reinforcing plates 131, 132 at the corners of the second panel 130 and the bottom plate 114 of the lowermost lower while maintaining a predetermined distance in the circumferential direction Formed.

In addition, the reinforcing plates 131 and 132 preferably form grooves 133 and 134 that penetrate in the thickness direction so that water can flow along the inner circumference without remaining in the shooter state at the corner portion side.

As shown in FIG. 5, the third panel 140 has a stacked shape between panels. 'Or' or ' 'It is formed to have a shape, each bent vertically at the rim portion, one side flange portion 143 bent slightly wider than the other flange portion 145, one side flange portion 143 is the other flange portion 145 In addition to wrapping, the flange portion 143, which is connected by wrapping all the reinforcing flange portion 146 vertically bent from the other flange portion 145 with the reinforcing flange portion 144 of the one flange portion 143, 144, 145, 146 to improve the bonding state, easy to laminate construction, there is an effect of preventing the bending deformation by increasing the contact area, it is possible to increase the structural rigidity.

The first, second, and third panels described above are the same as the curved or straight panels below, which are merely classified according to the cross-sectional shape for the sake of convenience of explanation, and can increase the rigidity of the panel structure with an aesthetic aesthetic. That has various embossing or surface irregularities.

FIG. 6A shows the arc-shaped panel 150 having the flange sections A and B of various cross-sectional shapes described above, and FIG. 6B also shows the flange sections A and B of the same cross-sectional shape. The straight panel 160 having the same is shown.

The arcuate panel 150 is used for lamination and extension in the circumferential direction, and when the circular outer wall is formed, as many arcuate panels 150 are divided into the bottom plate as the number of the circumferential distances of the outer wall. After standing upright, one end of a cylindrical unit is formed on the bottom plate by welding both ends of the circumferentially joined mating panel. Subsequently, after laminating a two-stage circular arc panel on the upper flange portion of the first stage cylindrical unit, the joints of the upper flange portion of the first stage cylindrical unit and the lower flange portion of the two-stage circular arc panel are welded and fixed. In the same way, the lower flange portion of the other two-stage circular arc panel is welded to the upper flange of the one-stage cylindrical unit, and both ends of each arc-shaped panel mounted on the upper flange of the one-stage cylindrical unit are welded. As all are welded, two stage cylindrical units are formed on one stage cylindrical unit. When the construction method is performed to three, four, or five (or six) stages, the cylindrical unit is finally stacked and welded from the bottom plate to form a shape of the main body of the drainage body sealing the bottom of the outer wall with the bottom plate. Will have

The arcuate panel 150 has an internal structure located inside the outer wall in the same or similar manner as the outer wall, i.e., at least one multiple partition wall, curved wave walls, curved rectifying wall, curved partition, circular inner wall. It is used for the construction of small tank walls.

The straight panel 160 is also used for lamination and extension in the longitudinal direction in the same or similar manner as described above, and includes partitions, partition walls, circulating walls, straight rectifying walls, and the like among the internal structures located inside the outer wall. It is used for the construction of straight conducting walls and guide walls.

Each of the curved or straight panels 150, 160 is also connected by welding, or bolted by fixing bolts which are respectively fastened to form a plurality of bolt holes (not shown) in the flange areas A and B thereof. Can be interconnected in a laminated and extended manner.

Each of the curved or straight panels 150, 160 can be formed such that its flanged areas A, B have any of the various cross-sectional shapes described above, and a plurality of perforated holes in the body area C. It may be formed or a plurality of pipes are formed to penetrate in a straight diagonal direction, or a cross-sectional shape to be described below may be formed.

As shown in FIGS. 6C to 6E, a curved or straight panel, that is, a first reinforcement bent in a triangular bent or recessed groove, is formed in the body region of the panel used in the present invention based on its side cross-section. Part 170, the second reinforcing bent portion 171 bent or formed in a semi-circular or semi-elliptic shape, or the third reinforcement bent portion 172, 173 bent or formed in a plurality of semi-circular or semi-elliptical shape It is preferable that either one is formed.

Further expanding, as shown in Figure 6f to 6h, when described with reference to the planar direction, the body area of the panel used in the present invention increases the structural rigidity, and water and disinfectant in the grooves effectively To mix, embossed shape, dimple shape, corrugated shape, circular shape, slit shape, horizontal / vertical / crosswise groove shape (174, 175, 176), inclined groove shape (177), diamond inside square border groove, It is preferable that at least one protrusion reinforcing portion 178, 179 of a cross shape, a logo of a manufacturing company, a mark of a corresponding water company establishment, or a shape of a specific image (water droplets, valley water, lake, etc.) is formed.

The manufacturing method of the panel used in the present invention is disclosed in detail in the inner wall assembly of the tap water treatment plant of 2003 Korean Patent Application No. 9403. By applying this to the present invention, the internal structures of the drainage basin, which will be described in detail below, in the present invention, form an internal structure having different storage areas in the interior of the outer wall, or as one of the internal structures, the flow barrier, the rectifying wall, the partition, It is possible to form inner walls, partition walls, circulating walls, guide walls, and the like.

In addition, the panel used in the present invention can be manufactured in a curved panel shape as disclosed in the water treatment tank having a reinforced sandwich wall structure of the Republic of Korea Patent Application No. 44074 in 2003.

In addition, the panel used in the present invention can be manufactured in the form of a curved vertical extension panel by the continuous corrugated shape shown in the cylindrical storage tank of the curved vertical extension panel combined structure of 2004 Korea Utility Model Registration No. 348734.

When each panel is laminated and welded in the shape of a cylindrical unit to complete the outer wall of the main body, the outer surface of the outer wall is partitioned by the flanges of the panel mentioned above, and the heat insulating / insulating material surrounding the outer surface of the panel body and the upper plate and Cansing finishing works are done.

In the present invention, the canning finish construction is flame retardant glass fiber, the thermal insulation / heat insulating material having a similar insulation and thermal insulation function of Atyrone to the interposed on the outer surface of the body portion and the top plate of the panel, and then to the outer surface of the thermal insulation / insulation An outer sheet of aluminum sheet (thickness 0.6t or more) having either a circular panel shape or a curved panel shape (curved vertically extending panel shape) is wrapped or covered, and the wrapped or covered outer material is clipped coupler or tightened. Fix the insulation / insulation material to the flange part or reinforcing flange of the panel in the direction of crimping the insulation / insulation material by fixing means such as screws, nails, upper / lower angle bands, band finishes, poles, stud bolts, etc. Refers to a series of construction methods in which watertight gaps in exterior materials are applied.

Hereinafter, the field assembly and installation method will be described.

Plates, pipes, and accessories pre-processed at the factory perform TIG or MIG welding in an inert gas atmosphere. To prevent welding defects, oil, bungee, moisture, etc. are sufficiently removed. It has proper welding temperature, welding time, and welding posture to prevent the weakness of welding part such as pore and undercut, and it also performs pickling treatment to clean the welding part with hydrochloric acid after welding to prevent corrosion by thermal deformation. It is preferable.

The drainage installation sequence is based on the laying and joining of the piping material, the concrete foundation placing step, the bottom plate joining step, and the structure of the corresponding internal structure based on the center of the bottom plate according to the lamination and extension of the straight or curved panel, Sequentially extending to the edge of the bottom plate, joining the internal ladder, joining the upper reinforcement pipe, joining the roof plate and reinforcement pipe, joining the handrail, assembling the insulation, and assembling the exterior Build one tank structure body.

After the other tank structure body is manufactured in a similar or the same manner as the above method, the bridge connecting passage joining step is connected between the upper plates of the bodies, the external ladder joining step to the bridge connecting passage, The management box installation step for the on-off valve is performed.

Hereinafter, the internal structure of the body of the drain according to the present invention will be described based on the planar structure.

As shown in FIG. 7, the main body 100 has a spaced apart arc-shaped partition for inducing water flowing through the water inlet pipe to flow in the left circumferential direction, the right circumferential direction, and the axial direction in the main body 100 ( Through the connecting passage 201 between the 200 is to be mixed with water and disinfectant.

For example, as three arc-shaped panels are stacked upright by the height of the main body 100 in the height direction at a predetermined distance in the axial direction inside the outer wall body, the inner wall, the partition wall, the circulating wall, the guide wall, the drift wall, and the like. It has a structure, and the water discharge is to be made through the discharge pipe extending from the axial bottom plate of the main body 100 to extend through the concrete foundation.

As shown in FIG. 8, a plurality of conductive walls 202 corresponding to the internal structure are intersected in the body 100. As the flow wall 202 serves as a structure for supporting the upper plate together with the outer wall of the main body 100, the flow distance of water flow from the intake pipe to the outflow pipe is relatively increased as compared to the ordinary cylindrical tank. The contact time between the water and the disinfectant can be increased, so that the amount of dissolved disinfectant can be maintained at an appropriate level, and the internal structure can be configured relatively simply.

Here, the conductive wall 202 is manufactured by laminating and welding the linear panel described above, but not only has good durability according to the bonding between the flanges, but also has a smooth surface, which prevents the growth of microorganisms in advance, and is easy to clean. And, there is an advantage that is used as a structural material in place of the structure for supporting the top plate.

As shown in FIG. 9, an inner wall that divides the plurality of chambers 203, 204, 205, and 206 into two, three, or four portions is provided inside the main body 100. The inner wall is a vertically stacked and welded straight panel as described above, and includes one inlet pipe and one outlet pipe.

Each of the inner walls is provided with a plurality of supply pipes 207 or through-holes through which water obtained from one chamber 203 to the other chamber 204 passes. In the same manner, since the supply pipes 208 and 209 or the through holes are formed in the other inner walls, respectively, the water obtained through the intake pipe from the outside is transferred from the first chamber 203 to the second chamber through the first supply pipe 207. Flow to the chamber 204, and then flow from the second chamber 204 to the third chamber 205 through the second supply pipe 208, also through the third supply pipe 209 in the third chamber 205 After flowing to the fourth chamber 206, it is possible to exit to the outside through the outlet pipe.

An inner wall corresponding to the internal structure of the main body 100 has an effect corresponding to various main body internal structure designs.

As shown in FIG. 10, the inside of the main body 100 also corresponds to an internal structure, and a plurality of small tank walls 214 are provided.

That is, the basic storage space 210 is present inside the main body 100, and a plurality of small tank spaces 211, 212, and 213 are respectively partitioned from each other.

In this case, it is preferable that the respective inlet pipes, outlet pipes, internal ladders, manholes, etc. corresponding to the respective spaces 210, 211, 212, and 213 are disposed in place.

Such a main body 100 has an effect of using only the necessary spaces 210, 211, 212, and 213 according to the user's water treatment requirements or water storage environment, but also consists of a single main body 100, so that the installation area can be efficiently There is an advantage that can be used. Here, the plurality of small tank walls 214 are used as the support structure of the upper plate.

As shown in FIG. 11, a partition wall 218, which corresponds to an internal structure and has a triangular arrangement and is installed using a straight flat panel, is formed inside the main body 100. In this case, there are storage spaces 215, 216, and 217, which are divided into three parts and can receive and extract water separately from each other. In particular, it is preferable that each of the partition walls 218 is provided with a plurality of guide walls 219 zigzag arranged in a conductive wall shape so that water flows or spirals flow between the water inlet pipe and the water outlet pipe.

The main body 100 has three tanks while having one main body 100 corresponding to the water treatment environment, but by sharing a wall, it is possible to reduce the manufacturing cost and increase the efficiency of the installation area. There is an advantage that can be installed on the main body 100 without.

As illustrated in FIG. 12, a plurality of circulating walls 220 corresponding to an internal structure inside the main body 100 are spaced apart by a predetermined distance between the linear panels and have a connection passage 201 arranged in an arc shape. This exists.

Each of the circulating walls 220 has a plurality of drift walls 222 and 223 arranged in a zigzag shape in a direction perpendicular to the tangential direction of the arc between the mutually opposing walls, moreover than the structure described with reference to FIG. There is an advantage that can increase the contact efficiency (CT value) between water and disinfectant.

The main body 100 as shown in FIGS. 13 and 14 has a storage space divided into two by a straight partition wall 224 laid using a straight panel, or the cross partition walls 226 and 227. It has four separate reservoir spaces, inside of which there are partition walls 224, 226, 227 and ditch walls 225, 228 bonded to the bottom plate and the top support structure. In this case, the rectilinear wall is formed by forming a plurality of linear panels of the partition walls 224, 226, and 227 in the thickness direction.

The installation direction of the flow walls 225 and 228 is a direction corresponding to the direction perpendicular to the direction of the imaginary extension line connecting the inlet pipe and the outlet pipe, so that the water and the disinfectant may be mixed smoothly.

As described above, the basin using the storage tank according to the present invention can adjust the water balance of the water stored in the plurality of the main body is installed evenly by the water balance tube and its opening and closing valves, it is possible to efficiently adjust the drainage of the basin There is an advantage.

In addition, the drainage using the storage tank according to the present invention is made of any one of at least one of a variety of multi-partition wall, ditch wall, rectifying wall, partition, inner wall, partition wall, circulating wall, guide wall, small tank wall installed in the main body. The internal structure can provide the internal structure corresponding to the desired water treatment type in the water supply and sewage establishment, and provides structural rigidity corresponding to various internal structures compared to the existing multiple bulkhead water tank, and is improved as a large water tank product. It has the advantage of providing performance.

In addition, the drainage using the storage tank according to the present invention is installed in at least six ventilation facilities having a filtering network as a ventilator type to efficiently discharge the discharge gas or polluted gas by disinfectant chemicals such as chlorine gas, etc. There are advantages to it.

In addition, the drainage using the storage tank according to the present invention has the advantage of easy gas discharge and rainwater drainage by the top plate having a conical radial arrangement.

In addition, the drainage using the storage tank according to the present invention by forming a variety of inner structure and outer wall by laminating and welding the straight, arc-shaped panel, it is possible to efficiently perform the construction of drainage basin having a diameter of several tens of meters or more, There is an advantage in that the arrangement and arrangement of the various internal structures are easy.

1 is an exploded perspective view illustrating a cylindrical storage tank having multiple partition walls according to the prior art;

Figure 2 is a perspective view of a state in which any one of the top plate is separated to explain the configuration of the drainage having a wall structure according to an embodiment of the present invention.

3A to 3C are perspective views and cross-sectional views for explaining a first modification of the panel for assembling basin,

4A to 4C are perspective views and cross-sectional views for illustrating a second modified example of the panel for assembling waste paper;

5 is a cross-sectional view for explaining a third modification of the drainage assembly panel;

6a and 6b is a perspective view of a straight panel and an arc panel of the drainage assembly panel,

6C to 6E are cross-sectional views illustrating cross-sectional shape modifications of the panels illustrated in FIGS. 6A and 6C;

6F and 6H are plan views illustrating planar shape modifications of the panels shown in FIGS. 6A and 6C;

7 and 8 are a plan view for explaining the configuration of the cylindrical ditch wall of the drainage shown in FIG.

9 is a plan view for explaining the configuration of the rectifying wall of the waste basin shown in FIG.

10 to 14 are plan views illustrating modifications of the drainage basin shown in FIG. 2.

<Description of the symbols for the main parts of the drawings>

100, 101: main body 102: water balance tube

103: management box 104: on-off valve

105: internal structure 106: outer wall

107: bridge connecting passage 108: external ladder

109: top plate 110: ventilation

111: exterior material 114: bottom plate

Claims (7)

delete delete delete delete delete delete The upper plate 109 on the upper end of the outer wall 106, the bottom plate 114 is bonded to the lower end of the outer wall 106 to hold the fluid, but the plurality of divided by stacking the panels in multiple stages With space, At least one main body (100, 101) in which an inner structure (105) corresponding to the partition wall is bonded to surfaces of the upper plate (109), the outer wall body (106) and the bottom plate (114); A water balance tube 102 connected to the outer wall of the main bodies 100 and 101 so as to supply water from the main bodies 100 and 101 to each other; Leg-shaped connecting passages 107 which are joined at both ends to the upper plate 109; An outer ladder 108 coupled to a central portion of the bridged passageway 107, In the reservoir using a storage tank for adjusting the water balance between the main body (100, 101) by the opening and closing valve 104 coupled to the water balance tube (102), Outside of the outer wall body 106 is provided with a curved panel (corrugated sheet) shaped exterior member 111 that is fixed by a quenching and predetermined fixing means and a sealing material such as silicon, and an upper end of the exterior member 111 and A drainage reservoir using a storage tank, characterized in that the bottom is closed so as to be wrapped by the band closing portion (112, 113).