KR100871723B1 - A water resorvoir lying - Google Patents

Abstract

A lying-type water reservoir structure is provided, which enables hygienic and semi-permanent use without welding process. A lying-type water reservoir structure comprises: a strip(110) which spirally winds in parallel with the ground; a cylindrical body(100) which is formed in the surface in contact with the strip and consists of a collapsible portion(120); a tension type side plate(200) which is formed to seal both sides of the cylindrical body tightly and gives a tensile force in the diameter direction of both sides of the cylindrical body; and a manhole communicating with the inside of the cylindrical body.

Description

Leaky water structure {A WATER RESORVOIR LYING}

1 is a perspective view showing an example of a conventional cylindrical reservoir structure,

2 is a perspective view showing a basic example of the present invention,

3 is a perspective view showing a case of installing the present invention on the ground as an embodiment of the present invention,

Figure 4 is a side cross-sectional view showing the present invention shown in Figure 2,

5 is a side cross-sectional view showing a case of embedding the present invention in the ground as another embodiment of the present invention,

Figure 6 is a side cross-sectional view showing another embodiment of the present invention,

Fig. 7 is a side sectional view showing a fold as one configuration of the present invention.

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

100: cylindrical portion 120: multiple folded portion

200: tension side plate 300: support clip

400 manhole 500 check table

600: level control sensor

The present invention relates to a leaky water storage structure, and in detail, in the cylindrical water storage structure used for the use of a drainage basin, agglomeration basin, liver abnormality, water purification plant, etc., the cylindrical water storage structure can be installed in a direction parallel to the ground. As the height is lowered, it is easy to clean and repair, and it is easy to install in the ground, and by installing the cylindrical water storage structure in the shape of a cylinder, the load resistance of the cylindrical part is reinforced through the folding part and the support clip, so that deformation by additional load is performed. It relates to a water storage structure that can be prevented.

Generally, the water storage structure used as the fluid storage means should be able to secure structural stiffness under extreme external loads such as snow, rain, earthquake, etc. to keep the fluid clean and safe. In addition to storing fluids so that their chemical properties do not change, they should be as stable and economical as possible, employing materials and structures that are most economical for industrial use.

In the case of a cylindrical water storage structure in general, in order to store fluid inside, a cylindrical portion (side body) is formed on the outer side of the bottom plate in a hollow shape, and the upper portion of the cylindrical portion is covered with a top plate, that is, a cylindrical water storage structure It consists of a shape upright.

As an example, Utility Model Registration No. 294335, filed by the present applicant, shows a case in which a side surface of a cylindrical reservoir structure is formed by stacking and assemble a unit constituting a release flange up and down as shown in FIG. 1. In this case, the cylindrical reservoir structure is formed in an upright shape, and in this case, the height of the reservoir structure is high, so it is difficult to install in the ground, and the cleaning and maintenance are not easy due to the high height. In addition, when installed on the ground because it can not be installed in the ground, there is a hassle to install a thermal insulation material to prevent the stored water inside the reservoir structure is cooled to the temperature drop.

Therefore, when the cylindrical water storage structure is formed in a cylindrical shape in a direction parallel to the ground, that is, its height is lowered, and thus, the cleaning and repair is easy and the installation is easy in the ground. There will be no.

However, when the cylindrical reservoir structure as shown in FIG. 1 is in a leaky shape, deformation is likely to occur when an additional load occurs in the cylindrical portion between the flange and the flange. There is a problem that deformation is likely to occur.

 The present invention has been made in order to solve the above problems, but the cylindrical reservoir structure is configured in a leaked shape, but due to this shape can be reinforced with the load capacity for deformation in case additional load occurs in the cylindrical portion and both sides. It is an object to provide a leaky cylindrical reservoir structure.

In order to achieve the above object, the present invention is composed of a strip wound in a spiral in a direction parallel to the ground, and a folded portion formed on the surface in contact with the strip and the side of each of the adjacent strips are bent to each other and folded in a plurality of layers Cylindrical part; And a tension type side plate configured to seal both sides of the cylindrical portion and formed by giving a tensile force in the radial direction of both sides of the cylindrical portion.

The folding part is formed integrally with the fastening ring surrounding the folding part and the fastening ring, and a plurality of support clips formed as one side of the folding part and a supporting member in contact with the strips are fastened to catch the folding of the folding part and add an additional load. This action allows the fold to maintain an angle with the strip.

In addition, the tension side plate is fastened in a state in which a tensile force is applied from one side by a reinforcing ring attached to both sides of the cylindrical portion and a fastener for fastening the reinforcement ring and the tension side plate when fastening on both sides of the cylindrical portion.

The reinforcing ring is a ring-shaped band that can be inserted to surround the outer peripheral surface of the both sides of the cylindrical portion, a flange that is bent integrally in the band to have a predetermined width and is fastened to the tension-type side plate by the fastening means; A pedestal which is integrally formed at the portion where the flange is in contact with the ground may be further configured.

The tension side plate may further include a channel having a space formed therein, an auxiliary tension side plate to which a tension force is applied to the channel, and a reinforcement filled between the tension side plate and the auxiliary tension side plate. have.

The channel has a ring-shaped support, a flange integrally bent at both ends of the support, each having a predetermined width, and a flange fastened to the tension side plate and the auxiliary tension side plate by fasteners, and the flange contacting the ground. It may be composed of a pedestal formed integrally.

In addition, the present invention is easy to be buried underground because the height can be configured to be low, so when the underground is buried in the upper portion of the cylindrical portion is formed in the manhole communicating with the inside of the cylindrical portion is moved from the ground to the inside of the structure It may be configured to facilitate.

On the other hand, when the present invention is configured on the ground, a manhole communicating with the inside of the cylindrical part may be configured on the side of the cylindrical part, and thus sagging and the like, which are likely to occur when the manhole is installed in the cylindrical part, may be prevented.

In addition, when the manhole is configured on the side of the cylindrical portion, the lower portion of the manhole may be configured to allow the worker to move freely inside the structure by forming a check table that crosses the cylindrical portion.

In addition, when the manhole is configured on the side of the cylindrical part, the water level sensor is configured at the lower part of the inspection stand so that the operator can move inside the structure by adjusting the water level to the lower part of the manhole and the inspection stand during maintenance and inspection. have.

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

Figure 2 is a perspective view showing a basic example of the present invention, Figure 3 is a perspective view showing the case of installing the present invention on the ground as an example of the present invention, Figure 4 is a side showing the present invention shown in Figure 2 5 is a side cross-sectional view showing a case of embedding the present invention in the ground as another embodiment of the present invention, Figure 6 is a side cross-sectional view showing another embodiment of the present invention, Figure 7 is one of the present invention Fig. 8A and Fig. 8B are exploded perspective views and side cross-sectional views showing the case where a flow barrier wall is formed in the cylindrical portion of the present invention.

The present invention is a structure in which the cylindrical water storage structure is installed in the ground or underground as a leaky shape, and due to such a shape, by folding a portion in which the strip is wound in a spiral shape in order to prevent a drop in load capacity such as the buckling of the cylindrical water storage structure. The load-bearing structure is reinforced by the folding part, that is, the folded part, and the present invention includes a cylindrical cylindrical part 100 and a tension side plate 200 for sealing both sides of the open side of the cylindrical part 100.

First, as shown in FIG. 2, the cylindrical part 100 constitutes a foldable part 120 by no welding, and a plurality of foldable parts 120 are arranged on the outer circumference thereof to form a spiral in a direction parallel to the ground. do. In more detail, the cylindrical portion 100 is composed of a strip 110 lining in a cylindrical shape, and as shown in FIG. 7, multiple bending at the side ends of the strips 110a and 110b, which are in contact with each other, to be folded into a plurality of layers. The folding unit 120 is configured to be attached by non-welding between the strips 110a and 110b. By the configuration of the folded portion 120, the cylindrical portion 100 is reinforced to prevent deformation such as deflection in the center direction and is formed by the shape of the upper surface of the cylindrical portion 100, that is, precipitation, tongue, etc. The stack may be prevented from adding an additional load to the cylindrical portion (100).

The folded portion 120 prevents the folded portion 120 from being bent and contacted with the strip 110 by an additional load such as sealing, firm folding, and load generation due to contact with the ground, that is, the folded portion 120 is prevented from being folded. An example is illustrated in FIG. 7 to prevent the fold 120 from losing its ability to reinforce strength due to being in contact with the strip 110.

Referring to FIG. 7, the folded portion 120 is folded and stacked by folding and folding a plurality of side ends of the strips 110a and 110b lining the strip 110 into a cylindrical shape by a lip system and folding them into a plurality of layers. The sealing material 111 is further placed in between to be configured to perform watertightness more effectively.

The folded portion 120 corresponds to a non-welding coupling portion, and is continuously formed along the spiral direction where the strip 110a and the strip 110b meet. Since the folded portion 120 is formed continuously in the helical direction, strength reinforcement is enabled in the entire cylindrical portion 100.

The sealing material 111 preferably has a portion 112 that protrudes slightly from the junction of the first bent portion of the strip 110a and the strip 110b. The sealing material 111 is not particularly limited as long as it is a resin type capable of watertightening, but is preferably any one or more selected from watertight silicones, epoxy resins, and teflon resins in a gel state.

Since the folded part 120 is located outside the cylindrical part 100 and is likely to be exposed to an additional load, the folding part 120 may be released by an externally applied force. In order to prevent this, a plurality of support clips 300 having fastening rings 310 surrounding both sides of the folding part 120 may be configured. In addition, the folded part 120 is formed integrally with the fastening ring 310 to prevent the folding part 120 from being bent or bent by an additional load to be in contact with the strip 110. 100) the support clip 300 may be configured to be further configured to contact the outside, that is, the strip 110 at the same time. By the support 320 of the support clip 300, the folding portion 120 and the strip 110 that is connected to it can be maintained at a certain angle so that the strength reinforcement function of the folding portion 120 can be maintained will be. This will be described with reference to FIG. 7 when the support 120 of the support clip 300 is stripped to maintain such an angle when the folding portion 120 is configured to have a shape inclined at a predetermined angle to the strip 110a connected thereto. Consists of the shape of the lower light reciprocation to correspond to the angle of the 110 and the folded portion 120 is placed in the shape inserted into the strip (110a) and the folded portion 120 and folded by fastening by the fastening ring 310 It is to be able to prevent the portion 120 is bent by the additional load.

The strip 110 may be any one of stainless steel, a combination of stainless steel and steel, and a waterproof coating on the inner surface of the steel, depending on economical efficiency. In the case where stainless and steel are combined, the bonding ratio is not usually limited, and the inside of the cylindrical portion may be made of stainless steel. In addition, when the waterproofing agent is coated on the inner surface of the steel, the waterproofing agent is not particularly limited and may be generally used as a waterproofing agent for watertightness.

One or more transmissive parts 130 formed of a transparent material to transmit light may be formed on the upper surface of the cylindrical part 100. For example, as illustrated in FIGS. 2 and 3, a transparent material is formed on the upper surface of the cylindrical part 100. One or more transmissive parts 130 may be formed of a material such as tempered glass or acrylic plate. Even though the light is transmitted into the water tank through the configuration of the transmitting part 130 and the manhole 400b is formed on the side surface, the light is transmitted through the water tank to facilitate inspection and repair.

The tension side plate 200 is a configuration for sealing both sides of the opening of the cylindrical portion 100 in the present invention proposes a configuration formed by giving a tensile force in the radial direction of the cylindrical portion (100) side. Referring to the tension side plate 200 in more detail as shown in Figure 2 to secure the cylindrical portion 100 and the tension side plate 200 by fastening while being fixed from one side of both sides of the cylindrical portion (100). It can be configured in various ways, but as an example of the tension side plate 200 is a 'b' shaped reinforcing ring as shown in Figure 2 and 6 in the state that the tension is applied taut in its radial direction ( 210 can be coupled through the fastener 250, and when configuring the channel 220 as shown in Figure 6 'b' shaped reinforcement ring 210 and 'c' shaped channel (220) It can be coupled through the fastener 250 in a compressed state between. Naturally, the fastener 250 may be configured in various ways such as rivets and bolts as a known technique. In the case of the tension type side plate 200, the thin panel is stretched to be pulled tightly in a radial direction by a predetermined tensioner to seal both sides of the cylindrical portion in a state having a predetermined size of tension, even though the thickness of the panel is thin. It will be able to withstand the deformations that may be caused by the structure, the weight of the stored water and the additional load.

The reinforcing ring 210 is fixed to the outer circumferential surface of both sides of the cylindrical portion 100 by welding or the like. The reinforcing ring 350 is a ring shape that can be inserted to surround the outer peripheral surfaces of both sides of the cylindrical portion 100, the band 211 having the same diameter as the cylindrical portion 100 and the upper end of the band 211 A flange 212 that is bent in a centrifugal opposite direction and expanded to have a predetermined width, wherein the flange 212 is regularly arranged and formed along a circumferential direction with a plurality of fastening holes (not shown). It is desirable to have. In particular, as shown in FIG. 3, the flange 212 is integrally formed with a portion 214 in contact with the ground as part of the flange 212 so that the cylindrical portion 100 can be stably placed on the ground. Can be configured. In this case, the thickness of the pedestal 214 may be larger than the thickness of the flange 212 so that the cylindrical portion 100 may be firmly supported on the ground.

In addition, a dual structure may be adopted to further reinforce the strength of the tension side plate 200. In this case, as shown in FIG. 6, the channel 220 and the auxiliary tension side plate 230 and the reinforcement 240 are shown. By further configuring the tension can be further reinforced the strength of the side plate 200.

The channel 220 is configured in the same shape as the cylindrical portion 100, but also in the case of the channel 220 is formed in a cylindrical shape and the cross-section is composed of '' 'space portion at the side of the tension side plate 200 It is configured to be formed in this space is filled with a reinforcing material 240 for strength reinforcement and insulation of the tension-type side plate 200.

The channel 220 has a ring-shaped support portion 221 and the support portion 221 is integrally bent to have a predetermined width, the tension side plate 200 and the auxiliary tension side plate to be described below Each flange 222 is in close contact with the edge of the 230, it is preferable that the flange 222 through the plurality of fastening holes corresponding to the fastening holes of the reinforcing ring 210, respectively. In particular, as shown in FIG. 6, the pedestal 224 is integrally formed at a portion of the flange 222 that is in contact with the ground, so that the cylindrical portion 100 may be stably placed on the ground. . In this case, the thickness of the pedestal 224 is configured to be larger than the thickness of the flange 222 it will be reasonable to configure so that the cylindrical portion 100 can be firmly supported on the ground.

The reinforcing member 240 may be made of concrete to reinforce strength, and may be reinforced with heat retention and strength by urethane as a lighter material. The channel 220 may be configured in one piece, but in the case of being formed in a large size, the channel 220 may be configured as a unit.

On one side of the channel 220, as shown in Figure 6 is further provided with a secondary tension type side plate 230 is formed by giving a tensile force in the radial direction, in the case of configuring the auxiliary tension type side plate 230 It is configured to attach by means of fastener 250 to 220. In this case, as an example of configuring the reinforcing material 240, the tension side plate 200 and the auxiliary tension side plate 230 in the 'b' shaped reinforcement ring 210 and 'c' shaped channel in FIG. After fastening through the 220, after forming the injection hole 225 in the upper portion of the support 221 of the channel 220 and foamed urethane to fill the space between the tension side plates (200, 230) It suggests a structure for blocking the injection hole (225).

Meanwhile, in the present invention, as shown in FIG. 3, the manhole 400b may be configured in the tension side plate 200. The manhole 400b is formed on the tension side plate 200 and the auxiliary tension side plate 230 when the side surface of the cylindrical part 100, that is, the tension side plate 200 or the dual structure. Since the manhole is formed on the upper portion of the cylindrical portion 100 by the configuration of 400b, it is possible to prevent the load capacity of the cylindrical portion 200 from being lowered and to have an easier advantage in checking the water tank. In addition, in the present invention is connected to the manhole (400b) is formed one or more inspection table 500 across the cylindrical portion 100. With the configuration of the inspection table 500, the user has a wide moving copper wire inside the structure It is formed to facilitate the cleaning and inspection. In addition, since the side of the cylindrical portion 100, that is, the tension side plate 200 is supported by the configuration of the check table 500, buckling that may occur in the tension side plate 200 by the load may be prevented. The check table 500 may be configured in a ladder shape as shown in Figure 2 but may be configured in a flat plate shape for strength reinforcement.

In addition, the water level detection sensor 600 is provided at the lower portion of the inspection table 500 to facilitate inspection and cleaning, and the manager lowers the water level to the lower portion of the inspection table 500 when inspecting and cleaning the water tank. It would be desirable to be configured to move through the check table (500).

In addition, the present invention has the advantage of lowering the height of the storage structure because the horizontally-seated storage structure, that is, the cylindrical portion 100 is placed in parallel with the ground and the both sides are sealed by the tension side plate 200. Bar, this configuration has the advantage that the present invention can be installed in the ground (1). 5 shows an embodiment in which the present invention is installed in the ground. In this case, it is preferable to configure the manhole 400a on the upper portion of the cylindrical portion 100. The manhole 400a is exposed on the ground to facilitate the management. It would be desirable to configure such that it can be moved from the ground to the inside of the structure. Thus, by installing the present invention in the ground, the thermal insulation effect can be generated by being buried in the ground without any configuration for thermal insulation.

Hereinafter, the coupling relationship and operation of the cylindrical portion 100, the tension side plate 200, the manhole 400, and the check table 500, which are the components described above, will be described in detail.

First, while folding the strip 110 in a spiral direction parallel to the ground, the side end portions in contact with the strip 110 are folded to form the folded portion 120 in a spiral direction. The folding part 120 has a folding portion of the support clip 300 so that the strip 110 and the folding part 120 maintain a constant angle in order to prevent the folding from being released and to prevent the strength of the cylindrical part 100 from being lowered. A plurality of fastening along the 120.

Reinforcing rings 210 are fixed to the outer circumferential surfaces of both sides of the cylindrical portion 100 by welding or the like, respectively.

Then, the tension side plate 200 is installed on both sides of the cylindrical portion 100, and the thin panel is unfolded and pulled tightly in the radial direction by a predetermined tensioner to have a reinforcement ring having a predetermined size of tension ( It is placed between 210 and the channel 220 and fastened by the fastener 250.

When the tension side plate 200 is applied as described above, even if the thickness of the panel is thin, it is able to withstand its own weight and external load.

 In addition, the channel 220 is fastened to the auxiliary tension side plate 230 in the same way as the tension side plate 200.

After such fastening, the reinforcing member 240 made of concrete, urethane, etc. is filled through the injection hole 225 formed in the channel 220.

Since the cylindrical portion 100 is configured as a curved surface, the cylindrical portion 100 can be flowed downward without being stacked with rain, snow, etc., and the folded portion 120 is the cylindrical portion 100 in the strength reduction portion according to the curved surface. As the support clip 300 is fastened so as to be configured in a helical direction on the outer circumferential surface of the shell) and the clamping force of the support clip 300 is fastened, the load capacity for deformation due to external load is enhanced, and in the case of the side of the cylindrical portion 100, The resistance to the load of the water stored therein can be reinforced by configuring the cylindrical portion 100 side in the state in which the tensile force is applied in advance by the tension-type side plate 200.

In addition, in the present invention, the manhole 400b is configured to allow entry and exit into the structure on the side surface of the cylindrical portion 100, that is, the tensioned side plate 200. The manhole 400b may be configured in plural according to the selection, and the formation position of the manhole 400b may be configured on the tension side plate 200. As such, the manhole 400b is configured on the side to prevent the drop of the load-bearing force by forming the manhole on the upper portion of the cylindrical portion 100. In addition, the tension side plate 200 to be connected to the manhole 400b is configured with one or more checks 500 to cross the interior of the structure. The movement for cleaning is free, and the manhole is formed in the upper part as in the prior art, thereby preventing the structural deformation that may occur as the manager steps on the upper part for maintenance and cleaning.

In addition, by mounting the water level sensor 600 in the lower part of the check table 500, even if the water is used to store the height of the manhole (400b) in normal use, the position of the water level sensor 600 during inspection and cleaning By lowering the water level stored in the lower portion of the table 500, the manager is configured to be movable through the check table 500.

On the other hand, the present invention may be configured to extend the residence time of the stored fluid by forming one or more flow walls in the cylindrical portion 100 to extend the drug dilution time such as chlorine when used as a water source. Here, although the conductive wall may be configured in various forms, as shown in FIGS. 8A and 8B, a plurality of plate-shaped conductive walls are attached to the same as the inner diameter of the cylindrical portion 100. When alternately attaching to the upper and lower sides of the 100 and attaching the conductive wall 700 to the lower portion of the cylindrical portion 100, the conductive wall 700 so that fluid flows to the upper end of the conductive wall 700. A space is formed between the cylindrical portion 100 and the conductive wall 700 when the conductive wall 700 is attached to the upper portion of the cylindrical portion 100 so that fluid flows to the lower end of the conductive wall 700. A space is formed between 700 and the cylindrical portion 100. By constructing the conductive wall 700 as described above, the fluid W flowing into the inflow pipe i flows upward and downward by the flow wall 700 attached up and down inside the cylindrical part 100. By o) the fluid is discharged through it can increase the residence time of the fluid in the cylindrical portion (100).

Horizontal leak type storage structure according to the present invention has the advantage that it is possible to maintain the watertightness, the cylindrical portion strength by fixing the folded portion through the support clip, the installation is quick, hygienic and semi-permanent because there is no welding process.

In addition, the present invention has the advantage that the height of the structure can be lowered by installing the cylindrical portion in parallel with the ground is easy to bury in the ground, easy to clean and repair.

In addition, by constructing the manhole on the side to strengthen the load capacity for the load acting on the structure and can be freely moved inside the structure by the configuration of the check table has the advantage of easy cleaning and maintenance.

In addition, there is an advantage that the residence time of the fluid can be lengthened by forming a plurality of conductive walls in the cylindrical portion.

In the detailed description of the present invention described above with reference to the preferred embodiment of the present invention, those skilled in the art or those skilled in the art having ordinary knowledge of the present invention described in the claims to be described later It will be understood that various modifications and changes can be made in the present invention without departing from the spirit and scope of the invention.

Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification but should be defined by the claims.

Claims (12)

A cylindrical portion formed of a strip wound spirally in a direction parallel to the ground, and a folding portion formed on a surface in contact with the strips, the side portions of the strips being in contact with each other and being folded in a plurality of layers; And It is configured to seal both sides of the cylindrical portion and the tension side plate formed by giving a tensile force in the radial direction of both sides of the cylindrical portion; A leaking reservoir structure, characterized in that the upper portion of the cylindrical portion is formed in the manhole communicating with the inside of the cylindrical portion. The method of claim 1, The folding part is a leaking water storage structure characterized in that the coupling ring surrounding the folding portion and the coupling ring is formed integrally with a plurality of support clips consisting of one side of the folding portion and a support contacting the strip that is connected to the folding portion. The method of claim 1, The tension type side plate is a leak-tight water storage structure, characterized in that the fastening force is applied from one side by a reinforcing ring and fasteners attached to both sides of the cylindrical portion. The method of claim 3, wherein The reinforcing ring is a ring-shaped band that can be inserted to surround the outer peripheral surface of the both sides of the cylindrical portion, a flange that is bent integrally in the band to have a predetermined width and is fastened to the tension-type side plate by the fastening means; A leak-tight water structure, characterized in that the pedestal is further formed integrally with the flange portion in contact with the ground. The method of claim 1, The tension side plate further comprises a channel having a space formed therein, an auxiliary tension side plate to which the tension is applied and fastened to the channel, and a reinforcement filled between the tension side plate and the auxiliary tension side plate. Leaky water structure. The method of claim 5, The channel has a ring-shaped support, a flange integrally bent at both ends of the support, each having a predetermined width, and a flange fastened to the tension side plate and the auxiliary tension side plate by fastening means, and a portion of the flange contacting the ground. Leaky water storage structure, characterized in that consisting of a pedestal formed integrally. delete The method of claim 1, The tension-type side plate is a leak-tight water storage structure, characterized in that the manhole is configured to communicate with the inside of the cylindrical portion. The method of claim 8, The cylindrical reservoir structure, characterized in that at least one transmission portion made of a transparent material so as to transmit light. The method of claim 8, The lower part of the manhole is a leak-tight storage structure, characterized in that the check for crossing the cylindrical portion is configured. The method of claim 10, A leaky water storage structure, characterized in that the water level detection sensor is further configured in the lower portion of the check. The method of claim 1, The cylindrical portion is a leak-tight structure, characterized in that at least one ditch wall is configured.

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