KR101362746B1 - Cylindrical storage tank - Google Patents

Abstract

The present invention relates to a structure reinforcing cylindrical storage tank having inner and outer reinforcement and a double floor and particularly, to a structure reinforcing cylindrical storage tank having inner and outer reinforcement and a double floor to reinforce the inside of a cylindrical storage tank in vertical and horizontal manners and the outside of the cylindrical storage tank in a curved manner; and to have a double floor.

Description

Cylindrical storage tank for structural reinforcement constructed of internal, external reinforcement and double bottom

The present invention relates to a cylindrical storage tank for structural reinforcement, which is constructed with internal and external reinforcement and a double bottom. In particular, the inside of the cylindrical storage tank is vertically and horizontally reinforcement as well as to reinforce the exterior, and the bottom of the cylindrical storage tank is It relates to a cylindrical storage tank for structural reinforcement that is installed in a double, internal, external reinforcement and double bottom.

In general, a storage tank is used as a large water tank in a water purification plant, a drainage basin, a sedimentation basin, a filter paper, and a water supply facility. In the storage tank as described above, when the water pressure of the water stored inside is applied to the side wall, the water pressure is concentrated at the corners. It is mainly composed of a cylindrical body so that water flows smoothly in a circular shape when the water is discharged. The upper part of the body has a conical shape with a vertex upward, and the material is usually made of stainless steel.

This structure mainly consists of a cylindrical body and a conical roof body, and the circular water tank body is structurally stable as its prototype itself. However, the above-mentioned conventional water tank does not reinforce inside and outside, and is supplied inside. It is installed to install only drain pipe. Accordingly, when a shock is applied from the outside and the part is crushed or the corrosion progresses, there is a problem that suddenly explosive rupture and damage occurs due to concentration of water swelling (stress) in the part, causing a great casualty and property damage. In particular, breakage of welds occurs frequently, but structural reinforcement construction considering safety is the reality.

Also, since the water tank bottom is not fixed to the concrete foundation pad, the water tank falls and rolls over due to shaking, and the bottom welding part is in direct contact with the concrete surface, not only heavy metal contamination but also corrosion of the welded parts due to fatigue accumulation. Occurrences and leaks are frequent. Due to this cause, the maintenance cost of the storage tank is excessively reduced and the economic effect is greatly deteriorated, causing the contents of the storage tank to be deteriorated, and the structural safety and durability at the same time are inferior to the users. There has been a drawback of not functioning properly.

Republic of Korea Patent No. 10-1267022 (2013. 05. 27)

The present invention has been invented to solve the problems of the prior art as described above, the inside of the cylindrical storage tank and the vertical and horizontal reinforcement to the outside to bend the outer periphery, the support member on the bottom of the cylindrical storage tank It is to provide a cylindrical storage tank for structural reinforcement to be installed in the internal, external reinforcement and double bottom to prevent or delay the shake or rupture and damage of the storage tank due to the double installation by using.

In order to achieve the above object, the present invention provides a tank body having a plurality of circular tubes fixed to each other and installed on a concrete floor, a roof body provided on an upper portion of the tank body, and closing the upper portion of the tank body, and the tank body. In the lower portion of the cylindrical storage tank includes a bottom body seated on the concrete floor to close the bottom of the tank body, the circular band body is in close contact with the circular circumference on the outer periphery of each of the plurality of circular pipes constituting the tank body; And a support that is tightly fixed around the outer periphery of the joint to surround the joints between the plurality of circular tubes, the heat insulating material having a height corresponding to the circular tubular body and seated on an upper portion of the support while surrounding the outside of the circular band body, and the heat insulating material. A plurality of protrusions are fixed close to the outside of the protruding in a vertical direction at intervals of the outer periphery The outer finish of the tank body is formed to reinforce the exterior of the tank body, and the tank body and the interior of the roof vertically at least one or more central pillars and peripheral auxiliary pillars extending in the vertical direction from the bottom body and fixed to the roof body It is configured to reinforcement, and is made by connecting the support rod radially fixed to the roof body and the bottom body on the upper and lower outer periphery of the central column and the peripheral auxiliary pillar to support the upper and lower portions of the central pillar and the peripheral auxiliary pillar, respectively, Both ends of the circular tube forming the tank body are formed inwardly bent inwardly bent inwardly to be in close contact with each other the inner surface of the inward bent portion of the circular tube facing each other by the inward bent portion of the circular tube is interconnected to form a tank body, Horizontal reinforcement connected and fixed to the inward bending formed on both ends of the circular tube It is configured to horizontally reinforce the inside of the tank body, the roof body is a plurality of roof plates having a fan-shaped radially fixed to form a conical shape, the roof fixing intermittently fixed around the plurality of roof plates in an annular shape , External finishing material is powder coating resin 70 ~ 80% by weight, terephthalic acid (ethylene glycol), isophthalic acid (isophthalic acid), trimethylolpropane polymer mixed, calcium carbonate 10 ~ 20 Powder coating is carried out using a powder coating mixed by weight, barium sulfate 1 to 10% by weight, triglycidyl isocyanurate 1 to 10% by weight, respectively, which is constructed with internal, external reinforcement and double bottom. Provide a cylindrical storage tank for structural reinforcement.

delete

The bottom body is arranged horizontally in accordance with the shape of the lower portion of the tank body to close the lower portion of the tank body and provided on the concrete floor spaced apart from the bottom, and the lower side between the side facing each other of the plurality of bottom plate material It is composed of a band shape in the space spaced from the floor, the lower portion is fixed to the concrete floor, the upper portion is made of a support member for fixing and fixing the concrete floor and the bottom plate member; The support member has a plurality of fastening holes are formed in the longitudinal direction of the belt shape, the anchor bolt is fastened to the fastening hole is configured to be coupled to the concrete floor, the support member on the upper surface on the basis of the plurality of anchor bolts fastened to the support member The bottom plate is characterized in that it is fixed in close contact with each other.

As described above, according to the present invention,

First, the circular band body, support, insulation, and external finish on the tank body protect the outer circumference of the circular tube forming the tank body, so that even if an external shock is applied, it can withstand the internal pressure on the part along with the buffering action. In addition to preventing the rupture or damage easily by lowering the effect of preventing the deterioration of the contents stored in the tank body and to protect the physical properties stably has the effect of improving the structural stability.

Second, the reinforcement in the vertical direction is improved due to the horizontal reinforcement, the central pillar and the peripheral auxiliary pillars, which form the supporting rods inside the tank body, and the roof body is provided with a separate roof fixing interbody for the load, thereby stressing the storage tank. The strength is maximized, and the durability and stability against corrosion, snow load, internal and external shocks, etc., are enhanced.

Third, the external finishing material is powder coating using powder coating to prevent the reflection of light and to block the ultraviolet rays, thereby maintaining the beautiful shape of the storage tank, while also suppressing the bacteria and at the same time protecting the external finishing material stably. .

Fourth, the outer periphery of the external finish material is given a plurality of protruding forces in the vertical direction at regular intervals to improve the tensile strength has the effect of minimizing damage and damage to the external finish material by dispersing or absorbing the impact applied to the external finish material.

Fifth, the tank bottom is installed in a double structure of the bottom plate and the support member, and at the same time, due to the construction of the combined fixed structure using anchor bolts on the foundation pad, the storage tank falls down even when the concrete floor is damaged or cracked due to external impact or shaking. There is no fear of overturning, and the bottom body is not dismantled or dislodged, while delaying or preventing corrosion of the bottom welding part, thereby improving durability and securing structural stability of the tank.

1 is an exemplary view showing a preferred embodiment of the present invention,
Figure 2 is an exemplary view showing the appearance of the external finish material of the present invention,
Figure 3 is a side cross-sectional view showing an internal vertical reinforcement structure of the present invention,
Figure 4 is a bottom view showing a fixed state of the roof body according to the present invention,
Figure 5 is a bottom view showing a fixed state of the central pillar and the peripheral auxiliary pillar and the roof body according to the present invention,
6 is an exemplary view showing an internal horizontal reinforcement structure of the present invention;
7 is a plan sectional view showing a fixed state of the central pillar and the peripheral auxiliary pillar and the horizontal reinforcement structure according to the present invention;
8 is a perspective view showing a preferred embodiment of a floor according to the present invention;
Fig. 9 is a partially exploded perspective view of Fig. 8,
10 is a sectional view of an essential part of the present invention;
11 and 12 is a view showing the form of the stress generated in the cylindrical storage tank and the general cylindrical storage tank of Example 1,
13 is a test analysis report regarding the analysis results of FIGS. 11 and 12;
14 is a stress distribution diagram of the roof fixing body installed in the roof body by the water pressure of Example 2,
15 is a stress distribution diagram of the central column and the peripheral auxiliary column by the hydraulic pressure of Example 2,
16 is a stress distribution diagram of the tank body by the water pressure of Example 2,
17 is a stress distribution diagram of a roof fixed interbody installed in a roof body by water pressure and earth pressure and groundwater pressure by the stored water of Example 2,
18 is a stress distribution diagram of the central column and the peripheral auxiliary column by the water pressure and earth pressure and groundwater pressure by the stored water of Example 2;
19 is a stress distribution diagram of the tank body 10 by the water pressure and earth pressure and groundwater pressure by the stored water of Example 2,
20 shows input earthquake data of the second embodiment;
21 is a load and boundary conditions of Example 2,
22 is a stress distribution diagram of the roof fixing body by the earthquake load of Example 2,
23 is a stress distribution diagram of the tank body by the earthquake load of Example 2;

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

1 is an exemplary view showing a preferred form of the present invention, when referring to Figure 1 is a cylindrical storage tank for structural reinforcement constructed by the inner, outer reinforcement and double bottom according to the present invention a plurality of circular pipes 12 mutually The tank body 10 is fixed and installed on the concrete floor (5), the roof body 20 provided on the tank body 10 to close the upper portion of the tank body 10, and the tank body 10 In the lower portion of the cylindrical storage tank includes a bottom body seated on the concrete floor (5) to close the bottom of the tank body 10, the outer periphery of each of the plurality of circular tubular body (12) constituting the tank body (10) The support body 40 is fixed tightly around the outer periphery of the joint portion 15 so as to surround the circular band body 30 and the joint portion 15 between the plurality of circular tube body 12 is fixed in an annular shape And, while surrounding the outer side of the circular belt body 30 of the support 40 Insulating material 50 seated on the part and having a height corresponding to the circular tube body 12, and a plurality of protrusions projecting in the vertical direction at intervals with an outer circumference and fixed tightly while surrounding the outer side of the insulating material ( 61 is formed to reinforce the outside of the tank body 10 to the outer finish material 60 is formed.

The tank body 10 is manufactured in a cylindrical shape by mutually fixing the ends of the plurality of circular pipes 12 mainly made of stainless steel by interconnecting means such as fastening means or welding to the connected portion. 20 is configured such that a plurality of roof plates 21 having a fan shape are fixed radially to form a conical shape.

The circular strip 30 and the support 40 are configured to support the outer circumference of the circular tube 12 constituting the tank body 10, the circular strip 30 is a plurality of forming the tank body 10 The circular periphery of each of the circular tube body 12 of the annular shape in close contact with each other, the support body 40 is on the outer periphery of the joint portion 15 so as to surround the joint portion 15 between the plurality of circular tube body 12 The round belt body 30 and the support body 40 are fixed to each other so as to alleviate or absorb the shock applied to the tank body 10 by supporting the outer periphery of the round tube body 12, respectively.

The heat insulating material 50 has a height corresponding to the circular tube body 12, is configured to be seated on the upper portion of the support body 40 while wrapping the outer side of the circular belt body 30 to maintain the thermal insulation of the contents inside the tank body (10) It is configured to achieve the material may be composed of styropol excellent heat retention or synthetic resin sheet plate easily deformable.

In addition, the thermal insulation material 50 is configured to cover the outside of the circular strip body 30 as well as to insulate the contents of the tank body 10, while fixing the position of the circular strip body 30 and at the same time the circular strip body 30 In addition, the shock applied to the tank body 10 can be alleviated or absorbed.

The outer finish material 60 supports the inner expansion pressure generated in the tank body 10 together with the circular band 30, the support 40, and the heat insulating material 50 by being tightly fixed while wrapping the outside of the heat insulating material 50. It is configured to give, and is configured to support the position of the circular band body 30, the support 40, the thermal insulation material 50, which are each provided on the tank body 10 outside.

In addition, as shown in FIG. 2, the outer periphery of the outer finish material 60 is formed with a plurality of protruding forces 61 protruding in the vertical direction at intervals, so that the external shock applied to the outer finish material 60 is a plurality of protrusions. By being distributed and absorbed collectively in the force meat 61, the external impact to the surface of the external finish material 60 is minimized to prevent damage and breakage of the external finish material (60).

Therefore, the tank body 10 is provided with a circular band 30, the support 40, the insulating material 50, the outer finishing material 60, the cylindrical storage tank according to the present invention is a circular tube 12 forming the tank body (10) By supporting and protecting the outer periphery of), even if an external shock is applied, it can withstand the internal pressure on the part along with the buffering effect to prevent rupture or damage easily, as well as the contents of the contents stored inside the tank body 10. It prevents deterioration and reliably protects physical properties, thereby improving stability.

And, as shown in Figure 3 to at least one central column 70 and the peripheral auxiliary column 75 is fixed to the bottom body provided in the tank body 10 is fixed to the roof body 20 in the vertical direction The interior of the tank body 10 and the roof body 20 is configured to reinforce vertically.

The central column 70 may be installed at the center of the roof body 20 and may be installed near the center of the roof body 20 as shown in FIG. 9.

At this time, the upper side of the central column 70 and the peripheral auxiliary pillar 75 as shown in Figure 5 to be fixed to the roof body 20, in particular the peripheral auxiliary pillar 75 is a strong supportive roof fixed body 90 It is preferable to fix it.

In addition, as illustrated in FIG. 3, the upper and lower outer peripheries of the central pillar 70 and the peripheral auxiliary pillar 75 may respectively support the upper and lower portions of the at least one central pillar 70 and the peripheral auxiliary pillar 75. 20) and fix the supporting rods 72 and 76 radially to the floor. The configuration of the central pillar 70 and the peripheral auxiliary pillar 75 and the support rods 72 and 76 can be installed where necessary between the floor and the roof 20.

Therefore, the roof body 20 and the bottom body are connected and fixed to the central column and the peripheral auxiliary column in the vertical direction of the tank body 10 and are supported on the upper and lower outer periphery of the central column 70 and the peripheral auxiliary column 75. By forming (72, 76) to reinforce the interior of the tank body 10 vertically and at the same time to prevent the roof body 20 from being struck due to the work or snow load performed on the roof body 20. Will be.

Meanwhile, as shown in FIG. 6, both ends of the circular tube body 12 forming the tank body 10 are formed with an inwardly bent portion 13 that is vertically bent inward to form an inner bent portion of the circular tube body 12 facing each other. (13) Inwardly bending portions 13 formed in both ends of the circular tube body 12 by forming the tank body 10 is connected to each other by the inward bent portion 13 is fixed to the outer surface in close contact with each other. It is configured to horizontally reinforce the inside of the tank body 10 to the horizontal reinforcement 80 is fixed to the connection.

Due to the above configuration, it is possible to more firmly fix the circular tube 12, and in addition, by connecting and fixing the horizontal reinforcing bar 80 between the plurality of inwardly bent portions 13 formed in the circular tube 12. It has a structure capable of horizontally reinforcing the inside of the tank body (10).

In this case, by fixing the support bar 82 connected to the inward bent portion 13 of each circular tube 12 facing the upper and lower sides of the horizontal reinforcement 80 to increase the supporting force of the horizontal reinforcement 80 It becomes possible.

In addition, when the central column 70, the peripheral auxiliary column 75 and the horizontal reinforcing bar 80 is installed in the storage tank according to the present invention, a section in which the central column 70 and the horizontal reinforcing bar 80 may collide may occur. . In order to compensate for this problem, as illustrated in FIG. 7, the cross-sections of the horizontal reinforcing bars 80 may be fixed to the outer surface of the central column 70 by welding or the like.

Meanwhile, as shown in FIG. 4, the roof body 20 is configured such that a plurality of roof plates 21 having a fan shape are radially fixed to form a conical shape, and have an annular shape at an inner circumference between the plurality of roof plates 21. By fixing the roof fixing body 90 around it, the warpage of the roof body 20 is prevented.

At this time, the roof fixing body 90 is used, such as square pipe pillars or angles, it is preferable to bend the roof fixing body 90 to be annular.

That is, due to the above configuration, while the reinforcement is made in the horizontal and vertical directions of the tank body 10, the roof body 20 is provided with a separate roof fixing interceptor 90 to maximize the strength of the storage tank for durability and stability. This will have an enhanced effect.

On the other hand, the external finishing material 60 is terephthalic acid (terephthalic acid), ethylene glycol (ethylene glycol), isophthalic acid (isophthalic acid), trimethylolpropane polymer (trimethylolpropane polymer) mixed resin for powder coating 70% by weight, Powder coating is performed using a powder coating, in which 10 to 20% by weight of calcium carbonate, 1 to 10% by weight of barium sulfate, and 1 to 10% by weight of triglycidyl isocyanurate are mixed.

Looking at the composition of the powder coating is coated on the outer finish material 60, calcium carbonate is a colorless powder that is difficult to water, the birefringence is used to have a function of UV protection, especially the outer finish 60 is always exposed to the outdoors It prevents corrosion of the external finish material 60 by blocking the outside light and generates chemicals and moss by reacting the chemical composition of the powder coating resin with ultraviolet rays to prevent bacteria from growing inside the storage tank to contaminate the contents. do.

Barium sulfate is a colorless tetragonal crystal that is difficult to dissolve in water or diluted acid to prevent damage to the coated powder coating and corrosion and rust of the external finish (60).

Triglycidyl isocyanurate is a kind of hardener and is used to improve the efficiency of powder coating of the external finish 60.

Therefore, by using the powder coating according to the present invention will be able to maintain the beautiful form of the storage tank while blocking the ultraviolet rays to inhibit the bacteria and at the same time have the effect of stably protecting the external finish material (60).

Here, as shown in FIGS. 8 to 10, the bottom body is arranged horizontally to match the shape of the lower part of the tank body 10 to close the lower part of the tank body 10 and is provided with a plurality of spaced apart from the concrete floor 5. The bottom plate 100 is configured to be included.

In addition, the bottom body is made of a metal material such as stainless steel or ordinary steel material and is formed in a band shape in the spaced apart from the concrete floor 5 to the lower side between the side portions facing each other of the plurality of floor plates 100, The lower part is fixed to the concrete floor (5), the upper part is fixed to the bottom plate material 100 is configured to include a support member 110 for connecting and fixing the concrete floor (5) and the bottom plate material (10).

That is, the bottom body is configured to be fixed to the support member 110 on the concrete floor 5, a plurality of bottom plate material 100 is installed on the support member 110.

And the support member 110 is formed with a plurality of fastening holes 111 in the longitudinal direction of the belt shape, the anchor bolt 114 is fastened to the fastening hole 111 is configured to be coupled to the concrete floor (5).

At this time, the anchor bolt 114 is to be configured so that the top surface is lower than the top surface of the support member 110 so that the bottom plate 100 can be placed on the upper side of the anchor bolt 114.

In this state, the plurality of bottom plate materials 100 are positioned on the upper surface of the support member 110 based on the plurality of anchor bolts 114 fastened to the support member 110 so that both ends of the bottom plate material 100 closely adhere to each other. To fix it. At this time, each of the bottom plate material 100 is fixed to the support member 110 in a fixed manner such as welding, and also fixed between the bottom plate material 100 facing each other in a fixed manner such as welding.

Fixing between the bottom plate 100 is shown in the figure is fixed in the state that the bottom plate 100 abut each other, it is natural that the end of the bottom plate 100 can be fixed even in the overlapping state, which is the bottom plate It is made according to the thickness of the bottom plate material 100 is used to be fixed by dividing the (100) in the butt or overlapping state.

For example, when the thickness of the bottom plate 100 is less than 5mm, the end of the bottom plate 100 is fixed in an overlapping state, and when the thickness of the bottom plate 100 is 5 mm or more, the end of the bottom plate 100 The fixing is made to face each other.

Therefore, the bottom of the storage tank even when the concrete floor (5) is damaged or cracked due to the external impact or shaking due to the structure of the bottom installed in a double structure of the bottom plate 100 and the support member 110 as described above. There is an advantage that it is not dismantled or separated, and also by fixing the support member 110 to the concrete floor 5 using the anchor bolt 114 can not only firmly secure the structure of the floor but also the support member ( Due to the structure for welding and fixing the bottom plate material 100 on the 110, it is possible to easily manufacture the bottom body and have an effect of maximizing safety.

As described above, the present invention has been completed through numerous experiments. Hereinafter, the present invention will be described through preferred experiments on the present invention.

To surround the joint 15 between the plurality of circular tubular body 12 and the circular band body 30 is fixed in a ring-shaped close to the outer periphery of each of the circular tubular body 12 forming a tank body (10) The support 40 is fixed to the outer periphery of the joint portion 15, and is wrapped around the outer side of the circular belt body 30 is seated on the upper portion of the support 40 and the height corresponding to the circular tube body 12 Tank body having an outer finishing material (60) having a plurality of protruding forces (61) protruding in the vertical direction at intervals in the outer circumference and is tightly fixed while wrapping the outside of the insulating material (50) having a 10) Prepare a storage tank configured to reinforce the outside.

The tank body 10 and the interior of the roof body 20 by at least one central column 70 and the peripheral auxiliary column 75 extending in the vertical direction from the bottom of the storage tank and fixed to the roof body 20. Reinforce vertically.

And the support rod radially on the roof body 20 and the bottom body in the upper and lower outer periphery of the central column 70 and the peripheral auxiliary column 75 so as to support the upper and lower portions of the central pillar 70 and the peripheral auxiliary pillar 75, respectively. Secure the connection (72, 76).

In addition, both ends of the circular tube body 12 forming the tank body 10 are inwardly bent inwardly bent portion 13 is formed vertically inwardly in close contact with the outer surface of the inner side bent portion 13 of the circular tube body 12 The horizontal reinforcing bar is fixed by the inward bending portion 13 is connected to each other to form a tank body 10 is connected to the inward bending portion 13 formed on both ends of the circular tube 12, the horizontal reinforcement ( 80) was made to reinforce the inside of the tank body 10 horizontally to produce a cylindrical storage tank.

As a result of requesting the Daegu Machinery Parts Research Institute (12 Horim-dong, Dalseo-gu, Dalseo-gu, Daegu Metropolitan City) to investigate the structural analysis inside the storage tank by airing the cylindrical storage tank manufactured as described above and the cylindrical storage tank generally used. The evaluation results of the analysis results are shown in [Table 1] below, and the types of stresses generated in the cylindrical storage tanks and the general cylindrical storage tanks related to the analysis results supporting them are as shown in FIGS. 11 and 12. The test analysis report on the results is shown in FIG. 13.

division

Stress in Storage Tank
Cylindrical Storage Tank of Example 1

161 MPa
Common cylindrical storage tank

177 MPa

As described above, the cylindrical storage tank constituted by the present invention is less than 10% of the stress compared to the general cylindrical storage tank, the durability is improved, even if an external shock is applied, it can withstand the internal pressure on the part easily rupture or breakage The effect is prevented from being generated is to exhibit a significantly different quality compared to the conventional cylindrical storage tank.

And when the cylindrical storage tank manufactured according to Example 1 is installed, it is commissioned to Keimyung University Civil Engineering Research Center (1000-2 Sindang-dong, Dalseo-gu, Daegu) to measure the stability by giving each situation that may occur on the actual ground As a result, the structural analysis results are as follows.

(1) In case of acting only water pressure by stored water in cylindrical storage tank

14 is a stress distribution diagram of the roof fixing body 90 installed in the roof body 20 by hydraulic pressure, FIG. 15 is a stress distribution diagram of the central pillar 70 and the peripheral auxiliary pillar 75 by water pressure, and FIG. As the stress distribution diagram of the tank body 10 by hydraulic pressure, according to FIGS. 14 to 16, the stress distribution of the roof fixing body 90, the central column 70, the peripheral auxiliary column 75, and the tank body 10 by the hydraulic pressure is shown. Indicated.

Referring to the drawings, the maximum stress of the roof fixing body 90 is 0.353 MPa, the maximum stress of the frame within the storage tank by the central column 70 and the peripheral auxiliary column 75 is 0.670 MPa, the tank body 10 The stress of is calculated as 120.6 MPa, which is smaller than the maximum strength of each material (STS 420 MPa), and the entire cylindrical storage tank stays at 28% of the maximum strength against the water pressure, resulting in a stress reducing effect. Is showing.

(2) When the hydraulic pressure, earth pressure and groundwater pressure by the stored water in the cylindrical storage tank are applied

FIG. 17 is a stress distribution diagram of the roof fixing body 90 installed in the roof body 20 by water pressure and earth pressure and groundwater pressure by stored water, and FIG. 18 is a central column by water pressure, soil pressure, and groundwater pressure by stored water. FIG. 19 is a stress distribution diagram of the auxiliary auxiliary column 75 and FIG. 19 is a stress distribution diagram of the tank body 10 by water pressure and earth pressure and groundwater pressure by the stored water, according to FIGS. 17 to 19. The stress distribution of the roof fixed body (90), the central column (70), the peripheral auxiliary column (75), and the tank body (10) by the hydraulic pressure, the earth pressure, and the groundwater pressure.

Referring to the drawings, the maximum stress of the roof fixing body 90 is 45.2 MPa, the maximum stress of the frame inside the storage tank 128.1 MPa by the central pillar 70 and the peripheral auxiliary pillar 75, the tank body 10 The stress of is calculated as 121.3 MPa, which is less than the maximum strength of each material (STS 420 MPa), and 28 ~ 30 of the maximum strength against the water pressure, soil pressure and groundwater pressure of the entire cylindrical storage tank. It remains at the% level and shows a stress reduction effect, indicating that it is safe.

(3) In case of earthquake load on bottom of cylindrical storage tank

FIG. 20 is input seismic data, FIG. 21 is a load and boundary condition, FIG. 22 is a stress distribution diagram of the roof fixing body 90 due to an earthquake load, and FIG. 23 is a stress distribution diagram of the tank body 10 by earthquake load. As a result of the analysis, the maximum stress of the roof fixing body 90 is 0.36 MPa, the frame maximum stress in the storage tank is 0.27 MPa by the central pillar 70 and the peripheral auxiliary pillar 75, and the stress of the tank body 10 is It is calculated as 146.9 MPa, which is less than the maximum strength of each material (STS, 420 MPa, steel 400 MPa), and the entire cylindrical storage tank stays at 32% of the maximum strength when the seismic load is applied. The effect shows that it is safe.

5: bottom body 6: bent portion
10 tank body 12 round tube
20: roof body 30: circular band body
40: support 50: insulation
60: external finish 61: protruding forces
70: center pillar 75: peripheral auxiliary pillar
72,76,82: Supporting rod 80: Horizontal reinforcement
90: fixed roof 100: floor plate
110: support member 111: fastening hole
114: anchor bolt

Claims (5)

A plurality of circular tubular body 12 is fixed to each other, the tank body 10 is installed on the concrete floor (5), the roof body 20 provided on the upper portion of the tank body 10 to close the upper portion of the tank body (10) In the lower portion of the tank body 10, the cylindrical storage tank includes a bottom body seated on the concrete floor (5) to close the lower part of the tank body (10),
Wraps a circular band body 30 which is tightly fixed in an annular shape on an outer circumferential edge of each of the plurality of circular tube bodies 12 constituting the tank body 10 and the joint 15 between the plurality of circular tube bodies 12. The support 40 is fixed on the outer periphery of the joint portion 15 so as to surround the outer side of the circular band body 30, the seat 40 is mounted on the upper portion of the support 40 and the height corresponding to the circular tube body 12 The tank body with a heat insulating material (50) having an outer finish material (60) formed with a plurality of protruding forces (61) protruding in the vertical direction at intervals with an outer circumference and being tightly fixed while wrapping the outside of the heat insulating material (50). (10) to reinforce the outside,
The inside of the tank body 10 and the roof body 20 vertically with at least one central column 70 and the peripheral auxiliary column 75 extending in the vertical direction from the bottom body and fixed to the roof body 20. To reinforce,
On the upper and lower outer periphery of the central column 70 and the peripheral auxiliary pillar 75 to support the upper and lower portions of the central pillar 70 and the peripheral auxiliary pillar 75, the support rods radially on the roof body 20 and the bottom body ( 72,76) is made by connecting and fixing,
Both ends of the circular tube body 12 forming the tank body 10 are inwardly bent inwardly bent portion 13 is formed vertically bent inwardly in close contact with the inwardly bent portion 13 of the circular tube body 12 facing each other The circular pipe body 12 is interconnected by the inward bending portion 13 to form a tank body 10, and the horizontal reinforcing bar 80 to connect and fix the inward bending portion 13 formed at both ends of the circular pipe body 12. ) Is configured to horizontally reinforce the inside of the tank body (10),
The roof body 20 has a plurality of roof plates 21 having a fan shape radially fixed to form a conical shape, and fix the roof fixing body 90 around the plurality of roof plates 21 in an annular fashion. ,
The external finish material 60 is terephthalic acid (terephthalic acid), ethylene glycol (ethylene glycol), isophthalic acid (isophthalic acid), trimethylolpropane polymer (trimethylolpropane polymer) mixed resin for powder coatings, calcium carbonate Internal and external reinforcement and double bottom, characterized in that the powder coating is carried out using a powder coating mixture of 10 to 20% by weight, barium sulfate 1 to 10% by weight, triglycidyl isocyanurate 1 to 10% by weight, respectively Cylindrical storage tank for structural reinforcement.
delete The method of claim 1,
The bottom body,
A plurality of bottom plates 100 arranged horizontally in accordance with the shape of the bottom of the tank body 10 to close the bottom of the tank body 10 and spaced apart from the concrete floor 5;
The bottom side between the side of the plurality of bottom plate material 100 facing each other is composed of a band shape in the space spaced from the concrete floor 5, the bottom is fixed to the concrete floor 5, the top is the bottom plate ( Is fixed to 100 is made to include a support member 110 for fixing and connecting the concrete floor (5) and the bottom plate material (100);
The support member 110 is formed with a plurality of fastening holes 111 in the longitudinal direction of the belt shape, the anchor bolt 114 is fastened to the fastening hole 111 is configured to be coupled to the concrete floor (5),
Based on the plurality of anchor bolts 114 fastened to the support member 110, the bottom plate material 100 is fixed to the upper surface of the support member 110 by being in close contact with each other. Cylindrical storage tank for structural reinforcement.
The method of claim 1,
Inner, outer reinforcement and double bottom, characterized in that the support bar 82 is connected to the inward bending portion 13 of each of the circular tube 12 facing the upper and lower sides of the horizontal reinforcement 80 is fixed configuration Cylindrical storage tank for structural reinforcement.
The method of claim 1,
The horizontal reinforcing bar 80 is a cylindrical storage tank for structural reinforcement, which is constructed with internal, external reinforcement and double bottom, characterized in that each is fixed to the outer surface of the central column (70).

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