KR20210011882A - Method for connecting with aluminium dome and tank - Google Patents

Abstract

The present invention relates to a method for connecting a storage tank including an aluminum dome, and more particularly, to a method for connecting a storage tank including an aluminum dome, which can manufacture an aluminum dome structure lighter and safer than a conventional dome structure by welding a dome cover made of aluminum with a joint of a tank made of carbon steel. The present invention can provide the method for connecting the storage tank including the aluminum dome which is manufactured to facilitate maintenance of a storage shell and the dome cover, and the method for connecting the storage tank including the aluminum dome in which the storage shell is fastened to the dome cover with excellent strength. In addition, the present invention can provide the method for connecting the storage tank including the aluminum dome in which the storage shell and the done cover manufactured with heterogeneous metals are not deformed due to a difference of thermal expansion.

Description

How to connect a storage tank including an aluminum dome {METHOD FOR CONNECTING WITH ALUMINIUM DOME AND TANK}

The present invention relates to a method of connecting a storage tank including an aluminum dome, and more particularly, by welding the joint of an aluminum dome cover and a carbon steel (carbon steel) tank, which is lighter and safer than a conventional dome structure. It relates to a method of connecting a storage tank including an aluminum dome that enables the dome structure to be manufactured.

A general storage shell is composed of a storage unit in which fluid is stored, and a dome cover that prevents the fluid stored in the storage unit from evaporating and flowing out.

Here, the storage shell is made of a carbon steel material with low reactivity and excellent strength in order to prevent the fluid stored inside from leaking or causing a reaction even when an external impact is applied, and the dome cover is made of aluminum with low corrosion resistance while being light. It is generally made of material.

Meanwhile, in the related art, a fastening method in which fastening means such as bolts, nuts, and washers are inserted into the storage unit and the dome cover so that they are fixed to each other is used, so that a lot of resources are consumed to complete the storage tank.

Recently, a large-capacity storage tank technology capable of storing a large-capacity fluid has been developed. However, the fastening method of connecting the storage unit and the dome cover is insignificant in the level of technological development, and it is still a reality to fix it using a fastening means.

Accordingly, in recent years, a technology of welding the storage shell and the dome cover has been attempted, but there is no technology of directly welding the aluminum material and carbon steel (carbon steel) material that are generally used for storage tanks. There is a problem that deformation occurs in the welded part due to the expansion rate.

Therefore, in the method of fastening the storage tank and the dome cover, a fastening method having excellent bonding force while using a minimum number of parts is required.

Korean Patent Publication No. 10-1237375 Korean Utility Model Publication No. 20-0423219

The present invention was invented to solve the problems of the prior art as described above, and more particularly, an object of the present invention is to provide a method of connecting a storage tank including an aluminum dome manufactured to facilitate maintenance of the storage tank and the dome cover. To do.

In addition, an object of the present invention is to provide a method of connecting a storage tank including an aluminum dome so that the storage tank and the dome cover are fastened with excellent strength.

Another object of the present invention is to provide a method of connecting a storage tank made of dissimilar metals to a storage tank including an aluminum dome in which the dome cover does not deform due to a difference in thermal expansion.

According to a preferred embodiment of the present invention, a tank shell including a storage unit in which the fluid is stored; A dome cover connected to the top of the tank shell; A tension ring comprising a vertical plate portion disposed between the tank shell and the dome cover and mounted on an upper portion of the tank shell, and a horizontal plate portion connected to the upper end of the vertical plate portion to be extended compared to the outer diameter of the tank shell; And the dome cover, a dome support that is connected to be inclined to the horizontal plate of the tension ring, a metal panel fixed to the dome support to finish the top of the tank shell, and one end is connected to the metal panel, and the other end of the tension ring Including a flashing to be bonded to the horizontal plate, the step of installing a tension ring on the upper end of the tank shell, and closing the space between the horizontal plate portion of the tension ring and the metal panel of the dome cover by flashing.

”자로 형성되어, 돔 지지대에 장착되는 경사판부와, 텐션링의 횡형판부에 직교하도록 용접되는 수직판부와, 경사판부와 수직판부를 연결하는 수평판부로 이루어지는 것을 특징으로 한다.According to another embodiment of the present invention, the flashing is "

It is characterized in that it consists of a swash plate part which is formed in a shape and is mounted on the dome support, a vertical plate part welded to be perpendicular to the horizontal plate part of the tension ring, and a horizontal plate part connecting the swash plate part and the vertical plate part.

According to another embodiment of the present invention, an inward bending protrusion formed by bending an end portion of the swash plate portion is formed, a key groove is formed on the upper surface of a horizontal dome support corresponding to the inward bending protrusion, and an inward bending protrusion in the key groove It is characterized in that the flashing and the metal panel are connected by fastening the finishing plate from the top in the state of being engaged with each other.

According to another embodiment of the present invention, the tension ring is made of a carbon steel (carbon steel) material.

According to another embodiment of the present invention, the flashing is characterized in that it is made of stainless steel.

According to another embodiment of the present invention, the flashing is connected to a tension ring made of carbon steel (carbon steel) and a metal panel made of aluminum, respectively, and used as a connecting material between carbon steel and aluminum.

According to another embodiment of the present invention, a finishing plate made of stainless steel is further included between the tension ring and the dome support, and the reinforcement plate is connected to the tension ring and the dome support, respectively.

According to another embodiment of the present invention, the vertical plate portion and the horizontal plate portion corresponding to the flashing end are formed in a straight line, and the swash plate portion protrudes from the vertical plate portion and the horizontal plate portion to form an overlap plate portion, and is connected on the dome support. The overlapping plate portion of the adjacent flashing is fastened by a flashing bolt in a state where the upper and lower surfaces are overlapped with each other, and the vertical plate portion and the horizontal plate portion of the one side of the flashing are adjacent to each other on the vertical plate portion and the horizontal plate portion, It is connected in a butt contact state, and the connecting portion in which the vertical plate portion and the horizontal plate portion butt contact with each other is provided to be finished by a'a'-shaped plate portion.

According to another embodiment of the present invention, the finishing plate is bent in a'b' shape and provided as a pair to face each other, inclined rails are formed on the finishing plate, and axial pins protrude from both sides of the lower side of the dome support. It is characterized in that it is provided so as to be inclined to move on the inclined rail.

According to another embodiment of the present invention, a pair of slot plates are installed on the upper surface of the horizontal plate portion of the tension ring to accommodate the lower region of the vertical plate portion of the flashing and fixed by welding, and an arcuate shape in the middle region of the vertical plate portion of the flashing It characterized in that the bent portion is formed.

According to another embodiment of the present invention, a push pin is provided at an end of the dome support base corresponding to the inner surface of the vertical plate portion of the flashing, and the push pin is capable of pivoting the hinge in an upward direction, while a downward swing movement is performed by a stopper. When an earthquake occurs, the shaft pin absorbs the lateral load of the dome support as it moves upward on the inclined rail, and when the push force acts as the push force is engaged by the push force due to the lateral inclined movement of the dome support, the pusher is engaged with the edge of the boundary between the vertical and horizontal plates of the flashing. It is characterized in that the upper region of the vertical plate portion is locally bent around the arcuate bent portion and is provided to absorb the deformation load applied by flashing due to the movement of the dome support.

Meanwhile, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, and only the present embodiments provide a general knowledge in the technical field to which the present invention pertains by making the disclosure of the present invention complete. It is provided to completely inform the scope of the invention to those who have it, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same elements throughout the specification.

The present invention can provide a method for connecting a storage tank including an aluminum dome manufactured to facilitate maintenance of the storage tank and the dome cover.

In addition, it is possible to provide a connection method of a storage tank including an aluminum dome so that the storage tank and the dome cover are fastened with excellent strength.

In addition, it is possible to provide a method of connecting a storage tank made of dissimilar metals to a storage tank including an aluminum dome in which the dome cover does not deform due to a difference in thermal expansion.

1 is a block diagram showing an overall storage tank to which a method of connecting a storage tank including an aluminum dome according to an embodiment of the present invention is applied.
2 is a block diagram showing a dome cover and a tank shell joint of a method for connecting a storage tank including an aluminum dome according to an embodiment of the present invention.
3 is a perspective view showing a dome cover and a tank shell joint of a method for connecting a storage tank including an aluminum dome according to an embodiment of the present invention.
4 is an exploded perspective view showing a dome cover and a tank shell joint of a method for connecting a storage tank including an aluminum dome according to an embodiment of the present invention.
5 is a block diagram showing a flashing assembly state of a method of connecting a storage tank including an aluminum dome according to an embodiment of the present invention.
6 is a block diagram showing a flashing and a metal panel connection structure of a method of connecting a storage tank including an aluminum dome according to an embodiment of the present invention.
7 is a block diagram showing a seismic structure of a method for connecting a storage tank including an aluminum dome according to an embodiment of the present invention.

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

FIG. 1 is a schematic diagram showing a storage tank to which a method of connecting a storage tank including an aluminum dome according to an embodiment of the present invention is applied, and FIG. 2 is a storage tank including an aluminum dome according to an embodiment of the present invention. Fig. 3 is a perspective view showing a dome cover and a tank shell joint in a method of connecting a storage tank including an aluminum dome according to an embodiment of the present invention, and FIG. 4 is an exploded perspective view showing a dome cover and a tank shell joint in a method of connecting a storage tank including an aluminum dome according to an embodiment of the present invention, and FIG. 5 is a storage including an aluminum dome according to an embodiment of the present invention FIG. 6 is a configuration diagram showing a flashing assembly state of a tank connection method, and FIG. 6 is a configuration diagram showing a flashing and a metal panel connection structure of a connection method of a storage tank including an aluminum dome according to an embodiment of the present invention, and FIG. 7 Is a block diagram showing a seismic structure of a method for connecting a storage tank including an aluminum dome according to an embodiment of the present invention.

A method of connecting a storage tank including an aluminum dome according to the present invention comprises: a tank shell 100 including a storage unit S in which fluid is stored; A dome cover 200 connected to an upper portion of the tank shell 100; It is disposed between the tank shell 100 and the dome cover 200 and is connected to the vertical plate portion 110a mounted on the upper portion of the tank shell 100 and the vertical plate portion 110a to be connected to the outer diameter of the tank shell 100 Tension ring 110 made of a horizontal plate portion 110b formed to be expanded in comparison; And the dome cover 200, a dome support 210 connected to be inclined to the horizontal plate portion 110b of the tension ring 110, and is fixed to the dome support 210 to close the top of the tank shell 100 A metal panel 212 and one end connected to the metal panel 212, and the other end includes a flashing 220 bonded to the horizontal plate portion 110b of the tension ring 110, and the upper end of the tank shell 100 The installation of the tension ring 110 on the tension ring 110 and the space between the horizontal plate portion 110b of the tension ring 110 and the metal panel 212 of the dome cover 200 are closed with a flashing 220.

According to the connection method of a storage tank including an aluminum dome according to the present invention described in FIG. 1, a tank shell 100 including a storage unit S in which fluid is stored and an upper portion of the tank shell 100 It consists of a connected dome cover 200 and a tension ring 110 disposed between the tank shell 100 and the dome cover 200.

The tension ring 110 is disposed between the tank shell 100 and the dome cover 200 and is connected to the vertical plate portion 110a mounted on the upper portion of the tank shell 100 and the vertical plate portion 110a. It is made of a horizontal plate portion (110b) is formed to expand compared to the outer diameter of the tank shell (100).

The dome cover 200 includes a dome support 210 connected to be inclined to the horizontal plate portion 110b of the tension ring 110, and a metal fixed to the dome support 210 to close the top of the tank shell 100 The panel 212 includes a flashing 220 that has one end connected to the metal panel 212 and the other end connected to the horizontal plate portion 110b of the tension ring 110.

”자로 형성되어, 돔 지지대(210)에 장착되는 경사판부(222)와, 텐션링(110)의 횡형판부(110b)에 직교하도록 용접(W)되는 수직판부(223)와, 경사판부(222)와 수직판부(223)를 연결하는 수평판부(224)로 이루어진다.In Figure 2, the flashing 220 is "

A vertical plate part 223 which is formed in a shape and is welded (W) to be perpendicular to the horizontal plate part 110b of the tension ring 110 and the swash plate part 222 mounted on the dome support 210, and the swash plate part 222 ) And a horizontal plate portion 224 connecting the vertical plate portion 223.

That is, the flashing 220 is connected to the tension ring 110 and the dome support 210, respectively, the inclined surface of the flashing 220 is connected in parallel to the dome support 210, and the letter "a" The charged end is welded (W) to the tension ring 110.

The tank shell 100 is made of carbon steel, and the metal panel 212 of the dome cover 200 is made of aluminum. At this time, when the dome cover 200 is directly welded (W) to the tank shell 100 , Due to the difference in metal properties, the welded part is warped or corrosion occurs.

Here, the tank shell 100 and the dome cover 200 generate thermal expansion according to the external temperature and the temperature of the internal storage.

Material Coefficient of thermal expansion (unit um/deg C) aluminum 23.4 Stainless steel 16.9 Carbon steel (carbon steel) 12

As shown in [Table 1], the coefficient of thermal expansion of aluminum is 23.4 um/deg C, and the coefficient of thermal expansion of carbon steel is 12 um/deg C, and two metals having a size of 1,000 mm are 100 deg C in an environment where aluminum is 23 mm, carbon steel Is expanded by 12 mm. Here, when two metals having a difference in the coefficient of thermal expansion are welded, a problem occurs in that the welded portion is damaged by different expansion rates.

Thus, to connect the aluminum metal panel 212 and the carbon steel tank shell 100, the flashing 220 is made of stainless steel, so that the thermal expansion stress of aluminum and carbon steel (carbon steel) can be absorbed. do. The coefficient of thermal expansion of stainless steel is 16.9um/deg C, which has the effect of absorbing thermal stress generated by thermal expansion of aluminum and carbon steel so that the tank shell and the dome cover can be welded.

That is, in order to connect the tank shell 100 made of carbon steel (carbon steel) and the metal panel 212 made of aluminum, the flashing 220 was made of carbon steel and weldable stainless steel, and the tank shell 100 and It serves as a connector so that the metal panels 212 of the dome cover 200 can be connected.

Meanwhile, as shown in FIGS. 3 to 5, the flashing 220 is fastened to the dome support 210 by a flashing bolt 221 penetrating through the flashing 220, and the flashing bolt is welded to flash ( 220) to be coupled to the dome support 210.

A finish plate 230 made of stainless steel is further included between the tension ring 110 and the dome support 210, and the finish plate 230 is connected to the tension ring 110 and the dome support 210, respectively. .

On the other hand, in the prior art, when the fluid stored in the tank shell vaporizes to generate steam or condensate, a separate drain hole is formed or a slope is applied to the counter flashing 11 to prevent steam or condensate from accumulating. In the present invention, by directly welding (W) the flashing 220 to the tension ring 110, the condensed water accumulated in the flashing 220 can be easily recovered to the tank shell, thereby giving a gradient to the flashing 220 or adding an additional component. There is an advantage that you don't need.

In other words, a plurality of fastening members were used to couple the conventional dome cover and the tank shell, and counter flashing with a gradient to prevent condensate from accumulating was used, but the present application uses a flashing 220 made of stainless steel. By connecting 200 and the tank shell 100, the dome cover 200 made of aluminum, the metal panel 212, and the tank shell 100 made of carbon steel (carbon steel) can be combined, while separate condensate water There is an advantage in that external leakage of condensed water is prevented by airtight bonding by the flashing 220 without applying the recovery configuration.

In FIG. 6, an inwardly bent protrusion 220a formed by bending an end of the swash plate portion 222 is formed, and a key groove 210a on the upper surface of the horizontal dome support 210 corresponding to the inwardly bent protrusion 220a Is formed, the finishing plate 250 is fastened from the top in a state in which the inward bending protrusion 220a is engaged with the keyway, and the flashing 220 and the metal panel 212 are connected. Accordingly, the aluminum metal panel 212 and the stainless steel flashing 220 are connected in a non-welding manner, so that airtightness is firmly maintained.

In FIG. 7, the finishing plate 230 is bent in a'b' shape and provided as a pair to face each other, an inclined rail 232 is formed on the finishing plate 230, and the dome support 210 is lower Shaft pins 212a are protruded on both sides so as to move inclined along the inclined rail 232.

A pair of slot plates 110c are installed on the upper surface of the horizontal plate portion 110b of the tension ring 110 to accommodate the lower region of the vertical plate portion 223 of the flashing 220 and fixed by welding (W), and the An arcuate bent portion 223a is formed in an intermediate region of the vertical plate portion 223 of the flashing 220.

A push pin 214 is provided at an end of the dome support 210 corresponding to the inner surface of the vertical plate portion 223 of the flashing 220, and the push pin 214 is capable of pivoting upwardly toward the hinge 214a while a stopper It is provided so as to limit the downward turning motion by 215.

Accordingly, when an earthquake occurs, the shaft pin 212a moves upward along the inclined rail 232 to absorb the lateral load of the dome support 210, and the push pin 214 is flashing 220 due to the transverse tilt movement of the dome support 210 ), when the vertical plate part 223 and the horizontal plate part 224 are meshed with the edge of the boundary part and a pressing force is applied, the upper area of the vertical plate part 223 is locally bent around the arcuate bent part 223a and the position of the dome support 210 is moved. As a result, as the deformation load applied to the flashing 220 is provided to be absorbed, there is an advantage that the binding force between the swash plate portion 222 of the flashing 220 and the dome support 210 is firmly maintained.

As described above, although the present invention has been described by the limited embodiments and drawings, the present invention is not limited to the above embodiments, which is various modifications and variations from these descriptions to those of ordinary skill in the art Transformation is possible. Therefore, the idea of the present invention should be grasped only by the claims set forth below, and all equivalent or equivalent modifications thereof will be said to belong to the scope of the inventive idea.

Meanwhile, since the description of the technology disclosed in this specification is merely an embodiment for structural or functional description, the scope of the rights of the disclosed technology should not be construed as being limited by the embodiments described in the text. That is, since the embodiments can be variously changed and have various forms, the scope of the rights of the disclosed technology should be understood to include equivalents capable of realizing the technical idea. In addition, since the object or effect presented in the disclosed technology does not mean that a specific embodiment should include all or only such effects, it should not be understood that the scope of the rights of the disclosed technology is limited thereby.

In addition, the meaning of the terms described in the present invention should be understood as follows. Terms such as “first” and “second” are used to distinguish one element from other elements, and the scope of rights is not limited by these terms. For example, a first component may be referred to as a second component, and similarly, a second component may be referred to as a first component.

Furthermore, when a component is referred to as being “connected” to another component, it should be understood that although it may be directly connected to the other component, another component may exist in the middle. On the other hand, when it is mentioned that a component is “directly connected” to another component, it should be understood that there is no other component in the middle. On the other hand, other expressions that describe the relationship between components, such as “between” and “between” or “neighbor to” and “directly neighbor to” should be interpreted as well.

Singular expressions are to be understood as including plural expressions unless the context clearly indicates otherwise, and terms such as “comprises” or “have” refer to specified features, numbers, steps, actions, components, parts, or It is to be understood that it is intended to designate that a combination exists and does not preclude the presence or addition of one or more other features or numbers, steps, actions, components, parts, or combinations thereof.

100: tank shell 110: tension ring
200: dome cover 210: dome support
220: flashing 230: finishing plate

Claims (6)

Tank shell 100 including a storage unit (S) in which the fluid is stored;
A dome cover 200 connected to an upper portion of the tank shell 100;
It is disposed between the tank shell 100 and the dome cover 200 and is connected to the vertical plate portion 110a mounted on the upper portion of the tank shell 100 and the vertical plate portion 110a to be connected to the outer diameter of the tank shell 100 Tension ring 110 made of a horizontal plate portion 110b formed to be expanded in comparison; And
The dome cover 200 includes a dome support 210 connected to be inclined to the horizontal plate portion 110b of the tension ring 110, and a metal fixed to the dome support 210 to close the top of the tank shell 100 A panel 212 and one end connected to the metal panel 212, and the other end includes a flashing 220 bonded to the horizontal plate portion 110b of the tension ring 110,
Installing a tension ring 110 on the upper end of the tank shell 100,
The connection method of a storage tank including an aluminum dome, characterized in that the space between the horizontal plate portion 110b of the tension ring 110 and the metal panel 212 of the dome cover 200 is closed with a flashing 220.
The method of claim 1,
The flashing 220 is “

A vertical plate part 223 which is formed in a shape and is welded (W) to be perpendicular to the horizontal plate part 110b of the tension ring 110 and the swash plate part 222 mounted on the dome support 210, and the swash plate part 222 ) And a horizontal plate portion 224 connecting the vertical plate portion 223 to the storage tank including an aluminum dome.
The method of claim 2,
An inward bending protrusion 220a formed by bending an end portion of the swash plate portion 222 is formed, and a key groove 210a is formed on the upper surface of the horizontal dome support 210 corresponding to the inward bending protrusion 220a, A storage tank including an aluminum dome, characterized in that the finishing plate 250 is fastened from the top in a state in which the inward bending protrusion 220a is engaged with the keyway, and the flashing 220 and the metal panel 212 are connected. How to connect.
The method of claim 1,
The tension ring 110 is a method of connecting a storage tank including an aluminum dome, characterized in that it is made of a carbon steel (carbon steel) material.
The method of claim 1,
The flashing 220 is a connection method of a storage tank including an aluminum dome, characterized in that made of stainless steel.
The method of claim 1,
A finishing plate 230 made of stainless steel is further included between the tension ring 110 and the dome support 210,
The finishing plate 230 is a connection method of a storage tank including an aluminum dome, characterized in that connected to the tension ring 110 and the dome support 210, respectively.

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