KR102200633B1 - Emergency vent cover assembly - Google Patents

Abstract

An emigration vent cover assembly coupled with a storage tank is disclosed. The emergency vent cover assembly includes a flange capable of being coupled to the storage tank, a pad plate coupled to the flange, a first magnet coupling unit positioned on the pad plate, and positioned on the pad plate, and the first magnet coupling unit. And a second magnet coupling unit that is separated from each other, and a rotatable arm, wherein the arm is a first magnet unit configured to magnetically interact with the first magnet coupling unit, and the arm And a second magnet unit configured to magnetically interact with a second magnet coupling unit, wherein the second magnet unit includes an upper plate, a lower plate, a second magnet positioned on the lower plate, and a second magnet surrounding the second magnet. And a magnet holder, and a first wall and a second wall, each of which is attached to the upper plate and the second magnet holder.

Description

EMERGENCY VENT COVER ASSEMBLY}

The present invention relates to an emergency vent cover assembly, and more particularly, an emergency vent capable of easily responding to the difference between the internal pressure of the storage tank and the internal pressure that rises in the storage tank during emergency situations such as fire or explosion. It relates to a cover assembly.

In the case of flammable gases such as LNG or LPG or liquids such as liquefied substances, they can be stored in a storage tank. A vent cover is coupled to the storage tank.

In normal conditions, the vent cover completely blocks the inside and outside of the storage tank.

However, when an explosion or fire occurs in the vicinity of the storage tank, a high temperature or high pressure environment is created, or in an emergency situation where the fluid flowing into the storage tank is subjected to pressure beyond the design range, the pressure of the storage tank reaches the limit pressure Vent cover is opened to relieve pressure before doing. When the vent cover is opened in an emergency situation and the vent cover is closed again, a pressure different from the normal pressure may be generated.

The present invention relates to an emergency vent cover assembly capable of easily responding to a difference between the internal pressure of the storage tank during an emergency situation and the internal pressure of the storage tank as described above.

In an exemplary embodiment of the present invention, a vent cover assembly associated with a storage tank includes a flange coupled to the storage tank, a pad plate coupled to the flange, a first magnetic coupling unit positioned on the pad plate, and the A second magnet coupling unit positioned on the pad plate and separated from the first magnet coupling unit, and a rotatable arm, wherein the arm includes the first magnet coupling unit and the second magnet coupling unit And a first magnet unit, and a second magnet unit, configured to magnetically interact with.

The first magnet unit includes a first magnet, a first magnet holder surrounding the first magnet, and a first adjustment module for adjusting a height from the arm to the first magnet holder.

The second magnet unit includes an upper plate, a lower plate, a second magnet positioned on the lower plate, a second magnet holder surrounding the second magnet, and a first wall and a first wall attached to the upper plate and the second magnet holder, respectively. Includes two walls.

The length of the first wall and the second wall is longer than the combined height of the top plate and the second magnetic holder.

The first magnet coupling unit is located on the pad plate and has a bent shape, and when the second magnet coupling unit and the second magnet unit are in a coupled state, the second magnet coupling unit and the second magnet unit are fixed. A fixed support disposed on the fixed support, a first support disposed on the fixed support, a pad support disposed on the first support, a magnetic pad disposed on the pad support, a spring pad surrounding the magnet pad, and inserted into the spring pad, And a spring disposed between the spring pad and the support.

The second magnet coupling unit is coupled to the pad plate, a second support including an inner space, a holder support inserted into the inner space of the second support, a third magnetic holder accommodated inside the holder support, And a third magnet surrounded by the third magnet holder.

The emergency vent cover assembly according to the present invention uses a plurality of magnetic coupling units and a plurality of magnetic units to set pressures different from each other in normal and emergency situations, so that the internal pressure of the storage tank is increased in the storage tank during an emergency situation. There is an effect of being able to easily respond to the difference in internal pressure.

1 is a schematic cross-sectional view of an emergency vent cover assembly according to an embodiment of the present invention.
Figure 2 is a plan view of the arm and cover plate shown in Figure 1;
3 is a partially enlarged view of the first magnet coupling unit and the first magnet unit shown in FIG. 1.
4 is a partially enlarged view of the second magnet coupling unit and the second magnet unit shown in FIG. 1.
5 is a plan view of a portion of the flange shown in FIG. 1;
6 is an enlarged cross-sectional view of the cover plate and the flange shown in FIG. 1.
7 is a partially enlarged view of the ledge shown in FIG. 1.
FIG. 8 is a schematic cross-sectional view of the emergency vent cover assembly when the cover plate of the emergency vent cover assembly shown in FIG. 1 is opened.
9 is a schematic cross-sectional view of the emergency vent cover assembly when the cover plate of the emergency vent cover assembly shown in FIG. 1 is closed again.

Hereinafter, an embodiment of an emergency vent cover assembly according to the present invention will be described in detail with reference to the accompanying drawings. The same reference numerals in each drawing indicate the same member.

1 is a schematic cross-sectional view of an emergency vent cover assembly according to an embodiment of the present invention.

Referring to FIG. 1, the emergency vent cover assembly 100 is coupled to a storage tank (not shown). When the internal pressure of the storage tank rises to prevent the storage tank from exploding, the emergency vent cover assembly 100 is above the set pressure set by the emergency vent cover assembly 100, the emergency vent cover The cover plate 210 of the assembly 100 is opened. The emergency vent cover assembly 100 is used to lower the internal pressure of the storage tank.

The internal pressure means the pressure inside the storage tank.

The allowable pressure means a pressure that the storage tank can withstand. When the internal pressure of the storage tank is higher than the allowable pressure, the storage tank may explode.

The set pressure refers to the internal pressure of the storage tank when the cover plate 210 of the emergency vent cover assembly 100 is opened by the internal pressure of the storage tank to prevent explosion of the storage tank. The set pressure may be set according to the magnetic force of the magnets of the emergency vent cover assembly 100. When the internal pressure of the storage tank is greater than the set pressure corresponding to the magnetic force of the magnets set in the emergency vent cover assembly 100, the cover plate 210 is opened.

In an emergency situation in which a fire or explosion around the storage tank, or a fluid flowing into the storage tank is subjected to pressure beyond the design range, the cover plate 210 of the emergency vent cover assembly 100 is opened, and then the cover plate again 210 is coupled with a flange 110 of the emergency vent cover assembly 100. In an emergency, the internal pressure of the storage tank may be different from the normal internal pressure of the storage tank. Accordingly, the set pressures of the vent cover assembly 100 must be different from each other in order to correspond to different internal pressures of the storage tank.

The emergency vent cover assembly 100 uses a plurality of magnet coupling units 130 and 150 and a plurality of magnet units 180 and 200 to set pressures different from each other in normal and emergency situations. It can easily respond to the difference between the previous internal pressure in an emergency situation and the internal pressure that rises in an emergency situation.

The emergency vent cover assembly 100 includes a flange 110 that can be coupled to the storage tank, a pad plate 120 coupled to the flange 110, and a first magnetic coupling unit positioned on the pad plate 120. (130), located on the pad plate 120, the second magnetic coupling unit 150, which is separated from the first magnetic coupling unit 130, a rotatable arm (170), and a cover plate 210 Includes.

The flange 110 may be referred to as a body. The flange 110 may be coupled by a combination of a pad plate 120 and a bolt and a nut. The flange 110 includes an opening 111. The opening 111 may be coupled to the storage tank.

The arm 170 rotates about the hinge axis 233. The arm 170 may have a rectangular shape. The arm 170 includes a first magnet coupling unit 130 and a first magnet unit 180 and a second magnet unit 200 configured to magnetically interact with the second magnet coupling unit 150. . The magnetic interaction means when the first magnet unit 180 or the second magnet unit 200 is close to the first magnet unit 130 or the second magnet unit 150 within a certain distance. , It means that the first magnetic unit 180 is coupled to the first magnetic coupling unit 130 by magnetic force, and the second magnetic unit 200 is coupled to the second magnetic coupling unit 150.

Figure 2 is a plan view of the arm and cover plate shown in Figure 1;

1 and 2, the cover plate 210 is attached to the arm 170. The cover plate 210 may be circular. The diameter of the cover plate 210 is shorter than the length of the arm 170. The cover plate 210 is used to block the inside of the storage tank from the outside by contacting the flange 110. The cover plate 210 may be combined with the arm 170 by a combination of a bolt and a nut. When the arm 170 rotates about the hinge shaft 233, the cover plate 210 also rotates.

3 is a partially enlarged view of the first magnet coupling unit and the first magnet unit shown in FIG. 1.

1 and 3, the first magnet coupling unit 130 is positioned on the pad plate 120. The first magnet coupling unit 130 includes a fixed support 131, a first support 135 positioned on the fixed support 131, a pad support 137 positioned on the first support 135, and a pad support 137 A magnetic pad 139 positioned above, a spring pad 141 surrounding the magnetic pad 139, and a spring inserted into the spring pad 141 and disposed between the spring pad 141 and the first support 135 It includes (143).

The magnetic force of the first magnet 181 of the first magnet unit 180 acts downward and is coupled with the magnetic pad 139 of the first magnet coupling unit 130. The spring 143 pushes the spring pad 141 upward by the elastic force of the spring 143. Therefore, the spring 143 serves to lift the magnetic pad 139 of the first magnetic coupling unit 130 upward. By raising the magnetic pad 139 upward, the distance between the re-stone pad 139 and the first magnet 181 may become close. For this reason, the first magnet 181 may be combined with the magnet pad 139 even though it descends less.

The fixing support 131 has a curved shape. Specifically, the fixed support 131 includes a first horizontal support 132, a vertical support 133 vertically coupled to the first horizontal support 132, and a second horizontal support vertically coupled to the vertical support 133 ( 134). The first horizontal support 132 and the second horizontal support 134 are horizontal, and the vertical support 133 is vertical.

The first horizontal support 132 is fixed between the pad plate 120 and the first support 135.

Both ends of the vertical support 133 are coupled to one end of the first horizontal support 132 and the second horizontal support 134, respectively.

Referring to FIG. 1, when the cover plate 210 is normally closed, the second horizontal support 134 is positioned between the second magnet coupling unit 150 and the second magnet unit 200. When the cover plate 210 is normally closed, one surface (or lower surface) of the second horizontal support 134 is in contact with the second magnetic coupling unit 150 and the other surface of the second horizontal support 134 (Or the upper surface) is in contact with the second magnetic unit 200. Specifically, the other surface (or upper surface) of the second horizontal support 134 abuts the end of the first wall 209 and the end of the second wall 211 of the second magnetic unit 200.

The fixing support 131 is fixed by the second magnet coupling unit 150 and the second magnet unit 200 when the cover plate 150 is normally closed. Normally, the fixing support 131 serves to prevent the second magnet 205 of the second magnet unit 200 and the third magnet 161 of the second magnet coupling unit 150 from being coupled to each other by magnetic force. . That is, in normal times, due to the fixed support 131, the second magnet 205 of the second magnet unit 200 and the third magnet 161 of the second magnet coupling unit 150 cannot be coupled to each other by magnetic force. Will fall.

According to the embodiment, the shape of the fixing support 131 is such that the second magnet 205 of the second magnet unit 200 and the third magnet 161 of the second magnet coupling unit 150 cannot be coupled to each other by magnetic force. It can be implemented in various forms.

The first magnet unit 180 may be coupled to the arm 170 by a combination of a bolt and a nut.

The first magnet unit 180 adjusts the height of the first magnet 181, the first magnet holder 183 surrounding the first magnet 181, and the arm 170 to the first magnet holder 183. It includes a first adjustment module 185 for, and a protective cover 187 for protecting the first magnetic holder 183 from external impact.

The first magnet holder 183 is used to protect the first magnet 181.

The first adjustment module 185 includes a bolt and a nut. By adjusting the height of the bolt, the height from the arm 170 to the first magnet holder 183 may be adjusted. When the bolt is moved upward, the position of the first magnetic holder 183 rises upward. On the other hand, when the bolt is moved down, the position of the first magnetic holder 183 goes down.

Depending on the embodiment, the first magnet coupling unit 130 and the first magnet unit 180 both include a magnet, or only one of the first magnet coupling unit 130 and the first magnet unit 180 may include a magnet. I can. For example, the first magnet coupling unit 130 may include a magnet, and the first magnet unit 180 may not include a magnet. In addition, the first magnet coupling unit 130 does not include a magnet, and the first magnet unit 180 may include a magnet.

4 is a partially enlarged view of the second magnet coupling unit and the second magnet unit shown in FIG. 1.

1 and 4, the second magnet coupling unit 150 is positioned on the pad plate 120 and is separated from the first magnet coupling unit 130.

The second magnet coupling unit 150 is coupled on the pad plate 120, the second support 153 including the inner space 151, the holder support inserted into the inner space 151 of the second support 153 155, a third magnet holder 157 accommodated in the holder support 155, and a third magnet 161 surrounded by the third magnet holder 157.

The third magnet holder 157 may include a support member that supports the third magnet 161.

The holder support 155 includes a support portion and a holder portion.

The second magnet unit 200 may be coupled to the arm 170 by a combination of a bolt and a nut.

The second magnet unit 200 includes an upper plate 201, a lower plate 203, a second magnet 205 positioned on the lower plate 203, and a second magnet holder 207 surrounding the second magnet 205, respectively. For adjusting the height of the top plate 201 and the second magnet holder 207 and the first wall 209 and the second wall 211, and the arm 170 to the second magnet holder 207 It includes a second adjustment module 217.

The upper plate 201 and the lower plate 203 may be coupled to each other by a combination of a bolt and a nut. The width of the upper plate 201 is wider than that of the third magnet holder 157 of the second magnet coupling unit 150. The length of the second horizontal support 134 of the fixing support 131 is longer than the width of the upper plate 201. Therefore, in normal times, the second magnetic coupling unit 150 supports the second horizontal support 134 of the fixed support 131, and the second horizontal support 134 of the fixed support 131 is the second magnetic unit 200. Support.

Each of the first wall 209 and the second wall 211 includes a protrusion, and the second magnet holder 207 includes a groove in a portion to which the first wall 209 and the second wall 211 are attached. Are doing. The protrusions of the first wall 209 and the protrusions of the second wall 211 may be attached to the second magnet holder 207 by being coupled with the grooves of the second magnet holder 207, respectively.

The length of the first wall 209 and the second wall 211 is longer than the combined height of the top plate 201 and the second magnet holder 207.

The second adjustment module 217 includes a bolt 213 and an adjustment part 215. By adjusting the height of the bolt, the height from the arm 170 to the second magnetic holder 207 may be adjusted. The bolt 213 includes a protrusion. The adjustment component 215 includes a receiving portion for receiving the projection.

According to an embodiment, only one of the second magnet coupling unit 150 and the second magnet unit 200 may include a magnet. For example, the second magnetic coupling unit 150 may include a magnet, and the second magnetic unit 200 may not include a magnet. In addition, the second magnetic coupling unit 150 does not include a magnet, and the second magnetic unit 200 may include a magnet.

5 is a plan view of a portion of the flange shown in FIG. 1;

1 and 5, when the first magnet unit 180 and the second magnet unit 200 move downward in the vertical direction, the magnet pad 139 and the third magnet holder 157 It absorbs the impact caused by the 180 and the second magnetic unit 200. Each of the magnet pad 139 and the third magnet holder 157 prevents a gap between the first magnet 181 of the first magnet unit 180 and the second magnet 205 of the second magnet unit 200 For example, a plurality of slot holes 182 and 206 may be included.

The pad plate 120 supports the first magnet coupling unit 130 and the second magnet coupling unit 150. In addition, the flange 110 supports the pad plate 120.

Another portion of the flange 110 may include a hinge plate 231 in which a hinge structure is implemented. A hinge structure 230 is implemented on the hinge plate 231.

The hinge structure 230 includes a hinge shaft 233 and a hinge post 235.

6 is an enlarged cross-sectional view of the cover plate and the flange shown in FIG. 1.

1 and 6, the first sealing member layer 221 is attached to the cover plate 210 to block the interior of the storage tank from the outside. Due to the first sealing member layer 221, a storage material such as gas or fluid stored in the storage tank does not leak to the outside. The first sealing member layer 221 may be provided using a PTFE material or an FEP material. According to an embodiment, the first sealing member layer 221 may be provided using a material that is a different elastic material and has durability and sealing power.

The pad 223 is surrounded by the first sealing member layer 221 and the cover plate 210. The pad 223 is located at a portion corresponding to the flange 110. When the cover plate 210 is in contact with the flange 110, the pad 223 is used to absorb the impact of the flange 110 due to the rotation of the cover plate 210.

The support plate 225 supports the first sealing member layer 221.

The weight plate 227 serves to make the cover plate 210 heavy so that it cannot be easily opened. When using the weight plate 227, a magnet having a relatively weak strength may be used in the emergency vent cover assembly 100.

The cover plate 210, the first sealing member layer 221, the support plate 225, and the weight plate 227 may be coupled to each other by a combination of a bolt and a nut.

7 is a partially enlarged view of the ledge shown in FIG. 1.

1 and 7, the flange 110 may include a ledge 113.

The emigration vent cover assembly 100 may further include a second sealing member layer 115 and a knife plate 117.

The second sealing member layer 115 is located on the ledge 113 to block the interior of the storage tank from the outside, and when the pressure inside the storage tank increases, it swells. The already-exhibition vent cover assembly 100 includes a first sealing member layer 221 and a second sealing member layer 115 to prevent leakage of a storage material as a gas or fluid inside the storage tank to the outside. Can be prevented.

Similar to the first sealing member layer 221, the second sealing member layer 115 may be provided using a PTFE material or an FEP material. In addition, according to an embodiment, the second sealing member layer 115 may also be provided using a material that is a different elastic material and has durability and sealing power.

The knife plate 117 is used to tear the second sealing member layer 115 when the second sealing member layer 115 swells up. In an emergency situation, the interior of the storage tank should not be blocked from the outside in order to reduce the internal pressure of the storage tank. When the second sealing member layer 115 swells up, the storage tank may explode due to internal pressure. Therefore, when the second sealing member layer 115 swells up, the knife plate 117 is used to tear the second sealing member layer 115.

Referring to FIG. 1, a floating prevention plate 243 may be attached to the cover plate 210 through a coupling part 241. The anti-floating plate 243 serves to prevent the second sealing member layer 115 from being torn unintentionally by the knife plate 117 in normal times.

Unless otherwise specified in the present invention, general components may be implemented with a metal material.

Hereinafter, an operation process of the emergency vent cover assembly according to an embodiment of the present invention will be described with reference to FIGS. 1 to 7.

First, the cover plate 210 of the emergency vent cover assembly 100 may be rotated and opened together as the arm 170 rotates. After the cover plate 210 is opened, a storage material may be introduced into the storage tank.

After the storage material enters the storage tank, the cover plate 210 is closed by rotation of the arm 170 to prevent leakage of the storage material. That is, the cover plate 210 is in contact with the flange 110. When the cover plate 210 is closed by the rotation of the arm 170, the first magnet unit 180 is coupled to the first magnet coupling unit 130 by magnetic force. However, the second magnetic unit 200 is not coupled to the second magnetic coupling unit 150 by magnetic force. Because the length of the first wall 209 and the second wall 211 of the second magnet unit 200 is longer than the combined height of the top plate 201 and the second magnet holder 207, the second magnet unit 200 This is because the first wall 209 and the second wall 211 come into contact with the fixing support 131 located on the second magnetic coupling unit 150. That is, the first wall 209 and the second wall 211 of the second magnet unit 200 contact the fixed support 131 located on the second magnet coupling unit 150, thereby preventing the second magnet unit 200 The second magnet 205 and the third magnet 161 of the second magnet coupling unit 150 are prevented from being coupled to each other by magnetic force.

The set pressure designed to withstand the internal pressure of the storage tank during normal operation depends only on the magnetic force of the first magnet 181 of the first magnet unit 180. Normally, the second magnet 205 of the second magnet unit 200 and the third magnet 161 of the second magnet coupling unit 150 are not coupled to each other by magnetic force, so they are related to the normal set pressure. There is no Normally, after the storage material flows into the storage tank, the cover plate 210 is closed by the rotation of the arm 170 to prevent leakage of the storage material, and the fluid flows into the storage tank. Refers to a state that is not in an emergency situation under pressure beyond the design range. The usual set pressure means a pressure set according to the pressure that can be generated as much as the area of the first diameter A1 shown in FIG. 1.

Even if the internal pressure of the storage tank is high due to the magnetic force of the first magnetic unit 180, the cover plate 210 is not easily opened. In the present invention, by changing the strength of the first magnet 181, it is possible to appropriately respond to a change in the allowable pressure of the storage tank. Therefore, equipment cost can be reduced and maintenance is easy. The magnetic force of the magnet becomes stronger in proportion to the strength of the magnet. That is, the greater the strength of the magnet, the greater the magnetic force of the magnet.

The first sealing member layer 221 primarily prevents the storage material from leaking to the outside. The second sealing member layer 115 secondaryly prevents the storage material from leaking to the outside. When the internal pressure of the storage tank approaches the allowable pressure, the second sealing member layer 115 may swell. When the second sealing member layer 115 swells up, the storage tank may explode due to internal pressure. Therefore, when the second sealing member layer 115 is swollen to prevent explosion, a knife plate 117 is provided to tear the second sealing member layer 115.

When the internal pressure of the storage tank approaches the allowable pressure, the first magnet unit 180 and the first magnet coupling unit 130 are disengaged by the internal pressure of the storage tank. This is because the internal pressure of the storage tank is greater than the magnetic force between the first magnet unit 180 and the first magnet coupling unit 130.

FIG. 8 is a schematic cross-sectional view of the emergency vent cover assembly when the cover plate of the emergency vent cover assembly shown in FIG. 1 is opened.

1 to 8, when the first magnet unit 180 and the first magnet coupling unit 130 are disengaged, the cover plate 210 moves the hinge shaft 233 together with the arm 170. Rotates around the center. As the cover plate 210 rotates, the second sealing member layer 115 is torn by the knife plate 117. According to an embodiment, before the cover plate 150 rotates, the second sealing member layer 115 may swell and be torn by the knife plate 117. That is, the structure of the emergency vent cover assembly 100 can reduce the internal pressure of the storage tank, thereby preventing the storage tank from exploding.

In this case, the internal pressure of the storage tank generated by the tearing of the second sealing member layer 115 is different from the internal pressure of the storage tank. The internal pressure generated by tearing the second sealing member layer 115 corresponds to the area of the second diameter B2 shown in FIG. 1. The usual set pressure is a pressure set corresponding to the area of the first diameter A1 shown in FIG. 1. Referring to FIG. 1, the second diameter B2 is longer than the first diameter A1. Therefore, since the area of the second diameter B2 is larger than the area of the first diameter A1, the set pressure corresponding to the area of the second diameter B2 is greater than the set pressure corresponding to the area of the first diameter A1. It should be big. Therefore, only the magnetic force of the first magnet 181 set according to the set pressure corresponding to the area of the first diameter A1 cannot bring the cover plate 210 back into contact with the flange 110. This is because the magnetic force of the first magnet 181 set according to the set pressure corresponding to the area of the first diameter A1 is smaller than the set pressure corresponding to the area of the second diameter B2. In order to solve this problem, the pad plate 120 includes a hinge shaft 125. Referring to FIG. 3, the pad plate 120 may be divided into a rotating plate 121 and a fixed plate 123. When the cover plate 210 is opened by the internal pressure, the rotating plate 121 rotates downward around the hinge axis 125. When the cover plate 210 is closed, the fixing support 131 is fixed by the second magnet unit 200 and the second magnet coupling unit 150. However, when the cover plate 210 is opened by internal pressure, the second magnet unit 200 is attached to the cover plate 210 and rotates with the cover plate 210. Therefore, since the fixing support 131 cannot be fixed by the second magnet unit 200 and the second magnet coupling unit 150, the rotating plate 121 rotates downward around the hinge shaft 125. When the rotating plate 121 rotates downward once, it does not rotate again due to the weight of the rotating plate 121 and maintains the lowered state. In normal times, since the fixing support 131 is fixed by the second magnet unit 200 and the second magnet coupling unit 150, the rotating plate 121 is not rotated downward around the hinge shaft 125.

9 is a schematic cross-sectional view of the emergency vent cover assembly when the cover plate of the emergency vent cover assembly shown in FIG. 1 is closed again.

1 to 9, when the rotating plate 121 rotates downward around the hinge axis 125, the fixed support 131 is no longer the second magnet unit 200 and the second magnet coupling unit. It is not located between 150. Accordingly, the second magnet 205 of the second magnet unit 200 and the third magnet 161 of the second magnet coupling unit 150 may be close enough to be coupled to each other by magnetic force. That is, when the rotation plate 121 rotates downward about the hinge shaft 125, the second magnet 205 of the second magnet unit 200 and the third magnet of the second magnet coupling unit 150 ( 161) are coupled to each other by magnetic force. The strength of the second magnet 205 and the strength of the third magnet 161 correspond to a set pressure set to withstand a pressure corresponding to the area of the second diameter B2. That is, the strength of the combined magnet of the second magnet 205 and the third magnet 161 is greater than that of the first magnet 181.

In the present invention, by using the structure of the fixed support 131 and the rotating pad plate 120, the set pressure can be flexibly set to the internal pressure of the storage tank that changes. If there is no structure of the fixed support 131 and the rotating pad plate 120, only the magnetic force of the first magnet unit 180 and the first magnet coupling unit 130 changes as the second sealing member layer 115 is torn. You will not be able to flexibly cope with the internal pressure of the storage tank.

In the above, the present invention has been described in detail using preferred embodiments, but the scope of the present invention is not limited to specific embodiments, and should be interpreted by the appended claims. In addition, those who have acquired ordinary knowledge in this technical field should understand that many modifications and variations can be made without departing from the scope of the present invention.

100: emergency vent cover assembly 210: cover plate;
110: flange; 230: hinge structure;
120: pad plate;
130: a first magnet coupling unit;
150: second magnet coupling unit;
170: arm;
180: first magnet unit;
200: second magnetic unit;

Claims (6)

In the emergency vent cover assembly coupled to the storage tank,
A flange capable of being coupled with the storage tank;
A pad plate coupled to the flange;
A first magnet coupling unit positioned on the pad plate;
A second magnet coupling unit positioned on the pad plate and separated from the first magnet coupling unit; And
It includes a rotatable arm,
The arm includes a first magnet unit configured to magnetically interact with the first magnet coupling unit; And
The arm includes a second magnetic unit configured to magnetically interact with the second magnetic coupling unit,
The second magnetic unit,
Top plate;
Lower plate;
A second magnet positioned on the lower plate;
A second magnet holder surrounding the second magnet; And
An emergency vent cover assembly comprising a first wall and a second wall, each of which is attached to the top plate and the second magnet holder. delete delete The method of claim 1, wherein the lengths of the first wall and the second wall are
An emergency vent cover assembly that is longer than the combined height of the top plate and the second magnet holder. delete delete

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