KR20200015358A - Emergency vent cover assembly - Google Patents

Abstract

The present invention relates to an emergency vent cover assembly, which can appropriately respond to allowable pressure which varies as a storage material in a storage tank changes. Disclosed is an emergency vent cover assembly coupled to a storage tank. The emergency vent cover assembly comprises: a magnetic pad; a pad plate for supporting the magnetic pad; a flange for supporting the pad plate; a rotatable arm; and a cover plate attached to the arm and coming in contact with the flange to block the inside of the storage tank from the outside. The arm includes a magnetic unit configured to magnetically interact with the magnetic pad.

Description

Emergency Vent Cover Assembly {EMERGENCY VENT COVER ASSEMBLY}

The present invention relates to an emergency vent cover assembly. More specifically, an emergency vent cover which can be lightened in an emergency situation such as a fire or an explosion can be easily maintained and can easily cope with a variable allowable pressure. A vent cover assembly.

Liquids such as flammable gases such as LNG and LPG or liquefied materials may be stored in a storage tank. A vent cover is coupled to the storage tank.

1 is a schematic cross-sectional view of a typical vent cover portion according to a conventional embodiment.

Referring to FIG. 1, the body 1 of the vent cover 10 is coupled with the storage tank. In normal operation, the conventional vent cover 10 completely blocks the inside and the outside of a storage tank (not shown). However, when an explosion or fire occurs around the storage tank to create a high-temperature or high-pressure environment, or when the fluid flowing into the storage tank receives a pressure above a design range, the disk 15 is opened to open the disk. Reduce the pressure before the design or allowable pressure reaches the limit pressure. As shown in FIG. 1, the vent cover 10 is provided with a separate weight 20 to withstand the internal pressure of the storage tank. Heavier weights 20 are needed to withstand greater pressure.

However, the provision of the weight 20 to the vent cover 10 increases the installation cost and is not easy to maintain. As the storage material in the storage tank is changed, there is a problem that the vent cover 10 does not correspond to the allowable pressure that varies. For example, as the allowable pressure is increased, the vent cover 10 requires a heavier weight body 20. The heavier the weight 20, the greater the equipment cost, and is not easy to maintain.

In addition, as the disk 15 is provided, there is a possibility of generating a minute gap between the storage tank and the disk 15 at any time. There is a problem that can occur.

The present invention has been proposed to solve the above problems, and relates to an emergency vent cover assembly in which the emergency vent cover assembly can appropriately respond to an allowable pressure that varies as the storage material in the storage tank changes.

In addition, the present invention has been proposed to solve the above problems, and relates to an emergency vent cover assembly that can prevent the possibility of accident in advance by suppressing the leakage of gas or fluid in the usual.

An emission vent cover assembly coupled to a storage tank according to an embodiment of the present invention may include a magnet pad, a pad plate for supporting the magnet pad, a flange for supporting the pad plate, a rotatable arm, and And a cover plate attached to the arm and contacting the flange to block the inside and the outside of the storage tank. The arm includes a magnet unit configured to magnetically interact with the magnet pad.

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

The emission vent cover assembly is surrounded by a first sealing member layer, the sealing member layer and the cover plate attached to the cover plate to block the inside of the storage tank from the outside, and at a portion corresponding to the flange. The pad may be located, and a support plate for supporting the sealing member layer may be further included.

The flange includes a ledge.

The emission vent cover assembly is positioned above the ledge to block the interior of the storage tank from the outside, and the second sealing member layer that swells when the pressure inside the storage tank rises, and the second sealing member. When the layer is inflated, it may further include a knife plate for tearing the second sealing member layer.

The emission vent cover assembly may further include a screen hood for preventing the second sealing member layer from being swelled and torn by the knife plate.

According to another embodiment of the present invention, an emission vent cover assembly coupled to a storage tank includes a first magnet unit, a pad plate for supporting the first magnet unit, a flange for supporting the pad plate, and a rotation. A possible arm is attached to the arm and a cover plate for contacting the flange to block the interior and exterior of the storage tank.

The arm includes a second magnet unit configured to magnetically interact with the first magnet uni.

The emergency vent cover assembly according to the present invention can appropriately cope with an allowable pressure varying as the storage material of the storage tank is changed by connecting or blocking the inside and the outside of the storage tank using a magnet instead of providing a weight. It works.

In addition, the emergency vent cover assembly according to the present invention by providing a sealing member layer implemented on the ledge to suppress the leakage of gas or fluids in everyday life has the effect of preventing the possibility of human accidents or environmental pollution occurs have.

1 is a schematic cross-sectional view of a typical vent cover portion according to a conventional embodiment.
2 is a schematic cross-sectional view of an emergency vent cover assembly according to an embodiment of the present invention.
3 is a plan view of a portion of the flange shown in FIG.
4 is a partially enlarged view of the cover plate and the flange shown in FIG. 2.
FIG. 5 is a partially enlarged view of the ledge shown in FIG. 2.
6 is a cross-sectional view showing the flange and the second sealing member layer.
7 is a plan view and a cross-sectional view of the knife plate shown in FIG.
8 is a plan view and a cross-sectional view of the screen hood shown in FIG.

Hereinafter, an embodiment of the emergency vent cover assembly according to the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

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

Referring to FIG. 2, the emergency vent cover assembly 100 is coupled to a storage tank (not shown). The emergency vent cover assembly 100 is opened when the pressure is higher than a predetermined pressure to prevent the storage tank from exploding when the pressure inside the storage tank is increased, and is used to lower the internal pressure of the storage tank. That is, the emergency vent cover assembly 100 is opened in an emergency situation in which a fire or explosion or a fluid flowing into the storage tank is pressured beyond a design range around the storage tank. The emergency vent cover assembly 100 may appropriately correspond to an allowable pressure varying as the storage material of the storage tank is changed by connecting or blocking the inside and the outside of the storage tank using the magnet unit 170.

The emergency vent cover assembly 100 includes a magnetic pad 110, a pad plate 120, a flange 130, a rotatable arm 140, and a cover plate 150.

3 is a plan view of a portion of the flange shown in FIG.

2 and 3, the magnet pad 110 absorbs the shock caused by the magnet unit 170 when the magnet unit 170 moves downward in the vertical direction. The magnet pad 110 may include a plurality of slot holes 121 to prevent play with the magnet unit 170.

Referring to FIG. 2, the pad plate 120 supports the magnet pad 110. The pad plate 120 and the magnetic pad 110 may be coupled by a combination of bolts and nuts. In addition, the flange 130 supports the pad plate 120.

The pad plate 120 is coupled with the flange 130. The flange 130 may be coupled by the pad plate 120 and the combination of the bolt and the nut. Flange 130 includes opening 132. The opening 132 may be combined with the storage tank.

Arm 140 rotates about axis 160. Arm 140 may be rectangular in shape. Arm 140 includes a magnet unit 170 configured to magnetically interact with magnet pad 110. The magnetic pad 110 and the magnetic unit 170 may be coupled to each other magnetically. That is, the inside and the outside of the storage tank may be blocked by using the magnet pad 110 and the magnet unit 170.

Cover plate 150 is attached to arm 140. The cover plate 150 may be circular. The diameter of the cover plate 150 is shorter than the length of the arm 140. The cover plate 150 is used to contact the flange 130 to block the inside of the storage tank from the outside. The cover plate 150 may be coupled to the arm 140 by a combination of bolts and nuts. When arm 140 rotates about shaft 160, cover plate 150 also rotates. The shaft 160 may be provided in a hinge structure.

The cover plate 150 is in contact with the flange 130 to normally isolate the inside of the storage tank from the outside. In addition, the magnet unit 170 included in the arm 140 is coupled to the magnet pad 110. Although the internal pressure of the storage tank is high due to the magnetic force between the magnet unit 170 and the magnet pad 110, the cover plate 150 is not easily opened.

The arm 140 may be rotated about the shaft 160 to store the storage material in the storage tank, thereby disengaging the magnet unit 170 from the magnet pad 120. At this time, the connection between the cover plate 150 and the flange 130 is also released.

The magnet unit 170 includes a magnet 171, a magnet holder 173, and an adjustment module 175.

The magnet 171 may be a permanent magnet. The magnetic force of the magnet 171 may be changed according to the change in the allowable pressure of the storage tank. The prior art had to change the weight to correspond to the change in the allowable pressure of the storage tank. For this reason, it was not able to respond appropriately to the change of the allowable pressure. However, in the present invention, by changing the magnetic force of the magnet 171 can be appropriately corresponding to the change in the allowable pressure of the storage tank. For example, when a high allowable pressure is required, the magnet 171 with strong magnetic force is used, and when the low allowable pressure is required, the magnet 171 with weak magnetic force may be used.

The magnet holder 173 may surround the magnet 171. The top of the magnet holder 173 is coupled with the bottom of the adjustment module 175. The bottom of the adjustment module 175 is the exposed portion of the bolt located below the arm 140.

The adjustment module 175 is located on top of the arm 140. The adjustment module 175 can adjust the height from the arm 140 to the magnet holder 173. That is, when the magnet holder 173 is coupled to the magnet pad 110, the appropriate height to minimize the impact is adjusted by the adjustment module 175. The adjustment module 175 includes bolts and nuts. The appropriate height can be adjusted by adjusting the height of the bolt. When moving the bolt up, the position of the magnet holder 173 rises up. On the other hand, when moving the bolt down, the position of the magnet holder 173 goes down.

According to an embodiment, the magnet pad 120 may be referred to as a magnet unit. When the magnet pad 120 is referred to as the magnet unit, the magnet unit may be a first magnet unit, and the magnet unit 170 may be a second magnet unit.

When the magnet pad 120 is referred to as the magnet unit or the first magnet unit, the magnet unit may include a magnet (not shown) and a magnet holder (not shown). That is, both the first magnet unit and the second magnet unit may include a magnet and a magnet holder.

According to an embodiment, the first magnet unit may include a magnet (not shown) and a magnet holder (not shown), and the second magnet unit may include only a magnet pad (not shown).

4 is a partially enlarged view of the cover plate and the flange shown in FIG. 2.

2 and 4, the emission vent cover assembly 100 further includes a first sealing member layer 151, a pad 153, and a support plate 155.

The first sealing member layer 151 is attached to the cover plate 150 to block the inside of the storage tank from the outside. The first sealing member layer 151 does not leak storage materials such as gas or fluid stored inside the storage tank to the outside. The first sealing member layer 151 may be provided using a PTFE material or a FEP material. According to an embodiment, the first sealing member layer 151 may be provided using another elastic material and a material which ensures durability and sealing force.

The pad 153 is surrounded by the first sealing member layer 151 and the cover plate 150. The pad 153 is located at a portion corresponding to the flange 130. When cover plate 150 is in contact with flange 130, pad 153 is used to absorb the impact of flange 130 due to rotation of cover plate 150.

The support plate 155 supports the first sealing member layer 151.

The cover plate 150, the first sealing member layer 151, and the support plate 155 may be coupled to each other by a combination of bolts and nuts.

FIG. 5 is an enlarged view of a portion of the ledge shown in FIG. 2, and FIG. 6 is a cross-sectional view illustrating the flange and the second sealing member layer.

2, 5, and 6, the flange 130 may include a ledge 131.

The emission vent cover assembly 100 may further include a second sealing member layer 133 and a knife plate 135.

The second sealing member layer 133 is positioned on the ledge 131 to block the inside of the storage tank from the outside, and swells when the pressure inside the storage tank rises. The emission vent cover assembly 100 includes a first sealing member layer 151 and a second sealing member layer 133 to double the leakage of a storage material that is a gas or a fluid inside the storage tank to the outside. It can prevent.

Similarly to the first sealing member layer 151, the second sealing member layer 133 may be provided using a PTFE material or a FEP material. In addition, according to the embodiment, the second sealing member layer 133 may also be provided using another elastic material and a material which ensures durability and sealing force.

The knife plate 135 is used to tear the second sealing member layer 133 when the second sealing member layer 133 swells. In an emergency, 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 133 swells, the storage tank may explode due to internal pressure. Therefore, when the second sealing member layer 133 swells, the knife plate 135 is used to tear the second sealing member layer 133.

7 is a plan view and a cross-sectional view of the knife plate shown in FIG. FIG. 7A shows a plan view of the knife plate, and FIG. 7B shows a cross-sectional view of the knife plate.

5 and 7, the knife plate 135 is circular. The wall of the interior of the knife plate 135 may include a plurality of knife blades 137 along the radial direction. The second sealing member layer 133 may be torn using the plurality of knife blades 137.

The support plate 139 is provided to fix the night plate 135. The ledge 131, the second sealing member layer 133, and the support plate 139 may be coupled by a combination of bolts and nuts.

8 is a plan view and a cross-sectional view of the screen hood shown in FIG. FIG. 8A shows a plan view of the screen hood, and FIG. 8B shows a cross-sectional view of the screen hood.

2, 5, and 8, the screen hood 180 is provided to prevent the second sealing member layer 133 from swelling and being torn by the knife plate 135 normally. Screen hood 180 is circular when viewed from above. The screen hood 180 includes a curved area 181 and a vertical area 183. The curved region 181 becomes shorter in diameter from top to bottom. The diameter of the upper part of the curved area 181 is longer than the diameter of the lower part. The vertical region 183 extends in the vertical direction at the bottom of the curved region 181. The upper and lower diameters of the vertical region 183 are the same.

Even if the second sealing member layer 133 is inflated due to the weight of the screen hood 180, it may be prevented from being torn by the knife plate 135.

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. 2 to 8.

First, the cover plate 150 of the emergency vent cover assembly 100 may be rotated and opened as the arm 140 rotates. After the cover plate 150 is opened, a storage material may flow into the storage tank.

After the storage material is introduced into the storage tank, the cover plate 150 is closed by the rotation of the arm 140 to prevent leakage of the storage material. That is, the cover plate 150 is in contact with the flange 130. Although the internal pressure of the storage tank is high due to the magnetic force between the magnet unit 170 and the magnet pad 110, the cover plate 150 is not easily opened. In the present invention, by changing the magnetic force of the magnet 171 it can appropriately correspond to the change in the allowable pressure of the storage tank. Therefore, the equipment cost can be reduced and maintenance is easy.

The first sealing member layer 151 primarily prevents the storage material from leaking to the outside. The second sealing member layer 133 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 133 may swell. When the second sealing member layer 133 swells, the storage tank may explode due to internal pressure. Thus, when the second sealing member layer 133 swells to prevent explosion, a knife plate 135 is provided to tear the second sealing member layer 133.

When the internal pressure of the storage tank approaches the allowable pressure, the coupling between the magnet unit 170 and the magnet pad 110 is released by the internal pressure of the storage tank. When the coupling between the magnet unit 170 and the magnet pad 110 is released, the cover plate 150 rotates about the shaft 160 together with the arm 140. As the cover plate 150 rotates, the second sealing member layer 133 is torn by the knife plate 135. In some embodiments, the second sealing member layer 133 may swell and be torn by the knife plate 135 before the cover plate 150 rotates. That is, the structure of the emergency vent cover assembly 100 may lower the internal pressure of the storage tank, thereby preventing the storage tank from exploding.

As mentioned above, although this invention was demonstrated in detail using the preferable embodiment, the scope of the present invention is not limited to a specific embodiment and should be interpreted by the attached Claim. In addition, those of ordinary skill in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

100: emergency vent cover assembly 131: resin;
110: magnetic pad; 133: second sealing member layer;
120: pad plate; 135: knife plate;
130: flange; 151: first sealing member layer;
140: arm; 153: pad;
150: cover plate; 155: support plate;
160: axis; 180: screen hood;
170: magnet unit;
171: magnet;
173: magnet holder;
175: control module;

Claims (6)

In an emission vent cover assembly coupled with a storage tank,
Magnetic pads;
A pad plate for supporting the magnet pad;
A flange for supporting the pad plate;
A rotatable arm; And
A cover plate attached to the arm, the cover plate for contacting the flange to block the inside and outside of the storage tank,
And the arm includes a magnet unit configured to magnetically interact with the magnet pad. The method of claim 1, wherein the magnetic unit,
magnet;
A magnet holder surrounding the magnet; And
An emergency vent cover assembly comprising an adjustment module for adjusting a height from the arm to the magnet holder. The method of claim 1, wherein the emission vent cover assembly,
A first sealing member layer attached to the cover plate to block the inside of the storage tank from the outside;
A pad surrounded by the sealing member layer and the cover plate and positioned at a portion corresponding to the flange; And
The emergency vent cover assembly further comprising a support plate for supporting the sealing member layer. The method of claim 1,
The flange comprises a ledge,
The emission vent cover assembly,
A second sealing member layer positioned on the ledge to block the inside of the storage tank from the outside and swelling when the pressure inside the storage tank increases; And
And a knife plate for tearing the second sealing member layer when the second sealing member layer is swollen. The method of claim 4, wherein the emission vent cover assembly,
The emergency vent cover assembly further comprises a screen hood for preventing the second sealing member layer from being swelled up and torn by the knife plate. In an emission vent cover assembly coupled with a storage tank,
A first magnet unit;
A pad plate for supporting the first magnetic unit;
A flange for supporting the pad plate;
A rotatable arm; And
A cover plate attached to the arm, the cover plate for contacting the flange to block the inside and outside of the storage tank,
And the arm includes a second magnet unit configured to magnetically interact with the first magnet unit.

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