JP2010132307A - Oscillation-preventive device for floating roof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent oscillation of a floating roof by a simple device at a low cost in a floating roof type liquid tank. <P>SOLUTION: An oscillation-preventive device 10 for a floating roof provided at a floating roof type tank includes a plurality of floating roof fixing devices 1 each of which includes an upper wire hooking part 13 provided at a position at the upper part of the floating roof 3 of a tank body 2, a lower wire hooking part 12 provided in a vicinity of an inner bottom of the tank body 2, a wire 11 which is supported by the floating roof 3 and hooked to the upper wire hooking part 13 and the lower wire hooking part 12, and a braking device 13b for regulating the motion of the wire 11. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an apparatus for preventing swinging of a floating roof of a floating roof type tank.

  A floating roof tank is a facility for storing large amounts of fuel, chemicals, water, and other liquids. Floating roof tanks have no restrictions on the structural strength of the roof and can keep construction costs low, so it is possible to build large-scale tanks with a capacity of several ten thousand kiloliters and a diameter of 90-100 meters. It is. However, on the other hand, the floating roof sways greatly due to the sloshing phenomenon that occurs during an earthquake, the stored liquid leaks onto the floating roof and outside the storage tank, the floating roof itself is damaged, and depending on the contents of the tank, There is a risk that a fire may occur due to friction of the side walls.

As a technique for suppressing the floating roof from largely swinging, there is a technique that regulates the inclination of the floating roof by a column provided in the tank body. That is, a plurality of pillars are erected inside the tank body, a plurality of through holes are made in the floating roof, the pillars are passed through the floating roof, and a taper-like stress device is attached above and below the through holes of the floating roof Yes. By doing in this way, when a floating roof begins to incline due to sloshing, the floating roof is caught by a support, and the swinging of the floating roof is stopped to a small width (see Patent Document 1).
JP 2005-247420 A

  However, once a floating roof with a diameter of several tens of meters begins to tilt, the bending stress applied to the column becomes considerable even if the angle is very small. Although stress distribution members are attached to the floating roof to prevent local stress on the column, in order to receive and disperse this stress, the strength of the column is considerably increased or the column is considerably It is necessary to set the number. Installation of such a column requires a lot of labor and cost, and it is even more difficult if it is installed in an existing tank.

  An object of the present invention is to prevent a floating roof from swinging with low cost and simple equipment in a floating roof type liquid tank.

  In order to solve the above-described problems, the invention described in claim 1 is a floating roof swing prevention device provided in a floating roof tank, and includes an upper wire rod hooking portion provided at a position above the floating roof of the tank body. The lower wire rod hanging portion provided near the inner bottom of the tank body, the wire rod supported by the floating roof and hung on the upper wire rod hanging portion and the lower wire rod hanging portion, and the movement of the wire rod are regulated. A plurality of floating roof fixing devices each having a braking device are provided.

  A second aspect of the present invention is the floating roof rocking prevention device according to the first aspect, wherein both ends of the wire are connected to form an annular shape.

  Invention of Claim 3 is the floating roof rocking | fluctuation prevention apparatus of Claim 1 or 2, Comprising: The pulley for moving the said wire to the said upper wire hook part or the said lower wire hook part smoothly It is characterized by providing.

  The invention according to claim 4 is the floating roof swing prevention device according to claim 3, wherein the braking device regulates the movement of the wire by stopping the rotation of the pulley. .

  A fifth aspect of the present invention is the floating roof rocking prevention device according to any one of the first to third aspects, wherein the braking device regulates the movement of the wire rod by directly pressing the wire rod. It is characterized by doing.

  The invention according to claim 6 is the floating roof rocking prevention device according to any one of claims 1 to 5, wherein the lower wire rod hanging portion is a weight installed on the inner bottom. It is characterized by being.

  A seventh aspect of the present invention is the floating roof swing preventing device according to any one of the first to sixth aspects, wherein the lower wire rod hanging portion is fixed to the tank body. And

  Invention of Claim 8 is the floating roof rocking | fluctuation prevention apparatus as described in any one of Claim 1 to 7, Comprising: The hole which lets the said wire rod pass is provided in the said floating roof, It is characterized by the above-mentioned. To do.

  According to the present invention, even when the upward flow of the storage liquid that causes the sloshing phenomenon reaches the liquid level, the floating roof suppresses the upward flow of the storage liquid by the downward tension of the wire whose movement is restricted by the braking device. The liquid level is forcibly kept in a horizontal state, and itself does not tilt. For this reason, it is not necessary to provide a sturdy support for receiving stress when the floating roof swings, and the swinging of the floating roof can be reliably prevented with simple equipment.

Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the drawings.
FIG. 1 shows a configuration of an embodiment of a floating roof rocking prevention device 10 to which the present invention is applied. 1 is a floating roof fixing device, 2 is a tank body, and 3 is a floating roof.

  The tank body 2 is a cylindrical structure composed of a bottom plate 21 and a side wall 22 provided perpendicular to the bottom plate 21. Inside the tank body 2 is a fuel such as crude oil, chemicals such as naphtha, water, and other liquids. It is stored. The tank body 2 is made of iron or reinforced concrete.

  The floating roof 3 is provided so that it can move up and down horizontally inside the tank body 2. The floating roof 3 includes a disk-shaped deck 31 and a pontoon 32 provided in an annular shape around the deck 31. Since the inside of the pontoon 32 is an airtight cavity, when liquid is stored in the tank body 2, buoyancy acts on the pontoon 32 and the floating roof 3 floats on the liquid surface. For this reason, a gas phase does not occur between the liquid surface and the floating roof 3, and the evaporation loss of the stored liquid can be reduced. The pontoon 32 has a plurality of holes 32 a penetrating in the vertical direction on the circumference of the pontoon 32 at equal intervals. Since the hole 32a has a wall surface at a position indicated by a broken line in FIG. 1, the airtightness of the pontoon 32 is maintained. In addition, a sealing member (not shown) is attached to a gap formed between the tank body 2 and the floating roof 3 to prevent leakage of stored liquid, and the side wall 22 when the floating roof 3 swings in the horizontal direction. And the collision of the floating roof 3 can be prevented.

Next, the structure of the floating roof rocking | fluctuation prevention apparatus 10 is demonstrated.
The floating roof swing prevention device 10 includes a wire 11 that is a wire, a sinker 12 that is a lower wire rod hanging portion, a support portion 13 that is an upper wire rod hanging portion, and the like as a pair of floating roof fixing devices 1. A plurality of devices 1 are arranged at equal intervals along the circumference of the floating roof 3 (for example, eight sets are arranged at intervals of 45 degrees when viewed from above).

  The sinker 12 is a weight that is sunk in the inner bottom of the tank body 2. A lower pulley 12 a is attached to the upper part of the sinker 12 so that the wire 11 can be hung and moved smoothly. The sinker 12 has a weight sufficient to prevent it from lifting even if the buoyancy of the floating roof 3 and the rising force of the stored liquid due to the sloshing phenomenon are combined. Since the sinker 12 can be installed simply by being submerged in the stock solution, the present invention can be easily applied to existing tanks. If necessary, the sinker 12 may be fixed to the tank body 2.

  The support portion 13 is attached so as to protrude from the inside of the side wall 22 of the tank body 2 toward the center of the tank body. An upper pulley 13 a is attached to the lower portion of the support portion 13 so that the wire 11 can be hung.

  The upper pulley 13a is provided with a pulley rotation speed detecting means (not shown) and a stopper 13b that is a braking device that sandwiches the pulley from both sides to restrict rotation. Moreover, the floating roof rocking | fluctuation prevention apparatus 10 is provided with the control apparatus which is not shown in figure, and a control apparatus controls the stopper 13b based on the detection result of a pulley rotational speed detection means. For example, a predetermined pulley rotation speed is stored in the control device, and when the pulley rotates faster than the predetermined speed, or in some of the plurality of pulley speed detection means, the pulley is rotating in a different direction. When it is detected, the stopper 13b is operated.

  When the stopper 13b is released, the upper pulley 13a can rotate, and when the stopper 13b is operating, the rotation of the upper pulley 13a is restricted. The plurality of stoppers 13b are operated while being synchronized by a control device (not shown). That is, when the stopper 13b is operated / released, all the stoppers 13b are simultaneously activated / released.

  The wire 11 is hung on the upper pulley 13a and the lower pulley 12a of the sinker 12, and both ends are connected. Since the wire 11 is in a tensioned state, the wire 11 has a vertically elongated ring shape as shown in FIG. The wire 11 has straight portions 11a and 11b extending in the vertical direction. The two straight portions 11 a and 11 b pass through the pontoon 32. The straight portion 11a is passed through the hole 32a of the pontoon so that the pontoon 32 and the straight portion 11a can move relatively. The straight line portion 11 b is fixed to the pontoon 32 while penetrating the pontoon 32. For this reason, when the floating roof 3 moves up and down with the stopper 13b of the upper pulley 13a being released, the wire 11 moves accordingly, and the lower pulley 12a and the upper pulley 13a rotate in accordance with the movement of the wire 11, respectively. It has become. When the stopper 13b of the upper pulley 13a is operating, the upper pulley 13a does not rotate, so that the movement of the wire 11 is restricted.

  Since an apparatus having such a simple configuration is used, the installation cost can be reduced and the installation in an existing tank is easy.

Next, operation | movement of the floating roof rocking | fluctuation prevention apparatus 1 is demonstrated.
When the liquid is stored in the tank body 2, the floating roof 3 floats horizontally on the liquid surface at a certain height. In this state, the stopper 13b is released and the movement of the wire 11 is not restricted. However, since the wire 11 is tensioned, the floating roof 3 is prevented from swinging due to the tension of the wire 11 from the vertical direction. The device 1 is less likely to swing than the device 1 not attached.

  By the way, since the tank temporarily stores the liquid, the amount of liquid stored in the tank body 2 is increased or decreased by bringing the liquid into the tank body 2 or carrying the stored liquid from the tank body 2. It is. When the liquid is carried from the outside, the floating roof 3 slowly rises horizontally as the stored liquid increases. On the other hand, when the stored liquid is carried out, the floating roof 3 slowly descends horizontally as the stored liquid decreases. At this time, the plurality of pulley rotation speed detecting means (not shown) simultaneously detect the rotation within the predetermined range, so that the stopper 13b is not operated. For this reason, no special work is required for taking in and out the liquid.

  When an earthquake occurs near the location where the tank body 2 is installed, the tank body 2 also swings in accordance with the ground shaking. When the tank body 2 swings in the horizontal direction, the stored liquid stored in the tank body 2 also starts to swing in the horizontal direction. When the storage liquid collides with the side wall 22, the storage liquid flowing in the horizontal direction starts to change direction and rise. When the stored liquid that has risen reaches the liquid level, the stored liquid tries to raise the liquid level and starts to push up the floating roof 3 from below. At this time, each pulley rotation speed detection means (not shown) detects rotation faster than a predetermined speed or detects rotation at different speeds. Then, a control device (not shown) immediately activates all the stoppers 13b to restrict the movement of the wire 11. Then, the floating roof 3 is fixed in the vertical direction, and the floating roof 3 is pulled with sufficient force from below by the wire 11. For this reason, the stored liquid cannot push up the floating roof 3 and changes its direction again. Since the stored liquid is an incompressible fluid, there is no place where the liquid level sinks as long as the floating roof 3 is pushed up and there is no place where the liquid level rises. Therefore, no matter what liquid flow occurs inside the tank body 2, the liquid level is forcibly maintained in a horizontal state, and the floating roof 3 does not tilt. For this reason, an unreasonable force is not applied to each floating roof fixing device 1.

In the above embodiment, a cylindrical single-deck type floating roof tank is used, but the present invention is not limited to this, and may be a tank of another shape such as a quadrilateral, A double deck floating roof may be used.
Moreover, although the direction located inside is fixed to the floating roof among the linear parts of a wire here, you may make it fix an outer side. Alternatively, both ends of the wire may be C-shaped without being connected, and both ends of the wire may be fixed to the upper and lower surfaces of the floating roof without penetrating the floating roof.
Moreover, although the sinker is used to hang the wire on the bottom of the tank, the pulley may be directly fixed to the tank body.
The wire may be passed through the deck without penetrating the pontoon or between the pontoon and the side wall.
Alternatively, a normal pulley may be used instead of the pulley with the stopper 13b, and the stopper 13b may be installed somewhere on the wire 11 to directly press the wire. The support portion 13 may be provided with an inverted L-shaped pole or the like installed outside the tank body 2 and fixed thereto.
Further, the method for fixing the floating roof and the wire is arbitrary, and it is needless to say that other specific detailed structures can be appropriately changed.

It is a cross-sectional view which shows the structure of one Embodiment of the floating roof rocking | fluctuation prevention apparatus to which this invention is applied.

Explanation of symbols

10 Floating roof rocking prevention device 1 Floating roof fixing device 11 Wire (wire)
12 Sinker (lower wire hook)
12a Lower pulley 13 Support part (upper wire rod hanging part)
13a Upper pulley 13b Stopper (braking device)
2 Tank body 21 Bottom panel 22 Side wall 3 Floating roof 31 Deck 32 Pontoon

Claims (8)

A floating roof swing prevention device provided in the floating roof tank,
An upper wire rod hanging portion provided at an upper position of the floating roof of the tank body, a lower wire rod hanging portion provided near the inner bottom of the tank main body, the upper wire rod hanging portion and the lower side supported by the floating roof A floating roof rocking prevention device comprising a plurality of floating roof fixing devices each having a wire rod hung on a wire rod hanging portion and a braking device for regulating movement of the wire rod.   The floating roof swing prevention device according to claim 1, wherein both ends of the wire are connected to form an annular shape.   The floating roof rocking | fluctuation prevention apparatus of Claim 1 or 2 provided with the pulley for moving the said wire smoothly to the said upper wire rod hanging part or the said lower wire rod hanging part.   The floating braking device according to claim 3, wherein the braking device restricts the movement of the wire rod by stopping the rotation of the pulley.   The floating braking device according to any one of claims 1 to 3, wherein the braking device regulates the movement of the wire by directly pressing the wire.   The floating roof swing preventing device according to any one of claims 1 to 5, wherein the lower wire rod hanging portion is a weight installed on the inner bottom.   The floating roof swing prevention device according to any one of claims 1 to 6, wherein the lower wire rod hanging portion is fixed to the tank body.   The floating roof rocking | fluctuation prevention apparatus as described in any one of Claim 1 to 7 with which the hole which lets the said wire rod pass is provided in the said floating roof.