KR101477934B1 - Opening and Closing Type Overflow Pipe Cover - Google Patents

Abstract

The present invention relates to an openable cover for an overflow pipe which interrupts air flow from or to a tank by closing the overflow pipe at regular times, allows overflow by opening the overflow pipe by hydraulic pressure when a level of the tank is raised above an allowable range, and closes the overflow pipe when the level is again decreased within the allowable range. According to the present invention, an openable cover (1) for an overflow pipe includes: an outer frame (10) forming an outer framework; a division frame (20) which divides the inner space of the outer frame (10) into a pair of left and right openings (21); a bearing (30) provided on the division frame (20) or the outer frame (10) between two openings (21); an openable plate (40) having a pivot shaft (41) formed on one side pivotally mounted on the bearing (30), and pivoting around the pivot shaft (41) to open or close each of the openings (21); and a sealing mechanism (50) having a rotation shaft (51) rotatably installed in the division frame (20) between the openings (21), a spring (53) to apply a resilient force to the rotation shaft (51) toward the division frame (20) between the openings (21), and a pair of opening/closing link (54) having one end pivotally fixated to the openable plate (40) and the other end pivotally fixated to the rotation shaft (51) wherein an engaging angle to the rotation shaft (51) is varied as the distance between the rotation shaft (51) and the division frame (20) is changed, thereby pushing or pulling the openable plate (40) and thus opening or closing the opening (21). The sealing mechanism (50) applies the force to the openable plates (40) to push the corresponding openings (21) in a closing direction.

Description

[0001] Opening and Closing Type Overflow Pipe Cover [0002]

More particularly, the present invention relates to an overflow pipe cover, and more particularly, to an overflow pipe cover, which normally blocks the overflow pipe to block the movement of air into and out of the tank structure. When the water level of the tank structure rises above the allowable range, To overflow by opening the overflow pipe, and to close the overflow pipe when the water level falls again within the allowable range.

If the water level of the stored fluid exceeds the permissible range, an overflow pipe for discharging the excess fluid to the outside can be installed in various tank structures. In the normal situation where the water level is within the allowable range according to the use environment of the tank structure, When the water level of the tank structure rises above the allowable range, the overflow pipe is opened so that the overflow occurs. If the water level falls within the allowable range, the overflow pipe is overflowed. In some cases, it is necessary to control the closing of the furnace tube. An example of such an environment is the Refueling Water Storage Tank (IRWST) of a nuclear power plant.

Therefore, the cover provided on the overflow pipe of the illustrated recharge watertight tank is designed so that the overflow pipe is normally closed to prevent air from flowing into and out of the tank, and when the water level of the tank rises above the allowable range, Overflow is allowed, and when the water level falls within the allowable range, it is necessary to again operate the overflow pipe to seal the air to prevent air from flowing into and out of the tank. However, up to now, no overflow tube cover has been developed which can function in the same environment as the overflow tube of the recharging tank.

SUMMARY OF THE INVENTION An object of the present invention is to provide a waterproof structure capable of preventing air from moving into and out of a structure (for example, a recharge water tank of a nuclear reactor containment structure) by closing an overflow pipe at normal times, To allow overflow by opening the overflow pipe by the opening of the overflow pipe, and to close the overflow pipe when the water level of the structure falls again within the allowable range.

SUMMARY OF THE INVENTION An object of the present invention is to provide an air conditioner which can maintain a good closed state such that air movement inside and outside of a structure can be effectively blocked in a normally closed state and when a tank level rises above a permissible range and needs to be solved, And to return to a good hermetically closed state when the water level falls within an allowable range, thereby providing an openable overflow pipe cover.

According to the present invention, there is provided an openable overflow pipe cover.

The retractable overflow pipe cover of the present invention includes an outer frame, a partition frame, a bearing, an opening and closing plate, and an airtight mechanism.

The outer frame is a frame member that forms a whole outer frame.

The partition frame is a frame member that divides the inner space of the outer frame into at least one pair of left and right through holes.

The bearing is a bearing member formed in the partitioning frame or the outer frame between the two pairs of the openings.

The opening / closing plate is a plate-like member that is pivotally mounted on one side of a pivotal shaft and pivotable about the pivotal axis to open / close each of the openings.

Wherein the closing mechanism includes a rotation shaft provided rotatably above the partitioning frame between the pair of openings, a spring for applying an elastic force to pull the rotation shaft toward the partitioning frame between the pair of openings, And the other end is rotatably fixed to the rotary shaft, and as the distance between the rotary shaft and the partition frame is changed, the angle of engagement with the rotary shaft is varied while pulling and pushing the opening and closing plate, And a force is applied to seal the opening corresponding to the pair of open / close plates.

The outer frame or the partition frame between the openings may be provided with a stopper that restricts the opening / closing plate from opening beyond a predetermined angle.

The spring may be a band spring having one end fixed to the partition frame between the openings wound on the rotary shaft and the other end paired and having an elastic force toward the rotary shaft.

As the spring, a constant-streak spring that applies a constant elastic force to the entire section from the closed state to the fully opened state can be used.

The opening and closing type overflow pipe cover according to the present invention is characterized in that it comprises a first sealing plate which is provided on the partition frame and which surrounds the opening so as to protrude from the opening by a predetermined width and a second sealing plate provided on the opening and closing plate, The protruding portion of the first sealing plate and the protruding portion of the protruding portion of the second sealing plate may be separated from each other with the opening being closed by the opening and closing plate, So that the opening is sealed by the opening / closing plate.

The openable overflow pipe cover according to the present invention closes the overflow pipe at normal times to block air from moving into and out of the structure. When the water level of the structure rises above the allowable range, the overflow pipe is opened by water pressure, If the water level falls again within the permissible range, the overflow pipe is closed. In this way, the overflow can be realized quickly while the air flow is reliably blocked in the closed state while the water level exceeds the allowable range.

Further, in the retractable overflow pipe cover of the present invention, in a state in which the opening and closing plate is closed, the first sealing plate on the side of the partitioning plate and the second sealing plate on the side of the opening and closing plate are in surface contact with each other By realizing sealing, sealing of the opening by the opening / closing plate is more reliably realized.

1 is a closed perspective view of an exemplary retractable overflow tube cover of the present invention,
2 is an exploded perspective view of an exemplary retractable overflow tube cover of the present invention,
Figure 3 is a front view of an exemplary retractable overflow tube cover of the present invention,
Figure 4 is a perspective view of an exemplary enclosure applied to the present invention,
5 is a closed longitudinal section view of an exemplary retractable overflow tube cover of the present invention.
6 is an open state longitudinal section of an exemplary retractable overflow tube cover of the present invention.

Hereinafter, the retractable overflow pipe cover of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are merely illustrative of the cover of the present invention, and the scope of the present invention is not limited thereto.

The retractable overflow pipe cover 1 according to the present invention is a cover provided on an overflow pipe of a tank structure such as a recharging water tank of a nuclear reactor containment structure, for example. As shown in Figs. 1 to 6, An outer frame 10, a frame 20, a bearing 30, an opening / closing plate 40, and an airtight mechanism 50. [

In the description of the overflow pipe cover 1 of the present invention, "inside" refers to the inside (upper side in FIG. 5) of the overflow pipe for installing the cover 1 of the present invention, (The lower side in Fig.

The outer frame 10 is a frame member for forming an outer frame for installing the components constituting the present invention and for fixing the cover 1 of the present invention to the overflow pipe .

The embodiments shown in Figs. 1 to 6 are examples in which upper and lower transverse frames and right and left vertical frames are assembled in a rectangular shape penetrating the inside and the outside frame 10 according to the size of the overflow pipe. The outer frame 10 can be formed by pressing, welding and / or bolting a steel sheet having an appropriate thickness. The outer frame 10 has a constant width W in the inner and outer directions to provide a space in which the opening and closing plate 40 can be opened and closed.

The partitioning frame 20 divides the inner space of the outer frame 10 into the openings 21 corresponding to the number of the openings and closings 40 by one or more pairs of openings 21, Frame member.

The partition frame 20 of the illustrated embodiment is an example in which the outer frame 10 is partitioned into left and right portions so that a pair of left and right openings 21 are formed so that a pair of open / close boards 40 can be mounted laterally . The dividing section of the outer frame 10 by the dividing frame 20 can be appropriately selected in accordance with the size of the overflow pipe in which the cover 1 of the present invention is installed. For example, It is natural that other arrangements such as two pairs of left and right, three pairs of left and right, etc. may be formed.

The bearing 30 is formed so as to face upward and downward in the partitioning frame 20 or the outer frame 10 between the pair of left and right openings 21 and is supported by the upper and lower rotary shafts 40, For example, in the form of a sleeve bearing shown in the figures.

In the illustrated embodiment in which the openings 21 are symmetrically formed in a pair, the upper and lower right and left openings 21 of the left opening 21 are provided adjacent to the partition frame 20, The bearings 30 can be respectively installed on the upper and lower sides of the left side of the frame 21 and the bearings 30 can be appropriately fixed to the partition frame 20 and / or the outer frame 10 by means of bolts and / or welding .

The opening / closing plate 40 is a plate-shaped member of a unit size that opens and closes each opening 21 in the cover 1 of the present invention. Therefore, the number of the open / close boards 40 corresponds to the number of the openings 21.

Each of the opening and closing plates 40 is provided with a pivot 41 on the upper and lower sides thereof. Therefore, when the upper and lower rotary shafts 41 are rotatably mounted on the upper and lower bearings 30 at the corresponding positions, each of the openable and closable plates 40 rotates leftward or rightward inward or outward around the right or left rotary shaft 41 The corresponding opening 21 is hermetically closed and the corresponding opening 21 is opened when the opening and closing plate 40 is turned toward the outside.

The closing mechanism 50 is a mechanism for applying an elastic force to the side in which the pair of opening / closing plates 40 seal the respective openings 21 corresponding thereto. The closing mechanism 50 provided for each of the pair of opening and closing plates 40 includes one rotating shaft 51, a spring 53 and two left and right opening and closing links 54 in principle.

The rotary shaft 51 is a shaft member rotatably installed above the partition 20 between the two pairs of openings 21. The rotary shaft 51 is rotatably installed above the partition frame 20 by an opening / closing link 54 which will be described later. The distance between the rotary shaft 51 and the partition frame 20 varies within a certain range in accordance with the operation of the closing mechanism 50, as will be described later.

The spring 53 urges the elastic force toward the direction of pulling the rotary shaft 51 toward the partitioning mold 20 between the pair of openings, that is, the distance between the rotary shaft 51 and the partitioning mold 20 In other words, the opening / closing plate 40 exerts an elastic force toward the opening 21.

The spring 53 applied to the present invention is not particularly limited as long as it can apply an elastic force to the rotary shaft 51 and the partition frame 20 in a state in which no external force is applied, such as a band spring or a coil spring.

4 to 6, one end of the spring 53 is wound on the rotary shaft 51 and the other end is fixed to the partitioning frame between the pair of openings. The spring 53 is wound on the rotary shaft 51 A band spring 53 (hereinafter referred to as the same spring as that of the spring) having an elastic force can be used. At this time, one strip spring 53 may be used, or two strip springs 53 may be vertically and horizontally applied as shown in the figure.

When two band springs 53 are applied on the upper and lower sides of one rotary shaft 51, they can be formed to be wound in the opposite direction to the rotary shaft 51, not in the same direction (see FIG. 4) The spring 53 is set to be wound in the opposite direction so that when the pair of open / close boards 40 are opened and closed, both the open / close boards 40 are biased toward one side so that they can be opened and closed at the same opening / It is useful for.

One end of the band spring 53 is wound around the rotary shaft 51 and the other end is fastened to the partition frame 20 between the two pairs of openings 21 by fastening the fastener 53a with bolts or the like . The belt springs 53 are wound around the rotary shaft 51 by the elastic force of the belt springs 53. At this time, the rotary shaft 51 is as close as possible to the partition frame 20, 51 are gradually moved away from the partition frame 20, the strip spring 53 overcomes the elastic force and gradually loosens at the rotary shaft 51. [

The strip spring 53 is a constant spring that keeps the elastic force applied to the side of closing the opening / closing plate 40 constant from the closed state of the open / close board 40 to the fully opened state, The elasticity of the strip spring 53 which is closer to the closing plate 40 can be maintained uniformly without increasing gradually as the opening angle of the opening and closing plate 40 is increased, The opening and closing plate 40 can be opened more smoothly by the internal pressure of the structure.

The open / close link 54 is a link member that transmits the elastic force of the spring 53 to the open / close board 40 on both sides and transmits an external force (water pressure) applied to the open / close board 40 to the spring 53, 40, one end of each opening / closing link 54 is rotatably fixed to the corresponding opening / closing plate 40, and the other end of the opening / closing pink 54 is rotatably attached to the rotating shaft 51 .

The method of rotatably coupling the opening / closing link 54 to the opening / closing plate 40 and the rotating shaft 51 is not particularly limited. 3 and 4, the bracket 54a is fixed to the opening / closing plate 40 and the shaft 54b is rotatably mounted on the bracket 54a, so that one end of the opening / closing link 54 The shaft 54b is inserted into the shaft hole 54c formed in the shaft 54c so that one end of the opening and closing link 54 is rotatably fixed to the opening and closing plate 40 while the shaft hole 54c The other end of the opening / closing link 54 can be rotatably fixed to the rotary shaft 51 by inserting the rotary shaft 51 into the rotary shaft 51.

In the illustrated embodiment, the left and right open / close links 54 are formed by two rods arranged in parallel at regular intervals in the up and down direction to support the rotary shaft 51 in a balanced manner, but are not limited thereto.

In order to allow the strip spring 53 to be smoothly wound on the rotary shaft 51 and to allow the opening and closing link 54 to rotate smoothly on the rotary shaft 51 and the shaft 54b, The washer 52, the ring, or the like can be appropriately mounted at a necessary position of the shoulder 54b.

According to the above-described sealing mechanism 50, the pair of left and right open / close boards 40 and the two left and right open / close links 54 connected thereto are arranged in a single rhombic shape, and at the four corners of the rhombus The rotating shaft 41 of the opening and closing plate 40 and the rotating shaft 51 of the opening and closing mechanism 50 and the shaft 54b of both opening and closing links 54 are connected by a rotatable coupling. The angle of the cabinet can be varied and the spring 53 connected between the rotary shaft 51 and the partition frame 20 corresponds to one diagonal line of the rhombus.

As the distance between the rotary shaft 51 and the partition frame 20 changes, that is, in the illustrated embodiment, the band spring 53 is loosened and wound around the rotary shaft 51, Closing link 54 opens and closes the opening 21 by pushing and pushing the opening / closing plate 40 while the angle of engagement (interior angle) with respect to the opening / closing plate 51 is variable. In this state, since the band spring 53 provides an elastic force toward the winding shaft 51, the two open / close links 54 are in a state in which the internal angle between the two open / close links 54 is maximized, So that the opening / closing plate 40 closes the opening 21 by maintaining the state where the opening / closing plate 40 is pivoted to the inside of the overflow pipe as much as possible.

According to the above-described retractable overflow pipe cover 1 according to the present invention, when the water level of the structure is maintained within the permissible range, the opening / closing plate 40 is opened by the action of the closing mechanism 50 The water level of the structure rises above the allowable range and the hydraulic pressure starts to act from the inner side to the outer side and the magnitude of the hydraulic pressure can overcome the elastic force of the spring 53 The opening and closing plate 40 starts to open the opening 21 when the left or right side of the opening and closing plate 40 rotates about the pivot axis 41 to the outside and the overflow opens the opening 21 ) From the inside to the outside.

When the open / close plate 40 rotates outwardly from the closed state and starts to open, the two open / close links 54 gradually decrease in the internal angle therebetween so that the rotation axis 51 is spaced from the divisional frame 20 And the increase of the diagonal length is accommodated by the strip spring 53 being released from the rotary shaft 51 in the illustrated embodiment.

When one of the two opening / closing plates 40 opens asymmetrically without being opened at the same angle and the other opening / closing plate 40 is opened at an angle of 90 degrees or more, the opening / closing plate 40, which is excessively opened, It is necessary to prevent the opening and closing plate 40 from being excessively opened beyond a certain angle because the drainage through the opening 21 may be obstructed. To this end, the outer frame 10 or the partition frame 20 may be provided with a stopper 55 for restricting the opening / closing plate 40 from opening more than a predetermined angle.

The mounting position and the shape of the stopper 55 are not particularly limited as long as the maximum opening angle of the both side cover plate 40 can be limited. The stopper 55 is protruded from the outer frame 10 to open the opening and closing plate 40 at the same angle to the position where the opening and closing plate 40 is in contact with the stopper 55. [

When the overflow progresses due to the opening of the opening / closing plate 40 and the water level of the structure is lowered, the water pressure applied to the opening / closing plate 40 is lowered. When the elastic force of the spring 53 is greater than the water pressure, The silver wire 53 is gradually wound around the rotary shaft 51 by the elastic force and the diagonal length between the rotary shaft 51 and the partition frame 20 is gradually shortened and the internal angle between the two opening and closing links 54 is gradually increased Thus, the opening / closing link 54 rotates the opening / closing plate 40 inward. When the water pressure is lower than a certain level, the opening / closing plate 40 seals the opening 21 again.

The opening angle of the opening and closing plate 40 depends on the water pressure applied from the inside of the structure to the outside and the magnitude of the elastic force of the spring 53 and the like.

The use environment of the cover 1 according to the present invention is not necessarily, but is an environment that satisfactorily shields the flow of air and water inside and outside the structure.

In order to minimize leakage of air and water, the cover 1 of the present invention may include a first sealing plate 60 and a second sealing plate 70. For example, a rubber plate or the like can be used as the first sealing plate 60 and the second sealing plate 70, which is excellent in airtightness when the first sealing plate 60 and the second sealing plate 70 are in surface contact with each other.

The first sealing plate 60 is formed of, for example, a seamless tubular rubber plate penetrating through the center thereof. The first sealing plate 60 is installed in the partition frame 20, and the opening 21 is surrounded by the opening 21 so as to protrude by a predetermined width have. 2, the first sealing plate 60 corresponding to the outer shape of the opening 21 is placed on the partition frame body 22 serving as the frame of the partition frame 20, and a fixing table 23 And the first sealing plate 60 is fastened to the partition frame 20 by fastening it with bolts 62.

For example, the second sealing plate 70 may be formed as a seamless plate, and may be installed on the opening / closing plate 40 so as to protrude a predetermined distance around the opening / closing plate 40. 2, a second sealing plate 70 having a size larger than that of the second sealing plate 70 is placed on the opening / closing plate 42 serving as a skeleton of the opening / closing plate 40, and a fixing plate 43 And the second sealing plate 70 is mounted on the opening / closing plate 40 by fastening the bolts 72 with the bolts 72. [

The protruding portion 61 of the first sealing plate 60 provided in the partitioning mold 20 and the second sealing plate 70 provided on the opening and closing plate 40 in the state in which the opening 21 is closed by the opening / closing plate 40 The protruding portions 71 of the protruding portions 71 overlap with each other over a predetermined width and are in a superimposed state. The opening / closing plate 40 can seal the opening 21 more reliably by the surface contact of the overlaid portions.

When the first sealing plate 60 and the second sealing plate 70 are installed on the partition plate 20 and the opening and closing plate 40 using the bolts 62 and 72 respectively, The use of bolts having constant height jaws 62a and 72a can prevent the sealing plates 60 and 70 from being partially excessively pressed due to tightening of the bolts to cause bending, The sealing performance by the plates 60 and 70 can be prevented from being lowered.

When the cover 1 according to the present invention as described above is applied, the amount of air leakage inside and outside the structure is 0.5 CFM / ft ² or less with the opening 21 closed by the opening / closing plate 40, The inflow amount is 40 ml / min / m or less at the water head pressure of 300 mm from the top of the opening / closing plate 40, which is extremely good.

1: Cover 10 of the present invention: Outer frame
20: partitioning frame 21; Opening
30: bearing 40: opening / closing plate
41: Pivot shaft 50: Closing mechanism
51: rotating shaft 52: washer
53: spring (belt spring) 54: opening / closing link
55: stopper 60: first sealing plate
61. 71: protrusion 62, 72: bolt
70: second sealing plate

Claims (4)

An outer frame (10) forming an outer frame;
A partitioning frame (20) dividing the inner space of the outer frame (10) into at least one pair of left and right through holes (21);
A bearing 30 formed in the partition frame 20 or the outer frame 10 between the two pairs of the openings 21;
An opening / closing plate (40) rotatably mounted on the bearing (30) and rotatable about the rotating shaft (41) to open / close each of the openings (21); And
A rotary shaft 51 rotatably installed above the partitioning frame 20 between the openings 21 forming the pair and the partitioning frame 20 between the openings 21 forming the pair of rotation shafts 51, And one end of the spring 53 is rotatably fixed to the opening and closing plate 40 and the other end of the spring 53 is rotatably fixed to the rotary shaft 51. The rotary shaft 51 and the partition 20 are fixed to each other, And a pair of open / close links (54) for opening and closing each of the openings (21) by pulling and pushing the open / close board (40) while varying the angle of engagement with the rotary shaft (51) A sealing mechanism 50 for applying a force to the opening 21 to seal the opening / closing plate 40; Wherein the cover includes an openable cover. The method according to claim 1,
Wherein a stopper (55) is provided on the outer frame (10) or the partition frame (20) between the openings (21) to restrict the opening / closing plate (40) Root cover. The method according to claim 1,
The spring 53 is fixed to the partition frame 20 between the openings 21 having one end wound on the rotary shaft 51 and the other end paired and the spring 53 is wound on the rotary shaft 51 Wherein the cover is a strip spring. 4. The method according to any one of claims 1 to 3,
A first sealing plate 60 installed in the partition frame 20 and provided around the opening 21 so as to protrude from the opening 21 by a predetermined width and a second sealing plate 60 installed on the opening and closing plate 40, Further comprising a second sealing plate (70) protruding by a predetermined width around the plate (40);
The protruding portion 61 of the first sealing plate 60 and the protruding portion 71 of the protruding portion 71 of the second sealing plate 60 are closed with the opening 21 closed by the opening / closing plate 40 And the opening (21) is sealed by the opening / closing plate (40) by surface contact.

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