KR20180001163U - Leg post having hydraulic control unit - Google Patents

Abstract

Claims [1] A leg post for fixing a load by applying a load to a heat insulating box provided in a hull,
A cylinder chamber provided at a lower portion of the leg post;
A piston installed in the cylinder chamber and slidable upward and downward;
A base plate which is set to have at least a flat surface and is in contact with the heat insulating box to load the heat insulating box to fix the heat insulating box, the base plate being movable according to the movement of the piston; And
And a control unit connected to the cylinder chamber to cause the piston to slide upward or downward when an excessive pressure is detected in the cylinder chamber,
The leg post is initiated.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a leg post having a hydraulic control unit,

The present invention relates to a leg post for fixing a heat insulating box by applying a load to the heat insulating box.

In particular, the present invention relates to a leg post including a hydraulic pressure regulator for detecting an excessive load applied to the heat insulating box and preventing a damage to the heat insulating box from being applied to the heat insulating box by reducing the pressure in the cylinder chamber.

Korean Laid-Open Patent Publication No. 10-2015-0049956 discloses a system scaffold assembly for LNG cargo hold insulation work and an LNG cargo hold module using the same.

LNGC stands for Liquified Natural Gas Carrier and means liquefied natural gas (LNG).

LNG tanks with shut-off structures are installed to maintain high pressure or low temperature to transport naturally occurring non-petrochemical natural gas (more than 90% of methane) in a liquefied state. Because methane has a boiling point of -162 ° C, cryogenic temperatures must be maintained in order to store the liquefied gas in tanks installed onboard

Therefore, the heat insulating box is installed on the hull or the like for the purpose of insulating the tank or the like.

The insulation box receives the load through the leg posts and is stably fixed, and the leg posts are provided with scaffolding for high-level work.

When workers move heavy materials in each layer of the scaffold, an excessive load is applied to the leg posts, and the excessive load is transferred to the heat insulating box as it is, resulting in a problem that the heat insulating box is broken.

In order to replace or repair the insulation box, at least two workers lift the leg posts to form a distance from the insulation box, and then replace or repair the insulation box.

As described above, repairing an insulation box requires a lot of work and troubles such as difficulty in maintenance work.

Therefore, even if the load is moved or moved to the scaffold, excessive load can be prevented from being intensively transmitted to the thermal insulating box supporting the scaffold. There is a need for a leg post.

Korean Patent Laid-open Publication No. 10-2015-0049956 "" System Footplate Assembly for LNG Cargo Hold Work and LNG Cargo Hold Module Using the Same"

The object of the present invention is to provide a leg post in which an excess load is not concentrated in the heat insulating box even when the load or the like is moved from the scaffold installed on the heat insulating box.

The object of the present invention is to provide a leg post which can distribute the load so that an excessive load is concentrated on the heat insulating box through the leg post provided with the hydraulic pressure regulator.

The present invention provides a leg post which can prevent the heat insulating box from being broken by controlling the pressure applied to the heat insulating box to be dispersed when an excessive pressure is applied to the leg post through a control unit having a preset pressure value The purpose is to provide.

It is to be understood that the technical subject matter of the present invention is not limited to the technical subjects mentioned above and that other technical subjects not mentioned can be clearly understood by those skilled in the art from the description below will be.

The leg posts of the present invention may have the same configuration as the conventional leg posts except for the lower structure.

The leg posts of the present invention include a cylinder chamber installed at the bottom; A piston installed in the cylinder chamber and slidable upward and downward; A base plate which is set to have at least a flat surface and is in contact with the heat insulation box to load the heat insulation box to fix the heat insulation box, the base plate being movable according to the movement of the piston; And a hydraulic pressure regulator connected to the cylinder chamber to lower the pressure of the cylinder chamber when the piston is slid upward or downward and an excessive pressure is detected in the cylinder chamber.

Here, the hydraulic pressure regulating unit may include a fluid storage tank in which the fluid is stored; A supply pump connected at one end to the fluid storage tank and connected at the other end to the cylinder chamber to supply fluid to the cylinder chamber; And a pressure reducing valve having one side connected to the fluid storage tank and the other side connected to the cylinder chamber to discharge the fluid into the cylinder chamber.

Here, the leg posts are characterized by being provided with a pressure gauge capable of checking the pressure of the cylinder chamber.

The piston includes a horizontal portion defining the cylinder chamber, a vertical portion extending from one side of the horizontal portion and having a predetermined length and connected to the base plate, and elastic means surrounding the vertical portion are installed around the vertical portion .

Here, the hydraulic pressure regulator includes a control unit, and when the predetermined pressure value of the leg post is set, the control unit operates the pressure reducing valve so that the piston moves upward So that the base plate does not come into contact with the heat insulating box.

Here, the fluid storage tank is characterized in that it is fixed outside the cylinder chamber.

The leg posts according to one embodiment of the present invention formed through the above-described configuration can distribute the loads applied to the heat insulating box through the legs of the hydraulic pressure regulator, thereby preventing breakage of the heat insulating box.

The leg posts according to one embodiment of the present invention formed through the above-described configuration are configured to control the pressure applied to the heat insulating box to be dispersed when an excessive pressure is applied to the leg posts through a control unit having a preset pressure value It is possible to prevent the heat insulating box from being damaged beforehand.

1 is a leg post according to one embodiment of the present invention.
2 is an enlarged view of a part of a leg post according to an embodiment of the present invention.
FIG. 3A shows a scaffold mounted on a leg post and a leg post according to an embodiment of the present invention, and FIG. 3B shows a load applied to the leg post according to an embodiment of the present invention.
FIG. 4A shows a load before lifting the leg post according to an embodiment of the present invention, FIG. 4B shows a load after the leg post according to an embodiment of the present invention is lifted, FIG. Fig. 5 is a view showing an allowable pressure and a load, respectively, before and after lifting the leg posts according to one embodiment of the invention; Fig.

Hereinafter, one embodiment of the present invention will be described in detail with reference to exemplary drawings. However, this is not intended to limit the scope of the present invention.

It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In addition, the size and shape of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms specifically defined in consideration of the configuration and operation of the present invention are intended to illustrate embodiments of the present technology and are not intended to limit the scope of the present invention.

1 is a leg post according to one embodiment of the present invention.

2 is an enlarged view of a part of a leg post according to an embodiment of the present invention.

According to one embodiment of the present invention, the leg posts 1 serve to fix a load by applying a load to the heat insulating box.

In order to insulate the hull, a plurality of hulls are installed on the hull, the leg posts 1 are installed on the upper part of the heat insulating box, and a scaffold for high-level work is installed on the upper part of the leg posts 1.

The leg posts 1 support the scaffold and are spaced apart from one another along a set line.

In the scaffold, workers can carry the load, and in this case, the load is concentrated on the specific leg post 1, and an excessive load is concentrated on the heat insulating box and may be broken.

The above-described problem may arise at the corner side of the scaffold in which the cargo is installed and installed as an example.

Therefore, the leg posts 1 according to one embodiment of the present invention can be installed at portions that are routinely broken at the corner side of the scaffold.

The leg post 1 according to one embodiment of the present invention may include a cylinder chamber 10, a piston 20, a base plate 30, and a hydraulic pressure regulating portion 40.

The cylinder chamber (10) is installed at the lower part of the leg post (1).

A flange portion is formed at a lower portion of the leg post 1.

A flange portion is formed on the upper portion of the cylinder chamber 10.

The cylinder chamber 10 can be fixed to the lower portion of the leg post 1 while the flange portion formed at the lower portion of the leg post 1 and the flange portion formed at the upper portion of the cylinder chamber 10 abut against each other.

In the cylinder chamber 10, a space is formed, and this space can be defined by the piston 20.

Referring to FIG. 2, the inner space of the cylinder chamber 10 is partitioned by the horizontal portion 21 of the piston 20, which will be described later.

The fluid can be supplied or discharged to any one of the divided spaces.

The piston 20 can be moved in accordance with the supply and discharge of the fluid in the divided space.

The inner space of the cylinder chamber (10) has a length set so that at least the piston (20) can be slidably moved.

In the cylinder chamber 10, a hole is formed at one side, and the piston 20 may be exposed to the outside.

The piston 20 is installed inside the cylinder chamber 10 so as to be slidable upward and downward.

The piston 20 is composed of a horizontal portion 21 and a vertical portion 22.

As described above, the horizontal portion 21 of the piston 20 divides the space of the cylinder chamber 10 and is slid according to the hydraulic pressure.

The vertical portion 22 of the piston 20 has a predetermined length and is formed to extend from one side of the horizontal portion 21.

2, the vertical portion 22 is formed to extend from the center of the horizontal portion 21. As shown in FIG.

Therefore, the vertical part 22 also moves up and down the vertical part 22 as the horizontal part 21 moves upward and downward.

Here, according to the embodiment, the vertical portion 22 of the piston 20 may be provided with an elastic means to surround the circumference.

That is, the elastic means is formed in such a manner as to surround the vertical portion 22 between the horizontal portion 21 and the vertical portion 22 and between the horizontal portion 21 and the hole in which the piston 20 is installed .

Here, the elastic means transmits an elastic force to the piston 20 according to the oil pressure in the space defined by the horizontal portion 21, so that the piston 20 can be elastically moved upward or downward according to the oil pressure.

One side of the vertical portion 22 of the piston 20 may be connected to the horizontal portion 21 and the other side thereof may be connected to the base plate.

One side of the base plate 30 is connected to the vertical portion 22 of the piston 20 and the other side thereof can come into contact with the heat insulating box as the piston 20 moves. Therefore, the base plate 30 is also slidably moved as the piston 20 slides.

The base plate 30 is set to have a flat one surface.

Here, one surface of the base plate 30 serves to distribute the load applied to the heat insulating box by the leg posts 1. [

The pressure gauge 50 is capable of checking the pressure of the cylinder chamber 10.

The pressure gauge 50 can measure the pressure in the space where the fluid is stored in the space partitioned by the horizontal portion 21 of the piston 20 in the cylinder chamber 10. [

The hydraulic pressure regulator 40 is connected to the cylinder chamber 10 and serves to slide the piston 20 upward or downward.

Therefore, the hydraulic pressure regulating portion 40 is connected to the space partitioned by the horizontal portion 21 of the piston 20 in the cylinder chamber 10.

The hydraulic pressure regulator 40 is connected to the cylinder chamber 10 and functions to lower the pressure of the cylinder chamber 10 when an excessive pressure is detected in the cylinder chamber 10.

Referring to FIG. 2, lowering the pressure of the hydraulic pressure regulator 40 moves the piston 20 upward, and the movement of the piston 20 in the upward direction causes the base plate 30 to move upward And finally the base plate 30 and the heat insulating box are not in contact with each other.

The hydraulic pressure regulator 40 includes a fluid storage tank 41, a supply pump 42, a pressure reducing valve 43, and a controller 44.

The fluid storage tank 41 is a tank for storing the fluid supplied to and discharged from the space of the cylinder chamber 10. [

The supply pump 42 has one side connected to the fluid storage tank 41 and the other side connected to the cylinder chamber 10. The supply pump 42 serves to supply the fluid stored in the fluid storage tank 41 to the cylinder chamber 10.

The pressure reducing valve 43 has one side connected to the fluid storage tank 41 and the other side connected to the cylinder chamber 10. The pressure reducing valve 43 serves to move the fluid stored in the cylinder chamber 10 to the fluid storage tank 41.

The preset pressure of the control unit 44 is set.

The control unit 44 is connected to the pressure gauge 50, the feed pump 42, and the pressure reducing valve 43.

The control unit 44 operates the supply pump 42 and the pressure reducing valve 43 in accordance with the predetermined pressure.

That is, when a pressure higher than a predetermined pressure is applied, the decompression valve 43 is operated to decompress the pressure in the cylinder chamber 10.

And accurately controls the movement of the base plate 30 in accordance with the control operation of the control unit 44.

That is, the control unit 44 forms a distance between the base plate 30 and the heat insulation box, so that the leg posts 1 can no longer apply a load to the heat insulation box.

In the embodiment, when the load is transferred from the scaffold provided on the upper part of the leg post 1, the space of the cylinder chamber 10 becomes narrower depending on the load at the upper part of the leg post 1, Is measured by the pressure gauge (50).

In this case, the control unit 44 receives the pressure measured by the pressure gauge 50 and compares it with a preset pressure value. The controller 44 operates the decompression valve 43 to depressurize the pressure in the cylinder chamber 10 so that the base plate 30 can also move the piston 20 As shown in Fig.

The control unit 44 operates the supply pump 42 to increase the pressure in the cylinder chamber 10 and move the piston 20 downward so that the base plate 30 It is to be held in contact with the insulation box.

According to another embodiment of the present invention, the fluid storage tank 41 may be fixed to the outside of the cylinder chamber 10 as a tank for storing a small amount of fluid.

According to another embodiment of the present invention, the supply pump 42 and the pressure reducing valve 43 may be manufactured to be miniaturized and fixed to the outer surface of the cylinder chamber 10.

The leg posts 1 according to one embodiment of the present invention formed through the above-described configuration are configured to avoid a concentrated load applied to the heat insulating box by the base plate 30 as the piston 20 moves.

However, if the above-described operation serves to distribute the load concentrated on any one of the heat insulating boxes, there arises a problem if the remaining heat insulating boxes receive loads exceeding the allowable values.

It is necessary to examine whether such a problem occurs in the above operation.

FIG. 3A shows a scaffold mounted on a leg post and a leg post according to an embodiment of the present invention, and FIG. 3B shows a load applied to the leg post according to an embodiment of the present invention.

As shown in the drawing, a scaffold is provided on the upper portion of the leg post 1.

In FIG. 3B, it can be confirmed that the additional leg posts are installed, which is installed so that the scaffold can be additionally and stably supported in order to prevent problems that may occur in the scaffold when the leg posts are raised.

The heat insulating box is broken at regular intervals on the corner portion of the scaffold, such that the heat insulating box or the leg post 1 is broken through the above operation, check whether the load applied to the leg post 1 itself is abnormal or the like.

Here, the pressure applied to the heat insulating box is such that when the base plate 30 of all the leg posts 1 abuts against the heat insulating box and when one of the leg posts 1 does not come in contact with the heat insulating box through the operation of the above- .

In addition, here, Unity check is examined through whether or not the following equation is satisfied.

Here, what is described in the molecule is the actual stress of the leg post 1, and what is described in the molecule is the allowable stress.

f _a is the actual applied stress, f _dx is the stress along the major axis bending, f _dy is the stress along the minor axis bending, and F _a , F _dx , and F _dy are the allowable degrees .

That is, it is an evaluation criterion that can check the load applied to the leg post.

FIG. 4A shows a load before lifting the leg post according to an embodiment of the present invention, FIG. 4B shows a load after the leg post according to an embodiment of the present invention is lifted, FIG. Fig. 5 is a view showing an allowable pressure and a load, respectively, before and after lifting the leg posts according to one embodiment of the invention; Fig.

As a result of the analysis, a pressure of 5 bars or less was applied to each of the heat insulating boxes other than the heat insulating box operated so that the base plate 30 did not abut, and a value of 0.78 was also derived through the unity check, A value similar to that obtained when the upper half 30 was not lifted was derived.

That is, even if one of the leg posts 1 is lifted, the load applied to the other leg posts 1 increases, but it is confirmed that the load increases within a safe range.

Although the present invention has been shown and described with respect to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit of the invention, which is provided by the following claims Will be apparent to those of ordinary skill in the art.

1: Leg post 10: Cylinder room
20: piston 21:
22: vertical portion 30: base plate
40: Hydraulic regulator 41: Fluid storage tank
42: feed pump 43: pressure reducing valve
44: control unit 50: pressure gauge

Claims (6)

Claims [1] A leg post for fixing a load by applying a load to a heat insulating box provided in a hull,
A cylinder chamber provided at a lower portion of the leg post;
A piston installed in the cylinder chamber and slidable upward and downward;
A base plate which is set to have at least a flat surface and is in contact with the heat insulating box to load the heat insulating box to fix the heat insulating box, the base plate being movable according to the movement of the piston; And
And a control unit connected to the cylinder chamber to cause the piston to slide upward or downward when an excessive pressure is detected in the cylinder chamber,
Lt; / RTI > The method according to claim 1,
The hydraulic pressure regulator includes:
A fluid storage tank in which fluid is stored;
A supply pump connected at one end to the fluid storage tank and connected at the other end to the cylinder chamber to supply fluid to the cylinder chamber; And
A pressure reducing valve that is connected to one side of the fluid storage tank and the other side of which is connected to the cylinder chamber to discharge the fluid into the cylinder chamber,
Including
Wherein the leg post is characterized by: 3. The method of claim 2,
The leg-
Equipped with a pressure gauge capable of checking the pressure in the cylinder chamber
Wherein the leg post is characterized by: 3. The method of claim 2,
The piston,
A horizontal portion for partitioning the cylinder chamber
And a vertical portion extending from one side of the horizontal portion with a predetermined length and connected to the base plate,
And an elastic means surrounding the vertical portion is provided around the vertical portion
Wherein the leg post is characterized by: The method according to claim 2 or 4,
The hydraulic pressure regulator includes a control unit,
Wherein when the predetermined pressure value of the leg post is set and the cylinder chamber is detected to have a predetermined pressure value or more,
The pressure reducing valve is operated to move the piston upward so that the base plate does not come into contact with the heat insulating box
Wherein the leg post is characterized by: 3. The method of claim 2,
The fluid storage tank may include:
Wherein the cylinder block is fixedly installed outside the cylinder chamber.

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