KR20200129415A - Support unit for inner pipe of gas transper line - Google Patents

Abstract

The present invention relates to an inner pipe support unit of a gas transfer pipe, which has a double pipe structure installed between an inner pipe and an outer pipe to support the inner pipe so that the inner pipe can be positioned at the center of the outer pipe. The inner pipe support unit of a gas transfer pipe can support the inner pipe so that the inner pipe can be positioned at the center of the outer pipe in a simple structure by a plurality of elastic support plates that are respectively bent in the same direction and distanced from each other in a circumferential direction to elastically pressurize the inner circumferential surface of the outer pipe, thereby improving installation work efficiency. In addition, the inner pipe support unit of a gas transfer pipe can further improve buffer efficiency on the impact that occurs between the inner and outer pipes by rotatably supporting the inner pipe with respect to the outer pipe by sliding bearings mounted on the elastic support plates. Further, the inner pipe support unit of a gas transfer pipe can be installed at predetermined intervals or continuously in the longitudinal direction of the inner pipe according to the interval between the inner pipe and the outer pipe, or the diameter of the outer pipe, and the lengths of the inner pipe and the outer pipe, thereby increasing application efficiency and being economical.

Description

Support unit for inner pipe of gas transper line

The present invention relates to an inner pipe support unit of a gas transport pipe, and relates to an inner pipe support unit of a gas transport pipe having a double pipe structure that is installed between the inner pipe and the outer pipe to support the inner pipe so as to be positioned at the center of the outer pipe.

In general, natural gas produced at the production site is liquefied at high pressure and cryogenic temperatures (about -160°C) and stored in a liquefied natural gas tank as liquefied natural gas (LNG). And, when the cryogenic liquefied natural gas stored in the liquefied natural gas tank is used as fuel for propulsion or power generation of the ship, the liquefied natural gas is regasified and supplied to the propulsion engine or power generation engine of the ship as gaseous natural gas. do. In more detail, the liquefied natural gas is withdrawn from the liquefied natural gas tank by the operation of the pump and supplied to a vaporizer for regasifying the liquefied natural gas. In addition, the liquefied natural gas is regasified into natural gas by the vaporization device and supplied to the engine. However, when the liquefied natural gas is vaporized in the transmission line between the liquefied natural gas tank and the booster pump in such a fuel supply system for the liquefied natural gas, the pump efficiency is lowered, resulting in a problem of lowering the transmission efficiency of the liquefied natural gas. Therefore, in order to prevent vaporization in the transmission line of the liquefied natural gas, a separate insulation means such as an insulating mat must be installed outside the liquefied natural gas transfer pipeline.

However, the performance of the insulation means decreases as time passes, and there is a problem that it must be replaced periodically.

In order to solve this problem, Taiwanese Patent Publication No. 10-2014-0059620 discloses a structure in which a sealed space between an inner tube and an exterior is formed as a vacuum space or a heat insulating material is filled.

However, when the sealed space between the inner tube and the exterior is formed as a vacuum space, it is not easy to support the inner tube to be located at the center of the exterior, and when filling the sealed space between the inner tube and the exterior with insulation material, the longitudinal direction of the inner tube is changed. Accordingly, since it must be continuously filled, there is a problem in that the cost is increased and manufacturing and installation are not easy.

Republic of Korea Patent Publication No. 10-2014-0059620: Liquefied natural gas transfer pipeline Republic of Korea Patent Publication No. 10-1955553: Pipeline of double pipe structure for gas supply and its manufacturing method

The present invention has been created to solve the above problems, and is installed at predetermined intervals between the inner tube and the exterior to provide an inner tube support unit of a gas transfer tube having a simple structure capable of supporting the inner tube to be located at the center of the exterior. do.

In order to achieve the above object, the inner tube support unit of the gas transfer tube of the present invention is mounted between the inner tube and the exterior of the gas transfer tube to elastically support the inner tube extending along the longitudinal direction of the exterior to be located at the center of the exterior. A clamp unit surrounding the inner tube so that the inner tube extends through the inner tube; One side is coupled to both sides of the clamp unit, and the other side extends in contact with the outer circumferential surface, and is mounted on the clamp unit so as to form a point symmetrical shape around the inner tube to elastically support the inner tube to be located at the center of the exterior. And an elastic support unit including at least one pair of elastic support plates.

The pair of elastic support plates are mounted on one side or the other side of the clamp unit on the diameter line of the inner tube and extend in a direction crossing the radial image with respect to the center of the inner tube, and the first extension Each of the second extension portions extending in a direction bent toward the inner tube with respect to the direction extending from the end of the negative portion to have an arc-shaped curvature to elastically press the inner circumferential side of the outer side, and each of the pair of elastic support plates The first extension parts are side by side but extend in opposite directions, and the second extension parts of the pair of elastic support plates extend in the same direction clockwise or counterclockwise, and the elastic support unit faces the inner circumferential surface of the exterior. It is preferable to include a sliding bearing mounted on each side of the second extension part of the pair of elastic support plates to interview the inner circumferential surface of the outer surface.

The clamp unit includes a plurality of unit clamps facing each other and surrounding the inner tube, and clamping bolts for coupling the plurality of unit clamps, and the elastic support unit includes the second extension part of the elastic support plate. A plate fixing bolt that penetrates the second extension and is coupled to the unit clamp to fix it to the unit; Fixing a plate having a larger area than the plate fixing bolt so that the plate fixing bolt penetrates so as to be positioned between the plate fixing bolt and the elastic support plate and is pressed against the plate fixing bolt to pressurize and fix the position of the elastic support plate It is preferable to further include a reinforcing member.

A plurality of the unit clamps are inserted in the direction of the inner tube at the center side facing each other, and plate receiving grooves open on both sides in the width direction of the inner tube to accommodate the second extension of the elastic support plate, and on both sides of the plate receiving groove It is preferable that flow prevention grooves are formed so as to accommodate flow prevention protrusions protruding from both sides corresponding to the longitudinal direction of the inner tube of the high information steel member covering the second extension of the elastic support plate to accommodate flow prevention protrusions.

The elastic support plate may further include an auxiliary elastic support rib that is bent in the direction of the unit clamp after lancing is processed inside the second extension part to support the unit clamp by contacting the unit clamp.

The inner tube support unit of the gas delivery tube of the present invention is equipped with at least one pair of elastic support plates in a point symmetric shape around the inner tube, so that the inner tube can be supported while buffering the shock transmitted through the radiation image, so the gap between the inner tube and the exterior There is an advantage that it can be kept stable.

In addition, the inner tube support unit of the gas delivery tube of the present invention is bent in the same direction and spaced apart from each other in the circumferential direction, and supports the inner tube to be located at the center of the exterior with a simple structure of a plurality of elastic support plates that elastically press the inner circumference of the exterior There is an advantage that the installation work efficiency can be improved.

In addition, the inner tube support unit of the gas transfer tube of the present invention can support the inner tube rotatably with respect to the exterior by a sliding bearing mounted on the elastic support plate, further improving the buffering efficiency against impacts that may occur between the exterior and the inner tube. There is an advantage that can be.

In addition, the inner tube support unit of the gas transfer pipe of the present invention can be installed at predetermined intervals or continuously installed at predetermined intervals in the longitudinal direction of the inner tube, depending on the distance between the inner tube and the exterior, or the diameter of the exterior, and the length of the inner tube and the exterior. It is highly efficient and has an economic advantage.

1 is a partially cut-away perspective view showing a state in which an inner tube support unit of a gas transfer tube according to an embodiment of the present invention is mounted between the inner tube and the exterior,
2 is an exploded perspective view of the inner tube support unit of FIG. 1,
Figure 3 is a cross-sectional view of the gas delivery pipe of Figure 1,
Figure 4 is a cross-sectional view of the inner tube support unit of Figure 1,
5 is a cross-sectional view of a gas transfer pipe equipped with an inner tube support unit of a gas transfer pipe according to another embodiment of the present invention,
6 is a perspective view of an elastic support piece of the inner tube support unit of FIG. 5.

Hereinafter, with reference to the accompanying drawings will be described in detail for the inner tube support unit of the gas delivery pipe according to a preferred embodiment of the present invention.

The inner tube support unit 10 of the gas transfer tube according to a preferred embodiment of the present invention is between the inner tube 3 and the exterior 2 of the gas transfer tube 10 having a double tube structure consisting of an inner tube 3 and an exterior 2 It is to elastically support the inner tube 3 that is installed and extends along the longitudinal direction of the exterior 2 to be located at the center of the exterior 2.

The inner tube support unit 10 of the gas transfer tube according to a preferred embodiment of the present invention includes a clamp unit 11 surrounding the inner tube 3 so that the inner tube 3 extends through the inside; One side is coupled to both sides in the width direction of the clamp unit 11, and the other side extends in contact with the inner circumferential surface of the outer tube 2, and is mounted on the clamp unit 11 so as to form a point symmetrical shape around the inner tube 3 3) an elastic support unit (21) including at least a pair of elastic support plates (23) for elastically supporting to be positioned at the center of the exterior.

The clamp unit 11 includes a pair of unit clamps 12 facing each other to surround the inner tube 3, and a plurality of clamping bolts 19 for coupling the unit clamps 12.

A pair of unit clamps 12 are each formed in an arc shape so as to cover one or the other side of the outer circumferential surface of the inner tube, and the side facing the outer circumferential surface of the inner tube is drawn in so as to have an arc-shaped curvature corresponding to the outer circumferential surface of the inner tube, and is opened in the longitudinal direction of the inner tube Each is formed. In addition, the pair of unit clamps 12 have a width greater than that of the inner tube 3 located on the inner side facing each other, so that both edges thereof face each other and are formed to be coupled to each other.

2 and 4, the unit clamp 12 includes a coupling bolt through hole having an inner diameter stepped through the inner diameter so that the outer diameter of the clamp coupling bolt 19 can support the extended head at one edge in the width direction. ), and a coupling bolt coupling hole 16 that is screwed with the clamp coupling bolt 19 at the other edge in the width direction.

The coupling bolt through holes 17 are formed on one side of the unit clamp 12 in the width direction and at both ends of the unit clamp 12 in the longitudinal direction. The coupling bolt coupling holes 16 are formed at positions corresponding to the coupling bolt through holes 17 on the other side of the unit clamp 12 in the width direction.

Referring to Figure 4, a pair of unit clamps 12 cover the outer circumferential surface of the inner tube 3 so that the coupling bolt through hole 17 and the coupling bolt coupling hole 16 face each other, and the coupling bolt through hole 17 It is mutually coupled by a clamp coupling bolt 19 which is screwed into the coupling bolt coupling hole 16 through the hole.

In addition, the pair of unit clamps 12 has a plate receiving groove 13 for preventing the flow of the elastic support unit 21, which will be described later, mounted on the convex center side with respect to both edges in the width direction, and a flow preventing groove ( 15) are each formed.

The plate receiving groove 13 is inserted in the direction of the inner tube 3 at the center of the convex outer circumferential surface of the unit clamp 21, but both sides are opened in the width direction of the inner tube 3 so that one end of the elastic support plate 23 is received. Is formed.

The plate receiving groove 13 is the center of the convex outer circumferential surface of the unit clamp 21 so that a plurality of elastic support plates 23 can be mounted at equal intervals in the unit clamp 21 in the longitudinal direction of the unit clamp 21 It is preferable to be formed at regular intervals in the longitudinal direction of the unit clamp 21 on the side.

Referring to FIG. 2, the pair of unit clamps 21 has three plate receiving grooves 13 respectively formed at corresponding positions facing each other, so that the inner tube support unit of the gas delivery pipe according to an embodiment of the present invention Silver three pairs of elastic support plates 23 may be mounted.

In addition, each plate receiving groove 13 is formed with a fixing bolt coupling hole 14 in which a plate fixing bolt 37, which will be described later, of the elastic support unit 21 is screwed on the center side.

The flow preventing groove 15 is a high information steel member (to be described later) of the elastic support unit 21 covering one end of the elastic support plate 23 on both sides of the plate receiving groove 13 at the center of the convex outer circumferential surface of the unit clamp 21 ( 31) is a retracted portion to be accommodated.

On the other hand, the elastic support unit 21 includes three pairs of elastic support plates 23 and each elastic support plate 23 respectively accommodated in each plate receiving groove 13 of the pair of unit clamps 12. (12) To fix the plate to be positioned between the plurality of plate fixing bolts 37, which penetrate the elastic support plate 23 and are coupled to the unit clamp 12, and between the plate fixing bolts 37 and the elastic support plate A plurality of plate high information steel members 31 having a larger area than the plate fixing bolts 37 so that the bolts 37 penetrate and are pressed against the plate fixing bolts 37 to pressurize and fix the position of the elastic support plate 23 It is equipped with.

In addition, the elastic support unit 21 has a plurality of sliding bearings 28 that are coupled to the other side extending to the side adjacent to the inner circumferential surface of the outer circumferential surface 2 of each elastic support plate 23 to interview the inner circumferential surface of the outer circumferential surface 2 do.

Each pair of the elastic support plates 23 is mounted on one side or the other side of the clamp unit 11 on the diameter line of the inner tube 23 and extends in a direction crossing the radial image to the center of the inner tube 3. The first extension part 24 extends in a direction bent toward the inner tube 3 with respect to the direction in which the first extension part 24 extends from the end of the first extension part 24 and the first extension part 24, but extends to have an arc-shaped curvature. Each of the second extensions 26 for elastically pressing the inner peripheral surface side of 2) are provided.

One end of the first extension part 24 is accommodated in the plate receiving groove 13, and a first through hole 25 through which the plate fixing bolt 37 passes is formed at the center side. In addition, a bearing coupling hole 27 through which the coupling protrusion 29 of the sliding bearing 28 to be described later is mounted is formed in the second extension portion 26.

3 and 4, each of the first extensions 24 of the pair of elastic support plates 23 are side by side but extend in opposite directions, and each of the pair of elastic support plates 23 The two extensions 26 are formed to extend in the same direction clockwise or counterclockwise.

The high information steel member 31 is formed to cover the second extension 24 of the elastic support plate 23, and is screwed into the fixing bolt coupling hole 14 of the unit clamp 12. The plate fixing bolt 37 While being pressed, the second extension part 24 of the elastic support plate 23 is in close contact with the unit clamp 12 to increase the coupling force between the elastic support plate 23 and the unit clamp 12.

The high information steel member 31 protrudes away from each other at the center sides of both sides corresponding to the longitudinal direction of the inner tube 3 and is accommodated in the flow prevention groove 15 to prevent the flow prevention protrusions 32 are formed, respectively. In addition, the high information steel member 31 has a second through hole 33 through which the plate fixing bolt 37 passes through the center side.

The plate fixing bolt 37 penetrates the second through hole 33 of the high information steel member 31 and the first through hole 25 of the elastic support plate 23, and the fixing bolt coupling hole of the unit clamp 12 While being screwed to (14), the high information steel member 31 and the elastic support plate 23 are tightly fixed to the unit clamp 12 side.

The sliding bearing 28 is mounted on each side of the second extension 26 of each elastic support plate 23 facing the inner circumferential surface of the outer circumferential surface 2, and the outer circumferential surface is in contact with the inner circumferential surface of the exterior 2 It is formed in an arc shape with an arc-shaped curvature corresponding to the inner circumferential surface of (2). The sliding bearing (28) makes the inner tube (3) rotatable with respect to the exterior (2) and transfers between the outer tube (2) and the inner tube (3). So that the shocks that are generated can be canceled or buffered

The sliding bearing 28 has a receiving groove 28a in which the second extension 26 of the elastic support plate 23 is accommodated, and a coupling protrusion received in the bearing coupling hole 27 at the center of the receiving groove 28a ( 29) is formed.

The material is not limited to the inner tube support unit 10 of the gas delivery pipe according to an embodiment of the present invention, but the sliding bearing 28 is Peek-HPV (Peek: Polyetheretherketone) filled with carbon fiber, graphite, and PTEF. It is preferable that the other components of the elastic support unit 21 of the sliding bearing 28 and the components of the clamp unit are SUS (Stainless Use Steel) applied.

The inner tube support unit 10 of the gas delivery tube according to an embodiment of the present invention is equipped with at least one pair of elastic support plates 23 in a point symmetric shape around the inner tube, so that the inner tube There is an advantage that the gap between the inner tube (3) and the exterior (2) can be stably maintained since it can support.

In addition, the inner tube support unit 10 of the gas delivery tube according to an embodiment of the present invention is concise by a plurality of elastic support plates 23 that are bent in the same direction and spaced apart from each other in the circumferential direction to elastically press the inner circumferential surface of the exterior. As a structure, the inner tube 3 can be supported to be located at the center of the exterior 2, so that installation work efficiency can be improved.

In addition, the inner tube support unit 10 of the gas delivery tube according to an embodiment of the present invention is capable of rotating the inner tube 3 relative to the exterior 2 by the sliding bearing 28 mounted on the elastic support plate 23. Since it can be supported, there is an advantage that the buffering efficiency against the impact that may occur between the outer tube 3 and the inner tube 2 can be further improved.

In addition, the inner tube support unit 10 of the gas transfer tube according to an embodiment of the present invention includes a gap between the inner tube 3 and the outer tube 2, or the diameter of the outer tube 2, and the inner tube 3 and the outer tube 3 ) Depending on the length, it can be installed at predetermined intervals or continuously installed in the longitudinal direction of the inner tube 3, so that the application efficiency is high and there is an economic advantage.

Meanwhile, FIGS. 5 and 6 illustrate an inner tube support unit 110 of a gas transfer tube according to another embodiment of the present invention. Components having the same function as in the drawings shown above are denoted by the same reference numerals.

The inner tube support unit 110 of the gas transfer tube according to another embodiment of the present invention is the same as the structure of the inner tube support unit 10 of the gas transfer tube according to an embodiment of the present invention except for the elastic support plate 123.

After the elastic support plate 123 according to another embodiment of the present invention is processed inside the second extension 23 in the structure of the elastic support plate 23 according to an embodiment of the present invention, the unit clamp 12 ) Is further provided with an auxiliary elastic support rib 131 for supporting the unit clamp 12 in contact with the unit clamp 12 by being bent in the direction.

As the auxiliary elastic support rib 131 is bent in the unit clamp direction, a hole 113 is formed inside the second extension part 23.

The auxiliary elastic support rib 131 is bent from the inside of the second extension 23 to extend in the unit clamp direction, and the outer peripheral surface of the unit clamp 12 at the end of the auxiliary buffer unit 132 It extends to have an arc-shaped curvature corresponding to and includes a clamp support portion 133 for an interview on the outer peripheral surface of the unit clamp 12.

In the inner pipe support unit 110 of the gas transfer pipe according to another embodiment of the present invention, the inner pipe 3 is first elastically supported by the first and second extension parts 24 and 26, and the auxiliary elastic support rib 131 Since the inner tube 3 is secondarily elastically supported, there is an advantage that the inner tube 3 can be supported more stably.

As described above, the inner tube support unit of the gas transfer pipe of the present invention has been described with reference to an embodiment shown in the drawings, but this is only an example, and various modifications and equivalent implementations therefrom are those of ordinary skill in the art. You will understand that an example is possible. Therefore, the true scope of protection of the present invention should be determined only by the appended registered claims.

1: gas transfer pipe 2: exterior
3: inner tube 10: inner tube support unit of the gas transfer tube
11: clamp unit 12: unit clamp
13: plate receiving groove 14: fixing bolt coupling hole
15: flow prevention groove 16: coupling bolt coupling hole
17: coupling bolt through hole 19: clamp coupling bolt
21: elastic support unit 23: elastic support plate
24: first extension 25: first through hole
26: second extension 27: bearing coupling hole
28: sliding bearing 29: coupling protrusion
31: high information steel member 32: flow prevention protrusion
33: second through hole 37: plate fixing bolt

Claims (5)

In the inner tube support unit of the gas transfer tube, which is mounted between the inner tube and the exterior of the gas transfer tube and can elastically support the inner tube extending along the longitudinal direction of the exterior to be located at the center of the exterior,
A clamp unit surrounding the inner tube so that the inner tube extends through the inner tube;
One side is coupled to both sides of the clamp unit, and the other side extends in contact with the outer circumferential surface, and is mounted on the clamp unit so as to form a point symmetrical shape around the inner tube to elastically support the inner tube to be located at the center of the exterior. An inner tube support unit of a gas delivery pipe, comprising: an elastic support unit including at least one pair of elastic support plates. The method of claim 1, wherein the pair of elastic support plates
A first extension part mounted on one side or the other side of the clamp unit on the diameter line of the inner tube and extending in a direction crossing the radial image with respect to the center of the inner tube, and a direction extending from the end of the first extension part Each of the second extensions extending in a direction bent toward the inner tube and extending to have an arc-shaped curvature to elastically press the inner circumferential side of the exterior, respectively,
Each of the first extension portions of the pair of elastic support plates are parallel but extend in opposite directions, and each of the second extension portions of the pair of elastic support plates extend in the same direction clockwise or counterclockwise,
The elastic support unit
An inner tube support unit of a gas transfer pipe, characterized in that it has sliding bearings mounted on each side of the second extension part of the pair of elastic support plates facing the inner circumferential surface of the outer circumference to interview the inner circumferential surface of the outer circumferential surface. The method of claim 2, wherein the clamp unit
A plurality of unit clamps facing each other and surrounding the inner tube, and a clamp coupling bolt for coupling the plurality of unit clamps,
The elastic support unit
A plate fixing bolt coupled to the unit clamp through the second extension part to fix the second extension part of the elastic support plate to the unit clamp;
Fixing a plate having a larger area than the plate fixing bolt so that the plate fixing bolt penetrates so as to be positioned between the plate fixing bolt and the elastic support plate and is pressed against the plate fixing bolt to pressurize and fix the position of the elastic support plate Reinforcing member; Inner pipe support unit of the gas delivery pipe, characterized in that it further comprises. The method of claim 3, wherein the plurality of unit clamps
A plate receiving groove that is inserted in the direction of the inner tube on a central side facing each other and opened at both sides of the width direction of the inner tube to accommodate a second extension of the elastic support plate;
On both sides of the plate receiving groove, the flow prevention grooves protruding from both sides corresponding to the longitudinal direction of the inner tube of the high information steel member covering the second extension of the elastic support plate to accommodate the flow prevention protrusions to prevent flow Inner tube support unit of the gas transfer pipe, characterized in that formed. The method of claim 2, wherein the elastic support plate
An inner tube support unit of a gas transfer pipe, further comprising an auxiliary elastic support rib that is bent in a direction of the unit clamp after being lancing inside the second extension part to support the unit clamp in contact with the unit clamp.

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