KR101997542B1 - A Guide Pipe of Heating Medium for Helideck Plank - Google Patents

Abstract

The present invention relates to a heat medium induction pipe for a helideck plank and, more specifically, to a heat medium induction pipe which forms a flow path to accommodate a heat medium therein for safe takeoff and landing of a helicopter, and is installed on a helideck plank to prevent freezing of a helideck. The present invention comprises: a plate-shaped bottom portion forming a lower surface of the heat medium induction pipe; a plate-shaped upper end portion which forms an upper surface of the heat medium induction pipe and has an uneven portion formed on the upper surface thereof to improve frictional force; a sidewall portion extending upwardly from both ends of the bottom portion to both ends of the upper end portion; and a coupling portion having a fixing groove recessed in an inner direction of the heat medium induction pipe on the sidewall portion, wherein a flow path is hollowed in the longitudinal direction to accommodate the heat medium therein.

Description

A Guide Pipe of Heating Medium for Helideck Plank}

The present invention relates to a heat medium induction pipe for a helideck flank, and more particularly, to a heat medium induction pipe for a helideck flank, which forms a flow path for receiving a heating medium therein for safe take-off and landing of the helicopter and is installed on the helideck flank, The present invention relates to a heat medium induction pipe.

Generally, offshore plants such as drill ship, FPSO (Floating, Production, Storage and Offloading), or vessels that need to stay in the sea for a long time can use Helicopter So that a helideck can be installed on the athlete or stern for the takeoff and landing of the helicopter.

The helideck may be composed of a pancake forming a deck floor where the helicopter takes off and landing and a pancake support supporting the pancake. The pancake may be formed by connecting a plurality of plank to each other so as to support the helicopter, and the pancake support may include H beams capable of supporting the pancake.

Helidecks shall be designed and constructed in such a way that their structure and form is dependent on the location of installation, the shape of the offshore structure or ship, and the effects of the movement of the ship. In addition, helicopter landing and landing helicopters are heavily influenced by the weather, so if an offshore structure or vessel equipped with a helideck is operated in the sea of a cold region adjacent to the North Pole or Antarctica, snow accumulation or freezing icing can occur, which can make the helicopter take off and landing difficult or cause safety problems. In other words, it is desirable to provide a means to prevent the freezing of the helideck due to the influence of the climate, which may cause difficulty in securing safety when taking off and landing helicopter.

As a conventional means for preventing freezing of the helideck, there is known a heating tracing cable or a heater which is installed on the helideck flank and generates heat by electric power supply.

Korean Patent No. 10-1451087 discloses a technique relating to a helicopter deck flange for an offshore structure for heat tracing cable wrapping. However, in order to apply heat to a wide area helicopter deck, a plurality of long heating tracing cables are inserted into a heating element insert Therefore, if the heating tracing cable is locally damaged, it is difficult to find the exact damage point, and even if the damage point is found, it is inevitable to replace the entire damaged cable.

Korean Registered Patent No. 10-1451087 (October 10, 2014)

SUMMARY OF THE INVENTION [0006] The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a fuel cell system in which a flow path space is formed so as to accommodate a heating medium having a high temperature therein and a structure easily installed in a helideck flank, It is an object of the present invention to provide a heat medium induction pipe for a helideck flank which can prevent freezing of a helideck on an offshore structure to be installed or sailed and further secure safety of a helicopter during takeoff and landing.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above-mentioned object, the present invention provides a heat exchanger comprising: a plate-shaped bottom portion forming a lower surface of a heat medium induction pipe; A plate-shaped upper end forming an upper surface of the heat medium induction pipe and having a concavo-convex portion formed on the upper surface thereof to improve frictional force; A sidewall portion extending upward from both ends of the bottom portion to both ends of the top portion; And a coupling portion having a fixing groove recessed inwardly of the heat medium induction pipe at an upper portion of the side wall portion, wherein a flow path is formed in the longitudinal direction to receive a heating medium therein, A heat medium induction pipe can be provided.

The heat medium induction pipe is slidably installed in the heat medium accommodating portion of the helideck flank and is fixed to the upper end of the heat medium accommodating portion by the fixture corresponding to the fixing groove.

In addition, the fixing groove is characterized in that the cross section is formed as a right triangle or an acute angle triangle.

On the other hand, the side wall part is symmetrically formed with the first side wall extending upward from the one end of the bottom part and the second side wall extending upward from the other end of the bottom part, and is formed to be inclined at a predetermined angle.

In addition, the projections and depressions may have a triangular protrusion and a rectangular protrusion protruded upward from the upper surface of the upper portion alternately to improve a coefficient of friction of the upper surface of the upper portion.

In the present invention, a flow path space is formed so that a high-temperature heating medium can be accommodated therein, and the structure can be easily installed in a helideck flank, so that installation or sailing at low temperature conditions such as winter, It is possible to prevent the freezing of the helideck on the structure, and furthermore, to secure the safety of the helicopter during takeoff and landing.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view of a heating medium induction tube for a helideck flank according to a preferred embodiment of the present invention; FIG.
2 is a partial perspective view showing a state in which a heating medium guide tube for a helideck flank is installed on a helideck flank according to a preferred embodiment of the present invention.
3 is a cross-sectional view of a heating medium guide tube for a helideck flank installed on a helideck flank according to a preferred embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. &Quot; and / or "include each and every combination of one or more of the mentioned items. ≪ RTI ID = 0.0 >

Although the first, second, etc. are used to describe various components, it goes without saying that these components are not limited by these terms. These terms are used only to distinguish one component from another. Therefore, it goes without saying that the first component mentioned below may be the second component within the technical scope of the present invention.

The terminology used herein is for the purpose of illustrating embodiments and is not intended to be limiting of the present invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. The terms " comprises "and / or" comprising "used in the specification do not exclude the presence or addition of one or more other elements in addition to the stated element.

Unless defined otherwise, all terms (including technical and scientific terms) used herein may be used in a sense commonly understood by one of ordinary skill in the art to which this invention belongs. Also, commonly used predefined terms are not ideally or excessively interpreted unless explicitly defined otherwise.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view of a heating medium induction tube for a helideck flank according to a preferred embodiment of the present invention. FIG.

1, a heating medium induction pipe 100 for a helideck flank includes a bottom portion 110, a top portion 120, a side wall portion 130, and a coupling portion 140, The upper end portion 120, the side wall portion 130 and the coupling portion 140 are integrally formed to form the outer periphery of the heat medium induction pipe 100.

At this time, the bottom portion 110 has a plate shape and forms a lower end, that is, a lower surface of the heat medium induction pipe 100.

An upper portion 120 is formed on the upper portion of the bottom portion 110 at a position spaced apart from the bottom portion 110 by a predetermined distance. The upper part 120 is in parallel with the bottom part 110 to form an upper end or upper surface of the heating medium induction pipe 100 and has a plate shape.

On the other hand, sidewalls 130 extending upward in the transverse direction of the upper part 120 are formed at both ends of the bottom part 110 in the width direction.

More specifically, the side wall part 130 includes a plate-shaped first side wall 132 extending upward from one end of the bottom part 110 to one end of the upper part 120, And a plate-shaped second side wall 134 extending upward to the other end.

The first sidewall 132 interconnects one end of the bottom 110 and one end of the top 120 and the second sidewall 134 connects the other end of the bottom 110 and the top 120. [ And the other ends are interconnected to form the side surfaces of the heat medium induction pipe 100, respectively.

In order to achieve a structural balance between the first sidewall 132 and the second sidewall 134 in relation to the structure of the heat medium induction pipe 100, Symmetrically.

The first sidewall 132 and the second sidewall 134 are inclined at a predetermined angle so that the cross section of the heat medium induction pipe 100 extends in a direction from the lower side to the upper side, The lower trapezoidal trapezoidal shape.

Accordingly, the heat medium induction pipe 100 is formed by a plate-shaped bottom portion 110, the upper portion 120, and the side wall portion 130. In order to accommodate the heating medium, A hollow channel 150 is formed.

That is, the heat medium induction pipe 100 can prevent freezing of the helideck flank by accommodating a heating medium made of a high-temperature fluid as a heating element on the flow path 150.

At this time, the channel 150 is formed as a space formed by interconnecting the plate-like bottom part 100, the upper part 120, and the side wall part 130, and has the same shape as the heat medium pipe.

On the other hand, the coupling part 140 is formed on the side wall part 130. The first side wall 132 and the second side wall 134 of the coupling part 140 include fixing grooves 142 recessed inward in the outer direction of the heat medium induction pipe 100.

The fixing groove 142 is engaged with a fixture 242 protruding from the upper portion of the heating medium accommodating portion 240 of the helideck flank 200 when installed on the helideck flank 200, Is fixed on the helideck flank (200).

It is preferable that the fixing groove 142 is formed so as to correspond to the fixture 242 formed in the helideck flank 200 and the heating medium guide pipe 100 is formed to correspond to the heating medium accommodating portion of the helideck flank 200 The cross section of the fixing groove 142 is formed to have a triangular shape so that the heat medium induction pipe 100 is not easily detached to the outside of the heat medium accommodating portion 240. [ More preferably, the cross section of the fixing groove 142 is formed as a right triangle or an acute angle triangle.

On the other hand, the upper portion 120 has a concave / convex portion 122 formed on its upper surface to improve frictional force. The concave and convex portion 122 has a triangular protrusion 123 protruding upward from the upper surface of the upper portion 120 and a square protrusion 123 'having a rectangular shape alternately to increase the friction coefficient of the upper surface of the upper portion 120 .

In other words, since the concave and convex portions 122 are formed on the upper end portion 120, the frictional force of the upper portion of the helicopter can be improved.

Since the load of the helicopter 100 directly acts on the heating medium induction pipe 100, it must not only be structurally stable but also should be lightweight and excellent in strength. Therefore, in consideration of this, aluminum (Al), stainless steel It is preferable to use a composite material, but the present invention is not limited thereto.

FIG. 2 is a partial perspective view of a heating medium guide tube for a helideck flank according to a preferred embodiment of the present invention, which is installed on a helideck flank, and FIG. 3 is a perspective view of a heating medium guide tube for a helideck flank installed on a helideck flank according to a preferred embodiment of the present invention. Sectional view of a heating medium induction pipe for a helideck flank.

2 and 3, the heating medium induction pipe 100 is installed to be slidable in the horizontal direction inside the heating medium accommodating portion 240 formed on the upper portion of the helideck flank 200. [

The fixture 242 formed on the helideck flank 200 is fitted into the fixing groove 142 of the coupling part 140 and the heat medium accommodating part 240 In the longitudinal direction.

Therefore, by adopting the sliding method in which the heating medium induction pipe 100 is slidably installed in the horizontal direction, it is possible to provide easiness of installation, and it is not easily detached in the vertical direction, so that the influence of the marine structure or ship motion Can be minimized.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

100: Heat medium induction tube
110:
120:
122: irregular portion
123: projection
130:
132: first side wall
134: second side wall
140:
142: Fixing groove
150: Euro

Claims (5)

A heat medium induction pipe installed on a helideck flank to prevent freezing of the helideck flank,
A plate-shaped bottom portion forming a lower surface of the heat medium induction pipe;
A plate-shaped upper end forming an upper surface of the heat medium induction pipe and having a concavo-convex portion formed on the upper surface thereof to improve frictional force;
A sidewall portion extending upward from both ends of the bottom portion to both ends of the top portion; And
And a coupling part having a fixing groove formed in the upper part of the side wall part and embedded in the heating medium guide tube and formed in a right triangle or acute angle triangle,
The bottom portion, the top portion, and the side wall portions are interconnected to form a flow path, which is a space for accommodating a high-temperature heat medium therein, in the longitudinal direction, so that the heat medium flows along the flow path,
The side wall part has a first sidewall extending upward from the one end of the bottom part and a second sidewall extending upward from the other end of the bottom part to be symmetrical to each other and inclined at a predetermined angle, Which has an inverted trapezoidal shape of the upper mantle, which becomes wider from the lower side to the upper side,
The concavo-convex portion may have a triangular protrusion protruding upward from the upper surface of the upper portion and a square protrusion having a square shape alternately to improve the coefficient of friction of the upper surface,
The heating medium guide tube is slidably installed in a heating medium accommodating portion of the helideck flank so as to be slidable in the longitudinal direction. The fixing groove is engaged with a fixture formed on the upper portion of the heating medium accommodating portion to protrude in a shape corresponding to the fixing groove, And the pipe is fixed on the helideck flank. delete delete delete delete

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