KR102603748B1 - Base plate supporting apparatus of pump tower - Google Patents

Abstract

The present invention relates to a base plate support device for a pump tower. The points (support points) of the lower connection structure of the base plate are simplified from the previous 6 points to 2 points, thereby simplifying the overall configuration and reducing the number of workers while maintaining the pump tower. movement and torsion restraint can be improved.

Description

Base plate support device of pump tower {BASE PLATE SUPPORTING APPARATUS OF PUMP TOWER}

The present invention relates to a base plate support device for a pump tower. More specifically, the point (support point) of the lower connection structure of the base plate is simplified from the previous 6 points to 2 points, thereby simplifying the overall configuration and reducing the number of work hours. It relates to a base plate support device for a pump tower that can improve the movement and torsion restraint of the pump tower while reducing it.

In general, ship cargo holds store liquefied natural gas (LNG) cooled to approximately -163℃, so they are made of materials that can withstand extremely low temperatures, are resistant to thermal stress and thermal shrinkage, and have an insulating structure that can block heat intrusion. It comes true.

For the insulation structure, the cargo hold is equipped with a primary barrier, an upper insulation box, a secondary barrier, and a lower insulation box, and is manufactured in a state of being combined with the inner hull.

The inside of the cargo hold is equipped with a pump tower for loading and unloading liquefied natural gas. The pump tower is connected to a loading device and is a filling pipe for introducing liquefied natural gas into the cargo hold. , a discharge pipe connected to the unloading device to discharge liquefied natural gas inside the cargo hold, and an emergency pipe used in an emergency.

Typically, the pipes of the pump tower are installed in the form of a truss pipe structure.

The pump tower is fixed to the trunk deck and supported by a base support fixed to the inner wall of the hull, which is the bottom of the cargo hold.

The installation process of the pump tower consists of installing the base support before mounting the pump tower, performing insulation barrier work, and then combining the base support and the lower part of the pump tower.

Here, a base plate is provided at the lower part of the pump tower for coupling with the base support. The discharge pump, discharge pipe, and emergency pipe of the pump tower are fixed to the base plate, and the base plate is supported on the base support.

In relation to this, the technology for the support connection structure of the LNG ship pump tower has been disclosed in Korea Public Utility Model No. 20-2010-0001512 (published on February 10, 2010) (hereinafter referred to as 'prior art').

The base support is made of a cylindrical molding and is formed in a cone shape whose diameter gradually decreases from the inner bottom wall of the cargo hold to a certain portion above the primary barrier.

The pump tower installation work is performed by inserting the fastening part (lower connection structure) installed at the bottom of the base plate into the socket part provided at the top of the base support.

Figure 1 is a side view showing the support structure of the base plate and base support of a conventional pump tower, Figure 2 is a perspective view showing the base support of a conventional pump tower, and Figure 3 is a plan view showing the support structure of the conventional base support.

Referring to Figures 1 to 3, the base support 10 of the conventional pump tower 30 has a tapered shape and includes a bottom support part 11 fixed to the inner wall of the hull (H), and a middle support part installed on the bottom support part 11. It consists of a support part 12 and a top support part 13 installed on the middle support part 12.

The secondary insulation box (2), secondary sealing wall (2a), primary insulation box (1), and primary sealing wall (1a) are sequentially installed on the hull inner wall (H), and the tower support portion (13) is It remains protruding above the primary sealing wall (1a).

The pump tower 30 shown in FIG. 1 has its upper end supported on the trunk deck (not shown), and the discharge pump 31, discharge pipe 32, and emergency pipe 33 are located at the lower part of the pump tower 30. It is fixed to a base plate (40).

The lower connection structure 41 of the base plate 40 is supported by support structures (socket portions) 20 installed on both sides of the base support 10.

The vertical direction (Z-axis direction) of the pump tower 30 is constrained by the hull inner wall (H) and the trunk deck (not shown), and as shown in Figures 2 and 3, the left and right directions of the support structure 20 The lower connection structure 41 is supported at a total of 6 points (support points) in the (X-axis direction) and front-back directions (Y-axis direction) to restrain the movement and torsion of the pump tower 30.

However, the base plate support device of the conventional pump tower is configured to restrain the movement and torsion of the pump tower 30 by supporting the lower connection structure 41 at six points (support points), so the support structure is very complicated and the pump tower There is a problem that the installation work is difficult and the number of workers increases.

Domestic Public Patent No. 10-2015-0013972

The present invention is intended to solve the above-mentioned problems, and the points (support points) of the lower connection structure of the base plate are simplified from the previous 6 points to 2 points, thereby simplifying the overall configuration and reducing the number of workers while reducing the The purpose is to provide a base plate support device for the pump tower that can improve the movement and torsion restraint of the pump tower in the Y-axis direction.

In order to achieve the above-described object, the base plate support device of the pump tower of the present invention includes a base plate located at the bottom of the pump tower to fix the discharge pump, discharge pipe, and emergency pipe; Lower connection structures formed on both sides of the lower part of the base plate; A base support fixed to the inner wall of the hull to support the pump tower; a base support support structure extending on both sides of an upper end of the base support for connection with the base plate and having an insertion groove into which the lower connection structure is inserted; When inserting the lower connection structure into the insertion groove to support the base plate on the base support, the outer peripheral surface of the lower connection structure is divided to prevent direct contact with the inner peripheral surface of the insertion groove. a plurality of pads positioned to surround the outer peripheral surface of; and a plurality of fixing bolts for fixing the pad to the lower connection structure. Includes.

The pad includes a first pad of a "ㄷ" shape that is closely attached and fixed in the X-axis direction (length direction of the base support support structure) to fix the lower connection structure; A second pad of an “ㄱ” shape that is closely attached and fixed in the Y-axis direction (width direction of the base support support structure) to fix the lower connection structure; and a third pad in the shape of an “L” that is closely attached and fixed in the Y-axis direction (width direction of the base support support structure) to fix the lower connection structure. It consists of

In order to insert the fixing bolt, a bolt hole may be formed in the first pad, a bolt hole may be formed in the second pad, and a bolt slot may be formed in the lower connection structure.

A nut may be fastened to the end of the fixing bolt.

The first pad is fixedly installed to slide in the X-axis direction, and a gap is formed between the first pad and the lower connection structure.

The second pad and the third pad are fixedly installed to slide in the Y-axis direction, and a gap is formed between the second pad and the third pad and the lower connection structure.

The pad may be made of high-density polyethylene.

As described above, according to the present invention, the points (support points) of the lower connection structure of the base plate are simplified from the previous 6 points to 2 points, thereby simplifying the overall configuration, reducing the number of workers, and improving the movement of the pump tower. Torsion binding force can be improved.

Figure 1 is a side view showing the support structure of the base plate and base support of a conventional pump tower.
Figure 2 is a perspective view showing the base support of a conventional pump tower.
Figure 3 is a plan view showing the support structure of a conventional base support.
Figure 4 is a longitudinal cross-sectional view showing the base plate support device of the pump tower of the present invention
Figure 5 is a cross-sectional view showing the base plate support device of the pump tower of the present invention
FIG. 6 is a cross-sectional view taken along line AA of FIG. 5 and is a view explaining restraint in the X-axis direction.
FIG. 7 is a cross-sectional view taken along line BB of FIG. 5 and is a view explaining restraint in the Y-axis direction.

Hereinafter, a base plate support device for a pump tower according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 4 is a longitudinal cross-sectional view showing the base plate support device of the pump tower of the present invention, Figure 5 is a cross-sectional view showing the base plate support device of the pump tower of the present invention, and Figure 6 is a cross-sectional view along line A-A of Figure 5 in the X-axis direction. It is a drawing explaining restraint, and FIG. 7 is a cross-sectional view taken along line B-B of FIG. 5 and is a drawing explaining restraint in the Y-axis direction. In the same drawing, since the base plate support device has the same left and right configuration, only one side will be shown and explained.

Referring to Figures 4 to 7, the base plate support device of the pump tower according to a preferred embodiment of the present invention includes a base plate (110) located below the pump tower (30; see Figure 1), a base plate A lower connection structure 111 extending on both sides of the lower part of (110), a base support 120 fixed to the inner wall of the hull (H: see Figure 1), and an insertion for inserting the lower connection structure 111. A base support support structure 130 having a groove 131, a plurality of pads 140:141, 142, 143 divided and positioned to surround the outer peripheral surface of the lower connection structure 111, and a pad 140 on the lower connection structure 111. ) includes a plurality of fixing bolts 150 for fixing the.

In the base plate support device of the pump tower according to a preferred embodiment of the present invention, the lower connection structure 111 has two points located on the left and right respectively in the insertion groove 131 of the base support support structure 130. In the inserted state, it is configured to restrain the movement and torsion of the pump tower 30 in the X-axis direction and Y-axis direction.

In other words, the base plate 110 is a structure for supporting the lower part of the pump tower 30, and includes the discharge pump 31, discharge pipe 32, and emergency pipe 33 of the pump tower 30. It is installed at the lower part of the pump tower 30 to fix it (see Figure 1). Lower connection structures 111 are formed extending on both sides of the lower part of the base plate 110.

The base support (120) is fixedly installed on the inner wall (H) of the hull to support the pump tower (30). The base support 120 includes a bottom support fixed to the inner wall of the hull (H) in a tapered shape; an intermediate support portion installed on the bottom support portion; It consists of a top support part installed on the middle support part (see Figure 1). Since the configuration of the base support 120 is the same as the conventional configuration, drawing numbers and detailed descriptions thereof will be omitted.

The base support structure 130 extends from both sides of the upper end of the base support 120 for connection to the base plate 110, and has an insertion groove 131 into which the lower connection structure 111 is inserted.

The pad 140 may be divided into a plurality of pieces and formed of a material such as high-density polyethylene for a cushioning function. The pad 140 is connected to the base support 120 by inserting the lower connection structure 111 into the insertion groove 131. When supporting the base plate 110, the outer peripheral surface of the lower connecting structure 111 is positioned to surround the outer peripheral surface of the lower connecting structure 111 in order to prevent it from directly contacting the inner peripheral surface of the insertion groove 131.

A plurality of fixing bolts 150 are provided to secure the lower connection structure 111 and the pad 140 within the insertion groove 131 of the base support structure 130.

The pad 140, which is divided into multiple pieces, fixes the first pad 141 and the lower connection structure 111, which are closely attached and fixed in the X-axis direction (length direction of the base support support structure) in order to fix the lower connection structure 111. In order to fix the second pad 142 in close contact with the Y-axis direction (width direction of the base support support structure) and the lower connection structure 111, it is closely attached to the Y-axis direction (width direction of the base support support structure) It consists of a third pad 143 that is fixed.

In order to insert the fixing bolt 150, a bolt hole 141a is formed in the first pad 141, a bolt hole 142a is formed in the second pad 142, and a bolt hole is formed in the third pad 143. (143a) is formed, and a bolt slot (S) may be formed in the lower connection structure 111. A nut 151 may be fastened to the end of the fixing bolt 150.

The first pad 141 may be fixedly installed to slide in the X-axis direction, and when assembly is completed, a gap is formed between the first pad 141 and the lower connection structure 111.

The second pad 142 and the third pad 143 may be fixedly installed to be slideable in the Y-axis direction, between the second pad 142 and the lower connection structure 111, and the third pad 143. A gap is also formed between and the lower connection structure 111.

The pad 140 is made of high-density polyethylene and can function as a buffer and prevent wear.

The operational effects of the base plate support device of the pump tower according to the preferred embodiment of the present invention configured as described above will be described in detail.

In the base plate support device of the pump tower according to a preferred embodiment of the present invention, the lower connection structure 111 has two points located on the left and right respectively in the insertion groove 131 of the base support support structure 130. In the inserted state, the movement and torsion of the pump tower 30 are restrained in the X-axis direction and Y-axis direction.

In other words, the base plate 110 is a structure for supporting the lower part of the pump tower 30, and includes the discharge pump 31, discharge pipe 32, and emergency pipe 33 of the pump tower 30. It is installed at the lower part of the pump tower 30 to fix it (see Figure 1).

As shown in FIG. 5, the first pad 141 is fixedly installed in close contact with the X-axis direction (length direction of the base support support structure) to fix the lower connection structure 111.

The second pad 142 is fixedly installed in close contact with the Y-axis direction (width direction of the base support support structure) to fix the lower connection structure 111.

The third pad 143 is fixedly installed in close contact with the Y-axis direction (width direction of the base support support structure) to fix the lower connection structure 111.

With this structure, as shown in FIG. 6, the movement and torsion of the pump tower 30 in the X-axis direction are restrained, and as shown in FIG. 7, the movement of the pump tower 30 in the Y-axis direction is and restrains the torsion.

In the present invention, after inserting the lower connection structure 111 into the insertion groove 131 of the base support support structure 130, the first pad 141 is closely fixed in the X-axis direction, and the second pad 142 and The third pad 143 is tightly fixed in the Y-axis direction and restrains the movement and torsion of the pump tower 30, making installation and assembly work very smooth.

In addition, the points (support points) of the lower connection structure 111 of the base plate 110 are simplified from the previous 6 points to 2 points, which simplifies the overall configuration and reduces the number of workers, while also reducing the movement of the pump tower 30. Torsion binding force can be improved.

110: base plate
111: Lower connection structure
120: base support
130: Base support support structure
131: Insertion groove
140: pad
141: first pad
141a: bolt hole
142: second pad
142a: bolt hole
143: Third pad
143a: bolt hole
150: fixing bolt
151: nut
S: bolt slot

Claims (7)

A base plate (110) located below the pump tower (30) to secure the discharge pump (31), discharge pipe (32), and emergency pipe (33);
Lower connection structures 111 formed on both sides of the lower part of the base plate 110;
A base support (120) fixed to the inner wall (H) of the hull to support the pump tower (30);
a base support support structure 130 extending on both sides of the upper end of the base support 120 for connection to the base plate 110 and having an insertion groove 131 into which the lower connection structure 111 is inserted;
When inserting the lower connection structure 111 into the insertion groove 131 to support the base plate 110 on the base support 120, the outer peripheral surface of the lower connection structure 111 is the insertion groove ( 131) a pad 140 divided into a plurality of pieces and positioned to surround the outer circumferential surface of the lower connection structure 111 to prevent direct contact with the inner circumferential surface; and
A plurality of fixing bolts 150 for fixing the pad 140 to the lower connection structure 111; Includes,
A portion of the plurality of divided pads 140 is fixedly installed to slide and move in the longitudinal direction of the base support support structure,
A base plate support device for a pump tower, characterized in that the remaining part of the plurality of divided pads 140 is fixedly installed to be slideable in the width direction of the base support support structure. In claim 1,
A base plate support device for a pump tower, characterized in that a nut (151) is fastened to the end of the fixing bolt (150). delete In claim 1,
The insertion groove 131 is formed in a square shape, and the lower connection structure 111 is formed in a square hollow structure corresponding to the insertion groove 131. In claim 1,
The pad 140 is a base plate support device for a pump tower, characterized in that it is formed of high-density polyethylene material. In order to restrain the movement and torsion of the pump tower 30, the lower connection structures 111 formed on both sides of the lower part of the base plate 110 are inserted into the insertion grooves 131 of the base support support structure 130 to form the pump tower ( In the device supporting the base plate 110 of 30,
In order to prevent the outer peripheral surface of the lower connection structure 111 from directly contacting the inner peripheral surface of the insertion groove 131, a pad 140 divided into a plurality of pieces is positioned to surround the outer peripheral surface of the lower connecting structure 111. ) is installed,
A portion of the plurality of divided pads 140 is fixedly installed to slide and move in the longitudinal direction of the base support support structure,
A base plate support device for a pump tower, characterized in that the remaining part of the plurality of divided pads 140 is fixedly installed to be slideable in the width direction of the base support support structure. delete

Images