KR20110008805U - heat shield for drillship - Google Patents

Abstract

The present invention improves the coupling structure between the wire shield and the shield frame to improve the bondability of the wire shield and the shield frame, and provides a borehole heat shield for improving workability by shortening the assembly time.
The present invention for realizing this is composed of a shield frame constituting the outer frame and a wire shield in the form of a mesh covered in the space formed between the shield frame and other components in which the flame generated in the process of burning the vapor in the burner unit is located nearby. In the drill ship heat shield that partitions the burner unit so as not to propagate to, the first and second plates in the longitudinal direction are formed inside the shield frame, the first and second plates in the process of forming the shield frame It is configured to extend integrally inside the shield frame, the insertion space is formed in the first and second plates, the outer surface of the wire shield is fitted in the insertion space of the wire shield on the first and second plates The first plate is configured so that the outer surface is in surface contact, and the outer surface of the wire shielder Ends of the agent is one that are joined by welding to secure the wire shield between the first and second plates in a technical aspect.

Description

Drill shield heat shield {heat shield for drillship}

The present invention relates to a heat shield for a drilling vessel, and more particularly, improves the coupling structure between the wire shield and the shield frame, thereby increasing the bondability between the wire shield and the shield frame, and shortening the assembly time, thereby improving workability. It is about a heat shield for a drill ship.

In recent years, due to the rapid internationalization and industrial development, the limited global resources are gradually bottoming out. Therefore, stable production and supply of crude oil is very important. Therefore, in recent years, along with the development of oil mining technology on the seabed, large oil companies have been desperately needing the drilling ships equipped with drilling equipment suitable for the development of small marginal fields or deep sea oil fields, which have so far lost economic feasibility. It is a reality that is actively seeking development.

A burner unit is provided among the equipments provided in the drilling vessel, and the burner unit burns oil vapor contained in petroleum that is drilled from the seabed to ignite and explode the oil vapor having a lower ignition point than the general gas during the drilling process. Means provided for the purpose of preventing safety accidents.

Meanwhile, a heat shield is provided outside the burner unit so as to partition the burner unit so that the flame generated in the process of burning the steam does not propagate to other components located nearby.

1 and 2 are diagrams illustrating a configuration of a conventional general heat shield.

As shown in the drawing, the conventional heat shield 110 includes a shield frame 120 constituting a rectangular frame and a mesh wire shield 130 covered on the front surface of the shield frame 120.

The heat shield 110 of the above-described configuration is installed in a state in which the burner unit (not shown) perpendicular to the flame generated by the burner unit is propagated to other components by the wire shield 130 is blocked. Will be blocked.

However, the conventional heat shield 110 covers the wire shield 130 on the front surface of the shield frame 120 and then fastens the bolt 140 to the outer surface of the wire shield 130 in contact with the shield frame 120. In this coupling method, the coupling method of the wire shield 130 cannot guarantee the firm coupling property, and in particular, the coupling part of the wire shield 130 to which the bolt 140 is fastened by sea wind or other external force is partially. This can cause problems such as being torn or broken.

An object of the present invention for solving the problems as described above is to provide a borehole heat shield to minimize the partial tearing or damage of the outer surface of the wire shield by making the wire shield and the shield frame make a surface contact. .

Another technical problem to be solved by the present invention is to drill the contact portion between the wire shield and the first plate of the shield frame by welding, thereby eliminating the need for forming holes for bolt and nut fastening, and thus improving workability. To provide a heat shield.

The present invention for achieving the above object is composed of a shield frame constituting the outer frame, and a wire shield of the mesh form covered in the space formed between the shield frame is a flame generated in the process of burning the vapor in the burner unit near In the drilling vessel heat shield which partitions the burner unit so as not to propagate to other components located, first and second plates in the longitudinal direction are formed inside the shield frame, wherein the first and second plates form the shield frame. It is configured to extend integrally formed inside the shield frame, the insertion space is formed in the first and second plates, and the outer surface of the wire shield is fitted in the insertion space to the first and second plates The outer surface of the wire shield is configured to be in surface contact, and the outer surface of the wire shield is in contact with the outer surface of the wire shield. End of the first plate is characterized in that are joined by welding to secure the wire shield between the first and second plates.

The drill wire heat shield according to the present invention can minimize the partial tearing or damage of the outer surface of the wire shield by the force transmitted from the outside through the surface contact between the wire shield and the shield frame. Since the contact between the first plate is fixed by welding, there is no need to form a hole for fastening the bolt and nut, thereby improving the workability.

1 is a view showing a conventional general drilling ship heat shield.
2 is a view taken along the line AA of FIG.
3 is a view showing three-dimensionally the configuration of the heat shield for the drilling vessel according to an embodiment of the present invention.
4 is a view taken along the line BB of FIG.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the following description will be presented a representative embodiment in the present invention to achieve the above technical problem. And other embodiments which may be suggested in the present specification are replaced by descriptions in the constitution of the present invention.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the present invention.

3 is a view showing in three dimensions the configuration of the drill ship heat shield to be implemented in the present invention, Figure 4 is a view showing a cut state of the coupling of the drill ship heat shield shown in FIG.

As shown in FIG. 3 and FIG. 4, the drill line heat shield 10 according to the present invention includes a shield frame 20 and a wire shield 30.

The shield frame 20 constitutes an outer frame of the drill line heat shield 10 and is a frame supporting the wire shield 30 that is vertically positioned near the burner unit of the drilling line. The shield frame 20 is most preferably made of a stainless material so as not to be easily corroded due to the characteristics used in the sea.

First and second plates 22 and 24 may be formed on the inner surface of the shield frame 20, respectively, and a first insertion space 26 may be formed between the first and second plates 22 and 24. , So that the two plates 22 and 24 are formed to extend apart from each other by a predetermined distance. The first and second plates 22 and 24 are in contact with the outer surface 30a of the wire shield 30 in accordance with the fastening operation of the bolt 40 and the nut 42. It is pressed to the outer surface 30a and the wire shield is firmly fixed on the shield frame 20. The first and second plates 22 and 24 may be configured to be integrally formed on the shield frame 20 in the process of forming the shield frame 20 by bending the plate in a rectangular shape.

The wire shield 30 is a means for covering the space 28 formed between the shield frame 20, the wire shield 30 is a burner unit of the drilling vessel (not shown) in the state supported by the shield frame 20 It is installed vertically near) to block the flame from the burner unit from propagating to other nearby components. The wire shield 30 is preferably manufactured in the form of a mesh formed with a plurality of holes 32 so that air can circulate through the plurality of holes 32 without partitioning the burner unit in a sealed state.

The coupling structure between the wire shield 30 and the shield frame 20 is an insertion space 26 formed between the first and second plates 22 and 24 extending on the inner surface of the shield frame 20. In the state in which the outer surface 30a of the shield 30 is inserted, the end of the first plate 22 contacting the outer surface 30a of the wire shield 30 is joined by welding (W) to connect the wire shield 30. ) Is fixed between the first and second plates 22 and 24 of the shield frame 20.

That is, the first and second plates 22 and 24 of the shield frame 20 are in surface contact with the outer surface 30a of the wire shield 30 so that the entire outer surface 30a is uniformly surface-contacted. Partial tearing or damage of the coupling portion of the wire shield 30 by the external force or other external force can be minimized, and in particular, welding without using bolts and nuts to fix the wire shield 30 to the shield frame 20 is performed. It is not necessary to form a special fastening hole in the first and second plates 22 and 24 of the shield frame 20 by fixing the joint at (W), and it is not necessary to perform bolt and nut fastening work individually. And productivity can be improved.

Meanwhile, the shield frame 20 to which the wire shield 30 is coupled is fastened and fixed to the structure 50 by bolts 60 to support the wire shield 30 in a vertical position near the burner unit.

Hereinafter, the operation of the drilling vessel heat shield according to the present invention will be described with reference to FIGS. 3 and 4.

First, the plate of the plate-like plate in the form of a rectangular cross section to form a shield frame 20 constituting the heat shield (10). At this time, in the bending process, the first and second plates 22 and 24 are formed to be bent to extend in a predetermined length to the inside of the shield frame 20.

Next, the wire shield 30 in a state in which the outer surface 30a of the wire shield 30 is inserted into the insertion space 26 between the first and second plates 22 and 24 formed inside the shield frame 20. The end of the first plate 22 in contact with the outer surface 30a of the () is joined by welding (W) to connect the wire shield 30 between the first and second plates 22, 24 of the shield frame 20. Secure it. In this case, the first and second plates 22 and 24 are welded to the outer surface 30a of the wire shield 30 in a state of being in surface contact with each other, so that the wire shield 30 is formed by wind pressure or other external force. The outer surface 30a of) can be minimized to be partially torn or broken.

10: heat shield for drilling rig 20: shield frame
22, 24: 1st, 2nd plate 26: insertion space
30: wire shield 30a: outer surface
W: welding

Claims (1)

The flame generated in the process of burning the vapor in the burner unit is composed of a shield frame 20 constituting the outer frame and a wire shield 30 having a mesh shape covered in the space 28 formed between the shield frame 20. In the drill ship heat shield 10 which partitions the burner unit so as not to propagate to other components located nearby,
The first and second plates 22 and 24 are formed in the longitudinal direction inside the shield frame 20, but the first and second plates 22 and 24 are formed in the process of forming the shield frame 20. Configured to be integrally formed inside the shield frame 20;
Insertion spaces 26 are formed in the first and second plates 22 and 24, and the first and second plates are inserted into the insertion spaces 26 so that the outer surface 30a of the wire shield 30 is fitted. An outer surface (30a) of the wire shield (30) is in surface contact with (22, 24);
An end of the first plate 22 in contact with the outer surface 30a of the wire shielder 30 is joined by welding (W) to connect the wire shield 30 between the first and second plates 22 and 24. A drill ship heat shield, characterized in that for fixing.

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