KR200481700Y1 - Drilling cutting guider of the offshore structure and drilling cutting disposal module with thw same - Google Patents

Abstract

The present invention relates to a drilling cutting gauge for guiding the path of a drilling cut applied to a processing module that performs respective functions of a system for processing a drilling cut and a drilling cutting processing module including the same. So that it is possible to easily eject the water at a desired point, to improve the work efficiency, and to realize a marine structure suitable for the safety of the working environment.

Description

TECHNICAL FIELD [0001] The present invention relates to a drilling cutting guider for a marine structure, and a drilling cutting processing module including the drilling cutting guider. [0002]

The present invention relates to a cutting guider applied to a cutting processing system recovered together with a mud (MUD) during drilling in a marine structure for drilling, and a drilling cutting processing module including the cutting guide.

As the international phenomenon of industrialization and industry develops, the use of resources such as petroleum is gradually increasing, and thus the stable production and supply of oil is becoming a very important issue on a global scale.

For this reason, the development of the marginal field or deep-sea oil field, which had been neglected due to economic difficulties, has become economic in recent years. Therefore, along with the development of seabed mining technology, drilling rigs with drilling facilities suitable for the development of these oilfields have been developed.

Conventional submarine drilling can only be carried out by other tugboats, and a rig ship or a fixed platform dedicated to drilling underwater in an underwater drilling operation with anchorage at one point of the sea using a mooring device is mainly used In recent years, a drillship has been developed and installed in the same form as a general ship so that it can be equipped with advanced drilling equipment and can navigate by its own power.

The present invention relates to a system for processing cutting in an underwater drilling operation, and can be applied to drilling structures such as drill rigs and rigs.

In the meantime, drilling is performed using a drill bit in the submarine drilling. In order to prevent the drill bit from being overheated, and to facilitate the drilling by the lubrication operation, The mud is fed into the pipe.

Mud is lubricated as described above for drilling bits, removes debris during drilling, stabilizes the borehole, and is a safety barrier against the entry of hydrocarbons into the well bore. .

These muds are passed by the mud pump into the drill pipe through the drill bit, and the mud again passes through the drill bit's cooling water and debris generated by the drilling operation, the so-called drilling cutting, It is dragged together through risers formed in the borehole to protect it.

Figure 1 schematically illustrates the circulation flow of such a mud.

The recovered mud is re-supplied to the drill bit by a circulation cycle and stored in a settling tank or mud pits for re-supply. In order to process the mud cutting corresponding to the impurities, And then goes to the precipitation tank 2.

The mud treatment system 1 may comprise a gumbo box, a flow divider, a shalehaker, a desander, a degasser, a fine residue desilter, a centrifuge centrifuge and so on.

A relatively thick rock fragments and the like are roughly separated from the gumbo box and separated by a plurality of water separators by a flow divider, and then the cuts not filtered by the gumbo box are removed again by the water separator. In accordance with the drilling environment, To filter out fine residue.

Cutting that is filtered depends on oil-based mud and cutting and water-based mud and cutting.

In other words, the oil-based mud cutting is supplied to a cutting conveyor, stored in a cutting container, treated on the land, or processed after being further treated, and the aqueous mud cutting is carried out through a cutting chute And discharged to the sea.

Figures 2 and 3 illustrate a conventional shale shaker in which the fine residue desilter is integrally formed in one configuration of the mud treatment system.

The fine residue remover is selectively applied depending on the drilling environment, and may not be applied to all of the plurality of water separators.

The present invention is applied to a water separator (10) in which a fine residue remover is integrally formed. The treatment of mud cutting according to the application of the present invention is performed by removing a rough cut in the water separator (10) after being distributed by a flow divider And then sprayed to the sprayer 12 after passing through the fine residue remover 11 formed on the upper side, and the spray route is changed depending on whether the spraying is a planetary mud cutting or an aqueous mud cutting.

At this time, since the spray chamber 12 is disposed separately at the lower end for the next process and the fine residue remover 11 is formed at the upper side, the spray residue 12 is ejected from the air outlet of the micro residue remover 11 In order for the cut to be ejected, the ejection tube 13 is formed at the ejection opening.

As shown in the drawing, it is general that the jet tube 13 is not formed directly toward the jetting chamber 12.

This is because there are exceptional cases in which it is ejected to a place other than the ejection tray 12 by ejecting the same through a fine residue remover 11 and then cutting the ejected paper into a cutting chute. A rubber hose is connected to the desired ejection point.

However, according to the jet tube formed in such a conventional water separator, it is not easy to eject the cutting precisely at the jetting point, thereby deteriorating the surrounding work environment or hindering the operation efficiency due to the additional operation of connecting the rubber hose. There is a problem that there is a limit of durability.

Korean Patent No. 10-1392892 Korean Patent Publication No. 10-2014-0087703

The present invention has been made in order to solve the above-mentioned problems. The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a drilling cutting guide for a marine structure which can be easily ejected at a desired position, The purpose is to provide.

One aspect of a drilling cutting guider of a marine structure according to the present invention is detachably coupled to an ejection pipe formed in an ejection port of a fine residue desilter integrally formed with a shale shaker, And the fine residue remover guides the path of the drilling cutting routed sequentially.

Here, the drilling cutting guider includes a vertical guide portion coupled to the discharge tube and having a hollow to allow the drilling cut to vertically downward, a vertical guide portion that is vertically downwardly coupled to the vertical guide portion, And a tilt adjusting means for tiltably connecting the inclined guide portion and the inclined guide portion with respect to the vertical guide portion and adjusting the inclination angle of the drilling cutting passage formed by the inclined guide portion,

Wherein the inclination adjusting means comprises: a fixing plate formed around the vertical guide portion; a coupling portion fixed to the fixing plate at one end and coupled to the inclined guide portion by an engaging pin on an axis formed at the other end; And the other end is connected to a specific point of the inclined guide portion and includes a connecting member whose length is adjustable to connect the fixed plate and the inclined guide portion so that the inclination of the inclined guide portion And the angle can be adjusted.

The inclined guide portion is formed as an inclined channel as a tube having an upper open portion which is engaged with the pair of coupling portions on both sides and which are respectively engaged with the pair of coupling portions, A reinforcing plate may be further formed on the negative inclined flow path,

The inclined passage can be extended, and more specifically,

The vertical guide has an inner diameter that is close to the inner diameter of the discharge tube and a flange for coupling with the discharge tube is formed at an upper end of the vertical guide to guide the direction of the drilling cutting passage formed by the engagement of the flange As shown in FIG.

Next, one aspect of the drilling cutting processing module of the offshore structure according to the present invention is to remove the drilling cutting from the mud dispensed in the flow divider by a flow divider, Characterized in that it comprises a drilling cutting guider which sequentially removes fine residues by a desilter and selectively guides the path of the drilling cut removed by said fine residue remover.

Here, the drilling cutting guider includes a vertical guide portion coupled to the discharge tube and having a hollow to allow the drilling cut to vertically downward, a vertical guide portion that is vertically downwardly coupled to the vertical guide portion, And a tilt adjusting means for tiltably connecting the inclined guide portion and the inclined guide portion with respect to the vertical guide portion and adjusting the inclination angle of the drilling cutting passage formed by the inclined guide portion,

Wherein the inclination adjusting means comprises: a fixing plate formed around the vertical guide portion; a coupling portion fixed to the fixing plate at one end and coupled to the inclined guide portion by an engaging pin on an axis formed at the other end; And the other end is connected to a specific point of the inclined guide portion and includes a connecting member whose length is adjustable to connect the fixed plate and the inclined guide portion so that the inclination of the inclined guide portion Wherein the vertical guide has an inner diameter close to an inner diameter of the discharge tube and a flange for coupling with the discharge tube is formed at an upper end of the vertical guide, And the direction of the cutting channel can be adjusted.

The inclined guide portion is formed as a plate having a shape of an upper portion which is engaged with the pair of coupling portions on both sides and is open at an upper portion thereof, A reinforcing plate may be further formed on the negative inclined flow path,

More specifically, the inclined passage can be extended.

According to the present invention, there is an advantage that the cutting through the water separator can be easily ejected to the correct ejection point according to the situation.

In addition, it is possible to precisely eject the cut, thereby preventing the work environment from being hindered.

Further, since the additional work of the operator is simplified, the work efficiency can be improved,

It is possible to prevent damage to the discharge line due to cutting, thereby improving durability and safety.

1 schematically shows a mud system according to the drilling of a marine structure.
2 and 3 show a conventional water separator.
4 shows a drilling cutting processing module according to the present invention.
5 and 6 show a drilling cutting guider according to the present invention.
Fig. 7 shows an application example of the drilling cutting guider according to the present invention.

Hereinafter, a drilling cutting guider according to an embodiment of the present invention will be described in detail with reference to the accompanying 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 technical terms described below are defined in consideration of functions and the like in the present invention, and these may vary depending on the intention or custom of the person skilled in the art. Therefore, the definitions of the terms should be judged based on the contents described throughout the specification.

Fig. 4 shows a drilling cutting processing module according to the present invention, and Figs. 5 and 6 show a drilling cutting guider according to the present invention.

Referring to FIG. 4, a drilling cutting processing module 20 according to the present invention includes a fine residue remover 200 (a desilter) formed integrally therewith, and the path of the drilling cut removed by the fine residue remover 200 is selectively (Not shown).

The drilling cutting processing module 20 of the present invention includes a shale shaker in which a fine residue remover 200 is integrally formed, and a gumbo box Such as a degasser, a degasser or a cutting conveyor, and the drilling cutting gauge 100 of the present invention is capable of cutting the processed cutting in each of these processing modules And can be applied to the process of jetting for transportation to the respective stages.

The desilter corresponding to the drilling cutting processing module 20 of the present invention is a structure in which a mud processed by a gumbo box is distributed and introduced by a flow divider (not shown) Removal of the drilling cut is first performed from the incoming mud.

That is, the cutting of the unit not filtered in the gumbo box is removed again, and the cut is introduced into the fine residue remover 200 formed integrally on one side of the gumbo box, so that the minute residue remover 200 removes The water is filtered out.

The fine residue remover 200 may be separately disposed on the upper side or the side surface of the water separator according to the ship drying environment. However, in the present invention, the fine residue remover 200 is formed on the upper side.

The mud that has been sequentially removed in this manner is ejected from the fine residue remover 200 and the ejected cut is processed according to whether it is oil based mud and cutting or water based mud and cutting The route is different.

That is, in the case of oil-based mud cutting, it is stored in a cutting container and then transported to a cutting conveyor for processing on the land. In the case of aqueous mud cutting, the water- (cutting chute).

The drilling cutting guider 100 according to the present invention guides the path of the drilling cut so that the cut processed in the drilling cutting processing module can be ejected to be conveyed to the above-described conveyance route. And is detachably coupled to the discharge tube of the treatment module for this purpose.

Figures 5 and 6 illustrate this drilling cutting guider 100.

Referring to FIGS. 5 and 6, the drilling cutting guider 100 according to the present invention includes a vertical guide 110, a slant guide 120, and a tilt adjusting means.

The vertical guide 110 is detachably coupled to the discharge pipe formed in the water separator 200 and is hollow to allow the cut processed by the water separator 200 to be vertically downward.

The vertical guide portion 110 preferably has an inner diameter corresponding to the inner diameter of the discharge tube, and the flange 111 is formed for detachment from the discharge tube.

A plurality of holes are formed in the flange 111 for coupling with the flange formed in the discharge tube, and are provided so as to be able to be bolted to each other. Thereby making it possible to adjust the direction of the jet flow path.

The vertical guide portion of the present invention can be combined with the discharge pipe by other means and can be employed as long as it can be detached from the discharge pipe even if it is not a bolt connection.

Next, the inclined guide unit 120 forms a flow path so that the drilling cuts passing through the vertical guide unit 110 can be sprayed downwardly.

For this purpose, the inclined guide portion 120 is a tube having an open top, more specifically a tube having a substantially semicylindrical shape, and an inclined channel is formed on the upper side of the tube, behind the substantially vertical guide portion 110, And a reinforcing plate 121 is further provided on the flow path so as to prevent the cutting from being cut due to the load passing through the vertical guide portion 110. As a result, Thereby preventing damage and improving durability.

The inclined guide 120 may be coupled to the vertical guide 110 by welding or the like but the drilling cutting guide 100 of the present invention is constructed such that the inclined guide 120 is guided by the vertical guide 110 So that the angle of the inclined path of the drilling cutting passage formed by the inclined guide 120 can be adjusted.

To this end, the inclination adjusting means is constituted by a fixing plate 131, a coupling base 132, a connecting member 133, and the like.

The fixing plate 131 is formed around the vertical guide 110 around its periphery for fixation with the inclined guide 110.

The fixing plate 131 is formed on the vertical guide 110 for coupling with the coupling member 132 and the connecting member 133 to be described later and is formed as a circular disk along the circumference of the cylindrical vertical guide 110 And a connecting plate 134 may be further provided for coupling with the connecting member 133 as illustrated in the present invention, and the fixing plate 131 may be configured in a U-shape.

The engaging base 132 is configured to engage the fixed plate 131 and the inclined guide 120, and the engaging base 132 is not limited to the shape but is preferably provided in a pair.

In this embodiment, the guide plate 120 is bent in a substantially 'A' shape so that one end is coupled to the fixing plate 131 and the other end is coupled to a specific point of the inclined guide 120.

Here, holes are formed in the inclined guide portion 120, and holes corresponding to the coupling points of the inclined guide portion 120 are formed. Coupled by the coupling pins 140 between them, The inclined guide 120 is rotatably coupled to the vertical guide 110 to the fixed plate 131 so that the inclined guide 120 is rotated by the operation of the connecting member 133 Thereby making it possible to adjust the inclination angle of the inclined passage.

One end of the connecting member 133 can be coupled to the fixing plate 131. In this embodiment, the connecting member 133 is fixed to the connecting plate 134 fixed to the fixing plate 131, for example. The other end is connected to a connection ring 122 formed on both sides of the inclined guide portion 120 at a position spaced a predetermined distance from the connection plate 134.

The connecting member 133 of the present invention connects the fixing plate 131 to the connecting plate 134 and the inclined guide portion 120 to fix the inclined angle of the inclined guide portion 120, The length of which can be adjusted by adjusting the length of the connection, and if necessary, the inclination angle of the inclined path formed by the inclined guide 120 can be adjusted. As shown in FIG.

In one embodiment of the present invention, it is exemplified that the connecting member 133 is composed of a connecting chain. The other end of the link chain is engaged with the linking ring 122 of the inclined guide 120. The other end of the linking chain is fixed to the linking plate 134, 133 by adjusting the positions of the connecting members 133. A simple example is as shown in the drawing by extending the connecting members 133 by extending the connecting members 133 so that the extending ends of the connecting plates 134 can be unbolted releasably and fixing them to the connecting plates 134 together with the extending ends.

As shown in FIG. 7, the inclined path of the inclined guide 120 can be extended.

That is, the inclined guide portion 120 further includes an extension flow passage 124, and can extend and extend the extension flow passage 124 by an appropriate length as shown in the drawing, May be formed.

As described above, the drilling cutting guider of the present invention can easily change the point of cutting that is ejected from the ejection pipe by the axial movement of the vertical guide portion, and can adjust the angle of inclination sprayed by adjustment of the connecting member , It is possible to change the length of the flow path by the extended flow path, thereby making it possible to actively perform cutting out of the cutting process in the cutting process module, which can also be applied to other drilling cutting modules.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. will be.

Therefore, the true scope of technical protection of this invention should be determined by the technical idea of the appended utility model registration claim scope.

100: Drilling Cutting Guide
110: Vertical guide
120: inclined guide portion
131: Fixing plate
132:
133:
134: connecting plate
140:

Claims (11)

A desalter of a micro-residue desilter formed integrally with a shale shaker is detachably coupled to an ejection pipe formed in an ejection port of the micro-residue remover, and the water separator and the micro- And the route is guided,
A vertical guide coupled to the discharge tube and having a hollow to allow the drilling cut to be vertically downward;
A slope guide portion that forms a flow path so that the drilling cut passed through the vertical guide portion can be sprayed downwardly; And
And a tilt adjusting means for tiltably connecting the inclined guide portion with respect to the vertical guide portion and adjusting an inclination angle of the drilling cutting passage formed by the inclined guide portion,
Wherein the inclination adjusting means comprises:
A fixing plate formed around the vertical guide portion;
A coupling base fixed at one end to the fixed plate and coupled to the inclined guide portion by a coupling pin about an axis formed at the other end; And
The connecting plate is connected to the connecting plate fixed to the fixing plate and the other end is coupled to the connecting link formed at a specific point of the inclined guide unit so that the connection plate and the inclined guide unit are connected The length of which is adjustable,
Wherein the inclination angle of the drilling cutting passage formed by the inclined guide portion is adjustable. delete delete The method according to claim 1,
Wherein the pair of coupling bars are fixed to the fixing plate so that a pair of the coupling bars are opposed to each other,
Wherein the inclined guide portion is formed as a tube having a shape of an upper portion which is connected to the pair of coupling bases on both sides,
And a reinforcing plate is further formed on the inclined path of the inclined guide portion. The method of claim 4,
Wherein the inclined channel is extendable. ≪ Desc / Clms Page number 19 > The method according to claim 1,
Wherein the vertical guide comprises:
And a flange for coupling with the discharge pipe is formed at an upper end thereof so that the direction of the drilling cutting passage formed by the inclined guide portion can be adjusted by the engagement of the flange. Drilling Cutting Guides for Offshore Structures. Removing drilling cutting from the mud dispensed in-stream by a flow divider,
The fine residue is sequentially removed by an integrally formed fine residue desilter,
And a drilling cutting guider for selectively guiding the path of the drilling cut removed by the fine residue remover,
The drilling cutting guide
A vertical guide coupled to the discharge tube formed in the fine residue remover and having a hollow to allow the drilling cut to vertically downward;
A slope guide portion that forms a flow path so that the drilling cut passed through the vertical guide portion can be sprayed downwardly; And
And a tilt adjusting means for tiltably connecting the inclined guide portion with respect to the vertical guide portion and adjusting an inclination angle of the drilling cutting passage formed by the inclined guide portion,
Wherein the inclination adjusting means comprises:
A fixing plate formed around the vertical guide portion;
A coupling base fixed at one end to the fixed plate and coupled to the inclined guide portion by a coupling pin about an axis formed at the other end; And
The connecting plate is connected to the connecting plate fixed to the fixing plate and the other end is coupled to the connecting link formed at a specific point of the inclined guide unit so that the connection plate and the inclined guide unit are connected The length of which is adjustable,
The inclination angle of the drilling cutting passage formed by the inclined guide portion can be adjusted,
Wherein the vertical guide has an inner diameter close to the inner diameter of the discharge tube and a flange for coupling with the discharge tube is formed at an upper end thereof so that the adjustment of the direction of the drilling cutting passage formed by the engagement of the flange, Wherein the drilling cut processing module of the marine structure comprises: delete delete The method of claim 7,
Wherein the pair of coupling bars are fixed to the fixing plate so that a pair of the coupling bars are opposed to each other,
Wherein the inclined guide portion is formed in a shape of a plate having an upper portion that is engaged with the pair of coupling portions on both sides,
And a reinforcing plate is further formed on the inclined channel of the inclined guide portion. The method of claim 10,
Wherein the inclined channel is extendable.

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