RU2563854C1 - Method and device for sealing of joints of drilling rig modules - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: method for sealing of joints of modules consists in preliminary fabrication of the device housing from sheet material in the form of trough-shaped profile with sidewalls and elastic gasket from the inner side of the profile for interaction with surface of the sealed joint. Then the housing is fixed by means of fasteners on the joint formed by stands of modules, which meanwhile form the following: air pocket in the middle part of the profile by fastening of elastic gasket and air pockets on both sides of the joint by fastening along the module stands of guides which outstand over the joint surface and interact with the elastic gasket. On the sidewall ends the sealing elements for interaction with external surface of the joint are placed. Fasteners are fabricated as hinges. Guides are fitted with elastic elements.

EFFECT: providing of reliable sealing of joints of drilling rig modules, possibility of repeated mounting-dismantling.

6 cl, 4 dwg

Description

The invention relates to a method and apparatus for sealing joints that can be used to connect the shelters of drilling rig modules for cluster drilling of oil and gas exploration and production wells.

A known method for sealing the joints of facing plates, which consists in the preliminary manufacture of the device case from sheet material in the form of a trough-like profile with side walls, the subsequent fastening of the case at the junction with the help of fastening nodes (see the description of the utility model of the Russian Federation to patent No. 125217, ЕВВ 1 / 38, publ. 02.27.2013).

The known method is intended only for sealing the joints of wall panels in a stationary position, and is practically unsuitable for sealing the joints of metal structures subject to movement, which is accompanied by a change in the position of the racks of adjacent modules in the vertical and horizontal planes and a change in the size of the joint in width.

The known method is unreliable, because to ensure tightness in the known method, a patch is used that is inserted into the trough-like profile, where it is fixed with the help of shelves made with bends. Such a connection does not provide for multiple installation-dismantling.

A known method for sealing joints, adopted as a prototype, which consists in pre-manufacturing the device case from sheet material in the form of a trough-like profile with side walls, installing an elastic gasket on the inside of the profile to interact with the surface of the joint to be sealed and subsequently attaching the case to the joint using fasteners nodes (see the description of the invention of the USSR to the copyright certificate No. 1231159, ЕВВ 1/60, Е04В 1/38, Е04В 1/68, publ. 05/15/1986).

The known method is intended only for sealing joints of wall panels in a stationary position, and is unsuitable for sealing joints of metal structures subject to movement, which is accompanied by a change in the position of the racks of adjacent modules in the vertical and horizontal planes and a change in the size of the joint in width.

The known method is unreliable, since the elastic gaskets are placed on both sides of the joint and fixed with a sealant, while ensuring the joint is tight and compensating for the unevenness of the walls forming the joint. Such a connection does not provide for multiple installation-dismantling.

The patch is inserted into the trough-like profile, where it is not fixed and does not provide sufficient joint tightness.

The technical task of the proposed method is to ensure reliable sealing of the joints of metal structures, namely the drilling rig modules, the movement of the echelon of which is accompanied by a change in the position of the racks of adjacent modules in the vertical and horizontal planes, as well as the possibility of multiple mounting-dismantling.

The technical problem is solved in that the method for sealing the joints of the modules consists in prefabricating the device case from sheet material in the form of a trough-like profile with side walls, installing an elastic gasket on the inside of the profile to interact with the surface of the joint being sealed, and subsequently attaching the case using fastening nodes to the junction formed by the racks of the modules, while forming an air pocket in the middle of the profile to reduce thermal conductivity over the entire width of the seal of the joint by fixing the elastic gasket in the middle of the profile and air pockets on both sides of the joint by mounting along the rails of the guide modules, which protrude above the joint surface and interact with the elastic gasket, put sealing elements on the ends of the side walls to interact with the outer surface of the joint, the nodes are made in the form of hinges that provide a reliable fit of the profile during joint deformation arising due to the distortion of the racks when moving adjacent modules. Guides are equipped with elastic elements.

The proposed method provides reliable sealing of the joints of the modules when moving them along the rails, which is accompanied by a skew of the racks of one module relative to the racks of the other module in the vertical and horizontal planes, arising due to irregularities of the platform for installing rails for moving the drilling rig during cluster drilling and displacement of the modules.

The fastening of the profile by hinged nodes compensates for the skew of the racks when moving the modules, providing a reliable fit of the profile and tightness.

The fastening of the elastic gasket in the middle part of the profile forms an air pocket in the middle part of the profile, and the fastening on racks of guides protruding above the interface of the modules increases the force of pressing of the stripper against the surface of the joint and ensures the formation of closed air pockets between the sealing elements on the side walls and the guides on both sides of the junction.

The proposed method allows to ensure the temperature regime inside the shelters of the modules due to air pockets formed over the entire width of the sealed joint and having a low thermal conductivity, thereby preserving the temperature difference inside the modules compared to the temperature outside the modules.

The installation of sealing elements at the ends of the walls of the base, in addition, eliminates the deformation of the surface of the facing plates (sandwich panels).

To implement the method of sealing joints, devices for sealing are used.

A device for the joint of facing plates, consisting of a trough-shaped profile made of sheet material with side walls, and fastening nodes for fastening at the joint (see the description of the utility model of the Russian Federation to patent No. 125217, ЕВВ 1/38, published on 02.27.2013 )

The known device can be used as a closing element only for joints of wall panels that are in a stationary position, and it is almost impossible to use for joints of facing plates fixed at the junction of a metal structure subject to movement, which is accompanied by a change in the size of the joint in width when moving the modules.

The profile and the overlay are made of sheet material with bends of the ends of the walls, while the overlay is held only by elastic forces, which does not provide the possibility of multiple mounting-dismounting.

A device for sealing a joint is known, adopted as a prototype, consisting of a trough-shaped profile made of sheet material with side walls and an elastic gasket on the inside of the profile for interacting with the surface of the joint to be sealed and fasteners for fastening at the joint (see the description of the invention of the USSR copyright certificate No. 1231159, Е04В 1/60, Е04В 1/38, Е04В 1/68, publ. 05/15/1986).

The elastic gaskets in the known device are placed on both sides of the joint and are fixed with a sealant. Such a connection does not provide for multiple installation-dismantling.

The patch is inserted into the trough-like profile, where it is not fixed and does not provide sufficient joint tightness.

The known device can be used as a closing element only for joints of wall panels that are in a stationary position, and it is almost impossible to use for joints of facing plates fixed at the junction of a metal structure subject to movement, which is accompanied by a change in the size of the joint along the width.

The technical task of the proposed method is to ensure reliable sealing of the joints of metal structures, namely the drilling rig modules, the movement of the echelon of which is accompanied by a change in the position of the racks of adjacent modules in the vertical plane, as well as the possibility of multiple mounting-dismantling.

The technical problem is solved in that the device for sealing the joints of the modules of the drilling rig consists of a trough-shaped profile made of sheet material with side walls and an elastic gasket on the inside of the profile for interacting with the surface of the joint to be sealed and fasteners for fastening to the joint formed by the module racks, this elastic gasket is made in the form of a sheet and secured with a support with the possibility of formation of an air pocket in the middle of the profile, side walls up to additionally contain sealing elements for interaction with the outer surface of the joint, the ends of the profile are made with end walls for fixing relative to the racks of the modules, while one of the walls is equipped with a handle for transportation and installation, and the fastening nodes in the form of hinged nodes are equipped with a rod, a removable stop interacting with module racks, and a nut fixing the emphasis on the rod relative to the racks. The elastic gasket is made of rubber. The rod is made in the form of a bolt. The hinge assembly is made of two U-shaped elements connected with the possibility of rotation relative to each other and relative to the profile.

The method and device for sealing joints of drilling rig modules are illustrated by drawings, where: in FIG. 1 shows the fastening of the stripper at the junction with a long rod; in FIG. 2 - the same, short traction; in FIG. 3 shows a general view of the device in transport position; in FIG. 4 is a view A in FIG. 3.

The housing 1 of the device is made of sheet material in the form of a trough-like profile with side walls 2 and an elastic gasket 3 on the inside, which is fastened with a support 4 in the middle of the housing 1, forming an air pocket in the middle of the profile.

To increase the tightness of the joint along racks 5 of the modules, guides 6 are fixed rigidly, which protrude above the surface of the joint and interact with the elastic gasket 3 on both sides of the joint. The guides 6 can be equipped with elastic elements 7.

The elastic gasket 3 is made of rubber in the form of a sheet with a width of at least the width of the joint and a length of at least the length of the housing 1 and mounted on the support 4 using the clamps 8 and the retaining pad 9 on the inside of the housing 1.

The ends of the side walls 2 are additionally fitted with sealing elements 10 that interact with the outer surface of the joint, forming air pockets on both sides of the guides 6 on both sides of the joint.

The end walls 11 and 12 are attached to the upper and lower end of the housing 1, making it possible for the wall 11 to support the ends of the struts 5 and the wall 12 on the module frames (the module frames are not shown conventionally in the drawing). A handle 13 is rigidly mounted on the wall 11 of the housing 1 for transportation and installation of the housing 1. The wall 11 of the upper end of the housing 1 prevents precipitation from entering the housing 1, ensuring the tightness of the joint.

The fastening nodes 14 are made in the form of hinge nodes to provide damping of the skew of the racks to the movement of the modules and to ensure their rotation relative to the housing 1 in the transport position. The mounting nodes 14 are attached to the support 4 of the housing 1 by a bolted connection (a bolted connection is not shown conventionally in the drawing).

The hinge assembly consists of two U-shaped elements 15 and 16, connected by an axis 17 with the possibility of rotation relative to each other, and a rod 18 in the form of a bolt, a removable stop 19, interacting with the uprights 5, and a nut 20, fixing the stop 19 on the rod 18.

The rod 18 can be short for installation inside the profile of the racks when fixing and long for installation when fixing outside the profile of the racks.

Fasten the device at the junction as follows.

The housing 1 for the handle 13 is installed on the joint from the outside of the modules, having previously removed the stops 19 and the nuts 20 and placing the rods 18 of the mounting nodes 14 in the gaps between the posts 5 of the adjacent modules. In this case, the wall 11 of the housing 1 rests on the racks 5, and the wall 12 - on the frames of two adjacent modules.

Depending on the length of the rod 18, the stop 19 is installed inside the profiles of the uprights 5 or externally, then the stops 19 are put on each rod 18 and the nuts 20 are screwed on, thereby fixing the stops 19 relative to the uprights 5 of the modules and, accordingly, the housing 1 relative to the joint on its inside.

At the same time, the elastic sealing elements 10 interact with the outer wall of the modules on both sides of the joint, and the elastic gasket 3 interacts with the guides 6 mounted on the posts 5, or with the sealing elements 7 of the guides 6, if any, forming additional air pockets on both sides of the joint.

The fastening nodes 14 absorb the skew of the racks 5 of the adjacent modules that occurs during the movement of the modules, ensuring a reliable fit of the sealing elements 10 to the surface of the facing plates of the modules and the guides 6 to the elastic gasket 3. In addition, the sealing elements 10 prevent deformation of the surface of the facing plates of the modules.

Claims (6)

1. The method for sealing the joints of the modules of the drilling rig, which consists in pre-manufacturing the device body from sheet material in the form of a trough-like profile with side walls and an elastic gasket on the inside and subsequent mounting of the body using fastening nodes at the junction formed by the racks of the modules, characterized in that form an air pocket in the middle of the profile to reduce thermal conductivity over the entire width of the sealed joint by attaching an elastic gasket in the middle of the profile and ear pockets on both sides of the joint are fastened along the racks of the guide modules, which protrude above the surface of the joint and interact with the elastic gasket, sealing elements are put on the ends of the side walls to interact with the outer surface of the joint, while the fastening nodes are made in the form of hinges that provide a reliable fit profile during joint deformation arising due to skewing of racks when moving adjacent modules. 2. A method for sealing joints of drilling rig modules according to claim 1, characterized in that the guides are equipped with elastic elements. 3. A device for sealing the joints of modules of a drilling rig, consisting of a trough-like profile made of sheet material with side walls and an elastic gasket on the inside of the profile for interacting with the surface of the joint to be sealed and fasteners for mounting on the joint formed by the module racks, characterized in that the elastic gasket is made in the form of a sheet and is fixed with a support with the possibility of forming an air pocket in the middle of the profile, the side walls additionally containing t sealing elements for interacting with the outer surface of the joint, the ends of the profile are made with end walls for fixing relative to the racks of the modules, one of the walls is equipped with a handle for transportation and installation, and the fastening nodes in the form of hinge assemblies are equipped with a rod, a removable stop interacting with the racks modules, and a nut fixing the emphasis on the traction relative to the racks. 4. A device for sealing joints of modules of a drilling rig according to claim 3, characterized in that the elastic gasket is made of rubber. 5. A device for sealing joints of modules of a drilling rig according to claim 3, characterized in that the rod is made in the form of a bolt. 6. A device for sealing the joints of modules of a drilling rig according to claim 3, characterized in that the hinge assembly is made of two U-shaped elements connected to rotate relative to each other and relative to the profile.

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