RU2036268C1 - Method for mounting sea-based ice-proof platform and a device to implement it - Google Patents

Abstract

FIELD: hydraulic engineering building. SUBSTANCE: method is implemented using a device, having ice-proof supports 2 secured to sea bed, installed one opposite another. Upper parts of supports 2 being hot flooded have extendable cantilever beams 3, which are installed inside the space between supports by their extending or turning around axle of support 2 using jack so to enable horizontal moving as related to supports 2. During ice free season, self-lifting floated platform 5 provided with process equipment is inserted between ice-proof supports 2. Bearing columns 6 are lowered to water area bed, vessel of platform 5 is lifted over water. Extendable beams 3 are moved and the platform is lowered on them. Bearing columns of the platform are moved up, then the platform is operated all year through in ice conditions. EFFECT: invention proposed allows one to erect ice-proof platform on shallow shelf without special floating aids of large weight capacity. 6 dwg

Description

 The invention relates to the hydraulic construction of structures, in particular on the shelf of the freezing seas, for oil and gas production.

 The purpose of the invention is the simplification of installation work during the construction of facilities in shallow water by eliminating the use of additional boats during transportation of the upper structure to the installation site.

 In FIG. 1 shows ice-resistant supports mounted one against the other; figure 2 orientation of the floating platform between the ice-resistant supports; figure 3 descent of the support columns and the lifting of the housing; figure 4 operating position of the platform in ice conditions; figure 5 is a view along arrow A in figure 2; Fig.6 section BB in Fig.2.

 A device for mounting an offshore ice-resistant platform includes ice-resistant supports 2 attached by piles to the bottom 1 of the water area, having retractable cantilever beams 3 on the upper flooded part, mounted with the possibility of horizontal movement of relatively ice-resistant supports 2 into the space between the supports by their extension or rotation around the axis of the support 2 s using jacks (not shown). The beams can have a rectangular hole 4 (see FIGS. 5 and 6). On the cantilever beams 3 installed the upper structure, made in the form of a self-lifting platform 5, with a floating body and supporting columns 6 with mechanisms for the vertical movement of the columns (not shown). The upper structure has a deck 7 on which a derrick is installed 8. The derrick 8 is, if necessary, moved to the deck 9 of the ice-resistant support 2.

 Installation of the platform is as follows.

 In the selected water area, ice-resistant supports 2 are installed and fastened to the bottom 1 by piles (Fig. 1), with pull-out beams 3 with inner rectangular holes 4 (Figs. 5 and 6) on the upper part.

 In the inter-ice period between the ice-resistant supports 2 enter self-propelled floating platform 5 with technological equipment (figure 2). The supporting columns 6 are lowered to the bottom of the water area (see Fig. 3), the body of the platform 5 is raised above the water, the beams 3 are moved using jacks and the platform is lowered onto them. Then, from deck 7, the derrick 8 is moved to deck 9 of the ice-resistant support (Fig. 4). Then, using the lifting mechanisms, support columns are lifted from the bottom of the water area. Thus, platform 5 operates year-round in arctic conditions.

Claims (2)

 1. A method of mounting a sea ice-resistant platform, including installing ice-resistant supports on the bottom of the water area opposite one another, attaching them with piles to the bottom, transporting the upper structure with technological equipment, landing the upper structure on ice-resistant supports, characterized in that, in order to simplify installation work when the construction of the structure in shallow water due to the exclusion of the use of additional boats during transportation of the upper structure to the installation site, the upper structure, made in the form of a self-lifting platform Forms with a floating hull and supporting columns with vertical movement mechanisms, transporting them under their own power to ice-resistant supports installed on the bottom of the water area with unfrozen cantilever beams, orienting it between the ice-resistant supports, lowering the support columns of the self-lifting platform to the bottom, deepening them into the bottom, lifting the self-lifting platform body above water so that the bottom of the hull is higher than the upper plane of the cantilever beams, cantilever beams are installed under the bottom of the casing of the platform by extending them or turning that around the support axis, the platform body is lowered to land on established between ledostojkih supports cantilever beams, after which the supporting platform is removed from the column bottom and lifted by a vertical movement mechanism.  2. Device for mounting an offshore ice-resistant platform, including the upper structure with supporting columns and technological equipment, ice-resistant supports installed one opposite the other, nodes for connecting the upper structure with ice-resistant supports, characterized in that it is equipped with cantilevered beams mounted on the top of the non-flooded part of the ice-resistant supports with the possibility of horizontal movement of relatively ice-resistant supports in the interior of the space between the supports by extension or rotation of the cantilever beams around B supports, and the upper structure is made in the form of a jack-up platform with a floating body and support columns with the vertical movement mechanism, wherein the distance between the supports ledostojkih formed wider than the platform body, and the distance between the ends of cantilever beams nominated less than the width of the housing.

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