RU2035350C1 - Vertical floating column - Google Patents

Abstract

FIELD: shipbuilding. SUBSTANCE: vertical floating column consists of floating cylindrical sections 1 interconnected by means of coupler made in form of tension springs, flexible coupler for holding the sections in transportation stowage with remotely operated lock. Each section is provided with bell mouth 8 at its lower end and taper section 11 at its upper end. Column is connected with ballast 6 by means of flexible coupling. EFFECT: enhanced reliability. 4 cl, 6 dwg

Description

 The invention relates to shipbuilding, in particular to vertical floating columns installed in a pond for installation and ship lifting operations.

 Known vertical floating column containing interconnected coupling device floating cylindrical sections.

 A disadvantage of the known columns is the complexity of transportation and installation, which reduces its operational characteristics.

 The purpose of the invention is the expansion of operational characteristics by reducing labor costs for transportation and installation.

 This goal is achieved by the fact that in a vertical floating column containing floating cylindrical sections interconnected by a clamping device, each of the latter is made with a bell on the lower ring, and at the upper end with a conical section, while the coupling device is a tension spring, each of which one end is fixed on the top of the conical section of one section, and the other end in the socket of the adjacent section.

 At the top of the conical section of each section, a cylindrical section is formed, and in the upper part of the socket, a cylindrical channel with the possibility of interaction with the cylindrical section of the adjacent section and placement of the said spring.

 The vertical floating column is equipped with a ballast connected by a flexible connection with the lower cylindrical section.

 In order to ensure delivery to the installation site of the base of the column on a swivel connection between the column and the ballast, there is a ring mounted with the possibility of sliding along the guide wire.

 The invention is illustrated by drawings, where in Fig.1 shows a column in an installed form; figure 2 is the same in the transport layout; figure 3 is the same at the time of self-installation; figure 4, 5 the work of adjacent sections; in Fig.6 delivery of the column to the installation site.

 The vertical floating column contains floating cylindrical sections 1, interconnected by a clamping device in the form of tension springs 2, a flexible coupler 3 to hold the sections in a transport stack with a remote controlled stopper 4, a flexible coupling 5 for connecting to the ballast 6 and a shooting device 7.

 To form a single column core, each section 1 comprising a bell 8 at the lower end having a cylindrical channel 9 with a hook 10 for connection with a tension spring 2. At the upper end of the lower adjacent section 1 there is a conical section 11 having a cylindrical section 12 at the top for interaction with the cylindrical channel 9 and the spring 2, mounted between the hooks 10 and 13.

 For delivery of the beam 14 of sections 1 in a stacking to the installation site between the beam 14 and the ballast 6 on a flexible connection 5 there is a ring 15 with the possibility of sliding it along the guide wire 16 with the load 17.

 Installation of a vertical floating column is as follows.

 To install the column in a given place on the bottom of the pond 18 lower the load 17 with a floating guide wire 16. Due to its buoyancy and the selected length, the guide wire 16 deviates from the vertical and goes to the surface, forming a path for the beam 14 and ballast 6 to move The guide wire 16 is threaded through the ring 15 and held by the upper end on the surface, and the beam 14 and ballast 6 are lowered to the bottom of the reservoir (Fig. 6).

 After installing the ballast 6 in the specified location, the stopper 4 is remotely unlocked so that the flexible coupler 3 unclenches the beam 14, and under the action of the springs 2, the sections 1 freely straighten to their own buoyancy (Fig. 3). After that, the cylindrical section 12 with the conical section 11 (figure 4) springs 2 is inserted into the channel 9 of the socket 8 and thus stops. The column is converted into a single rod of a rigid form.

 The advantage of the invention over the prototype is a significant simplification of the design, installation and transportation of the column due to its spontaneous installation. This allows you to effectively use vertical floating columns, for example, when conducting ship lifting operations or work at depths and the seabed.

Claims (4)

 1. A vertical floating column containing hollow sealed cylindrical sections interconnected by a clamping device, characterized in that, in order to expand operational characteristics by reducing labor costs for transportation and installation, each cylindrical section is made with a bell at the lower end, and at the upper end with a conical section, the clamping device includes tension springs, each of which is attached at one end to the top of the conical section of one section and the other end at adjacent section pipe.  2. The column according to claim 1, characterized in that a cylindrical section is formed at the top of the conical section of each section, and a cylindrical channel is formed at the top of the socket with the possibility of interaction with the cylindrical section of the adjacent section and the placement of said spring.  3. The column according to claims 1 and 2, characterized in that it is equipped with a ballast connected by a flexible connection to the lower cylindrical section.  4. The column according to claims 1 to 3, characterized in that it is provided with a ring mounted on said flexible connection with the possibility of sliding along the guide wire.

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