RU2084373C1 - Method and device for raising sunken object - Google Patents

Abstract

FIELD: raising sunken objects. SUBSTANCE: device contains pontoon which is flooded together with tank filled with liquefied nitrogen. When liquefied nitrogen evaporates in heat exchanger, it embraces the object to be raised, pontoon and object are secured together. EFFECT: enhanced reliability. 3 cl, 1 dwg

Description

 The invention relates to the field of ship lifting.

 A known method of lifting a sunken object, including flooding a pontoon near a sunken object with a heat exchanger with the latter located on the sides of the sunken object, fastening the pontoon with the sunken object by freezing water in the space between the sunken object and the heat exchanger by supplying refrigerant to the latter and blowing the pontoon after fixing the object in an ice monolith.

 This method is implemented when the device for lifting a sunken object, which contains a pontoon with a purge line of its cavity, a heat exchanger connected at one end with a refrigerant source and thermal insulation located outside the heat exchanger (see UK patent N 161466, CL B 63 C 7/14, 1921).

 When implementing this method, the specified device requires a constant connection of the pontoon with the surface auxiliary vessel.

 The technical result from the use of the invention is to ensure the autonomy of the lifting means in the process of lifting the sunken object.

 This technical result is achieved by the fact that in the method of lifting a sunken object characterized by the aforementioned features, the pontoon is flooded together with a refrigerant source in the form of a container with liquefied nitrogen, with the location of this tank above the sunken object, and water is frozen in the space between the sunken object and this tank, and during the entire duration of the work, the cavity of the tank with liquefied nitrogen is drained. And in the device for implementing this method, which contains a pontoon with a purge line for its cavity, a heat exchanger connected at one end with a refrigerant source and thermal insulation located outside the heat exchanger, the refrigerant source is made in the form of a container for liquefied nitrogen rigidly connected to the pontoon with located outside its bottom frame, made in the form of a truncated cone, tapering down from the tank. In this case, the heat exchanger is located on the outside of the frame, and thermal insulation is located around the tank, excluding its bottom.

 The tank is made with a drain valve installed in its upper part, in communication with the heat exchanger and pontoon cavity purges made with shut-off valves, and the second end of the heat exchanger is in communication with the surrounding space.

 The drawing shows a diagram of a device for lifting a sunken object.

 A device for lifting a sunken object 1, located on the ground 2 under a layer of water 3, consists of an annular pontoon 4, a tank 5 with liquefied nitrogen 6, a tubular heat exchanger 7 and thermal insulation 8. The pontoon 4 and the tank 5 are rigidly connected using brackets 9. Capacity 5 is equipped with a drain valve 10 and a frame 11, the heat exchanger 7 is wound from the outside.

 The cavity of the tank 5 is connected to the heat exchanger 7 by a line 12 with a valve 13 and with the pontoon cavity 4 by a line 14 with a valve 15. The thermal insulation 8 is located outside the heat exchanger 7 and around the tank 5, except for its bottom 16, facing the frame 11. Drain and main valves 10, 13, 15 are located in the upper part 17 of the tank 5, which eliminates the leakage of liquid nitrogen 6.

 Work on lifting the object 1 is carried out in the following sequence.

 After detecting the object to be lifted, the claimed device is brought to it using an autonomous system of executive bodies not shown in the diagram. For this, the pontoon is completely or partially filled with intake water. The device is positioned in such a way that the frame 11 as much as possible surrounds the lifted object 1. During the flooding of the device and when it is submerged, the excess pressure in the cavity of the tank 5 is released by the drain valve 10, which makes it possible to maintain during flooding and during the whole time works a slight excess pressure in the cavity of the tank 5. Vapors of nitrogen in the form of bubbles 18 rise from a depth into the atmosphere without causing environmental damage.

When flooding and fixing the device above the lifted object 1, the valve 13 of the line 12 opens, which leads to intensive freezing of water in the space 19 between the bottom 16 of the tank 5, the frame 11 and the lifted object 1. The spent gaseous nitrogen through the open end 20 of the heat exchanger 7 in the form of bubbles 21 also rises to the atmosphere
After fixing the lifted object 1 in the ice monolith formed in the space 19, by opening the valve 15 of the line 14, the device with the captured object 1 is surfaced.

Claims (2)

 1. A method of lifting a sunken object, including flooding a pontoon near a sunken object with a heat exchanger with the latter located on the sides of the sunken object, fastening the pontoon with the sunken object by freezing water in the space between the sunken object and the heat exchanger by supplying refrigerant to the latter, and blowing the pontoon after fixing the sunken object in an ice monolith, characterized in that the pontoon is flooded together with a source of refrigerant in the form of a container with liquefied nitrogen, with this tank above the sunken object, and freezing water is also carried out in the space between the sunken object and this tank, and the cavity of the tank with liquefied nitrogen is drained throughout the duration of the work.  2. A device for lifting a sunken object containing a pontoon with a purge line for its cavity, a heat exchanger connected at one end with a main source with a refrigerant source, and thermal insulation located outside the heat exchanger, characterized in that the refrigerant source is made in the form of a container rigidly connected to the pontoon for liquefied nitrogen with a frame located outside its bottom, made in the form of a truncated cone, tapering downward from the tank, and the heat exchanger is located on the outside of the frame, and the heat and olyatsiya disposed around the container, excluding its bottom, wherein the vessel is provided with a drain valve mounted in its upper portion connected to the heat exchanger and highways purge cavity pontoon performed with isolation valves, and the second end communicates with the surrounding space of the heat exchanger.