SU755681A1 - Apparatus for lifting sunk floating means - Google Patents

Description

The invention relates to rescue and salvage works.

A device for lifting sunken means is known, containing a reservoir-5 voir, filled with water and floating bodies, a feeding mechanism made in the form of a wheel with buckets placed on its rim (1).

The disadvantages of this device are the partial supply of granules to the suction zone and a decrease in the concentration of the slurry in the pressure zone in the case of compressibility of the granules.

The closest technical solution to the invention is a device for lifting sunken craft, containing mixing and dosing complexes with pellets, pumps, 20 suction and pressure pipelines with valves (2}.

The purpose of the invention is to increase efficiency and achieve uniform supply of granules.

This goal is achieved by the fact that 25 the mixing complex of the device is made with a cylindrical mixing tank, equipped with tangential nozzles, and is equipped with inlet and outlet pipelines, 30

In this case, the mixing complex is connected to one pump inlet and outlet pipelines, and another pump is installed on the suction pipe, and the dosing complex is made with a conical dosing tank installed on the pressure pipe.

The top of the conical dosing tank is equipped with a connecting pipe connected to the tangential nozzles of the cylindrical mixing tank.

The main pipeline is equipped with a pipeline connecting it with the lower part of the conical dosing tank.

The invention is illustrated in the drawing.

The device consists of a cylindrical mixing tank 1, equipped in the upper part with tangential nozzles 2, a water supply pipe 3, a pump 4 and a discharge pipe 5 with a valve 6 that drains water from the bottom of the tank 1 to the suction pipe of the pump 4, the suction pipe 7 connecting the mixing capacity 1 with a working pump 8 pressure pipe 9,

755.681

at the end of which a conical dosing container 10 is installed. The pressure pipe 9 is connected to the lower part of the dosing container 10, and the main pipeline 11 is led to the top of the dosing container 11

10, The lower part of the dose container * 10 is connected to the tangential nozzles 2 by a connecting pipe 12, equipped with a valve 13, and the main pipeline 11 is connected to the lower part of the metering container 10 U 10 by a pipe 14 equipped with a valve 15.

The device works as follows.

The granules are continuously loaded into 15 cylindrical mixing tank 1, into which water flows through pipe 3 of pump 4 through tangential nozzles 2. 8, and from it through the pipeline 9 - into the conical dosing capacity - 2 $ bone '10, Clean water from the peripheral part of the mixing tank 1 through the pipeline 5 returns to the pump 4 "Adjusting the amount of return water stvlyaetsya valve 6.

From the upper part of the dosing tank 10, the granules enter the main pipeline 11. The concentration of the slurry in the pipeline 11 is adjusted by changing the flow rate of the water that comes from the bottom of the dosing tank 10 through the pipe? pipeline 14 in the pipeline 11. Changing the flow of clean water by using the valve 15. Excess water from the dosing tank 10 40

pipeline 12 enters the tangential nozzles- 2. The flow of this water is regulated by the valve 13.

Feasibility advantage. of the invention lies in the fact that

even before dosing, the granules are pressed out at the pump, and the dosing tank with a pressure equal to approximately

the depth of the sunken object, which allows you to create a higher concentration of the slurry in the main pipeline after passing through the conical dosing tank. As a result, the device performance is increased and the specific energy consumption is reduced.

Claims (3)

Claim 1. Device for lifting sunken floating equipment, containing mixing and dosing complexes with pellets, pumps, suction and pressure pipelines with valves, characterized in that, in order to increase efficiency and achieve uniform supply of granules, the mixing complex is made with a cylindrical mixing tank equipped tangential nozzles, and is equipped with inlet and outlet pipelines, while the mixing complex is connected to one pump inlet and outlet pipelines, and at yvayuschem pipeline using another pump, and metering complex formed with a conical dosing tank installed on the discharge pipe. 2. The device according to claim 1, characterized in that the top of the conical dosing container is equipped with a main pipeline, and the lower part of the conical dosing container is equipped with a connecting pipe connected to the tangential nozzles of the cylindrical mixing tank. 3. The device according to claim 1, about t l and— It is connected with the fact that the trunk pipeline is equipped with a pipeline connecting it with the lower part of the conical dosing tank.