SU842453A1 - Device for sampling sediments from a water basin bottom - Google Patents

Description

! The invention relates to sampling, in particular to devices for sampling sediments from the bottom of a reservoir, and can be used when conducting exploration in the seas and oceans "5

A device for sampling sediments from the bottom of the reservoir, comprising a working member made in the form of fortified on levers pivotally interconnected with cross-sections ballast ⁰ GOVERNMENTAL goods, post to a rod and a float leader £ 1}.

However, the device is unreliable in operation when testing reservoirs with dense and viscous sediments due to the ¹⁵ possible closure of the valves of the working body and is inconvenient to use, since its use requires a significant supply of ballast cargo remaining at the bottom of the reservoir during each sampling cycle.

Closest to the proposed one is a device for sampling sediments from the bottom of a reservoir, containing a working body made in the form of flaps mounted on levers, pivotally interconnected with ballast tanks, a rod with a leader rod and an additional ballast tank, and a system for purging ballast tanks with compressed gas connected to them by piping and pressure reducing valve f2]. ;

The disadvantages of this device are its low productivity and due to the low speeds of immersion and ascent, and the low reliability of the selected precipitation samples due to the significant drift of the device by currents.

The purpose of the invention is to increase προ-, depletion and reliability of sampling.

This goal is achieved by the fact that the device is equipped with an inflatable pontoon, mounted on a rod and connected by pipelines through re3

Auction valve with a system of purging ballast tanks with compressed gas, and reconnaissance cargo, mounted on the levers of the valves of the working body using cables. .

Moreover; the inflatable pontoon is equipped with a funnel made of elastic material and a spatial cord in which it is placed, while the spatial cord is fixed on the funnel, and the funnel on the boom, the proposed device is shown when immersed in. reservoir, general view; in FIG. 2 - the same when sampling sediments; in FIG. 3 the same, when surfacing to the surface of a reservoir.

In FIG.

842453 4 soy its metal structures and a mass of 17 reconnaissance cargo suspended from ropes 16.

When reconnaissance cargoes reach the bottom of the ocean 16, there is a sharp decrease in the speed of the device’s sinking, after which one shock blower 6 strikes, moving relative to the rod 5, the gas generator 11 is activated. them through the check valves 18 water, i.e. Ballast tanks are purged. Ак As in this case, the ballast tanks receive positive buoyancy, through the levers 2 they rotate the flaps 1 of the working body around axis 4, ensuring that the sediment sample is cut off until they are completely closed. At the moment of shutter closure, the purge of additional ballast tank 7 with compressed gases coming from ballast tanks 3 through pipelines begins. 13 through a pressure reducing valve 15. The water displaced in this case exits through a non-return valve 18, which is installed in the lower part of the additional ballast tank 7. Upon reaching the required overpressure in it, compressed gas begins to flow through the pressure reducing valve 15 through a pipe 14 to the inflatable pontoon 8, filling his.

with each other using the axis 4, with the leader rod 6, establish with the possibility of relative displacement ^ and additional extension 35

The device for sampling sediments from the bottom of the reservoir consists of a working body, made in the form of rods 1, mounted on levers 2, at the other ends of which are mounted ballast tanks 3 and pivotally connected rods 5 with a ballast tank 7, which is attached to the body, tough, inflatable pontoon 8? placed in the spatial cord 9 and mounted on the rod 5 in an elastic funnel 10, on which the spatial cord is fixed, the systems for blowing ballast tanks' 3 and 7, as well as an inflatable pontoon 8 with compressed gas, made in the form of a gas generator 11 and connected to them. pipelines 12-14, respectively, and a pressure reducing valve 15 and ₄ θ of reconnaissance cargo 16, mounted on levers 2 of the shutters 1 of the working body with cables 17. Each ballast tank 3 and 7 has a check valve 18, the leader rod6 is kinematically connected to the gas generator 11.

The work of the device is as follows.

After the descent of the device with a floating medium. In the pond, water is filled first. ballast tanks 3, which leads to the rotation of the levers 2 around the axis 4 and, consequently, to the opening of the valves 1 of the working body, and then the additional ballast capacity 7. As a result, the device sinks to reach the bottom (for example, ocean) due to the negative buoyancy determined mas30

When the device as a whole reaches positive buoyancy, it opens from the bottom of the ocean and floats to its surface. When surfacing in re. As a result of the reduction of the hydrostatic pressure of the water, the excess pressure of the compressed gases increases in the ballast tanks 3 and 7 and the inflatable pontoon 8, freeing the latter from the remaining water, the ascent rate increases, but after the ascent of the inflatable pontoon, the top is abated. Then the device is lifted onto the watercraft and the precipitation sample selected by it is removed.

Claims (2)

an exhaust valve with a system for supplying ballast tanks with compressed gas, and reconnaissance cargoes fixed to the arms of the working body valves with the help of cables. In addition, the inflatable pontoon is supplied with a wrap of elastic material and a spatial cord in which it is placed, with the spatial cord fastened on the funnel and the funnel on the rod. FIG. 1 shows the proposed device when immersed in it. reservoir, general view; Fig., 2 - the same, when sampling precipitation; Fig, 3 is the same, ascent to the surface of the reservoir. The device for sampling sediments from the bottom of the reservoir consists of a working body, made in the form of beddings 1, fortified on the levers 2, on the other ends of which the ballast tank 3 is mounted and pivotally interconnected by means of an axis 4 with rod 5 the leader 6 installed therein with the possibility of relative movement and an additional ballast capacity 7, rigidly fixed on it, an inflatable pontoon 8, placed in the space cord 9 and fixed on the rod 5 in the elastic funnel 10, on which the space a cord, a purge system for ballast tanks 3 and 7, as well as an inflatable pontoon 8 with compressed gas made in the form of a gas generator 11 and connected to them by means of pipelines, respectively, 12–14 and a reduction valve 15 reconnaissance cargo 16, mounted on levers 2 flaps 1 of the operating organ with cables 17, Each ballast tank 3 and 7 has a check valve 18, rod-leader6. Kinematically connected with the gas generator 11. The device operates as follows. After the device is lowered from the vessel into the water there is a filling in Doi LAD: Chal. the container of containers 3, which leads to a turn of the levers 2 around axis 4 and, consequently, to the development of the valves 1 of the working organ, and then an additional ballast capacitance 7. As a result, the device is loaded until the bottom (for example, ocean) due to the negative buoyancy obtained , the mass of its metalwork and the mass of 17 reconnaissance cargoes 16 suspended by the cables, 16 when the reconnaissance cargo reaches 16 of the ocean floor, there is a sharp decrease in the speed of the device, and then the bottom valve 6 When moving relative to the rod 5, the gas generator 11 is actuated. The resulting gases through pipelines 12 from the gas generator enter the ballast tanks 3 and force water out of them through the check valves 18, that is, purge of ballast tanks occurs. the ballast tanks receive positive buoyancy, they turn the flaps 1 of the working body around the axis 4 through the levers 2 around the axis 4, ensuring that the sediment sample is cut until they are completely closed. At the time the flaps close, the additional ballast capacitance 7, compressed gases coming from ballast tanks 3 through pipelines 13 through reduction valve 15, the water that is displaced while exiting through the non-return valve 18 installed in the lower part of the additional ballast tank 7. When the required excess pressure in it is reached, the compressed gas starts flow through the pressure reducing valve 15 through the pipeline, 14 into the inflatable pontoon 8, fill it. When the device as a whole reaches a positive buoyancy, it opens from the bottom of the ocean and floats on its surface. When boating due to a decrease in hydrostatic pressure of water, the overpressure of compressed gases in ballast tanks 3 and 7 and inflatable pontoon 8 increases, freeing the latter from water, the rate of ascent increases, but after the ascent of the inflatable pontoon to the surface, it quenches sharply. The device is then lifted onto the watercraft k and the sediment sample taken by it is taken. Claim 1, A device for sampling sediments from the bottom of a reservoir, containing a working member made in the form of fortified levers, hingedly connected to each other with ballast capacitances, a rod with a rod the leader and the additional ballast capacity and the system of purging the ballast tanks with compressed gas, connected to them with the use of pipelines and output-valve, differs from the fact that, in order to increase the productivity and reliability of sampling, it is equipped with an inflatable pontoon, fixed on the rod and connected by pipelines through a pressure reducing valve with a system of blowing ballast tanks with compressed gas, and reconnaissance cargo, mounted on the levers. , - B 84 using the valves of the working body with ropes. 2. The device according to claim 1, 1, and that is that the inflatable pontoon is provided with a funnel made of elastic material and the spatial cord in which it is placed, the spatial cord is fixed on the funnel, and the funnel is rod. Sources of information taken into account during the examination 1. USSR author's certificate No. 553868, cl. GOlN 1/10, 1976. 2. USSR author's certificate for application number 2463603 / 25-26, March 18, 1979. 4V CvSJW / 9 fig.Z eight