SU763729A1 - Device for sampling bottom soil - Google Patents

Description

The invention relates to autonomous technical means for sampling the upper layers of sediment from the bottom of reservoirs. A standalone sampler is known which consists of a float, discharged ballast weights, a retainer combined with a leading rod in the direction of the throw bar, to which a working body is attached, made in the form of grapple buckets with cantilever levers, on the free ends of which there are hitch bumps bsslasty goods, made in the form of forks. A disadvantage of the known device is the possibility of loss during the sampling of profile ballast weights, which is due to the need to have a considerable stock of them. It is also known a device for sampling bottom sediments, comprising a float made in the form of a ballast vessel, a leader rod and levers connected to a gas generator, at one end of which a grab bucket is fixed, and on other devices for fixing the position of the valves in the form. A disadvantage of this device is the unsatisfactory operation of the grab bucket when sampling dense and viscous bottom sediments, since inertia forces in these sedimentary rocks are quickly extinguished and the bucket remains half closed. In addition, devices for fixing the valves, made in the form of springs, are not reliable and durable. The aim of the invention is to increase the reliability of the design of the device. This goal is achieved by the fact that the fixtures for fixing the position of the clamps of the grab bucket are made in the form of containers connected to the gas generator, as well as by means of pipelines with a float. Figure 1 shows a general view of the device on the surface of the reservoir when water is filled with ballast tanks; in fig. 2 - the same, during the separation of the sampler from the bottom of the reservoir and first ascend. The device consists of a working body, made in the form of the flaps 1 of a grab bucket with levers 2, on the free ends of which there are devices for fixing the position of the flaps in the form of ballast tanks 3,

connected through pipelines

4 with a gas generator 5. In this case, the console arms 2 are hingedly connected to each other along the axis b, and the gas generator

The 5 kinematic connection is connected with the leader rod 7, mounted with the possibility of vertical movement in the guide rod 8, passing through the float 9, made in the form of a ballast tank. Moreover, the ballast tank 9 is connected via pipelines 10 and a pressure reducing valve 11 with ballast tanks 3 placed on the cantilever arms 2. All power tanks 3 and 9 in the lower part are equipped with check valves 12.

The device works as follows.

After dropping from the carrier watercraft, the ballast tanks 3 are first filled with water, which causes the arms 2 to rotate around the axis b and therefore / to open the clamshell 1 of the clamshell bucket and then the tank 9, after which the device sinks until the bottom of the water reaches negative buoyancy, determined by its mass. metal construction. When the device strikes the bottom of the reservoir, the rod-leader 7 moves upwards inside the guide rod 8 and actuates the gas generator 5. Generating compressed gases through pipelines 4 from the chamber of the gas generator 5 enters containers 3 placed on the free ends of console arms 2 interconnected. When compressed gases enter the ballast tanks 3, the latter are purged, i.e. the compressed gases, rising upward in the ballast tanks 3, create an overpressure and force out of them the water that flows out through the check valves 12 installed in

the bottom of the ballast tanks 3. When purging the ballast tanks 3, they acquire positive buoyancy, which causes the cantilever arms 2 to turn around axis 6 and cut off the sludge bucket 5 of the sediments at the bottom of the reservoir. At the moment when the clamps 1 of the grab bucket are closed, the ballast tank 9, which is compressed gases coming from the main reservoir 3 through pipelines 10 through the pressure reducing valve 11, starts to be purged. that when the required positive buoyancy is reached, it leads to the separation of the device from the bottom of the reservoir and its ascent to the surface with a sampled sediment. After ascend

20 to the surface of the reservoir, the device lifts aboard a floating craft.

Claims (2)

1. A device for sampling bottom soils, including a float made in the form of a ballast tank, a stem-leader connected to a gas generator, and levers, at one end of which there are fixed clamps of the clamshell bucket, and on others - fixtures for fixing the position of the valves, It is distinguished by the fact that, in order to increase reliability, the fixation devices are made in the form of tanks connected to a gas generator. 2. The device according to claim 1, characterized in that it is provided with pipes connecting the float to the fixtures for fixing the valves. 0 P I Bottom of the ocean y / // // t // W: