SU1682522A1 - Bottom sampling plant - Google Patents

Abstract

The invention relates to a rock drill and can be used for sampling of bottom soil during geotechnical and geological exploration at the bottom of reservoirs. The purpose of the invention is to increase the convenience of operation. The installation for the collection of bottom samples includes a column set 1.2 and an opera case with legs 5. The support case consists of two sleeves 3 and 4 placed one above the other, i Ш С 05 оо IsD СП НD К

Description

made with the possibility of rotation of one relative to the other and associated with the mechanism of rotation, with an opposite pair of paws located on each sleeve. The turning mechanism is made

in the form of an angular gear, the leading link 7 of which is mounted on one of the sleeves and connected to the float 9, and the driven link 10 is fixed on the other sleeve. 2 Il.

The invention relates to mining and can be used to collect bottom soil samples during geotechnical and geological exploration at the bottom of reservoirs.

The aim of the invention is to improve ease of operation.

FIG. 1 shows a plant for sampling bottom samples before launching into water, a general view; in fig. 2 - the same at the time of sampling.

The bottom sampling unit consists of a core kit, represented by a core receiver tube 1 and a submersible pump 2, a support body in the form of an upper 3 and lower 4 sleeves with pairs of paws 5. Opposed to each of the sleeves. The sleeves 3 and 4 are placed one above the other and installed possibility of rotation of one relative to the other in the bearing assembly 6e. Sleeves 3 and 4 are interconnected by a rotation mechanism, which is made in the form of an angular transmission (for example, bevel gear). The driver link 7 is mounted on the lower sleeve 4 and the lever 8 is connected to the float 9, and the driven link 10 is connected to the upper sleeve 3. The opposite is possible, when the driver link 7 is installed on the upper sleeve 3. To turn the paws 5 into mutually perpendicular sides, the working diameters of the links 7 and 10 should be equal. The driver link 7 is supplied with a gearbox 11. To prevent the float 9 from lowering into the lower gauge point, a stop 12 is made on the hub 4. The umbilical 13 serves to communicate with the vessel and supply energy.

The installation works as follows

On the deck of the ship and when being transferred through the false-board, the installation is in the position shown in FIG. When immersed in water, the float 9 pops up under the action of buoyancy

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and using the lever 3 and the gearbox 11, rotates the driving link 7, which is engaged with the driven link 10. The sleeves 3 and 4 with the legs 5 rotate in the bearing assembly 6. At the same time, the opposed pairs of legs 5 are mutually perpendicular. The installation is placed on the bottom. The immersion device 2 is turned on, and the core receiver pipe 1 is buried in the ground. After the end of the drilling, the installation on the umbilical 13 is removed from the water. In this case, the float 9 under the action of its weight is lowered onto the support 12, returning the sleeves 3 and 4 with the feet 5 to the initial position (Fig. 1). In this form, the installation is transferred through the ship's raised deck to the deck. It does not require a large boom overboard, which is very important for light-tonnage vessels, since the support has small transverse dimensions when folded.

The use of the proposed installation increases the convenience of its operation by reducing the overall dimensions of the support, which allows for more efficient use of the working area of the vessel, and increases the safety of work during rough sea and rolling.

Claims (1)

Invention Formula An installation for sampling bottom samples, including a core set and a support unit in the form of two sleeves with legs and a mechanism for their rotation, characterized in that} in order to improve ease of operation, the rotation mechanism of the sleeves of one, relative to the other, is designed as an angle transfer, leading the link of which is fixed on one of the sleeves and provided with a float, and the follower is fixed on the other sleeve. To ship 13 -2 FIG. 2