SU1582049A1 - Device for taking samples of ground under water - Google Patents

Abstract

The invention relates to a sampling technique for the upper part of bottom sediments of water bodies and improves the efficiency of the device in dense and stony inclusions by increasing the force at the cutting edge of the bucket. A cable suspension device (CP) 1 is lowered under water, while the bucket (K) 4 is blocked by the arm 9 of the lever 8, which is held by the ring 12 on the gearbox 1. The flexible element (GE) 17 is weakened, and the flexible link 19 is tensioned by the spring force (P) 23, which is in cooperation with the stop 21, mounted on GE 17. After the device is lowered to the bottom in gearbox 1, the slack appears and the lever 8 is pushed by force P 23 clockwise, unlocking K 4 from latching. In this case, the ring 12 is removed under the action of its own weight from the hook 11 on the lever 8. The initial stage of soil extraction is performed under the action of force P 23, and later when force appears in gearbox 1 (the device begins to rise on the deck of the maintenance vessel), K 4 turns from tension of the GE 17. K 4 to 5 are removed from the device by moving the axes 3 in the direction from K 4. 2 Cp f-ly, 3 ill.

Description

The invention relates to the technical means of sampling the surface layer of bottom sediments and can be used in the production of marine exploration, as well as in monitoring the state of bottom sediments in artificial reservoirs.

The aim of the invention is to increase the efficiency of the device in operation by increasing the penetration force at the cutting edge of a soil collecting bucket, increasing the volume of the sample being taken and keeping the sample from mechanical damage during its removal from the bucket.

Figure 1 shows the proposed device in the position of the descent to the bottom; figure 2 - the same, in the process of sampling the soil; Fig. 3 shows the attachment of the bucket and the cover on the semi-axes of the frame.

A device for sampling soil under water is connected to a maintenance vessel (not shown) by cable suspension 1 and includes a frame 2, in the central opening of which a soil collecting bucket 4 is rotatably mounted and a cover 5 fixed in the form of hollow semi-cylinders is fixed with closed ends placed concentrically relative to each other and having a seal 6 (for example, a rubber cord secured in a groove made in the lid). On frame 2, using axle 7, a double-arm lever 8 is installed, having a shoulder 9 interacting with a bucket 4, and a shoulder 10 at the end of which a hook 11 is fixed to a ring 12 fixed to the end of a cable suspension 1. The frame 2 has a stand 13 with a roller 14, strut 15 and roller 16. On cable suspension 1, a flexible element 17 is fixed (shown by a dash-dotted line) with one end at point 18, and the other end through flexible link 19 at point 20 on the soil collecting bucket 4. On element 17

a stop 21 is fastened, and on the strut 15 there is a sleeve 22 with a spring 23 placed inside it. Each of the two semi-axes 3 has a section 24 that is included in. hole in

the cover 5, the circular section 25 entering the hole in the soil collecting bucket 4, and the profile section 26 placed in the frame 2. The semi-axle 3 is fixed by a nut 27 and has a handle 28. A spring 29 is mounted between the frame 2 and the semi-axle 3.

The device for sampling soil under water works as follows.

Before descending to the bottom of the reservoir, the soil collecting bucket 4 is turned clockwise on the semi-axle x 3, the bucket is blocked by the arm 9 of the lever 8, the ring 12 is put on the hook 11, the lever 8 is kept in this position by the force of the device

rope suspension 1. When the bucket 4 turns, the stop 21 placed in the sleeve 22 compresses the spring 23, as a result of which the flexible link 19 is under tension and the flexible element is slack.

When the device reaches the bottom of the reservoir R, the cable suspension 1 appears slack, which allows the spring 23 to turn the lever 8 in the clockwise direction by means of the bucket 4, while

the ring 12 is removed under its own weight from the hook 11, and the bucket 4 under the action of the force in the spring 23 produces the initial stage of cutting the bottom into the ground by the magnitude of the spring stroke.

For full stroke, the bucket 4, i.e. to rotate it through 180 °, begin the slow rise of the device onto the service vessel. The lifting force in the cable mount 1 is transmitted to the flexible element 17, the latter turning the bucket 180 ° during tension. The bucket is hermetically sealed with the lid 5 due to the seal 6, allowing at the same time the production of bottom water.

After the device is lifted onto the deck of the serving ship and during the analysis of the sample taken, the cover 5 is removed in the bucket 4 directly on the vessel, for which the semi-axes 3 are moved in the direction indicated by the arrow, the profile section 24 leaves the opening of the cover 5 and is removed to trial.

When laboratory analysis is required, the flexible element 17 is disconnected from the bucket, and after the handle 28 is moved to full speed, the semi-axis 3 moves to the length of sections 24 and 25, freeing the bucket and the cover from mounting in the device. If necessary, a control sample taken at the same time as the main frame 2 is enlarged by installing two buckets in it with all the necessary details, rope hangers 1 are connected by a traverse connected in turn to a single maintenance vessel.

The advantage of the proposed device for sampling of soil in comparison with the prototype is an increase in the efficiency of its operation in dense soils and soils with stony inclusions due to the increased force on the cutting edge of the bucket. The design of the cover allows an increase in the volume of the sample being taken, and the attachment of the bucket and the cover in the frame allows access to the soil sample without mechanical damage to the sample, i.e. make the necessary analysis of the sample visually in the form in which it was raised to the deck.

Claims (3)

1. A device for sampling of soil under water, including a rope suspension for communicating with a vessel, a frame with an installed on it with the possibility of turning on an axis with a soil-collecting bucket, fixed from the possibility of rotation of the bucket cover on the axis of the frame, fixed by the ends on the frame and bucket a flexible link and blocking unit of the soil-collecting bucket in the form of a two-armed lever dense soils by increasing the bucket penetration, is equipped with a sleeve rigidly fixed to it with a spring inside it, and the flexible link is equipped with a flexible element and an anvil that connects them Wipe off the liner and mounted to move in it and interact with the spring, while the second end of the flexible element is fixed on the rope suspension. 2. The device according to p.-1. About tl and ch yu e e with the fact that, in order to increase the volume sampled, bucket cover is made in the form of a hollow semi-cylinder with closed ends. 3. The device according to PP.1 and 2, that is, so that, for the purpose of preservation samples from mechanical damage during its removal from the bucket, the frame axis is made in the form of two semi-axes, mounted on the frame of the console, movable in the axial direction and having a core section for placing it in the bucket cover. FIG 2 Phage 3  25