RU2759290C1 - Sampling device - Google Patents

Abstract

FIELD: bottom-ground sampling devices.SUBSTANCE: invention relates to bottom-ground sampling devices. The sampling device is disclosed containing a hollow tube with a plug, a hollow rod fastened to the lid of the ground-receiving cylindrical body, inside which a piston is located. A hole is made in the lid of the ground-receiving cylindrical body, coaxial with the hole in the piston, which is fixed on a hollow tube, the upper part of which is provided with an external thread and is placed in a hollow rod equipped with a swivel with an internal thread interacting with the external thread of the hollow tube, and the top of the hollow tube equipped with an internal thread, below which there is a hole or holes, and the plug is made in the form of a rod with a thickness at one end, with a thread at the other end and a transverse opening in which the handle is located.EFFECT: invention makes it possible to carry out reciprocating movements of the ground-receiving cylindrical body, required for its penetrating.2 cl, 3 dwg

Description

The proposed invention relates to a device for the selection of bottom soils and can be used in environmental studies to collect bottom sediments of any consistency along the vertical soil, undisturbed layer structure in flowing and non-flowing water bodies.

A similar device for sampling is known containing a body, a piston with O-rings, a handle and a measuring scale applied to the upper part of the rod, a body made in the form of a cylindrical glass made of tool steel with a tapered outer wall tapering from top to bottom, having a serrated cutting edge sharpened by the type of a longitudinal saw, two metal tubes 1.5 m long, connected to each other and the body with threaded connections and O-rings, a knob and a sealing collar located in the end part on one of the metal tubes, two parts of the rod that are connected to each other and the piston are threaded connections with O-rings, and the stem is installed inside the tube (see utility model RU 156138 IPC G01N 1/10, published 2015.10.27).

The disadvantage of the analogue is that during the extraction of the soil sample under the soil receiving glass, a vacuum occurs, which violates the natural structure of the soil - it sucks out moisture, stretches the sample, often pulls the sample out of the glass before the end of the extraction of the device, reducing the percentage of samples yield during their selection. In addition, when the device is pulled out of the well, additional power is expended to overcome the pressure caused by the vacuum.

A similar manual device for taking several samples of an undisturbed structure and a constant volume along the depth of the soil is known, containing a sampling cup fixed on a hollow rod with a handle, and a piston with a rod inside the rod, equipped with an indicator of the depth of the sampling cup in the soil and a conductor made in the form of a plate, passing into a funnel with a hole covering the well, and the piston rod with a holder in the upper part and a valve for closing in the extreme upper position of the rod of the cross-section of the rod cavity from the side of the sampling nozzle, which is barrel-shaped from the outside, having between circular end sections (see USSR author's certificate No. 1328719 IPC G01N 1/04, published on 08/07/1987, Bulletin No. 29).

The disadvantage of the analogue is that during the extraction of the soil sample under the soil receiving glass, a vacuum occurs, which violates the natural structure of the soil - it sucks out moisture, stretches the sample, often pulls the sample out of the glass before the end of the extraction of the device, reducing the percentage of samples yield during their selection. In addition, when the device is pulled out of the well, additional power is expended to overcome the pressure caused by the vacuum.

The closest device for the same purpose to the claimed invention in terms of a set of features is a device for sampling soil, including a rod, a cylindrical soil receiving nozzle with a cover and a piston rod, and the soil receiving nozzle contains on its outer surface a fixed hollow tube with a plug in the form of a cable ( see USSR inventor's certificate No. 421906 IPC G01N 1/04, published on 03/30/1974 bulletin No. 12 - taken as a prototype).

The disadvantage of the prototype is that if the soil receiving nozzle is made with a length of 600-800 mm, the tube placed on its outer surface does not allow the rotational movements necessary for deepening the soil receiving nozzle.

The technical problem is to exclude a hollow tube with a plug from the outer surface of the glass while maintaining its function.

The technical result is the ability to carry out rotary movements of the glass, which are necessary for its deepening.

The specified technical result is achieved by the fact that in the known device for sampling, containing a hollow tube with a plug communicating with the atmosphere, a hollow rod fixed on the cover of the soil receiving cylindrical glass, inside which the piston is located, the feature is that a hole is made in the cover of the soil receiving glass coaxial with a hole in the piston, which is fixed on a hollow tube, the upper part of which is provided with an external thread and is placed in a hollow rod equipped with a swivel with an internal thread interacting with an external thread of the hollow tube, and the top of the hollow tube is provided with an internal thread, below which the hole is located or holes, and the plug is made in the form of a rod with a thickening at one end, a thread at the other and a transverse hole in which the handle is located.

Additionally, the invention is characterized in that the diameter of the thickening of the rod is equal to the outer diameter of the lower end of the hollow tube, and the thickening comprises tapered surfaces facing in opposite directions.

The invention is illustrated by drawings.

FIG. 1 - the lower part of the device is shown.

FIG. 2 - swivel clamp.

FIG. 3 - shows the upper part of the device.

The drawings show the following. Hollow rod 1, equipped for convenience with handles 2, fixed on the cover 3 of the soil-receiving cylindrical glass 4, the lower edge 5 of which is tapered and provided with teeth 6. The piston 7 has seals 8 and is provided with a hole 9, which is made coaxial with the hole 10 in the cover 3. The seals 8 are held on the piston 7 by discs 11 (screws for fastening the discs 11 to the piston 7 are not shown). A rubber seal 12 is fixed on the upper disk 11, which has a recess 13 above the hole 9. The piston 7 is fixed on a hollow tube 14, the upper part of which is provided with a thread 15 and is located in a hollow rod 1. A swivel is installed at the end of the hollow rod 16. In the lower part of the swivel 16 an annular groove is made and a similar groove is made in the upper part of the hollow rod. The clamp 17 consists of two parts, each of which has annular protrusions 18 entering the annular grooves of the swivel 16 and the hollow rod 1. The parts of the clamp 17 are fastened with screws (not shown) placed in the holes 19. For the convenience of rotation, the swivel 16 is equipped with handles 20. Inside the swivel 16 there is a thread that interacts with the thread 15 of the hollow tube 14. The design of fastening the swivel 16 to the hollow rod 1 may be different. Placed in the lower part of the hollow tube 14, the plug 21 with two conical surfaces, outer 22 and inner 23, is made in one piece with a rod 24, the diameter of which is less than the inner diameter of the hollow tube 14. A gap 25 is made between the rod 24 and the hollow tube 14. Upper part the rod 24 is made with a thread and a transverse hole in which the handle 26 is located. The upper part of the hollow tube 14 is provided with a handle 27 and an internal thread, below which holes 28 are made.

Device operation

By rotating the swivel 16 we pull the hollow tube 14 upward until the piston 7 comes into contact with the cover 3. At the same time, make sure that the holes 9 and 10 coincide. We tighten the swivel 16. The air from the glass 4 will come out through the holes 9 and 10. The glass 4 is cut into the ground until it stops. Loosen the swivel 16. Using the handle 27, turn the hollow tube 14 so that the gasket 12 is located under the hole 10. And again tighten the swivel 16. This prevents air from under the piston 7 when removing the device. After that, holding the handle 27, we begin to rotate the handle 26. The rod 24 is lowered. The plug 21, located at the end of the rod 24, will open the hole in the hollow tube 14. By turning the lifting cylindrical glass 4, the soil sample is detached from the bottom. Since the opening of the hollow tube is open, then when lifting the lifting glass 4, a vacuum does not arise in the place where the soil sample is torn off. Atmospheric air easily penetrates into the place where the soil sample is torn off, through the holes 28, into the gap 25 between the inner diameter of the hollow tube 14 and the rod 24 and further into the open end of the hollow tube 14. The entire device is removed from the bottom. We hold the entire device by handles 2, rotate the swivel in the direction of extrusion of the soil sample. Having made a predetermined number of turns of the swivel 16, squeeze out, for example, 5 centimeters of soil. Detaching the sample. Rotate the swivel and squeeze out the next 5 centimeters of soil. Detaching the sample. Etc.

We return the details of the device to the initial position when holes 9 and 10 coincide, and the piston 7 is attracted to the cover 3. The tapered surface 23 of the plug 21 facilitates the centering of the plug relative to the opening of the hollow tube 14 when the rod 24 is lifted.

The device is ready for operation.

Thus, the above information testifies to the fulfillment of the following set of conditions when using the claimed invention:

- the means embodying the claimed invention in its implementation relates to devices for the selection of bottom soils and can be used in environmental studies to collect bottom sediments of any consistency along the vertical of the soil, undisturbed structure of layers in flowing and non-flowing reservoirs,

- for the claimed device in the form as it is characterized in the independent claim of the stated claims, the possibility of its implementation is confirmed using the means and methods described in the application or known before the priority date.

- means embodying the claimed invention during its implementation, capable of achieving the technical result perceived by the applicant.

The advantage of the invention is that the absence of an outer tube on the outer surface of a long cylindrical soil receiving nozzle allows it to be rotated in the face.

Therefore, the claimed invention meets the condition of "industrial applicability".

Claims (2)

1. A device for sampling, containing a hollow tube with a plug communicating with the atmosphere, a hollow rod fixed on the cover of the soil receiving cylindrical cup, inside which a piston is located, characterized in that a hole is made in the cover of the soil receiving cup, coaxial with the hole in the piston, which is fixed on a hollow tube, the upper part of which is provided with an external thread and is placed in a hollow rod equipped with a swivel with an internal thread interacting with the external thread of the hollow tube, and the top of the hollow tube is provided with an internal thread, below which there is a hole or holes, and the plug is made in the form of a rod with a bulge at one end, a thread at the other and a transverse hole in which the handle is located. 2. The device for sampling according to claim 1, characterized in that the diameter of the thickening of the rod is equal to the outer diameter of the lower end of the hollow tube, and the thickening comprises tapered surfaces facing in opposite directions.

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