LT5127B - Device for taking soil samples from the different layers of the ground - Google Patents

Abstract

The invention relates to a device for taking samples from the different ground layers and may be used for taking samples of bulk ground samples and protecting physical structure of the samples. This device is applied to take the samples of sandy soil, seed, grain and the like. The object of the invention is to improve the existing art for taking soil samples. The device consists of a tubular construction comprising two separate interconnected semitubes (1) and movable elements (6) mounted on the end of the tubular construction. The movable elements (6) close the tubular construction end by outside pressing. Furthermore, the movable elements (6) are connected with the semitubes (1) at the sides by hinges (8). Plates (7) for closing the end of the device are fixed to the movable elements (6). Plates (7) close the end, when movable tapes (3) moving down press the plates (7).

Description

The invention relates to soil sampling devices and can be used wherever bulk soil samples need to be taken while preserving the intact physical structure of the sample. Ideal for sandy soil samples, various sediments, seeds, grain samples and more.

Scientists, engineers and environmentalists who study the physico-mechanical and chemical properties of soils, soils, sediments and other bulk structures, determine their variability across layers, and in their work face the need to sample soil or other structures so that different layers of soil do not mix. the physical and mechanical properties of the soil layers were preserved intact. In addition, such devices should be lightweight, straightforward, and usually serviced outdoors.

Known soil samplers have several major drawbacks: bucket samplers are easy to use, but soil samplers do not preserve the original soil structure and mix the soil, making it impossible to detect changes in soil physical chemical properties across soil layers; drill-type soil samplers, although they allow the soil to be separated from different soil layers, are still physically degradable and do not retain their original structure, and this type of device does not allow for changes in soil mechanical properties. In addition, drill soil samplers are complex, cumbersome, heavy, and often require heavy maintenance.

A prototype of a newly developed mechanical sampling device for different soil layers is Russian patent no. 1534366, Al, G01N1 / 04, 1988. The present invention is based on the fact that the sampling capsule is pressed from the surface to the ground to a desired depth when pressed.

SUMMARY OF THE INVENTION The object of the present invention is to provide a more efficient, faster and non-destructive soil or soil-friendly, easy-to-use sampling device for different soil layers.

The object of the invention is achieved by a new mechanical device for collecting samples from different soil layers. The novelty of the device is that the device structure is a tubular structure consisting of two interconnected semi-tubular and rear mounted movable elements, externally pressing to close the lower end of the tubular structure.

These semiconductors are metal and interconnected at the sides by hinges, in addition to which movable, preferably metal, straps are fitted to the vertical guide rails attached to the outside of the semiconductors to close the movable elements. The movable elements are joined to the sides by semi-tubular clasps and have dowels rigidly attached to them, which are directly contacted by the sliding straps as they slide down.

In addition, there are rulers on the outside and inside of the semiconductor to determine the soil sampling depth.

The description of the invention is supplemented by an accompanying drawing showing axonometry of the device.

The mechanical sampler from different soil layers has a cylindrical shape and is made up of two interconnected half-tubes 1 with sliding elements 6 attached to the underside thereof. 3, which are intended to close the movable elements 6. The movable elements 6, connected at the sides with the hinges of the half-tubes 1 8. The movable elements 6 are permanently attached with dowel plates 7 for closing the end of the device by pressing down those dummy plates 7 with the sliding strips 3 downwards. The inner and outer sides of the half-pipe 1 are provided with rulers 9 for determining the depth of soil sampling.

The soil sampler is embedded in the soil to the desired depth. The plunging depth of the unit is controlled by rulers 9. After the unit is plunged to the desired depth, the lower end of the unit is closed by pressing the sliding strips 3 down into the pin plates 7. When the lower end of the unit is closed, the unit is pulled out of the ground by loops 5. With the unit in horizontal position, the half-tubes 1 are isolated and the whole sample of the soil can be used by the user for further investigation.

This sampler from different soil layers allows the soil sample to be sampled without affecting its structure and allows for the examination of different soil layers intact. At the same time, the device is cheap to manufacture, lightweight and requires no special maintenance.

Claims (4)

A mechanical cylindrical sampler of different soil layers, characterized by the use of a tubular structure consisting of two interconnected half-tubes (1) and end-mounted movable elements (6) which externally press to close the lower end of the tubular structure. 2. A device according to claim 1, characterized in that the half-pipes (1) are metal, connected laterally by means of clasps (2), and movable straps (3) are inserted into the vertical guide-guides (4) of the half-pipes for closing the sliding elements (6). 3. Device according to claim 1, characterized in that the movable elements (6), which are connected laterally to the half-pipe (1) by means of clasps (8), are permanently attached to the movable elements by dowel plates (7) for closing the end of the device. , pressed by sliding straps (3). 4. A device according to claims 1-3, characterized in that the semiconductor (1) has rulers (9) on the outside and on the inside for determining the depth of soil sampling.