RU2651175C2 - Method for selecting vegetable samples and device for its implementation - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the technology of cyclic selection of plant samples from collars, pits, trenches, staddle, stacks and other storage facilities in agriculture in determining the qualitative indicators of feed and can be used in sampling other non-fugitive materials, such as peat, soil, snow and others.

EFFECT: invention provides cutting efficiency and a high rate of cyclic selection of plant samples by the depth of the feed monolith.

2 cl, 1 dwg, 1 ex

Description

The invention relates to the field of technology for the cyclic selection of plant samples from shoulders, pits, trenches, stacks, stacks, bales, rolls and other storages in agriculture when determining quality indicators of feed and can be used in sampling of other difficult-to-flow materials, for example peat, soil, snow and others.

Sampling is a time-consuming operation and requires the use of special equipment. Known methods [1-4] using various designs of samplers.

In the method [1] for sampling, the screw is rotated simultaneously in the first direction and the lower part of the outer pipe is rotated in the second direction, the first direction being opposite to the second. Rotation in opposite directions is carried out by two electric motors. The cut out part of the material is transported with the screw up.

The disadvantages of this method are the complexity of the design of the device for sampling and the inability to use for sampling from plant materials.

In the plant material sampling devices described in [2-4], a cone-shaped tip is screwed in or out of the feed monolith, and the feed sample is cut out. Longitudinal holes in the hollow cylindrical part of the auger, which is the drive, are used for cutting and mechanical extraction of the sample.

The main disadvantages of these methods are the difficulty of cutting the feed and the difficulty of extracting the sample from the storage cylinder. In addition, at the time of cutting the feed monolith, it is loosened with a screw, which introduces a significant error in determining the volume of the sample taken and the level of the depth of the storage from which the sample was taken.

Closest to the invention is the method described in [5]. However, the design of its device, in particular the cutting crown, makes it difficult for the sample to enter the drive. In addition, the cutting protrusions of the crown, made in a semicircular shape, do not provide effective cutting of vegetable feed.

The objective of the invention is to ensure cutting efficiency and high speed cyclic sampling of plant samples along the depth of the feed monolith.

, где t - шаг циклической режущей цепи, h - высота ножа, а значение x удовлетворяет условию 0≤x≤h.Obtaining such a technical solution can be achieved by using knives mounted on the edge of the screw turns and creating a circular circular cutting chain in the direction of rotation of the screw. The knives have a single-faceted cutting edge, made in the form of an elliptical curve facing the feed monolith and described by the equation:

where t is the step of the cyclic cutting chain, h is the height of the knife, and the value x satisfies the condition 0≤x≤h.

Moreover, the lower part of the cutting edge at the top of the knife is parallel to the surface of the feed monolith.

The proposed method is illustrated in the drawing, which shows a General view of the device for sampling plant samples (Fig. 1).

The plant sampling device (Fig. 1) contains an impact-pulse rotary mechanism M, a drive shaft 1 with a cylindrical part of the screw 2 and a cone-shaped screw tip 3, cutting knives 4 with a single-facet cutting edge, made in the form of an elliptic curve facing the feed monolith, the edges of the screw turns, reinforced along the edge, form an annular cyclic chain with the knives deflecting from the screw axis to the outside, the holding handles 5 are fixed in the movable sleeve 6, which allows holding the holding handles 5 to be fixed along the 1-stand shaft.

Plant sampling is carried out in the following sequence:

The plant sampling device (Fig. 1) is installed in the selected place of the feed monolith 7 and by creating a shock-pulse rotation of the drive shaft 1 with the cylindrical part of the screw 2 and the conical screw tip 3 and cutting knives 4 provide mechanical deepening of the screw and efficient cutting of the feed. The cut out part of the feed is captured by the cylindrical part of the screw 2 until it is completely filled. The extraction of the sample is carried out by the opposite rotation and pulling the device for sampling plant samples on the surface of the monolith feed. The cut sample is stored between the turns of the screw due to the cutting knives 4 forming an annular cyclic chain with the deviation of the knives from the axis of the screw to the outside.

Example:

Sampling of agricultural products, in particular feed from plant material, is carried out by rotating the device in a selected location of the feed storage using a pulse-shock rotational mechanism. The rotation of the cylindrical part of the auger with cutting knives provides mechanical deepening of the auger and efficient cutting of feed.

The extraction of the sample is carried out by the opposite rotation and pulling the device for sampling plant samples on the surface of the monolith feed. The cut sample is saved between the turns of the screw due to cutting knives forming an annular cyclic chain with the deviation of the knives from the axis of the screw to the outside.

A plant sampling device with cutting knives made in the form of an elliptic curve facing the feed monolith and forming an annular cyclic chain with the knives deviating from the screw axis to the outside provides cutting efficiency and high speed cyclic sampling of plant samples along the feed monolith depth from any depth levels of the store.

Information sources

1. A device for sampling materials with a rotating pipe assembly. RF patent №429460.

2. Sampler. RF patent No. 2306543.

3. Sampler of plant materials. Auto St SU 1778605 A1, class G01N 1/02.

4. Drill for sampling compacted and low-flowing materials. RF patent No. 2136882.

5. A method of sampling plant samples and a device for its implementation. RF application No. 2014238878.

Claims (2)

1. The method of sampling plant samples, characterized in that the sample from the feed monolith is cut out by an annular cyclic chain of single-faceted knives, fortified along the edge of the screw turns, while the knives face the cutting edge in the form of an elliptical curve in the lower part of the screw in the direction of its rotation with a deviation from their plane to the outside of the axis of the screw, which ensures the preservation of the cut sample between the turns of the screw during its reverse rotation in the process of extracting the screw from the feed monolith. 2. A plant sampling device containing a screw, characterized in that the knives having a cutting edge in the form of a single-face elliptic curve form an annular cyclic chain along the edge of the screw turns edge with the knives deviating from the screw axis to the outside, while the cutting edge of the knives is turned in the lower part of the screw in the direction of its rotation, and the lower part of the cutting edge at the top of the knife is parallel to the surface of the feed monolith.

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