RU2306543C1 - Sampler - Google Patents

Abstract

FIELD: agricultural.

SUBSTANCE: invention relates to devices for cyclic taking if samples of silage, haulage and coarse fodders such as hay, straw from clamps, pits, trenches, ricks, stacks and other stores. Proposed sampler has cylindrical housing to which conical tips are connected. Surface of housing and surfaces of conical tips are made to form common screw surface. Holes are made in screw elements of cylindrical housing. Faces of holes form cutting edge. Sampler is furnished with accumulating cylinder with holes arranged symmetrically to holes of cylindrical housing of sampler. Accumulating cylinder is provided with motor-operated rotary drive and it comes into engagement with lower conical tip through aligned end tips of accumulating cylinder which turn in slots of lower conical tip for engagement. Sampler provides taking of portion of silage, hay and coarse fodder from any depth of stores in random order without preliminary drilling of wells.

EFFECT: provision of sampler of simple design and reliable in operation.

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Description

The invention relates to devices for cyclic sampling of portions of silage, haylage and roughage (hay, straw) from shoulders, pits, trenches, stacks, stacks and other storages in agriculture. It is also possible to use a sampler to take samples of other related materials (such as peat or soil).

A known sampler (Copyright Certificate of the Russian Federation No. 2100793, class G01N 1/02, 1997) containing a hollow cylindrical filler of a sample portion with a cutting tool at one end and a sample portion retainer mounted in a hollow cylindrical storage device and made in the form of a sample receiver and rigidly a rod connected to it with a handle at the end located outside the drive, equipped with a drive for rotation of the drive and a pressure bearing assembly with a handle mounted on the outside of the drive next to the drive of rotation of the drive .

The disadvantages of this device are the great complexity of deepening into the product of the store and the inability of the fixer of the portion of the sample to help remove the portion of the sample, sampling is carried out sequentially at the entire level of deepening, the depth of sampling is limited by the height of the cylindrical body.

A known sampler (USSR Author's Certificate No. 634147, class G01N 1/04, 1978) containing a cylindrical body with a cutting edge and a helical spiral placed inside it, equipped with a latch made in the form of a fork and installed inside the cylindrical body.

The disadvantages of this device are the complexity of the design and the complexity of manufacturing and operation due to the screw spiral attached inside the drive, sampling is also carried out sequentially at the entire depth level, and there is a need to drill a well to a given sampling depth, the sampling depth is limited by the height of the cylindrical body.

Closest to the invention is a core drill selected as a prototype (USSR Author's Certificate No. 119848, class G01N 1/04, 1959) for sampling from a straw mass, made in the form of two cylinders rotating relative to each other, in which, in order to ensure the possibility of immersion in a straw mass and active cutting of individual stems and pieces of plants at the ends of its pipes placed ring gear knives.

The disadvantages of this device are the complexity of the design, the complexity of manufacturing and maintenance by two workers, the large metal consumption, sampling is carried out sequentially at the entire depth level, and there is a need to drill a well to a given sampling depth, the sampling depth is limited by the height of the cylindrical body.

The aim of this invention is to expand the technological capabilities of the sampler by providing the possibility of sampling portions of samples of silage, haylage and roughage from any depth of storage in an arbitrary order of depth selection without preliminary drilling of wells, reducing the metal consumption of the sampler and reducing the complexity of operation.

This goal is achieved in that the sampler is a cylindrical body with upper and lower conical tips connected to a cylindrical body and fixed with locking screws. The surface of the housing and the tips are made in the form of a single helical surface. In the screw elements of the cylindrical body, rectangular holes are made, the edges of which form a cutting edge. The storage cylinder is equipped with a rotation drive from an electric motor. The rotational moment to the storage cylinder is transmitted from the electric motor by means of a flexible shaft, which passes through the hole in the upper cone-shaped tip. The storage cylinder, in which rectangular holes are made symmetrically located in the holes of the cylindrical body of the sampler, is engaged with the lower cone-shaped tip by aligning the end tips of the storage cylinder with it, which rotate in the grooves of the lower cone-shaped tip until it engages with it.

According to the information available to the authors, the set of essential features that guarantee the essence of the claimed invention is not known from the prior art, which allows us to conclude that the invention meets the criterion of "novelty."

Due to the use of a cylindrical surface with cone-shaped tips made in the form of a single helical surface and inside the storage cylinder, it is possible to take portions of samples of silage, haylage and roughage from any depth of storage in an arbitrary order of depth selection without preliminary drilling of wells. It follows that the combination of these elements contributes to the achievement of a new economic effect and expands the technological capabilities of the sampler, which allows us to conclude that the technical solution meets the criterion of "inventive step".

The invention is illustrated in the drawing. In Fig.1 shows a sampler in section, in Fig.2 is a view aa, in Fig.3 is a view bb.

The sampler consists of a lower helical tip 1, a cylindrical body 2, an upper helical tip 3. Inside the cylindrical body 2, a storage cylinder 6 is mounted for rotation, fixed on the same axis as the cylindrical body 2 and provided with a rotation drive from the electric motor 5 by means of a flexible shaft 4, which passes through the hole in the upper cone-shaped tip 3. The storage cylinder 6 is made with end tips, which after assembly of the sampler are in the groove x lower conical tip pivotally to engage with it. The flexible shaft 4 is rigidly fixed to the storage cylinder 6. The lower screw-shaped tip 1 and the upper screw-shaped tip 3 are connected to the cylindrical body 2 and are fixed with locking screws 7.

In the screw elements of the cylindrical body 2, rectangular holes are made (FIG. 2), the edges of which form a cutting edge. On the surface of the storage cylinder 6, rectangular openings are also made symmetrically located to the openings of the cylindrical body of the sampler 2.

The sampler works as follows. Rotation from the electric motor 5 is supplied by means of a flexible shaft 4 to the storage cylinder 6, which, in turn, turning (Fig. 3), closes the holes in the cylindrical housing 2 and the end tips engages with the lower screw-shaped tip 1, bringing it into rotation and transmitting torque to the entire surface of the sampler. Rotating, the lower cylindrical tip 1 engages with the material and tightens the sampler to the required depth. The depth of the sampler in the material is controlled by risks on the flexible shaft 4.

Upon reaching the required depth on the electric motor 5 turns on the reverse. The storage cylinder 6, turning, again engages with the lower screw-shaped tip 1. At this moment, the holes in the cylindrical body 2 coincide with the holes in the storage cylinder 6. Rotating, the upper cylindrical tip 3 pulls the sampler out of the material. At this point, the cutting edges cut the material from the shoulder, pit, trench, etc. and serves it through the combined holes of the housing 2 and the cylinder 6 inward.

To extract the sample, the storage cylinder 6 is removed, for which the locking screws 7 are unscrewed and the lower screw-shaped tip 1 is disconnected. Further, the sampling process continues.

It should be noted that the high efficiency of the sampler with many related materials is due to the use of rotational cutting with sliding when cutting the sample. The design of the invention allows for minimal energy consumption to take samples from various depths.

Technical and economic efficiency is achieved by providing the possibility of sampling portions of silage, haylage and roughage from any depth of storage in an arbitrary order of depth selection without preliminary drilling of wells, reducing the metal consumption of the sampler and reducing the complexity of operation.

Claims (1)

A sampler containing two cylinders rotating relative to each other, characterized in that the conical tips are attached to the cylindrical body, the surfaces of the body and the tips are made in the form of a single helical surface, holes are made in the screw elements of the cylindrical body, the edges of which form a cutting edge, a storage cylinder, in which holes are made, located symmetrically to the holes of the cylindrical body of the sampler, equipped with a rotation drive from an electric motor and comes into engagement with the lower cone-shaped tip by aligning the end tips of the storage cylinder with it, which rotate in the grooves of the lower cone-shaped tip until it engages with it.

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