CS265138B1 - Shear for magnetic soil treatment - Google Patents

Abstract

A simple construction shear enabling the use of a commonly manufactured steel beam with a U-shaped cross-section for its manufacture and making maximum use of magnetic force curves closed by the treated soil. The beam made of magnetic material has two side walls, on one of which means for suspension by a drive unit are arranged. The bar magnets are fixed with the same poles to the bottom of the beam made of magnetic material. Air gaps are created between the bar magnets and both side walls made of magnetic material. The bar magnets can be terminated with at least one pole extension, in which threaded holes are created for fastening non-magnetic screws, passing through holes in the bottom of the beam made of magnetic material and through the gaps between the bar magnets. The air gaps can be filled with non-magnetic material.

Description

The invention relates to shear for magnetic soil treatment.

The known shear for magnetic soil treatment comprises a non-magnetic beam with a U-section. From the inside, longitudinal pole extensions are attached to its sides, between which a series of rod-shaped permanent magnets are fixed. On the outside of one sidewall, i.e. the leading sidewall, a hinge is provided for attaching the skid to the drive unit, for example a tractor. When working, the shear is sheared off the bottom of the beam on the treated soil. The disadvantage of this shear is that the magnetic field lines are closed by both the treated soil and air above the shear.

This last part of the magnetic field lines is therefore unused.

These drawbacks are eliminated by the magnetic soil treatment shear according to the invention, which is based on the fact that the bar magnets are fastened by poles of the same name to the bottom of the magnetic material support, whereby air gaps are formed between the bar magnets and the two sides. The bar magnets are terminated with at least one pole piece in which threaded holes are provided for fastening non-magnetic screws passing through the holes in the bottom of the beam of magnetic material and the gaps between the bar magnets. The air gaps are filled with non-magnetic material.

The advantage of the shear for magnetic soil treatment according to the invention is the maximum utilization of magnetic field lines that are completely enclosed by the treated soil, simple construction and the possibility of using a commonly manufactured U-shaped steel beam, which in addition has in many cases sufficient weight to crush lumps.

An example of a shear for magnetic soil treatment is shown in the attached drawing, in which Fig. 1 is a front view of the shear and Fig. 2 shows a shear in section A-A of Fig. 1.

The beam 2 ° U-section of a magnetic material such as steel, is provided with a leading sidewall 2 ² magnetic material and the barrier sidewall 2 ² magnetic material. On the leading side plate 2, the suspension lugs 4 are attached to the drive unit (not shown), for example a tractor. 2 between the leading sidewall and the trailing sidewall 2 ^e j disposed along the entire length of the beam 2 a series of bar magnets sixth rod 6 abut the permanent magnets with their poles of the same namesake T_ the bottom girder 2 · On the opposite poles of the same rod-shaped permanent magnet 6 is attached flat bar 2 ² magnetic material such as steel. Threaded holes 9 are formed in the flat bar 2 into which the fastening screws 10 made of non-magnetic material, for example brass, are passed through the holes 11 in the bottom 7 of the beam 2 ^and through the gaps 12 between the rod permanent magnets 6. to the bottom of the beam 2, whereby the flat rod 2 forms at the same time a common pole extension for all rod permanent magnets 2 · Rod permanent magnets 6 with flat rod 2 reach the height of leading side 2 and closing side walls 2 · Μθ ² + rod permanent magnets 2, air gaps 13, 14 are formed.

In order to prevent the treated soil from getting into the air gaps 23, 14, which could possibly short-circuit the magnetic field lines, these non-magnetic materials are filled, for example concrete, or the two air gaps 22, 14 are covered with non-magnetic boards, for example plastic . The cross-section of the beam 2 may be V-shaped, arcuate and the like. It is understood that the rod permanent magnets 2 may be composed of a plurality of magnets arranged in series, possibly being replaced by electromagnets. If holes are formed in the bar magnets, fastening non-magnetic screws 22 may be passed through them into the threaded holes of either the individual pole pieces or into the threaded holes 9 of the flat bar 2 forming the common pole piece.

The operation of shear for magnetic soil treatment is evident from the description and figures. The magnetic field lines are enclosed between the surface of the bars 2 ^{and the} two sidewalls 2 »2 ^and pass through the treated soil as much as possible.

Claims (3)

Shear for magnetic soil treatment, with rod magnets arranged on a beam with sidewalls, one of which is provided with means for hanging behind the drive unit, characterized in that the rod magnets (6) are fastened by poles of the same name to the bottom (7) The air gap (13, 14) is formed between the rod magnets (6) and the two sidewalls (2, 3) of the magnetic material. Shear according to claim 1, characterized in that the rod magnets (6) terminate in at least one pole piece (8), in which threaded holes (9) are provided for attaching non-magnetic screws (10) passing through the holes (11) in the bottom ( 7) a beam (1) of magnetic material and gaps (12) between the bar magnets (6). Shear according to claim 1 or 2, characterized in that the air gaps (13, 14) are filled with non-magnetic material.