RU2661370C1 - Device for presowing soil treatment - Google Patents

Abstract

FIELD: agriculture; machine building.

SUBSTANCE: invention relates to the field of agricultural engineering and can be used for presowing soil cultivation. Device for presowing soil cultivation contains a two-brass frame with welded in staggered brackets, in which the working organs in the form of racks equipped with paws are fixed. Brackets are made in the form of a pipe with a square profile with cross-shaped cutouts at the end and are equipped with bolted holes with holes. Racks of the working bodies are equipped with cross-shaped shanks with holes and are connected to the glasses by means of cross-shaped cutouts in brackets and coil springs so that the shank is installed in a vertical and horizontal plane with respect to the bracket with a clearance providing the free movement of the post.

EFFECT: reduction of energy costs for presowing treatment and ensuring the stability of the movement of the device's working organs in soils having different densities.

1 cl, 5 dwg

Description

The invention relates to the field of agricultural machinery and can be used for pre-sowing tillage.

Known devices for pre-sowing tillage in the form of cultivators, for example, a cultivator garden mounted model KSG-5 (see Agricultural machines and the basics of operating the MTP. / B.N. Chetyrkin et al .: M .: Kolos, 1981 - P 44 -45). Such a cultivator consists of a frame on which working bodies are installed using racks.

A significant drawback of such a cultivator is that its working bodies are fixed on racks having high rigidity, therefore, when working bodies meet foreign objects in the soil or stones, they are permanently deformed, which ultimately requires corresponding restoration costs and repairs.

The closest is the KPS-4 cultivator (see Prince A.N. Karpenko, V.N. Khalansky, “Agricultural Machines, 6th ed. And additional - M .: Agropromizdat: 1989) including paws, racks , holders, rods, springs, beds, rods with springs, hydraulic cylinder, supports, depth adjuster, frame, elbow, wheel, reducer, spring harrow.

However, a significant drawback is that the bending stiffness of S-shaped racks is constant, and therefore the latter are intended for narrow cultivation of soils with a predetermined density, and therefore use them on other types of soils, where the dispersion of the density of the latter is quite wide, not seems possible. So, for example, with a high density of soil of an S-shaped form, the racks will receive a higher angular rotation than when treating soils with a lower density, and this will cause uneven processing of the latter.

The closest in technical essence and the achieved economic effect is (see US Pat. RF No. 2259028, class A01B 35/00, 2005), including a two-beam frame with staggered brackets in the form of paired with two through holes holes, between which bolts fixed working bodies in the form of vertical with a rectangular cross-section racks containing angled lancet paws.

The disadvantages are high energy costs due to the rigid fastening of the uprights to the rails of the frame, as well as the instability of the movement of the working bodies of the device in soils having different densities.

The technical result is the reduction of energy costs for pre-sowing treatment and ensuring the stability of the movement of the working bodies of the device in soils with different densities.

The technical result is achieved in that in a device comprising a two-beam frame with staggered welded brackets in which working bodies are fixed in the form of racks equipped with paws, while according to the invention, the brackets are made in the form of a pipe with a square profile with cross-shaped cutouts at the end and equipped with bolted cups with holes, while the racks are equipped with cross-shaped shanks with holes and connected to the cups through cruciform cutouts in the bracket tries and the coil springs such that the shank is mounted in the vertical and horizontal planes relative to the bracket with clearance, ensuring free running counter.

The new elements are that the brackets are made in the form of a pipe with a square profile with cross-shaped cutouts at the end and equipped with bolted cups with holes, while the racks are equipped with cross-shaped shanks with holes and connected to the cups by means of cross-shaped cutouts in the brackets and coil springs so that the shank is installed in vertical and horizontal planes relative to the bracket with a gap providing free movement of the rack.

The novelty lies in the fact that due to the design feature, the stand, fixed through springs in three places on a rectangular bracket, can deviate under the influence of external resistance in three planes, which ensures stability of movement of the working bodies of the device in soils with different densities.

The invention is shown in the drawings: in FIG. 1 shows a general top view, FIG. 2 shows a general top view of the spring suspension of a plane-cutting strut; FIG. 3 shows a side view of the working body, in FIG. 4 shows a top view of the working member, in FIG. 5 shows a frontal section AA of the working body.

The device for pre-sowing tillage consists of a two-beam frame 1 containing support wheels 2, a hinge system 3. Brackets 4 are mounted on the bars of the frame 1 in a checkerboard pattern. The brackets 4 are made in the form of a pipe with a square profile having cross-shaped cutouts at the end. On the brackets 4 (Fig. 4), three glasses 5 are fastened with bolts, in which holes 6 are made (Fig. 3). Racks 7 are equipped with shanks 8 (Fig. 5) of a cross-shaped shape with holes 9. Racks 7 are mounted through slots in brackets 4 and coil springs 10 in three rigidly fixed cups 5, while coil springs 10 are fixed in holes 6 of cups 5 and in holes 9 shanks 8. In the lower part of the strut 7 are equipped with paws 11 lancet, triangular, etc. forms. The shank 8 is installed in vertical and horizontal planes relative to the bracket 4 with a gap 12, providing free movement of the rack 7.

The operation of the device is as follows. When treating the soil with a working body, a load P acts on it, arising from the latter overcoming the soil into which the paw 11 is buried. To simplify the task, we assume that such a load is constant, i.e. P = const, and does not cause elastic deformation of the springs 10, and hence the struts 7, while the paw 11 is located on a given recess in the soil and moves together with the frame 1 of the cultivator quite stable. Imagine now that this load increased due to the fact that the cultivator began to cultivate the soil with a density much higher than in the first case and so much that it caused angular elastic deformation of the springs 10 together with the struts 7. Moreover, the elastic cylindrical springs 10 allow the paw 11 of the device deviate in the direction opposite to the soil seals. The deviation of the paws occurs due to the movement of the shank 8 relative to the brackets 4 in all planes by the amount of the gap 12, as a result of the spring 10 they experience elastic deformation due to their fastening to the shank 8 and glasses 5, which ensures free movement of the rack 7 in all directions.

The technical and economic advantage of the proposed technical solution in comparison with the known ones is obvious, because it allows you to expand the operational characteristics of the cultivator working on various soils with different densities.

Claims (1)

A device for pre-sowing tillage, including a two-beam frame with staggered welded brackets in which working bodies are fixed in the form of racks equipped with paws, characterized in that the brackets are made in the form of a pipe with a square profile with cross-shaped cutouts at the end and equipped with bolts fixed glasses with holes, while the racks are equipped with shanks of a cross-shaped shape with holes and are connected to the glasses by means of cross-shaped cutouts in the brackets and cylindrical springs so that the shank is mounted in the vertical and horizontal planes relative to the bracket with clearance, ensuring free running counter.

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