RU2004953C1 - Top-saving machine - Google Patents

Abstract

Usage: agricultural machinery, in particular harvesting machines SUMMARY OF THE INVENTION Rotary drive bodies mounted vertically in a casing have a helical surface, the angle between the axis of rotation of this organ and the tangent to the outer edge of the helical surface continuously decreasing to the middle part, and then increasing. This leads to the fact that after cutting the tops, it is in a suspended state and gradually moves to the device for unloading tops 5 sludge.

Description

The invention relates to agricultural machinery, in particular to top-harvesting machines that cut the tops before the root crops are removed from the soil.

Known topper machines containing rotary working bodies, a cover for guiding the tops and a device for unloading tops (see French patent No. 2481877, CL A 01 D 23/02, 1980, UK patent NJ 2031703, CL A 01 D 23/02 , 1979, for the taste of Germany No. 3343663, class A 01 D 23/02, 1985).

The disadvantages of the known devices are the increased degree of comminution of the tops and the high metal consumption.

The closest set of features to the claimed technical solution is a top picker, including rotary driving working bodies with a vertical axis of rotation, the working surface of which has a helical shape with angles of orientation of the sections of the working surface to the axis of rotation varying in height, and a casing for the direction of the tops, including the front and rear walls (si. for taste No. 5020017/15, class A 01 D 23/02. 1991).

The disadvantages of the known top-harvesting machine are insufficient-quality tops of the tops, increased clogging of the machine and the energy intensity of the process of harvesting with high beet yield, which, in turn, leads to a decrease in productivity.

These drawbacks are explained by the fact that a high rotation speed of the working body is necessary for a good cut of the tops. At the same time, at a high speed of rotation of the working body, the tops of the leaves are pressed against the walls of the casing with increased force, which is accompanied by an increase in energy intensity and a decrease in the productivity of the process.

The purpose of the invention is to increase productivity and reduce clogged ™.

The goal is achieved by the fact that in a topper, including rotary driving working bodies with a vertical axis of rotation, the working surface of which is helical in shape with different angles of orientation of the working surface sections to the axis of rotation, and a casing for guiding the tops, including front and rear walls, a helical working surface consists of at least three sections, the angle of which to the axis of rotation of the working body is gradually reduced from lower to upper hours and rzbochego body, and setting the difference angle of the lower and upper parts of the helical working surface 75 lies in the range of + 145 °.

In addition, the cross-sectional profile of the upper

plot helical working surface has a concave shape.

Due to the helical shape of the working surface of the rotary working bodies, forces arise that support

0 the flow of tops in suspension and moving it to the place of unloading. The implementation of a helical working surface of three sections, the setting angle of which is to the axis of rotation of the working body

5 successively decreases from the lower to the upper part of the working body, corresponds to a rational distribution of functions between them, corresponding to the state of the mass of tops, falling on each of the sites.

0 Orientation of the lower and upper sections of the helical working surface at different angles of setting to the axis of rotation of the working body, the difference of which lies in the range of 75 + 145 °, causes

5 the effect of the interaction between the upper and lower parts of the helical working surface of adjacent working bodies. This effect is expressed in the concentration of the working bodies acting along the upper wall of the casing of the machine and compression of the tops of the top, which is accompanied by a decrease in the pressure of the tops of the tops to the walls of the casing and, therefore , less sticking tops on the walls of the casing.

5 The final effect is a reduction in the energy intensity of the process and an increase in machine productivity.

The concave profile of the cross section of the upper portion of the helical work also contributes to the manifestation of the described effect. whose surface.

Figure 1 shows a top-harvesting machine, front view; on fit.2 - the same, top view; in Fig.Z - rotational worker op5 ran, side view; figure 4 is the same, a top view; Fig. 5 is a graph of the orientation angles of the sections of the helical working surface to the axis of rotation on the position of the section along the height of the working body.

0 The harvesting machine includes frontally mounted rotary drive tools 1 with a vertical axis of rotation 2 and a helical working surface. Sections 3, 4 and 5 of the helical working surface along the height of the working body 1 are oriented to the axis of rotation 2 at different angles a, (Хср and Яз. The leaf harvester also contains a casing for directing the flow) of the cut tops,

including front 6, rear 7 and upper 8 walls. On the upper wall 8 is mounted a drive mechanism 9 of the rotary working bodies 1.

Angles a, a. Cf and in the setting of sections 3, 4 and 5 of the helical working surface of the working body 1 to the axis 2, the rotations of the working body are successively reduced from the lower to the upper part of the working body 1, the Lan-Vouglov variation is the same as the lower 3 and upper 5 sections of the helical the working surface lies in the range of 75-145 °. The choice of a specific Dan-in value within the specified interval depends on the specific parameters of the harvester and the operating conditions.

In the working position, the harvester is oriented so that the axes 2 of rotation of the working bodies 1 coincide with the axes of the rows of root crops. The rotating working bodies 1 by cutting edges 10 cut off the tops, which fall on the screw-shaped working surface of the working bodies 1, are supported by them in a suspended state and are transferred to the device for unloading the tops 11.

Orientation of the lower portions 3 of the helical working surface at an angle a of 85-65 ° to the axis of rotation 2 facilitates the smooth cutting of the tops and causes acceleration to occur mainly in the vertical direction. The cut tops are fed onto a helical frame

Claims (1)

The claims HARVEST MACHINE, incl. sensing installed in the casing for guiding the tops of the drive rotational organs with a vertical axis of rotation, the working surface of which is made helical, and the casing has a side, rear and upper walls, characterized in that it is equipped with a device for unloading the tops and the casing for guiding the tops equipped with a front wall with the side surface of the adjacent working body and mainly falls on its middle section 4. Orientation of the middle sections 4 of the helical working surface at an angle of Osp of 55-15 ° to the axis of rotation 2 facilitates the accelerated transportation of the tops in suspension. Orientation of the upper sections 5 of the helical working surface at an angle a at (-10) - (- 55) ° to the axis of rotation 2 facilitates the impulse flow to the top of the flow, aimed at deposition of the upper part of this flow and balancing part of the vertical component of the impulse from the lower portion 3 of the helical work surface. Thus, the upper 5 and lower 3 sections of the screw-shaped working surface of adjacent working bodies 1, the difference a-in the angles of setting of which lies in the range of 75-145 °, interact with the transported material, and at the same time, due to their orientation, the properties of this material flow are reported that facilitate its transportation with minimal energy consumption and maximum productivity. The concave shape of the cross-sectional profile of the upper portion 5 of the helical working surface also contributes to the development of the described effect. (56) Britisch Sugar Beet Review, v. 49. N 5. 1981, p. 27. the free side part with which the input part of the tops unloading device is connected, the angle between the axis of rotation of this working body and the tangent to the outer edge of the helical surface decreases from the lower to the middle part of the working body, and then increases in the same direction, and the difference The angle of the lower and upper sections of the helical working surface is in the range of 75 - 145. 0} Z ggpf tyot-og FIG. 5