RU2690794C1 - Selection plant for threshing corn cobs - Google Patents

Abstract

FIELD: agriculture; machine building.SUBSTANCE: invention relates to the agricultural machine building. Plant for corncobs thrashing comprises a threshing apparatus with two parallel rollers and a loading device located at the longitudinal side of one of the rollers. One roll has ledges of curvilinear shape and is used for threshing. Another roll is made with winding and is intended for transportation of ears and their removal from threshing area. Both rollers rotate in one direction in the direction opposite to direction of the protrusion stop.EFFECT: selection plant for corncobs thrashing provides reduced damage of maize breeding material during threshing.1 cl, 3 dwg

Description

The present invention relates to agriculture, in particular to devices for threshing corn cobs in breeding and primary seed production.

Known installation for threshing corn cobs, containing a boot device, a threshing machine with rollers arranged in parallel and rotating at different speeds, transmission and drive mechanism, which has a system for sampling the cobs and loading the threshing machine, a dosing device in the form of a paddle feeder, a pressure roll forming together with the upper and lower threshing rollers the inner space for the corn cob, while the upper drum with respect to the lower drum is set with a gap m, equal to the largest width of the corn caryopsis, and the linear speed of rotation of the upper and lower rollers greater linear speed of rotation of the pressing roller. (Patent for invention RU No. 2319336, cl. A01F11 / 04, 2013).

The disadvantages of the known installation for threshing corn cobs are its low productivity and injury to the selection of maize material.

These drawbacks are due to the following. Threshing corn cobs in a well-known threshing device occurs in the gap between the upper, lower threshing and pressure rollers. At the same time, at first, the smooth surfaces of the upper, lower threshing and pressing rollers of the cob are deformed to the state of destruction of the links of the kernels with the cob of the cob, and then threshing begins - the selection of grains from the cob. Destruction of the connection between the kernels and the cob rod by the smooth surfaces of the upper, lower threshing and pressure rollers requires a considerable amount of time. This increases the time spent on threshing and, as a result, reduces the performance of a known installation. In addition, during the deformation of the cob, the grain legs of the grains will be pressed into the core of the cob, sandwiched between the smooth surfaces of the upper, lower threshing and pressure rollers, and will not be separated from it due to the bending deformation. Consequently, when the links between the kernels and the cob are broken, a significant amount of grain legs of the seed grain will be injured. Especially, it will occur at the initial moment of threshing - when the selection of grains from the cob did not begin.

The presence of automatic control, including the feeding mechanism of loading the cobs, complicates the design of the installation. In addition, the plant operates in the mode of intermittent technology, that is, the cob does not move during the threshing process, but remains in one place, turning under the action of the rollers of the threshing machine. The intermittent mode of the threshing process increases the time required for threshing, which ultimately reduces the performance of the known threshing apparatus.

The closest to the technical essence and the achieved result is the installation for threshing corn cobs, containing a threshing machine with two rollers, one of which is used for threshing, arranged in parallel, a loading device located at the longitudinal side of one of the rollers, curvilinear projections (Patent for useful model RU №162558, class A01F 11/06, 2016 - prototype).

The disadvantages of the known installation for threshing corn cobs, adopted for the prototype, are its low productivity and injury to the selection of maize material.

These drawbacks are due to the following. In the known threshing device, the initial deformation of the corn cobs occurs in the gap between the pressure roller and the threshing roller, on the side of which the loading device is located. The initial deformation of each cob significantly increases the threshing time and reduces the throughput of the threshing device, besides when the plant starts operation, at the moment of deformation of the first cob between the pressure roller and the threshing roller, the second threshing drum rotates at the same speed as the other rollers, but not participates in the process of maize cob deformation. As well as at the end of the plant operation, when the last corn cob was deformed in the pressure roll and the threshing roller, the pressure roll continued to turn to idle until the last corn cob finished threshing and the installation was turned off, which in turn increases the energy consumption for the threshing process whole

In addition, the installation design does not take into account the varietal characteristics of corn cobs, since the rollers are set at an angle, the corn cobs should spontaneously move along the threshing rollers to the gathering. The inability to change the angle of inclination of the rollers leads to the clogging of corn cobs in the threshing zone, which reduces productivity.

Also, the presence of winding on the two threshing rolls significantly impairs the quality of threshing. In the “movement” variant of the coiling, a force is created that opposes the movement of the cob to the gathering, which leads to the clogging of the installation. In the “movement” variant of the coiling to the outset, a force that significantly accelerates the passage of the corn cob through the threshing rollers is created, as a result of which the corn cob is not threshed completely.

When thrashing with two rollers with winding does not provide the required number of "blows" on the cob of corn for its complete threshing. At the same time, the impact of “impacts” of the spirals of the rollers injures the selection material of corn, which is unacceptable in the seed-growing process.

The technical result is an increase in throughput of the breeding plant for threshing corn cobs and reducing injuries to the breeding material of corn in the threshing process.

The technical result is achieved by the fact that in a breeding plant for threshing corn cobs containing a threshing machine with two rollers, one of which is used for threshing arranged in parallel, a loading device located at the longitudinal side of one of the rollers, the projections are curvilinear, according to the invention, the projections are curvilinear the forms are made on a threshing drum and are arranged in a spiral of Archimedes, while the other one is made for transporting the cobs and provided with winding for moving them and in output from the threshing zone, with both rollers rotate in the same direction, in the direction opposite to the direction of emphasis of the ledge.

The novelty of the proposed technical solution lies in the implementation of protrusions of curvilinear shape, built in an Archimedes spiral on the threshing roller and located along its axis of rotation, the number of projections being determined in the interval from 8 to 12, at which the linear speed is observed when the threshing roller contacts the corn cob 6- 8 m / s. Also in the supply of the second drum coiled to move the corn cobs in the threshing zone and withdrawal from it. At the same time, both rollers rotate in the same direction, in the opposite direction to the projection stop, which provides a smoother operation, moving the cob in the threshing zone, full threshing of the corn cobs and reducing the trauma of the selection material for corn.

Supplying the threshing drum with protrusions intensifies the threshing process of corn cobs due to the destruction of the grain legs of the grains by bending deformation throughout the threshing process.

The supply of the second roller transporting the winding to move the corn cob along the rollers, and the winding is designed in such a way that during the passage of the cob on the surface of the rollers to the gathering, the cob is completely threshed and the grains are not injured. The use of navivka allows you to simplify the design of the installation and allows you to prevent the clogging of the cobs in the threshing zone during operation.

By reducing the excess effect on the cob of corn, traumatizing the selection material for corn is also reduced.

An analysis of the properties of the totality of features of the claimed technical solution and the properties of the totality of features of the detected prototype and analogue showed that the totality of the features of the claimed technical solution manifests a new property, to ensure continuous operation of the threshing device without injuring the selection material and undercooling corn cobs, which corresponds to the inventive step.

Industrial applicability due to the fact that the breeding plant for threshing corn cobs is efficient and it can be used in the seed process for threshing corn cobs.

The invention is illustrated by drawings.

FIG. 1 shows schematically an installation for threshing corn cobs, in side view; in fig. 2 schematically shows the elements of the device involved in the threshing process, in a perspective view; in fig. 3 shows a boot device, in section along A-A, in FIG. one.

The selection plant for threshing corn cobs includes a loading device 1 and a threshing machine 2 containing a transporting roller 3 and a threshing roller 4. A transporting roller 3 and a threshing roller 4 are arranged with their longitudinal axes parallel to each other in the casing 5 and rotate in one direction, (FIG. 2). Threshing roller 4 has protrusions 7 of curvilinear shape and in cross section looks like a gear wheel with asymmetrical teeth, having a stop on one side (Fig. 1). When this transporting roller 3 and the threshing roller 4 rotates in the direction opposite to the direction of emphasis of the projections 7. The loading device 1 has a discharge opening 6, which is located at the longitudinal side of the transporting roller 3.

The boot device 1 has a movable wall 8 on the elastic elements 9, for example, on the springs (Fig. 3). In the casing 5 above the transporting roller 3 and the threshing roller 4 there is located a pressing plate 10 fixed by means of a hinge 11 on springs 12. A part of the pressing plate 10 facing the discharge opening 6 is provided with a funnel guide 13. In the lower part of the casing 5 is a pitched chute 14. The grain accumulates in the tank 15, and the rods of the cobs in the tank 16.

Transporting the roller 3 and the threshing roller 4 is installed in the bearings 17 and are rotated by a chain transmission 18 from the electric motor 19 through the clutch 20.

To intensify the threshing process and prevent clogging of the installation, the transporting roll 3 is equipped with a screw winding 21 (FIG. 2).

Installation for threshing corn cobs works as follows. Corn cobs are loaded into the loading device 1 and they, under the action of their own weight, are placed in one layer and arrive individually to the discharge opening 6, where they fall into the cavity between the transporting roller 3 and the threshing roller 4 (Fig. 2). The movement of the cobs with one layer is provided by the movable wall 8 of the loading device 1, preventing the cobs from rolling over one another (Fig. 3). In the cavity between the transporting roller 3 and the threshing roller 4, the cob is exposed to the projections 7 of curvilinear shape and is deformed (Fig. 2). The helical winding 21 on the transporting roller 3 promotes the movement of the cob along the transporting roller 3 and the threshing roller 4, and the guide 13, in the form of a funnel, helps to position the ear with its longitudinal axis parallel to the longitudinal axis of the transporting roller 3 and the threshing roller 4, while the pressing flap 10 holds and presses cob in the threshing zone (Fig. 1). In the process of moving the cob, the protrusions 7 of the curvilinear shape of the threshing roll 4 repeatedly act on the cob and thresh it. When this cob is threshed, the grain enters the tank 15, and the rods into the tank 16.

The use of the invention will allow to increase the throughput of the breeding plant for threshing corn cobs and, as a consequence, to increase the productivity of its work, as well as to reduce the trauma of the corn breeding material.

Claims (1)

A selection plant for threshing corn cobs, containing a threshing machine with two rollers, one of which is used for threshing, arranged in parallel, a loading device located at the longitudinal side of one of the rollers, curvilinear projections, characterized in that the curvilinear projections are made on the thresher roller and are built in a spiral of Archimedes, and the other drum is made for transporting the cobs and provided with winding for their movement and removal from the threshing zone, while both rollers are schayutsya in one direction in the direction opposite to the stop lug.

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