RU2677349C1 - Combine harvester - Google Patents

Abstract

FIELD: agriculture; machine building.SUBSTANCE: combine harvester contains a stripping adapter, an inclined chamber 2 and a thresher 5, between which a device 6 is mounted for preallocation of loose grain. Device for preallocation of loose grain 6 is made in the form of a conveyor, which contains an endless mesh cellular web 7 and two drums 8, 9, the axes of rotation 10, 11 of which are eccentric with respect to their geometric axes. Outer cylindrical surface of the drum 8 mounted on the side of the inclined chamber, provided with ridges 12. Spacing of the ridges corresponds to the pitch of the cells of the mesh web 7 of the conveyor.EFFECT: minimizing the entry of loose grain into the threshing chamber of a combine harvester, reliably eliminating the possibility of its crushing by the working parts of the thresher.1 cl, 3 dwg

Description

The invention relates to agricultural machinery and can be used for harvesting crops by combing plants on the vine.

A known combine harvester containing an inclined chamber with a feed conveyor, the bottom of which is made with a trellis and equipped with a device for removing free grain from the threshing chamber (SU copyright certificate No. 2323264, class A01D 41/12, 41/00, 1969). To separate physically ripe grain from the bread mass, an additional threshing device is provided in the inclined chamber of the combine harvester. The disadvantage of this technical solution is the excessive complexity and cumbersome inclined camera. This becomes most apparent when used in conjunction with a combine harvester equipped with a comb adapter. The weight of the two structures becomes excessive, both from the point of view of a dangerous decrease in pressure on the steered (rear) wheels, and from the point of view of the strength of the skeleton of the thresher. In addition, the content in the combed heap of up to 80% of free grain completely eliminates the need for an additional threshing device.

Closest to the claimed technical solution is a combine harvester for standing crops, adopted as a prototype, including a comb adapter, tilting chamber, thresher, cleaning and unloading device (SU copyright certificate No. 1766310, MKI A01D 41/08, 1989). In order to preliminarily isolate free grain from the grain mass, before it is threshed, a receiving beater is installed in front of the thresher equipped with a curved separating grate. This invention has a number of disadvantages. In particular, due to the fact that the length of the separating grate is small (in any case, significantly less than the length of the concave), the efficiency of the preliminary separation of free grain is reduced, which entails its entry into the threshing chamber. This significantly increases the crushing of free grain by the working bodies of the thresher and receiving beater. In addition, the possibility of clogging the holes of the separating lattice with the components of the stripped grain heap is not ruled out. All this contributes to the growth of crop losses.

In the present invention, the problem of minimizing the crushing of free grain is solved by intensifying the process of its preliminary separation from the combed grain heap and feeding for cleaning, passing the threshing chamber. This is achieved by the fact that the device for preliminary selection of free grain is made in the form of a conveyor containing an infinite mesh cellular fabric and two drums, the axis of rotation of which are eccentric with respect to their geometric axes. In this case, the outer cylindrical surface of the drum mounted on the side of the inclined chamber is provided with protrusions, the spacing of which corresponds to the cell spacing of the mesh web of the conveyor. As a result of this, it is shaken, which contributes to a more intense stratification of the combed grain heap. Free grain and small impurities, moving to the lower layers, pass through the cells of the mesh web and go for cleaning, bypassing the threshing chamber, and the remaining spike part of the crop, receiving an impulse to move forward, is sent to threshing. The presence of a drum equipped with protrusions contributes to the continuous cleaning of the mesh web cells from large components of the carded grain heap, that is, ensures the stability of its preliminary separation process. This technical solution allows to minimize the flow of free grain into the threshing chamber of the combine harvester, reliably eliminating the possibility of its crushing by the working bodies of the thresher.

Thus, it is the totality of the features of the invention that distinguish it from the prototype that ensures the achievement of the technical result: increasing the efficiency of the process of preliminary selection of free grain with guaranteed cleaning of mesh cells from the components of the heaped grain heap.

Therefore, the distinguishing features of the invention in comparison with the prototype meet the criterion of "significant differences".

Since in other technical solutions the totality of the distinguishing features of the invention was not found, then it meets the criterion of "novelty."

The invention is illustrated by drawings, where in FIG. 1 shows a general view of a combine harvester; in FIG. 2 - detail of the process of separation stripped grain heap; in FIG. 3 - cleaning the cells of the mesh cloth from the large components of the combed grain heap.

Combine harvester 1 (Fig. 1) includes a stripping adapter (shown in the diagram), an inclined chamber 2 with a conveyor 3, equipped with scrapers 4 and a thresher 5, between which a device for preliminary selection of free grain 6. is mounted. The latter is made in the form of a conveyor containing an infinite mesh cellular web 7 and two drums 8 and 9, the rotation axes 10 and 11 of which are eccentric (the eccentricity is equal to e) with respect to their geometric axes (Fig. 2, 3). In this case, the outer cylindrical surface of the drum 8 mounted on the side of the inclined chamber 2 is provided with protrusions 12, the spacing of which corresponds to the step of the cells of the mesh web 7 of the conveyor (Fig. 3). To remove free grain and small impurities 13 that passed through the mesh mesh cloth 7, as well as supplying them for cleaning, bypassing the threshing chamber, the combine harvester 1 is equipped with a transport board 14.

The proposed combine harvester operates as follows. When moving the combine 1 across the field, a stripping adapter (not shown in the diagram) brushes the plants and feeds the stripped grain heap 15 towards the inclined chamber 2 (Fig. 1). The scrapers 4 of the conveyor 3 carry him along and are directed towards the device for preliminary selection of free grain 6. Due to the fact that the axis of rotation 10, 11 of the drums 8, 9 are eccentric (the eccentricity is equal to e) with respect to their geometric axes, then there is a shaking of the mesh cell web 7 and intensive delamination of the combed grain heap 15 (Fig. 2, 3). Free grain and small impurities 13, moving to the lower layers, pass through the mesh cellular fabric 7, enter the transport board 14 and then for cleaning, bypassing the threshing chamber, and the remaining spike part of the crop 16, receiving an impulse to move forward, is sent to the threshing machine for threshing 5. Since the outer cylindrical surface of the drum 8 mounted on the side of the inclined chamber 2 is provided with protrusions 12, the arrangement of which corresponds to the cell pitch of the mesh web 7 of the conveyor, its cells are cleaned from the larger components 17 combed grain heap 15 (Fig. 3).

Using the proposed combine harvester allows you to minimize the flow of free grain into the threshing chamber, reliably eliminating the possibility of crushing it by the working bodies of the thresher.

Claims (1)

Combine harvester, including a combing adapter, an inclined chamber and a thresher, between which a device for preliminary free grain separation is mounted, characterized in that the device for preliminary free grain separation is made in the form of a conveyor containing an infinite mesh cellular fabric and two drums whose rotation axes are eccentric with respect to their geometric axes, while the outer cylindrical surface of the drum mounted from the side of the inclined chamber is provided with stupas, the arrangement pitch of which corresponds to the step of cells of the mesh fabric belt.

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