SU1064905A1 - Axial combine harvester thrashing andseparating device rotor - Google Patents

Abstract

ROTOR OF THE MOLOTILO-SEPARING-AHEAL DEVICES A AXIAL COMBINE A, made in the form of a hollow cylinder, contains a single spiral arm into the back-end tToHe, spiral corrugated whips in. the threshing zone and smooth ones are in the separating zone, but this is because, in order to reduce clogging of the rotor with the stem mass and to reduce the grain losses in the harvesting of high stem cultures, the pests in the area between the threshing and separating zones are installed with bolshy step spirogshi than the rest of the rotor. e: o about sd

Description

The invention relates to the field of agricultural engineering and can be used in combine harvesters. A rotor is known for a threshing and separating device, containing a hollow barrel, a spiral blade in the entry zone, spiral corrugated bii in the threshing zone and smooth along the axis of the rotor in the separating zone 1. The disadvantage of this rotor is that the threshing zone and separation zone block the stems. A rotor of the threshing-separating device is known, made in the form of a hollow cylinder, containing a spiral blade in the lead-in zone, spiral corrugated whips in the threshing zone and smooth ones in the separating zone 2. The disadvantage of this device is that in the process of moving the stems along the rotor, bundles form, which reduces the separation and increases the loss of grain. The purpose of the invention is to reduce the clogging of the rotor by the stem mass and to reduce grain losses during the harvesting of high stem crops. This goal is achieved by the fact that whips in the area between the threshing and separating zones are set with a helix pitch than in the rest of the rotor. The drawing shows the rotor molog tilno-separating device. . The rotor has no.mjjl cylinder 1, which consists of a front cylindrical part 2, a transitional truncated 3 and a working-part 4. On the surface of a cylinder 2 and a cone 3 a series of spiral blades 5 are fixed, which form the lead-in zone A of the rotor. On the working part 4 of cylinder 1 there are installed spiral whips 6. In zone B, the whips are corrugated and form a threshing zone, and in zone C, the whips are smooth, they form a separation zone. In the area between the threshing B and separative C zones, the pests are installed with a large pitch of the helix than on the rest of the rotor, and form a stretching zone D. When operating, the stems of the spiral vanes 5 are brought into the threshing zone B. Then the stalks fall into zone D and their speed increases, and this makes it possible to stretch and fluff the mass. In the zone C, the rate of advancement of the stems is reduced, which ensures complete sifting of the grain through the perth of the fortified skin.

Claims (1)

AXIAL COMBINE HARNESS-SEPARATOR ROTOR, made in the form of a hollow cylinder, containing a spiral blade in the inlet, spiral corrugated whips in the threshing zone and smooth ones in the separating zone, which is not isolated that, in order to reduce stem clogging of the rotor and reduce grain losses during harvesting of high-stalk crops, pests in the area between the threshing and separating zones were installed with a larger spiral pitch than in other parts of the rotor.