RU2017385C1 - Thresher cleaning centrifugal fan - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: to reduce losses behind cleaner, uniform blowing of screens in width is provided. In device disks 7 of rotors 8 of extreme sections of fan 2 are arranged at panels 5 of housings of these sections pointed to middle edges of their rotors, and width of each extreme section 2 is less than width of middle section 3 but is greater than half of width of section. EFFECT: enhanced quality of cleaning. 4 dwg

Description

 The invention relates to agricultural machinery, namely to wind cleaning, mainly combine harvesters.

 A device is known - a multi-section fan, including two centrifugal fans mounted on the same shaft and diametrical fans located between them [1]. The disadvantage of this device is the non-uniformity of the blowing of the sieves in width, which occurs when the operating mode of the multi-section fan changes, since the aerodynamic characteristics of the centrifugal and diametrical fans vary greatly, and since they are installed on the same shaft and the rotations of their rotors are the same, obtaining the necessary uniformity in the range of fan control it is possible only at a single point of intersection of their characteristics.

 A device is also known where the centrifugal fan contains the extreme and middle sections of the rotors mounted on one shaft in the form of disks with blades placed in separate casings having suction windows and discharge nozzles [2]. The disadvantage of this device is the increased losses due to cleaning due to uneven flow in the discharge pipes of individual housings, due to the difference in resistance to the air flow inlet to the suction end windows of the outer housings, where air enters directly, and to the other suction windows, where air enters with a sharp change direction of movement and also through narrow channels, as well as due to a random change in time of the flow of air through the same channel into each of the casings Through the suction windows of these covers facing each other.

 Attempts to avoid the difference in resistance to entry by increasing the distance between adjacent panels of adjacent casings lead to flow disruption at the joints of the discharge pipes of these casings and, as a consequence, to the non-uniformity of the airflow of the sieves in width.

 The aim of the invention is to reduce grain loss during cleaning by increasing the uniformity of blowing sieves across their width.

 This is achieved by the fact that in each extreme section of the rotors the disk is located at the side facing the middle section of the panel of the casing, which is made blind, while the width of each extreme section is less than the width of the middle, but more than half.

 This embodiment eliminates the division of the suction air flow between adjacent fan casings and thereby eliminates the erratic change in time of air flow in these casings. In addition, by using the entire width of the gap between the casings to power one section of the rotor, the entrance resistance to the air flow to the suction windows of the central casing is reduced and due to a decrease in the speed in the channel between the panels. This embodiment also allows the remaining difference in the resistance of the inlet of the air flow into the suction windows in the extreme and middle casings, leading to the difference in air flow in these casings, to be compensated by selecting the ratio of the width of the extreme sections to the average, which is in a limited range on one side by the fact that the width of each extreme section is less than average, and on the other, the width of each extreme section is more than half the average.

 In FIG. 1 shows a wind screening, longitudinal section; in FIG. 2 - centrifugal fan, side view; in FIG. 3 is a section along AA in FIG. 2; in FIG. 4 is a view along arrow B in FIG. 2.

 The centrifugal fan of windsheet cleaning 1 includes separate casings: two extreme 2 and central 3. Each of the extreme casings has outer panels 4 and internal 5. The outer panels of these casings and both panels of the central casing are equipped with suction windows. In the casings on a single shaft 6 are placed the carrier discs 7 of the section of the blade rotors 8 and 9, while in each extreme section 8 the disk is located at the side facing the middle section of the panel 5 of the casing, which is made blind. In the central section 9, the disk 7 is placed along the axis of its symmetry. The width of each extreme section is less than the width of the middle, but more than half. Separate housings are equipped with converging in the direction of cleaning discharge nozzles 10 and 11.

 The described device operates as follows.

 When the rotors rotate, the air enters the extreme casing 2 of the fan along the axis of the rotors 8 through the suction windows of the outer panels 4, enters the inter-blade space of the rotors 8, twists in the direction of rotation and enters the discharge pipes 10, in which it is aligned due to the fact that the total fan width is split into three parts, and this increases the ratio of the length of the discharge pipe to its width. The air is sucked into the central casing 3 by the rotor 9 from two sides in continuous uniform flows through the suction windows of the panels 4. The air flows into the inter-blade spaces of the rotor 9, separated by a disk 7, swirl in the direction of rotation of the rotor and enter the discharge pipe 11, where the air flows to speeds close in magnitude to the velocities of the outflow of flows from the discharge pipes 10 and 11, providing uniform blowing of the cleaning sieves in width and reduction of separation losses.

Claims (1)

 CENTRIFUGAL CLEANER CLEANING FAN, containing the extreme and middle sections of the rotors in the form of disks with blades mounted on one shaft, located in separate casings having suction windows and discharge nozzles, characterized in that, in order to reduce grain losses during cleaning by increasing the uniformity of blowing sieves in width, in each extreme section, the disk is located at the side facing the middle section of the casing panel, which is made blind, while the width of each extreme section is less than the average width, but more than half.

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