RU2023634C1 - Loose materials feeder - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: installed coaxially on vertical shaft 5 in cylindrical housing 1 of feeder with discharge hole 7 in side wall are feed auger 6 and rotor 2 with blades 3. Lip 9 is installed above blades at place of location of discharge hole 7. Sector plates 10 installed between blades 3 of rotor 2 are connected with mechanism providing their adjustment in height by means of vertical pins 11. EFFECT: enlarged operating capabilities by increasing range of material metering. 2 cl, 2 dwg

Description

 The invention relates to agricultural machinery, in particular to devices for dispensing bulk materials, such as mineral fertilizers, and can find application in chemical and other sectors of the economy.

 Known feeder for difficult-to-flow materials, containing a cylindrical body with a discharge hole located in its side wall, a feed rotor with blades and a cultivator coaxially mounted in the housing on a vertical shaft and a visor mounted above the rotor at the location of the discharge hole with a shutter [1].

 A disadvantage of the known design is the limited dosage range of bulk materials due to the deterioration of the uniformity of their supply with a small opening of the discharge opening by the shutter. In addition, when the shutter shuts off part of the discharge opening, energy consumption does not significantly decrease, since the rotor blades move all the material between them in the housing.

 The closest technical solution to the invention is a feeder for bulk materials, comprising a cylindrical body with a discharge opening located in its side wall, a feed rotor with blades coaxially mounted in the housing on a vertical shaft and a cultivator and a visor mounted above the rotor at the location of the discharge opening with a shutter [ 2].

 The disadvantage of this design of the feeder is the limited range of stable dosing of bulk materials due to the deterioration of the uniformity of their supply with a small opening of the discharge opening by the shutter. In addition, when the shutter shuts off part of the discharge opening, energy consumption does not decrease, since the rotor blades move all the material between the blades in the housing.

 The aim of the invention is to expand technological capabilities by increasing the dosage range.

 In FIG. 1 shows a feeder, a vertical section; figure 2 is a section aa in figure 1.

 The feeder for bulk materials contains a cylindrical housing 1, in which there is a feed rotor 2 with blades 3 and a drive disk 4, mounted on a vertical shaft 5, to which the feed screw 6 is coaxially mounted. In the side wall of the housing there is a discharge opening 7, opposite which there is a discharge tray 8. Above the rotor 2 at the location of the discharge opening 7 in the feeder housing, a visor 9 is fixed, covering its lumen. Between the blades 3 of the rotor 2, sector plates 10 are mounted for movement, connected by vertical fingers 11 through the openings of the disk 4 with a height adjustment mechanism made in the form of a disk located on a vertical shaft 5 under the housing with a hub 12 and connected to it by a lever 13 and the latch 14 of the calibrated plate 15, while the lower ends of the fingers 11 are connected to the disk 12.

 The feeder is connected to the storage hopper 16.

 The feeder operates as follows.

 Bulk material loaded into the storage hopper 16 during rotation of the shaft 5 fills the cavities between the blades 3 above the sector plates 10 under the action of the feed screw 6 and gravity and moves by the blades 3 of the rotor 2 through the discharge opening 7 of the housing into the discharge tray 8.

 The dose of unloaded bulk material is regulated by a fixed change in the volume of cavities between the blades 3 due to the vertical movement of the sector plates 10 through the fingers 11 of the lever 13, the hub of the disk 12 of the mechanism for regulating their position.

 The installation between the blades 3 of the rotor 2 of the sector plates 10, connected by means of the fingers 11 through the openings of the disk 4 with a mechanism for regulating their position, provides an extension of the technological capabilities of the feeder by increasing the range of stable dosing of bulk material and reducing energy consumption for its movement, since the volume of cavities between the blades 3 corresponds to the required dose.

Claims (2)

 1. A FEEDER FOR BULK MATERIALS, comprising a cylindrical body with a discharge opening located in its side wall, a feed screw and a rotor with blades coaxially mounted in the housing on a vertical shaft and a visor mounted above the rotor at the location of the discharge opening, characterized in that, with the purpose of expanding technological capabilities by increasing the dosage range, it is equipped with sector plates installed in the rotor between the blades and a mechanism for regulating their height position, connecting with plates by means of vertical fingers.  2. The feeder according to claim 1, characterized in that the mechanism for adjusting the position of the segment plates in height consists of a disk with a hub located on a vertical shaft under the housing and connected to it by means of a lever and a clamp of a calibrated plate, while the lower ends of the fingers are connected to the disk.

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