RU2545303C1 - Feeder-metering device for bulk materials - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: feeder-metering device for bulk materials provides for the supply of bulk materials to the working zone with minimal wear of screw and bearing units due to a removable antifriction insert protecting the casing against the impact of the materials, a screw groove made in the shaft friction zone and a compactor with coiling directed to the side being the same as the screw coiling direction, due to which the material is removed from the bearing to the screw unit side.

EFFECT: invention allows for the regulation of material supply to the working zone, increased operation life of screw and bearing units.

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Description

The invention relates to metering devices for bulk materials.

Known hopper-feeder with screw discharge for powders prone to arch formation, comprising a housing with a loading nozzle and an unloading nozzle having a movable demolition device inside the housing, characterized in that the demolition device is made in the form of an elastic rod that is pivotally mounted in the upper part of the housing and connected with the upper part to the tensioner, and the lower part of the rod is inserted into the screw clearance of the screw and pressed to the side surface of the discharge pipe facing the discharge side full-time nozzle of the screw screw housing (RF Patent No. 2483999, B65G 65/34, B65D 88/64, publ. 06/10/2013).

The disadvantage is a change in the supply of bulk material only due to a change in the number of revolutions of the electric motor.

A dispenser for granular material is known, comprising a feed screw installed in the guide pipe connected to the drive, an air pipe, characterized in that a visor is inserted in it, a guide pipe and a feed screw are made with a feed and a cutting section, a cone is made between the feed and cutting sections of the guide pipe transition, holes are made in the upper part of the output end of the cutting section, a visor is placed over the upper part of the output end of the cutting section of the guide pipe and is attached sideways to it On the other hand, the inlet of the air outlet pipe is communicated with the rear hole between the visor and the outer surface of the cutting section of the guide pipe, the outlet of the air pipe is communicated with the upper part of the feed hopper, the ratio of the working diameters of the supply and cutting sections is selected from 2 to 1.25, and steps feeding and cutting sections of the screw - from 0.8 to 0.5 (RF Patent No. 70819, B01F 15/04, publ. 02.20.2008).

The disadvantage is the transmission of torque through a belt drive, the slipping of which can lead to inaccurate dosing of bulk material.

Known spiral feeder-dispenser of bulk materials, comprising a housing with loading and unloading necks and a transporting spiral located in it, a drive, a rod located in the cavity of the transporting spiral on the opposite side of the drive with the possibility of axial movement to the required depth, characterized in that the transporting body made of conveying and dosing sections, in the dosing section in the discharge neck area the tubular body is conical, the conveying section made in the form of a spiral conical spiral spring located on the discharge neck side, and a conical rod with the possibility of rotation and axial movement is installed in the spiral conical spiral spring (RF Patent No. 2469942, B65G 33/14, B65G 33/26, publ. 12.20.2012 )

The design drawback is low productivity due to the use of a coil spring.

A common drawback of the above designs is the increased wear of the auger housing and bearings with bulk materials, as well as the absence of an ejector to direct the flow of bulk material in a given direction.

The invention solves the problem of the regulated supply of bulk material (hereinafter material) into the working area, as well as increasing the resource of the bearing and screw assemblies.

The result is achieved in that there is a removable anti-friction insert in the screw housing that protects the housing from material impact, a helical groove located in the friction zone of the shaft and seal with a winding directed towards the screw winding, due to which the material is removed from the bearing towards the screw assembly. For additional regulation of the concentration of the material supplied to the working area, an ejector is used.

The figure 1 shows a schematic diagram of the feeder.

The bulk material feeder-doser consists of a reservoir 1 formed by a housing 2 with a cover 3, a bearing 4 and auger 5 nodes and an ejector 6. An electric motor 7 connected through a safety clutch 8 rotates the screw 9. The shaft 10 rotates in the bearing assembly 4, which includes a bearing assembly cover 11, a bearing assembly 12, bearings 13 and a seal 14. A screw assembly 5 includes a housing of a screw assembly 15, a screw 9, an anti-friction insert 16. A bearing assembly 4 is attached to the screw assembly 5 with a nut 17.and the shaft has a helical groove 18 directed towards similar screw 9 coiling.

The device operates as follows.

The material is placed in the tank 1, formed by the housing 2 and the cover 3. An electric motor 7 is started, which transmits the torque through the safety clutch 8 to the shaft of the screw 10, which has a cantilever fastening in the bearing assembly 4. Material flows by gravity from the tank 1 into the housing of the screw assembly 15 having anti-friction insert 16 that protects it from wear. To prevent material from entering the bearing assembly, a seal 14 is installed, and on the shaft 10 in the area of friction with the seal 14 there is a helical groove 18 leading the material away from the bearing assembly 4 towards the screw assembly 5 and directed in a direction similar to the winding of the screw 9. Material fed by a screw 9 to the ejector 6, where due to the flow of the transporting gas, which entrains the particles, the material is sprayed into the working area.

Claims (1)

Bulk material feeder-feeder including a reservoir, screw assembly, drive, characterized in that a removable anti-friction insert is present in the screw housing protecting the housing from material impact, a helical groove located in the friction zone of the shaft, and a seal with winding directed towards the side of the screw winding, due to which the material is diverted from the bearing to the screw assembly, an ejector is used to further control the concentration of material supplied to the working area.

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