RU165775U1 - CARTRIDGE FEEDER - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular, to volumetric devices for dispensing bulk materials. The objective of the proposed utility model is to increase the accuracy of dosing bulk materials. The task is achieved as follows. The surface of the curved wall of a vertical partition of complex shape, facing the vertical radial wall, performs the function of a scraper and is made curved towards the rotation of the plate so that the angle between the tangent to the surface of the curved wall facing the vertical radial wall and tangent to the trajectory of bulk material on the plate in their intersection point would be less than the external friction angle φ _{tr max of the} bulk material, which eliminates the compaction of bulk materials in front of it and increases the accuracy of the dosage bulk materials.

Description

The utility model relates to agricultural engineering, in particular, to volumetric devices for dispensing bulk materials.

Known plate feeder containing a hopper for bulk material, mounted under the hopper clip in the form of a cylinder, located under it with the possibility of rotation of the plate and scraper. The cylinder is rigidly connected to the hopper and has a segment cut closed by two radial vertical walls forming a central angle α from 90 ° to 180 ° in the wall, and at the outlet of bulk material from the hopper to the segment cut, an unloading window is made, which is blocked by a movable metering shutter, and the hopper above the segmented cutout is rigidly fixed with a gable visor [RU No. 113833 U1, G01F 11/24, 10/21/2011].

The disadvantage of this device is the unsatisfactory dosing accuracy of the components of the feed.

The closest technical solution to the proposed one is a plate feeder containing a hopper for bulk material, divided by a vertical partition of complex shape into two compartments, a vertical radial wall is installed in each compartment, having an unloading window covered by a metering shutter in the forming surface of the hopper in each compartment near the plate a cut is made from a vertical radial wall to a curly wall of a vertical partition of complex shape, over which a shield is installed in the hopper, inclined to the plane of the plate at an angle of external friction φ _{tr max of the} least bulk material [patent for utility model No. 157845, 11/23/2015].

The disadvantage of this device is the unsatisfactory dosing accuracy of the components of the feed.

The objective of the proposed utility model is to increase the accuracy of dosing bulk materials.

The task is achieved as follows.

The surface of the curved wall of a vertical partition of complex shape, facing the vertical radial wall, performs the function of a scraper and is made curved towards the rotation of the plate so that the angle between the tangent to the surface of the curved wall facing the vertical radial wall and tangent to the trajectory of bulk material on the plate in their intersection point would be less than the external friction angle φ _{tr max of the} bulk material, which eliminates the compaction of bulk materials in front of it and increases the accuracy of the dosage bulk materials.

The figure 1 presents a General view of a plate feeder.

The figure 2 presents a top view of a plate feeder.

The plate feeder contains a hopper 1, for example, in the form of a cylindrical cage, a plate 2 located under it with the possibility of rotation. The hopper 1 is divided into two compartments 3 and 4, which are formed by a vertical partition of complex shape. The vertical partition consists of two curly walls 5, rotated relative to each other at an angle of 180 °. The curly walls 5 of a vertical partition of complex shape are made curved towards the rotation of the plate 2. In each compartment 3 and 4, a vertical radial wall 6 is installed, having an unloading window 7, blocked by a metering flap 8. In the forming surface of the hopper 1 in each compartment 3 and 4 at the plate 2 a cut is made, located from the vertical radial wall 6 to the figured wall 5 of a vertical partition of complex shape in the direction of rotation of the plate 2. In the hopper 1 in each compartment 3 and 4, a shield 9 is installed above this cutout adjacent to vertical radial wall 6, inclined to the plane of the plate 2 at an angle of external friction φ _{tr max of the} least bulk material. Under the plate 2, opposite the cutouts of compartments 3 and 4, nozzles 10 are installed for the exit of bulk material.

Compartments 3 and 4 are arranged identically, so the work of one is considered.

The plate feeder operates as follows. Compartment 3 is filled with bulk material. When the plate 2 rotates, the bulk material is carried out through an unloading window 7 made in a vertical radial wall 6. The bulk material carried by the plate 2 slides along the surface of the figured wall 5 of a complex vertical partition facing the vertical radial wall 6 until it converges from the surface of the plate 2. The surface of the figured wall 5 of a vertical partition of complex shape, facing the vertical radial wall 6, performs the function of a scraper. The shield 9 prevents spontaneous flow of bulk material from the compartment 3 onto the plate 2. After leaving the plate 2, the bulk material enters the pipe 10. The curved walls 5 of the vertical partition of complex shape are made so that the angle between the tangent to the surface of the curved wall 5 facing the vertical radial wall 6 and tangent to the trajectory of movement of the bulk material on the plate 2 at the point of intersection would be less than the angle of external friction φ _{tr max of the} least bulk material.

Claims (1)

A plate feeder containing a hopper for bulk material, divided by a vertical partition of complex shape into two compartments, each compartment has a vertical radial wall having an unloading window covered by a metering flap, and a cut from the vertical radial wall is made in the generatrix surface of the hopper in each compartment near the plate. to the curly wall of a vertical partition of complex shape, over which a flap is installed in the hopper, inclined to the plane of the plate at an angle of external friction φ _{tr max} least bulky material, characterized in that the surface of the curved wall, which performs the function of a scraper, is made curved towards the rotation of the plate so that the angle between the tangent to the surface of the curved wall facing the vertical radial wall and tangent to the trajectory of the bulk material on the plate at the point of intersection , would be less than the angle of external friction φ _{tr max} bulk material.

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