SU1049740A1 - Weighing machine - Google Patents

Abstract

A BATCHER, containing a bunker located under it and a Q connected to the house plate and a working body, placed between them, characterized in that, in order to extend the dosing range, the working body is made in the form of a cylindrical cup, covering the drive shaft and installed with the possibility of displacement with respect to the drive shaft in the plane of the plate, the cup is located upside down, and in the inner cavity of the cup a positive drive is installed to move the stack to the drive shaft in the plane of the plate. (L 4 CO

Description

This invention relates to bulk material dispensers and can be used in agriculture.

A rotary scraper dispenser is known, comprising a housing, a receiving bin, an adjustment device with telescopic cups fixed on kerchiefs in the housing a fixed plate to which a gearbox is attached, and a curvilinear scraper is mounted on the gearbox shaft, a slot dividing it is divided on the gearbox shaft moving glass 1.

The disadvantage of the dispenser is the low accuracy and narrow dosage range.

Closest to the invention is a dispenser comprising a hopper, a plate located beneath it, a scraper and an actuator 2 located between them.

This dispenser has a limited range of capacity control, which is provided by varying the height of the scraper, performed in the form of an Archimedes spiral. At. This violates the optimal ratio between the step and the height of the scraper (the pitch of the helix does not change), which reduces the uniformity of dosing. The optimum ratio of pitch and height of the scraper is chosen for each particular material.

Disadvantages of the dispenser are a limited range of dispensing bulk solids.

The aim of the invention is to expand the dosage range.

This goal is achieved by the fact that in a dispenser containing a hopper located under it and connected to the drive plate and a working body placed under it, the working body is made in the form of a dilindrical cup, covering the drive shaft and installed with the possibility of displacement relative to the drive shaft in the plane of the plate The glass is located upside down, and an additional drive is installed in the inner cavity of the glass to move the glass relative to the drive shaft in the plane of the plate.

The drawing shows the proposed dispenser.

The dispenser contains a casing 1 fixed to the flange 2 of the hopper 3.. Inside the casing 1, plate 5 is rigidly fixed with the help of kerchiefs 4. The gearbox 6 is mounted on the bottom of the plate 5, on the driven shaft 7 of which, on top of the plate 5, the working body 8 is mounted in the plane of the latter (relative to shaft 7) and executed in the form of a cylindrical cup. In order to displace the working body 8 horizontally to the plane relative to the drive shaft 7, a threaded shaft 9 is placed inside the working body 8, which is pivotally connected with one end

the working body 8, and the other rigidly with the actuator, and for example with the electric motor 10, and passing through the threaded hole of the shaft 7. The electric motor 10 5 is rigidly fixed inside the working body 8.

The control of the electric motor 10 is carried out remotely via a collector device consisting of a dielectric sleeve 11, a conductive sleeve 12 and sliding steps 13, closed by a cover 14.

A collecting cone 15 is fixed to the lower part of the casing 1. The working element is driven through the gearbox 6 by the electric motor 16.

Works dispenser as follows. The material to be dispensed is loaded into the hopper 3, from where it flows by gravity or through a motivating 1 device into the working area on the plate 5. Since Q is the diameter of the plates larger than the diameter of the flange 2 of the bunker 3, spontaneous flow of bulk material into the annular gap between plate 5 and casing 1 does not occur.

In the case when the axis of rotation coincides with

the axis of the working device 8, i.e., the eccentricity is zero, the material does not operate from the plate 5. To obtain low productivity, the axis of the working body 8 is displaced by a small amount relative to the axis of rotation (axis of the shaft 7) by means of an electric motor 10, when activated, the threaded shaft 9 rotates shifted relative to the drive shaft 7. A further increase in the performance of the metering unit is achieved by a large displacement of the axis of the working body relative to the axis of rotation, i.e., an increase in eccentricity. When the working body is displaced, its working part (shedding) takes the form of a working body, performed in the form of a logarithmic spiral, characterized in each particular position by its radius of curvature.

5 This type of working part of the working body causes good conditions for the material to descend from it. In addition, the displacement of the working body relative to the shaft of the drive does not reduce the volume of the working area, it does not yky conditions

Q filling it with material does not change the flow area of the dispenser, determined by the height of the working body and the diameter of the inlet. As a result, a wide range of performance control is ensured when the dispenser operates on materials with different physicomechanical properties, dosing accuracy is high (constant) at different capacities, starting from zero and ending at the maximum. . The use of the dispenser allows to provide a wide range of adjustments to the production, increase the accuracy and expand the 10497404 nomenclature of materials dosed with the same dosage unit.

Claims (1)

A dispenser containing a hopper located under it and connected to the drive plate and a working body placed between them, characterized in that, in order to expand the dosing range, the working body is made in the form of a cylindrical cup, covering the drive shaft and installed with the possibility of displacement relative to the shaft drive in the plane of the plate, moreover. the glass is located upside down, and an additional drive is installed in the internal cavity of the glass to move the glass relative to the drive shaft in the plane of the plate. (AND)