SU1720944A1 - Vibratory feeder - Google Patents

Abstract

The invention relates to dispensing devices and can be used for the production of bulk components in the preparation of animal feed. The aim of the invention Ai 6i is to improve usability. The feeder is provided with a distribution cone 6 with a vibro-actuator 10, the housing 1 is divided into sections by radial partitions 2. In each section above the distribution cone 6 there are peaks 14. On the distribution cone 6 in each section the flaps 15 are fixed. The loading device consists of a funnel mounted with rotation an eccentric located outlet 21 and a screen 18 fixed above it, connected to a distribution cone 6. 4 Il. Loading 21 22 SL C VJ o About O Ј 4

Description

The invention relates to dispensing devices and can be used to dispense bulk components in the preparation of animal feed.

- Known vibrating feeder, which includes a housing with an outlet nozzle, a loading device, a distribution cone with a vibro-drive and adjustable dampers for dispensing a dose of a component.

The given feeder has the disadvantages that its technological capabilities are limited by dosing only one component. Simultaneous dosing of several components is necessary in the technological lines of compound feed preparation. The body of the specified feeder can only have small sizes. It is not possible to increase the capacity of the body by simply building up the walls, because its increased column of material with its weight will press on the distribution cone, as a result of which its vibration parameters will depend on the degree of emptying of the body. This will adversely affect the dosage uniformity. In the above feeder difficult to load the material into the housing.

The purpose of the invention is to improve ease of use by simultaneously dosing several components in predetermined proportions and mechanizing the loading and cleaning of the raw material.

This goal is achieved by the fact that the body of the vibrating feeder is divided into sections by radial partitions and is equipped with visors fixed in each section above the distribution cone, control valves are fixed to each section on the distribution cone, while the loading device is located in the upper part of the body and consists of rotation of the funnel with an eccentric located outlet and a convex sieve fixed above it, connected to the distribution cone Rods rod.

FIG. 1 shows the vibrating feeder, general view; in fig. 2 - the same, top view; in fig. 3 shows section A-A in FIG. one; in fig. 4 shows a section BB in FIG. one.

The vibrating feeder includes a housing 1 containing partitions 2 rigidly associated with it. By means of elastic hangers 3, the carrier plate 4 is attached to the base of the bunker. An annular shell 5, a distribution cone 6 with guides 7 are mounted on it.

with locks 9 and the tandem mechanism 10 vibrodrive.

The vibration drive itself consists of an electric motor 11 mounted on the side

the wall of the hopper 1, the elastic coupling 12 and the unbalances 13.

In order to avoid crushing of the stimulating cone 6 with the material being metered and significant spread of vibration into its layers, peaks 14 are inclined above the distribution cone in all compartments.

Installing visors also helps prevent compaction and segregation in

5 top layers of dosing material.

The predetermined feed of each section is established by means of valves 15, the position of which determines the thickness of the layer of dosing material on the vibrating plate 8.

0 The flaps 15 are located in the guides 7 on the push rods 16. In the predetermined position the push rods 16, and hence the flaps, are secured by the latches 9.

5 Over body 1 on rigid rod 17

fortified circular sieve 18. The rod 17 passes through an axial hollow tube 19 and its base is connected with the distribution cone 6.

0 under sieve 18 on bearing unit

installed distribution device 20, made in the form of a funnel with an eccentric located discharge opening 21. The side shell 22 of the distributor of the dividing device 20 is rubberized and is in contact with the drive roller 23 of the gearmotor 24.

The feeder works as follows.

0 During operation, the vibrodrive 10 transmits torsional vibrations to the plate 4 with all the nodes fixed to it: an annular shell 5, a distribution cone 6, a rod 17, a sieve 18, a vibrating plate 8 with fixtures 9.

To fill the compartments of the hopper 1 with appropriate components, one of them is installed (alternately) with the discharge opening 21 of the distributor 20. The installation of the discharge opening 21 is performed by turning the distributor 20 around the central axis of the bunker 1 by turning on the gearmotor 24 with remote control.

The source component is fed to the sieve 18 and due to its vibrations (the vibrations are transmitted to the sieve through the rod 17 from the distribution cone 6) spill through the holes and fed to the funnel-shaped distribution device 20. The impurities come off the sieve 18, fall into a special inclined chute 25 ( in Fig. 3. 4 is not shown) and is output outside the machine. The material that has passed through sieve 18 falls into one of the compartments.

The vibration transmitted to the material to be dispensed from the distribution cone 6, the vibrating well 8, the annular shell 5, awakens it to expire.

Vibration plate 8 smoothes the flow of material and brings it out. The required feed of each section is set by moving the shutter 15 by means of the pushing rods 16 and is fixed at a predetermined position by the latches 9.

Thus, the functionality of the vibrating feeder is significantly extended as compared with the known, in particular, the proposed vibrating feeder allows for multi-component dosing when changing the feed for each component separately.

In addition, in the proposed device, the problem of cleaning the initial components from impurities is solved, while the same vibration exciter is used to drive the sieve and the main working bodies (vibrating bottom and distribution cone). Installing visors leads to the fact that the column of material in the body transmits

Claims (1)

pressure on them, while releasing the distribution cone from pressure. The load on the latter is no longer dependent on the height of the column of material in the body, which creates prerequisites for reducing the uneven dosing. The proposed loading device makes it very easy to load each section of the housing, and the feed control mechanism in the form of flaps allows smooth adjustment for each component separately. Claims of the invention A vibrating feeder comprising a housing divided into sections with an outlet, a loading device, a distribution cone with a vibration drive and adjustable dampers for dispensing a component dose, characterized in that the housing is divided into sections by radial partitions and provided with reinforced each section over the distribution cone with visors, adjustable dampers are reinforced in each section on the distribution cone, while the boot is adapted It is placed in the upper part of the body and consists of a funnel mounted with the possibility of rotation with an eccentrically located outlet opening and a convex sieve fixed above it, connected to the distribution cone by means of a rod. 18 Fie.2 22 20 Fig.Z bB