RU2491212C1 - Vibratory feeder - Google Patents

Abstract

FIELD: transport.

SUBSTANCE: invention relates to transportation of loose materials and may be used for their feeding and proportioning in chemical, food and construction industries, etc. Proposed feeder consists of bin 1, vibratory hammer 3 with jigger and elastic suspension. Note here that bin 1 is connected with vibratory hammer 3 at its outlet by flexed elastic plate 8 with bulged circular and straight sections. Bulged section of said plate is located inside said bin and secured above its discharge opening 9 while straight section is passed through said opening 9 above vibratory flute 3 and connected therewith by, at least, one bracket.

EFFECT: higher efficiency.

3 dwg

Description

The invention relates to vibration transportation of bulk materials and can be used for feeding and dosing bulk materials in the chemical, food and building materials industries.

Closest to the invention is the USSR copyright certificate No. 455049 (IPC V65V 37/04).

In the known vibratory feeder for bulk materials containing a hopper, a vibratory tray with a vibrator and an elastic suspension, at the place of passage of the material through the outlet window of the hopper on the vibrating surface of the vibratory tray, the material is delayed due to the fact that the upper layers of the material exert pressure on the lower layers adjacent to the outlet window of the hopper, preventing this continuous movement of material along the tray, which leads to a decrease in the speed and uniformity of the feed of material, thereby reducing the productivity of the entire device.

A disadvantage of the known vibration feeder is the low productivity of the device.

The basis of the invention is the task of increasing the performance of the device.

To solve this problem, in a vibratory feeder for bulk materials containing a hopper, a vibratory tray with a vibrator and an elastic suspension, at the exit point of the material, the hopper is connected to the vibratory tray by means of a curved elastic plate having a convex radius and rectilinear sections, with a convex radius section of the plate located inside the hopper and mounted above its outlet window, and a straight section of the plate is passed through the outlet window of the hopper above the vibratory tray and connected to it by at least one bracket.

Distinctive features of the proposed device is that at the exit point of the material the hopper is connected to the vibratory tray by means of a curved elastic plate having convex radius and rectilinear sections, the convex radius of the plate located inside the hopper and mounted above its outlet window, and the rectilinear section of the plate is passed through the outlet a hopper window above the vibratory tray and connected to it by at least one bracket.

In the proposed device, the material enters from the hopper along its walls and the radius section of the curved elastic plate, fixed inside the bin fixedly mounted on the frame of the hopper, to the vibratory tray, and then to the region located between the vibratory tray and the straight section of the curved elastic plate, passed through the outlet window of the hopper above the vibratory tray in the place where the material exits the outlet window of the hopper, at the same time, due to the simultaneous vibration of the vibrating tray and the curved elastic plate attached to it by the bracket, in e of the outlet window of the hopper there is a simultaneous tedding of the upper and the movement of the lower layer of material, which does not allow the latter to linger in the area of the outlet window and contributes to its unhindered movement along the tray, and the presence of a radiused section of a curved elastic plate fixed inside the hopper above its outlet window allows smoothly pouring the material to the vibratory tray and reduces the pressure of the upper layers of the material on the lower layers of the material located in the area of the outlet window, which, ultimately, also contributes to spreryvnomu movement of material on vibrating chute, and thereby increase the performance of the device.

The invention is illustrated by drawings.

In Fig.1 shows the main view of the device in a perspective view, in Fig.2 is a sectional view of the vibrating feeder, in Fig.3 is a view A of the vibrating feeder corresponding to view A in Fig.2.

The vibrating feeder consists of a hopper 1 mounted motionless on the frame 2, a vibratory tray 3 located under the hopper 1 and connected to an elastic suspension made in the form of spring plates 4 connecting the vibratory tray 3 and the bed 5, which in turn is attached by means of shock absorbers 6 to the base 7, mounted motionlessly on frame 2 (see FIG. 2 and FIG. 3), of a curved elastic plate 8 having convex radius and rectilinear sections, the convex radius section of the plate located inside the hopper and mounted above its outlet window 9, and the straight section of the curved elastic plate is passed through the outlet window 9 of the hopper above the vibrating tray 3 and is connected to the vibrating tray bracket 10 mounted on the rectilinear section of the curved elastic plate 8 and connecting it to the vibrating tray 3, the vibratory drive 11, mounted on the frame 5, and the armature 12 mounted on the vibrating tray 3.

Vibration feeder operates as follows (see figure 2 and figure 3). Under the action of disturbing forces from the side of the vibrodrive 11, the armature 12 makes oscillating movements that are transmitted to the vibratory tray 3, since the springy plates 4 of the elastic suspension are inclined with respect to the surface of the vibratory tray at a certain angle a (see Fig. 3), particles of material thrown perpendicular to the surfaces of the spring plates 4 with a force F, are lowered onto the surface of the vibratory tray 3 with some offset and are thus moved towards the outlet window 9, in the area between the vibratory tray and the straight section an elastic plate 8 connected to the vibrating tray bracket 10, while in the area of the outlet window 9, due to the continuous oscillatory movements of the vibrating tray 3 and the curved elastic plate 8, the tedding of the upper and lower layers of the material occurs simultaneously, which contributes to its free movement in this zone and, therefore, along the entire length of the vibratory tray. Particles of material located in the hopper above its outlet window fall on the convex radius section of the curved elastic plate 8 and, bending around it, fall on the vibrating channel, without exerting pressure on the particles of material located directly in the area of the outlet window 9.

Claims (1)

A vibrating feeder for bulk materials containing a hopper, a vibratory tray with a vibrator and an elastic suspension, characterized in that at the exit of the material the hopper is connected to the vibratory tray by means of a curved elastic plate having a convex radial and rectilinear sections, with a convex radius section of the plate located inside the hopper and fixed above its outlet window, and a straight section of the plate is passed through the outlet window of the hopper above the vibratory tray and is connected to the vibratory tray by at least one bracket.

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