SU779198A1 - Device for feeding lump materials - Google Patents

Description

The invention relates to the field of transport equipment, namely, devices for feeding bulk materials, such as single pellets to apparatus-analyzers. A device for feeding materials is known, which contains a hopper with a discharge chute, a helical spiral pivoting about a vertical axis, the lower end of which is located at the level of a disk mounted on a vertical shaft / and the upper end is at the level of a discharge opening made in a fixed fl board. The disk and screw helix are interconnected and therefore have the same constant rotational speed, with the result that when transporting material with the same sizes of pieces, the frequency of their following is constant. A disadvantage of these devices is that they do not ensure, with a certain frequency, that such materials have different sizes of pieces, for example, single pellets. This is due to the fact that the coefficient of friction in large and small pellets and the magnitude of the centrifugal force acting on the pellets are different. Since the pellets move along the disc and the helix under the action of friction and centrifugal forces, and these CIs for the pellets are different, there may be situations where they are located on the helix helix one after the other without a gap. In the same order, they arrive at the input of the analyzer, making it difficult, and sometimes impossible, for the latter to work. The purpose of the invention is the ability to control the flow of the feed material at different sizes of its pieces. This is achieved by the fact that a cylindrical casing is mounted for rotation on the hopper discharge chute, with a screw helix attached to the side surface, the casing being connected to an electric drive having a constant number of revolutions, and a disk connected to another electric drive with an adjustable number of revolutions . FIG. 1 shows a general view of the model, in a perspective view; in fig. 2 then zhe, in section; in fig. 3 - block diagram of flow control

A device for supplying single pellets to the analysis contains a hopper 1, the discharge to the chute 2 of which is located above the disk 3 fixed on the vertical shaft 4. The shaft is driven by the electric drive 5 with an adjustable speed. On the hopper of the bunker, a cylindrical case 7 is mounted with a bearing b, to the side surface of which a screw helix 8 is attached. The lower end of the helix is located at the level of the disk 3, and the upper end passes into the ring 9 located at the level of the discharge opening 10 made in the fixed board 11, supporting a spiral helix with a ring. . .

The housing 7 is connected by friction transmission with the electric drive 12 having a constant number of revolutions. The friction gear is formed by pressing the nozzle 14 and the rim 15 rigidly mounted on the housing 7 on the shaft 13 of the electric drive 12. The nozzle 14 comes in. a slot made in the fixed board 11. The bunker 1 with its upper part is attached to the board 11. The pellet tracking frequency is measured by the sensor 16 and monitored by the tracking frequency meter 17. The required tracking frequency is set by the knob 18, and the control action for the electric drive 5 is generated by the regulator nineteen.

The device works as follows. .

Portions of the pellets are fed into the hopper 1, from where it enters the disk 3. Under the action of centrifugal forces, the pellets are located along the fixed edge 11. Due to the effect of friction between the pellets and the board, the speed of movement of the pellets is less than the speed of rotation of the disk; The difference between the speeds of movement of the pellets and the disk moves them along the screw helix and the ring 9 to the discharge opening 1

When increasing: the pellet repetition frequency for analysis is higher than the throughput of the nalisation apparatus, a signal equal to the difference in output signals of the following frequency meter, equal to the difference of output signals from the following frequency meter 17 and setpoint 18, is fed to the input of the regulator 19. The regulator, working on the error signal, produces a control signal aimed at reducing the rotational speed of the electric drive 5. This reduces the speed of rotation of the disk 3, which leads to a decrease in centrifugal force and tren and between the pellets and the fixed board 11. The frequency of pellets entering the helical coil and their exit through the discharge opening 10 decreases.

When reducing the frequency of 5 pellets per analysis below a given one, the device works in the same way, but the controller 19 generates a control signal aimed at increasing the rotation speed of the electric drive 5.

Thus, the device provides the ability to control the flow of the feed material at different sizes of its pieces.

Claims (1)

1. USSR author's certificate f 512959, cl. B 65 B-37/12, 1974 (prototype). . lO one} rt five To sensor /