SU1346509A1 - Pulsing device for caving-in bridges in hoppers - Google Patents

Abstract

The invention relates to a device for breaking a set of bulk material in bunkers and can be used in tire factories, in chemical and other sectors of the national economy. The purpose of the invention is to increase the reliability of work. Compressed gas is supplied to the inside of the elastic shell 2 through the nozzle 8, which fills the internal volume and increases its size until the shell, having swollen, forms a gap with wrench 9, through which the gas enters the annular groove 3 and is discharged into the atmosphere longitudinal channels 4. The elastic sheath 2 is attached to the body 1 by a pressure ring 10. The body 1 is mounted on the wall 11. 4 sludge. (L co 4: O5 01 o co

Description

The invention relates to devices for breaking down bulk material vaults in bunkers and can be used in tire factories, in the chemical and other industries.

The aim of the invention is to increase the reliability of operation.

The application of the invention improves the reliability of the collapse of the arches due to the simple design of the pulsator.

FIG. 1 shows a pulsator, at the moment of the beginning of the working stroke, a sectional view; in fig. 2 - the same, at the moment of bleeding the working environment; in fig. 3 - the same, with the fastening of the elastic chamber outside the elastic wall of the hopper, a general view; in fig. 4 - pulsator, placed between the elastic wall of the hopper and the rigid wall, general view.

The pulsator includes a housing 1 connected to a source of compressed air (not shown), and an elastic sheath 2 fixed on it. An annular groove 3 and longitudinal channels 4 l1l of communication with the atmosphere are formed in the housing 1, while the sheath 2 is fixed on the housing I with one end 5, and its other end 6 is closed. The housing 1 has an opening 7 with a nozzle 8 for supplying the working medium (compressed gas) to the casing 2. The casing has around 9 hectares of casing 2, as well as the pressure ring 10 and can be attached to the wall 11 of the bunker (not shown) or bracket 12, and elastic shell 2 with a closed end to the wall 13 of the hopper (Fig. 3 Case 1 can be mounted on a rigid wall 14, while the shell 2 is placed between the elastic wall 13 and the rigid wall (ratchet) 14.

Pulsator works as follows.

The compressed gas is supplied through the opening 7 and the nozzle 8 into the elastic sheath 2. It is inflated, expands, and expands in volume until it is overcome by tension of the pressure of the housing 2 and then the working medium quickly strav0

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pours through the annular groove 3 and the throttle taps 4 into the atmosphere, since the total cross-sectional area of the openings of the channels 4 is many times larger than the inlet of the nozzle 8. Then the shell 2 is inflated with a spova, and the shell pulsation cycle is repeated. Thus, periodically inflating and spreading, the elastic sheath 2 destroys the vaults of the bulk material. The frequency and amplitude of the pulsation of the shell are set depending on the elastic properties of the shell by changing the pressure of the working medium, the tension of the shell 2 over the frame 9 of the housing 1, and also replacing the nozzle 8 with other holes with different diameters. The smaller the hole diameter of the nozzle 8, all other things being equal, the less the pulsation frequency of the shell 2, since it takes time to set the pressure of the working medium necessary to overcome the tension of the shell.

The method of using and mounting the pulsator (Fig. 3) is to mount the housing 1 to the hopper bracket 12 (not shown), and the shell 2 to the elastic wall 13 of the hopper.

Another mounting method is possible by attaching the housing 1 to the rigid wall 14 of the hopper, placing the shell 2 between the elastic wall 13 and the rigid wall 14. In this case, the pulsation of the shell 2 causes the elastic wall 13 of the bunker to vibrate, also preventing the formation of arches in it.

Claims (1)

Invention Formula A pulsator for breaking vaults in bunkers, comprising a housing connected to a source of compressed air and mounted on a letter; a static shell, characterized in that, in order to increase reliability of operation, an annular groove is formed in the housing and longitudinal e-capals to communicate the groove with the atmosphere, at this point, a “point” is fixed to the body with one end, and e) its other end is closed. 7J 7J Fi &. 3 ig.