SU740650A1 - Intake nozzle for pneumatic transport system - Google Patents

Description

one

The invention relates to aspiration-type pneumatic conveying systems and can be used to transport bulk materials, in particular fish.

A suction nozzle of a pneumatic conveying installation is known, which includes two coaxially arranged pipes, the cavity between which is connected to a branch pipe for supplying additional air, equipped with a device that automatically regulates the amount of air supplied, depending on the vacuum in the system 1}.

The disadvantage of this nozzle is low its efficiency in the work when unloading lumpy materials.

It is also known to use a suction nozzle of a pneumatic conveying installation, comprising a pipe section connected to a receiving part, made in the form of an extension to a trough and equipped with a pressure chamber communicating with the receiving part through a perforated partition 2.

The disadvantage of this nozzle is inefficient operation when unloading bulk materials, since the air flow coming out through

perforated partition, has a low speed and can not lead lumpy material in a pseudo-thin state.

The purpose of the invention is to increase the efficiency of the nozzle.

The goal is achieved by the fact that the pressure chamber of the proposed nozzle is installed against the inlet opening 10 of the nozzle on the inlet edge of the receiving part, while the apertures of the perforated partition are equipped with converging nozzles whose axes are directed to the nozzle inlet.

15 In addition, the pressure chamber has a streamlined shape from the entrance of the material, and the perforated partition is made as part of the surface of the inner semiring

20 torus.

Figure 1 shows the proposed nozzle, a longitudinal section; in figure 2 the same, top view; in fig. 3 - pressure chamber, cross section

25 (node I in FIG. 1); in fig. 4 shows an embodiment of nozzles for operation in a vertical position.

The suction nozzle contains two coaxially arranged external pipes 1 and internal 2 with an opening30

STIYAMI, OYPOLNE - - JMK,: ic; iipli; vu: p, B

two rows, closer to the noctuating nozzle, the receiving part 1} -i, which has the form of a raster and the same; the bottom of which is pympolme in the Bi-: iie plane, and the side walls and a small section of BetiXHCH are in the shape of a cone surface. At the inlet (m1 edge, the pressure chamber 4 is installed in the receiving part, which: has a huK shape from the side; material inlets. The hill is bent along an arc of a circle whose center is at the point corresponding to the BepujHHe cone, whose shape walls of the receiving part 3. Head; the chamber communicates with the receiving piece through a perforated nepeiOpojiKy 5, made as part of the surface of the inner half-bargain, as a result of which the axes of the holes of the partition do not extend beyond the circumference ( interface of the receiving part 3 with the inner tube 2. In the perforations of the perforation of the partition 5, there are installed converging cascades 6, which are arranged in several p / ds, for example, in order to obtain a dense flow of working medium out of them. In the central part, there is an extension 7 to the bottom, to which an OTHER pipe 8 for supplying compressed air is connected. On the outer pipe 1 there is a device (not shown) for automatically adjusting the amount of additional air supplied to the cavity between pipes 1 and 2 tons of gas flowing through the holes in the pipe 2 to prevent the formation of traffic jams and ensure sufficient: sufficient amount of air required to transport the material while reducing the amount of air entering the main stream.

The nozzle is made rotary relative to its longitudinal axis. The rotation of the nozzle is provided thanks to the device that has; a rotary ring 9 welded to the cylindrical nozzle 10, rigidly connected to the conveyor pipe P9 by means of a flange 11, and a ring 12 welded to the end of the outer pipe 1

 The suction nozzle operates as follows.

The device for automatically adjusting the amount of additional air is adjusted so that during normal operation of the nozzle, the air in the cavity between pipes 1 and 2 does not protrude. The nozzle is immersed in the hy-epic, and in the pressure head of the chamber 4 a working medium is supplied under pressure., As which air or water can be applied. ,, n fills the receiving part of the nozzle, and the working jet (: re, il1, dehumidifying hole holes c: stroke and their nozzles 6, with force ud1) c1-. About pieces P1.; the unit intended to be transported, loosen it and prot.pikivayut in the direction of the nozzle inlet. The material is drawn in by the main air flow and y; o ;; s in the transport pipeline. When so hole is formed,

the conveyed material makes it difficult for the air to flow through the air, the vacuum in pipe 2 and in the gap between pipes 1 and 2 increases. In this case, the amount of additional air increases,

5 incoming chests; 3 openings of pipe 2, and resorption of the plug of material occurs. This is facilitated by the jets of the working fluid flow through the openings of converging nozzles

0 perforated septum.

With the resumption of normal operation of the nozzle, the pressure in the pipe 2 and in the gap between the pipes 1 and 2 increases and the access of additional air through the holes in the pipe 2 stops.

The nozzle may have other embodiments. So, for work in

the vertical position is most conveniently a nozzle, in which the pressure chamber is removed and installed against the inlet opening on racks that can be, for example, two pipelines for supplying compressed air.

Claims (3)

dd claims 1, A suction nozzle for pneumatic conveying systems comprising a pipe section connected to a receiving part made in the form of a wide trench and equipped with a pressure chamber communicating with the receiving part through a perforated partition, characterized in that, in order to increase 50 nozzle performance, the pressure chamber is installed against the nozzle inlet at the entrance edge of the receiving part, with the holes in the perforated partition 55 are provided with converging nozzles whose axes are directed toward the nozzle inlet. 2. Nozzle POP.1, characterized in that the pressure chamber .Q has a streamlined shape from the input side of the MC material. 3. The nozzle on the PP. 1 and 2, that is, in that the perforated partition is made in as part of the surface of the inner semiring of the torus. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 238399, cl. B 65 G 53/58, 1969. 2. Patent of the USSR 331529, cl. B. 65 G 53/26, 07.03.72 (prototype) F ".1 ft TO 12 1 t Compression T Setdtf 8 3 Cjf (9muu botfi / w F "". 3