SU161275A1 - - Google Patents

Description

Known chamber feeders of pneumatic injection systems for transporting bulk materials include a receiving chamber equipped with a hopper with a valve, a transport pipeline with a conical nozzle at its inlet end and a device for supplying compressed air to the inlet end of the pipeline.

The specific feature of the chamber feeder described is that the device for supplying compressed air to the inlet end of the pipeline is designed as a cone fixed in the lower part of the chamber, on the surface of which several rows of nozzles are staggered, each of which is equipped with a regulator of compressed air flow to nozzles. This feeder regulates the amount of material fed into the transport pipeline. To regulate the degree of saturation of the transported air with air, the pipeline section adjacent to the inlet end is made with openings located at an acute angle to its axis, and is provided with a casing connected to a nozzle for supplying compressed air with a flow regulator.

FIG. 1 depicts the described chamber feeder; in fig. 2 is a section along A-A in FIG. one; in fig. 3 is a section along BB in FIG. one.

In the upper part of the receiving chamber 1 of the feeder is mounted a feed hopper 2 with a cone valve 3. In the center of the receiving chamber there is a transport pipeline 4 with a conical nozzle 5 at its inlet end. The pipeline 4, adjacent to the inlet end, is provided with openings (5 located at an acute angle to its axis. Around 7 this pipeline is installed 7 connected to the pipe 8 for supplying compressed air. The amount of compressed air passing through the pipe 8 the unit of time is changed by the compressed air flow regulator 9. A cone 10 is placed at the bottom of the chamber, on the surface of which several rows // //, 12 and 13 nozzles are staggered, which are respectively connected to nozzles 14, 15 and 16 for supply to the nozzles with compressed air. The axes of all nozzles intersect on the axis of the pipeline 4. The amount of compressed air supplied to each row of nozzles is changed by means of regulators 17 of the compressed air flow.

The material intended for pneumatic transportation is filled with the receiving chamber / and the cone clan 3 is closed. Compressed air is fed through pipe 8 into the casing 7, from which it enters transport pipe 4 through apertures 6. Compressed air is not moved through pipeline 4 (drawing is shown by arrow M) and forms a vacuum in the conical nozzle 5. (In the receiving chamber, the feed material only covers the sweating rows of nozzles). Compressed air through pipes 15 and 16 goes to the lower rows of nozzles and, passing through the nozzles, picks up the material above them and delivers it to the conical nozzle 5. Compressed air, which is supplied through iatrubku 14 to the upper row of nozzles, captures the located, The nys in the nozzle 5 is the material and directs it to the pipeline 4.

The amount of material fed into the pipeline in a unit of time is regulated by the amount of compressed air supplied to the unit through the rows of nozzles. The amount of compressed air, the passage of gas through pipe 4, is regulated by the amount of compressed air entering unit 8 of time per unit of time.

Thus, both the amount of compressed air and the amount of material transported, which per unit of time move along a transport pipeline, are controlled independently of each other.

Subject of invention

Claims (2)

1. The chamber feeder of the pneumatic injection unit for transporting bulk materials, including a chamber equipped with a loading hopper with a clan, a pipeline with a conical nozzle at its inlet end and a device for nodachi compressed air to the inlet end of the pipeline; and in order to regulate the quality of the material supplied to the pipeline, the device for supplying compressed air to the inlet horse of the pipeline is made in the form of a cone reinforced in the lower part of the chamber, on the surface of which several rows of sonnels, each of which Equipped with a regulator for the flow of compressed air to be supplied to the nozzles. 2. A feeder according to claim 1, characterized in that, for the purpose of regulating the degree of saturation of the material with air, the section of the pipeline adjacent to the inlet end, with holes with an acute angle to its axis, and provided with a casing connected to the compressed air supply with a regulator of compressed air flow. Fig A-i Fig 2