SU552259A1 - Seduction chamber of pneumatic conveying installation for bulk materials - Google Patents

Description

communicating the internal cavity of the container 6 with the atmosphere. The valve U is pressed against the clan seat by an adjustable spring 10. A limit switch 11 is connected to the housing 1, which interacts with the valve 9.

The conduit D is connected to the internal cavity of the housing 1 through the container b.

In another design, e (ii) (see Fig. 2j, capacity b in the assembly is inserted into the upper part of housing 1, and diaphragm 7, t a ha b and valve Y with an adjustable spring 10 are at an angle.

Such a removable tank design allows it to be debugged separately from the settling chamber. This design also shows another possible supply of pipeline i; for suction of transported material.

B of the camera design shown in FIG. 3, a certain part of the outlet wall of the container 6, open at the bottom, is aligned with the lateral surface of the camera body 1.

Siege chamber works as follows.

Iodine by the action of a vacuum that occurs in the housing 1 of the settling chamber as a result of air suction through the pipeline 5 by an apparatus for creating a vacuum and pressure, the material-air mixture through the pipeline 2 enters the housing of the precipitation chamber where material-air mixture separates under the action of gravitational forces falls down, from where the unloading mechanism 3 is discharged into the aeration chamber of the pneumatic conveying installation, and the dusty air, also changing direction and The speed due to the sharp increase in the flow area, through the tank tt through the pipeline 5 by the apparatus for creating a vacuum and pressure, is also sucked into the aeration chamber of the pneumotransport unit.

When the performance of the unloading mechanism 3 decreases or when it leaves the building (which is possible, for example, if any foreign objects get into the unloading mechanism together with the material), the candy box of the candy box is filled with material above the norm. In this case, the material that fills the body i of the settling chamber touches the surface of the lower edge of the container b and closes its cavity below. As a consequence, a negative pressure is created inside the element through the pipe 5 than in the housing 1 of the settling chamber.

Under the action of this increased dilution, the diaphragm 7 bends into the interior of the container b and, through the pull 8, opens the valve 9, together with the internal cavity of the container 6 with the atmosphere. In this case, in the internal cavity of the container b, a breakdown of the vacuum occurs, and the process of sucking the material into the precipitation chamber is interrupted. Simultaneously with the opening of valve 9, the end switch AND gives the operator a corresponding signal that the settling chamber is filled to the upper permissible level.

Under normal conditions of operation, the suction-injection pneumatic conveying installation with the proposed precipitation chamber can operate in the mode of self-regulation of the non-intramotor transport process.

Self regulation is carried out as follows.

With an increase in the level of material in the housing 1 of the settling chamber, the amount of material entering it per unit of time is somewhat reduced due to the increase in resistance, and the unloading mechanism 3 with an increase in the column of material above it slightly improves its performance by feeding more material into the aeration chamber. Therefore, in the latter, the pressure from the transportation of the increased concentration of the material-air mixture rises, while the device for creating a vacuum and the pressure E at the same time, because of this, the absorption coefficient decreases slightly, which reduces the separation in the housing of the settling chamber and reduces the flow of material into it. The same thing happens when increasing the length of the transport pipeline.

When the level of the material in the casing of the settling chamber decreases, the described interdependence is reversed.

1In this way, the suction-injection pneumatic conveying installation with the proposed precipitation chamber automatically adjusts its performance to the optimum mode of operation depending on operating conditions (volume weight of the transported material, length of the transport pipeline, height of the material, etc.).

Claims (1)

1. Auth. St. No. 141806, cl. In 65g 53/40, 1961.