SU1153089A1 - Arrangement for pneumatic transportation of loose filling materials - Google Patents

Abstract

1. A DEVICE FOR PNEUMATIC TRANSPORT OF FULFILLABLE MATERIALS, including sections of a pneumatic tubing and ejectors for air inlet, characterized in that, in order to increase the performance and distance of transportation of the filling material along the route with sections having steep turning angles, the sections of the pneumatic tubing are provided with dispenser with discharge cable, with discharge cable, with discharge cable, with discharge cable, with discharge cable, with discharge cable, with discharge cable, with discharge cable, with discharge cable, with discharge cable, with discharge cable , a lid and a tangentially located entrance of the filling material, in the lower part of the camera is installed with the possibility of rotation around its axis receiving A funnel with an ejector connected in the outlet nozzle, while the cover of the discharge chamber in the upper part is made with a hole. 2. A device according to claim 1, characterized in that the receiving funnel is provided with a guide which is rigidly connected with it and is made in the form of a conoid, which is formed by displacing the generatrix of Archimedes in a spiral, and the output of the conoid is set coaxially with the outlet nozzle. 3. The device according to claim 1, characterized in that, in order to reduce dust emission, the cover is provided with a filter and is connected via an elastic element to the discharge chamber.

Description

The invention relates to the mining industry and can be used in devices for laying the mined-out space, in particular for pneumatic conveying of loose backfill material.

A device for pneumatic conveying bookmarks, including pipelines and stowing machine 1.

The disadvantage of this device is a decrease in its performance during transportation of the material along the track, which it turns.

It is also known a device for pneumatic conveying of a backfill material, including sections of a pneumatic turbine line and ejectors for introducing air, built-in along the route, intended for blowing compressed air 2.

The disadvantage of this device is that the compressed air is blown under conditions when the pneumatic tubing is under pressure, and to communicate the kinetic energy to the transported material, this pressure must be overcome, which leads to a decrease in the productivity and distance of the device, a large air flow.

The purpose of the invention is to increase the productivity and distance of transportation of the backfill material along the route with sections having steep angles of rotation.

The goal is achieved by the fact that in the device for pneumatic transport of bulk backfill materials, including sections of the pneumatic tubing and ejectors for the entry of compressed air, the sections of the pneumatic tubing are equipped with a discharge chamber with an outlet branch pipe, a lid and a tangentially positioned inlet of the filling material, at the bottom of the chamber are rotatably mounted around its axis is a receiving funnel with an ejector connected to the outlet nozzle, while the cover of the discharge chamber in the upper part is made with opening tiem.

In addition, the receiving funnel is provided with a guide, which is rigidly connected with it and made in the form of a conoid, which is formed by displacing the generatrix of Archimedes, while the conoid output is set coaxially with the outlet nozzle.

In order to reduce dust emission, the lid is provided with a filter and is connected via a resilient element to the discharge chamber.

FIG. 1 shows a device for pneumatic transport of bulk materials; general view; in fig. 2 - unloading chamber, longitudinal section; in fig. 3 - the same, top view; in fig. 4 is a three-dimensional image of a receiving funnel with a guide.

The sections of the pneumatic tubing 1 are connected at the turns of the route by means of the discharge chambers 2. Along the route of the transport pipeline, pipes are laid for supplying compressed air and water to the discharge chambers.

The device for pneumatic conveying includes sections of pneumatic tubing 1, which are connected to the discharge chamber 2, the input section is built tangentially to the housing 3, and the output section is located in the lower part of the receiving funnel 4 and is connected to the outlet nozzle 5 equipped with an ejector 6. The receiving funnel is attached The camera is pivoted about the axis of the unloading chamber and equipped with a conoid 7 guide. The unloading chamber in the upper part is equipped with an adapter 8, which is connected to pusu via the elastic member 9.

The device works as follows.

0 Bulk material moving along the rectilinear section of the pneumatic tubing 1 enters the discharge chamber 2. Due to the fact that the chamber is made with a tangential inlet, the material moves in a spiral

and enters the receiving hopper where, moving along the guide, it is in the area of the suction action of the ejector 6 and transported to the next rectilinear section. The cylindrical cross section shape of the discharge chamber and

0 tangential inlet provides a minimal reduction in the rate of movement of the material with a relatively small size of the discharge chamber. Any other shape of the camera (square, rectangular / rectangular, triangular, etc.) and their limited

size, there is a back pressure effect on the incoming stream of the air-air mixture, and this reduces the efficiency of material transport in the inlet section. Setting the conoid output to be the same as

The Q direction of the outlet in the ejection area ensures the smallest loss of material velocity and its movement in the direction of the air jet of the ejector, thereby reducing the effect of the counterpressure from the impact of the air jet on the material being transported as much as possible. This contributes to the efficient transportation of the material in the exit sections of the pipeline with a minimum increase in air flow in the ejectors at the turns of the track.

To change the direction of movement of the material, the outlet section of the pipeline, which is rigidly connected through the outlet pipe to the receiving hopper 4 - and ejector 6, is turned at a required angle relative to the inlet section around the axis of the discharge chamber 3.

Filter 8 is needed to reduce dust generation in the surrounding space and to equalize the pressure in the discharge chamber, which can vary due to uneven flow of material into the pipeline and due to changes in its friction composition. The elastic element 9 provides for the vibration of the filter grate and its cleaning during the impact of material particles flying in the peripheral zone of the flame of the air-material mixture formed at the entrance to the discharge chamber.

The performance of the proposed device is due to the pressure in the discharge chamber almost to zero and the creation of the maximum pressure difference between the compressed air line.

spirit feeding the ejector 6, and the receiving funnel. The said device provides the ability to change the angles of rotation of the route composed of rigid, for example steel pipelines, at any angle without stopping the process of transporting materials, especially when laying large flat hollow spaces in mines, for which it is possible to rotate the end section of the pipeline in continuous mode and provide the necessary completeness of the laying of the developed space The device will allow to increase the distance of transportation of the material on the highway with sharp turns.

Compressed bozduh

Claims (3)

1. DEVICE FOR PNEUMATIC TRANSPORT OF BULKFILLING MATERIALS, which includes sections of the pneumatic pipe and ejectors for introducing air, characterized in that, in order to increase the productivity and range of transportation of the filling material along the route with sections having steep angles of rotation, the sections of the pneumatic pipe are equipped with a discharge chamber with a connecting pipe, a cover and a tangentially located inlet of the filling material, a receiving ravo is installed with the possibility of rotation around its axis in the lower part of the chamber Single with an ejector connected to the outlet pipe, wherein the cap discharge chamber in the upper part is formed with a hole. 2. The device according to π. 1, characterized in that the receiving funnel is provided with a guide, which is rigidly connected with it and made in the form of a conoid, which is formed by moving the generatrix in a spiral of Archimedes, while the output of the conoid is installed coaxially with the outlet pipe. 3. The device according to π. 1, characterized in that, in order to reduce dust, the lid is equipped with a filter, and through an elastic element is connected to the discharge chamber. βοσα 1153