RU91711U1 - AIR TRANSPORT INSTALLATION - Google Patents

Abstract

1. A pneumatic conveying installation comprising an air injection machine connected through an air supply device to a main transport pipe equipped with a device for loading bulk materials and a discharge device, characterized in that the air supply and discharge device is made in the form of respective collectors, and the discharge collector contains at least , two nozzles connected to the bypass transport pipelines, in addition, the installation is additionally equipped with external located ogatelnymi ducts in the number of branch transfer lines, one end of each of the auxiliary duct connected to a corresponding air supply pipe collector, and the other - tightly wound up through a corresponding nozzle wall inwardly bleed manifold. ! 2. Pneumatic conveying installation according to claim 1, characterized in that the diameter of each of the bypass transport pipelines is equal to the diameter of the main transport pipeline.

Description

The invention relates to pneumatic transportation of bulk materials through a pipeline in a fluid stream, in particular, to pneumatic sowing systems of sowing machines and can be used in agricultural and other industries.

Known designs of pneumatic conveying systems include, as a rule, an air-injection machine for supplying a conveying medium to a transport pipeline connected to a loading hopper, and a discharge device. (Razumova I.M. Pneumatic and hydraulic transport in the chemical industry. - M.: Chemistry, 1979, 248 p.)

A disadvantage of the known designs of pneumatic conveying installations is the formation of stagnant zones and traffic jams of the transported material in the transport pipeline, which leads to failure of the entire transport system and the need to clean it of traffic jams.

Also known is an aerodynamic conveyor for bulk materials (patent RU No. 2283268, IPC B65G 53/20) containing a fan (air blower), an air supply pipe, a transport pipe connected to a loading device, and a discharge device with two discharge channels.

The disadvantage of such devices for pneumatic transportation of bulk materials is that if it is necessary to separate the air flow generated in the transport pipeline into several air streams (according to the number of outlet channels) for further transportation through these channels (outlet pipes) of bulk materials, it is necessary to reduce the diameter branch channels in order to maintain a sufficient speed of transportation. However, the narrowing of the orifice of the outlet channels increases the likelihood of stagnant zones and plugs of the transported material and, as a result, decreases the productivity and reliability of the pipeline network.

The objective of the invention is to increase the reliability and performance of the pneumatic conveying system.

The problem is solved due to the fact that in a pneumatic conveying installation containing an air injection machine connected through an air supply device to a main transport pipe equipped with a device for loading bulk materials and a discharge device, according to the invention, the air supply and discharge device are made in the form of respective collectors, and the outlet the collector contains at least two nozzles connected to the bypass transport pipelines, in addition, the installation of additional it is equipped with auxiliary ducts located outside on the number of transport pipelines, one end of the auxiliary ducts is connected to the corresponding pipe of the air supply manifold, and the other is sealed into the exhaust manifold through the wall of the corresponding pipe.

The diameter of each of the branch transport pipelines is equal to the diameter of the main transport pipeline.

The invention is illustrated in the drawing, which shows a diagram of a pneumatic transport installation.

The pneumatic conveying installation comprises a pneumatic injection machine 1 connected through an air supply manifold 2 to one end of the transport pipeline 3 and external auxiliary ducts 4. The other end of the main transport pipeline 3 is connected to the outlet manifold 5, the nozzles of which connect the main transport pipeline 3 to the outlet transport pipelines 6.

Inside the outlet manifold 5, the second end of the corresponding auxiliary duct 4. is sealed through the wall of the corresponding nozzle 4. The main transport pipe 3 is equipped with a device for loading bulk materials containing a receiver 7, a dispenser 8 and a hopper 9.

Pneumatic transport installation works as follows.

The air flow generated by the air injection machine (fan) 1 through the air supply manifold 2 enters the main transport pipe 3 and auxiliary ducts 4. From the hopper 9 through the dispenser 8 into the main transport pipe 3 through the receiver 7 bulk material is fed, which is picked up by the air stream and carried away to the outlet collector 5, and from it to the discharge transport pipelines 6. To stabilize the speed of the transported material and eliminate the likelihood of stagnant zones and traffic jams in the discharge transport pipelines 6, through the outlet ends of the auxiliary ducts 4 located in the branch pipes of the exhaust manifold 5, an additional volume of air is supplied to the pipeline network. Due to this, it is possible to avoid the formation of traffic jams of the transported material, to stabilize the speed of transportation of bulk materials, to increase the productivity and reliability of the pipeline network.

Tests of a prototype pneumatic conveying system, conducted at the Federal State Institution “Siberian State Zone Machine Testing Station”, confirmed the reality of achieving the above positive effect.

Claims (2)

1. A pneumatic conveying installation comprising an air injection machine connected through an air supply device to a main transport pipe equipped with a device for loading bulk materials and a discharge device, characterized in that the air supply and discharge device is made in the form of respective collectors, the discharge collector comprising at least , two nozzles connected to the bypass transport pipelines, in addition, the installation is additionally equipped with external located ogatelnymi ducts in the number of branch transfer lines, one end of each of the auxiliary duct connected to a corresponding air supply pipe collector, and the other - tightly wound up through a corresponding nozzle wall inwardly bleed manifold. 2. Pneumotransport installation according to claim 1, characterized in that the diameter of each of the bypass transport pipelines is equal to the diameter of the main transport pipeline.