RU2124463C1 - Transportation system for transportation of liquid medium - Google Patents

Abstract

FIELD: pipe line transport for liquid media. SUBSTANCE: transportation system is provided with items for building up pressure head in liquid medium and for creating pulse action on this medium. These units are made in form of pumps installed in one and more rows over circumference on outer surface of pipe line in one or several sections of pipe line. Working cavities of pumps are connected with flow of liquid medium through radial holes available in pipe line walls. EFFECT: reduction of power expenses for transportation of liquid medium; increased rate of transportation. 4 cl, 6 dwg

Description

 The invention relates to the field of pipeline transport for transporting liquid materials.

 A known transport system for transporting a liquid-like medium, comprising a pipeline, a source of a liquid-like medium located at the beginning of the pipeline and means of alternating impulse action on the flow of a liquid-like medium to ensure its movement through the pipeline, is located on one or more sections of the pipeline.

 (US patent N 4171852, B 65 G 53/30, 1979).

 This transport system provides the movement of a liquid-like medium through the pipeline due to the directed impulse action on this medium and the creation of pressure in it due to this.

 The disadvantage of this transport system is its low productivity and significant energy costs for transporting liquid.

 The technical result to which the invention is directed is to increase the system performance and reduce energy costs for transporting a liquid-like medium.

 The specified technical result is achieved by the fact that in a transport system for transporting a liquid-like medium containing a pipeline, a source of a liquid-like medium located at the beginning of the pipeline and means of alternating impulse action on the liquid-like medium flow to ensure its movement through the pipeline, located on one or more sections of the pipeline, these means of pulse impact on the flow are made in the form of pumps installed in one or more rows around the circumference on the outer surface the pipeline, the working cavities of which are connected through radial holes in the walls of the pipeline with flows of a liquid-like medium, while the pump drives are made with eccentric mechanisms that ensure that all pumps work in the same phase, and the pipeline is equipped with a check valve.

 In addition, the pumps are made of a piston type with rods installed parallel to the walls of the pipeline, or of a piston type, mounted on the pipeline in a star-like pattern, or of a diaphragm type.

 The drawings show: in FIG. 1 - constructive implementation of one on the piston pumps means of pulse action on the flow of a liquid-like medium; in FIG. 2 is a diagram of the installation of piston pumps in a circle in two rows; in FIG. 3 - insert into the pump unit; in FIG. 4 is a diagram of the installation of pumps in a star-shaped pattern; in FIG. 5 is a diagram of a diaphragm type pump; in FIG. 6 is a diagram of a pump made in the form of a bellows.

 The transport system for transporting a liquid-like medium consists of a pipeline 1, on which pumps 2 are installed on one or several of its sections, whose working cavities 3 are connected through the radial holes 4 in the pipeline walls to a liquid-like medium 5. Piston pumps consist of separate cylinders 6, pistons 7 the rods 8 of which are connected with the eccentric mechanism 9 of the pump drive. Piston pumps can be installed in the pipeline in each section in two rows with a single eccentric drive 9, as shown in FIG. 2, t more rows. In FIG. Figures 1 and 2 show examples of the execution of the means of impulse action on the flow of a liquid-like medium with piston-type pumps, whose rods are parallel to the walls of the pipeline. In order to ensure transportation of a medium with a very low viscosity, for example, for insertion of air, an insert can be used, which is installed in the pipeline in the area where the pumps are located and which is shown in FIG. 3 drawings. An example of the execution of the means of pulsed action on the flow of a piston-type fluid-like medium made in a star-like pattern is shown in FIG. 4 drawings. In this case, the pump elements can be either a piston type or a bellows type 10. In FIG. 5 of the drawings shows an exemplary embodiment of a diaphragm type pump and a diaphragm 11, and in FIG. 6 of the drawings shows an example of a pump with a working element made in the form of a bellows 12. A non-return valve 13 is installed in the pipeline.

 The transport system works as follows.

 Using eccentric mechanisms 9 associated with the drive, pumps 2 are driven, which operate all in the same suction phase simultaneously in their working cavity from the pipeline 1, a liquid-like medium 5 through radial openings 4 in it. After completion of the suction cycle, the liquid-like medium is squeezed back into the pipeline. Thus, a pulse alternating effect on the flow of a liquid-like medium is carried out directly by the medium itself. As a result of this effect on the flow and the presence of a check valve 13, a liquid-like medium is constantly sucked into the pipeline from its source and the medium is pumped through the pipeline. That is, the tool works like a pump, creating a pressure in the pipeline. At the same time, as a result of alternating impulse action on the flow, the viscous resistance of the fluid-like medium sharply decreases with the simultaneous separation of the fluid flow along the periphery from the walls of the pipeline and a decrease in its friction against the walls of the pipeline. The impact on the flow of pumps is carried out simultaneously from all sides along the entire annular perimeter.

 Thus, the means of alternating impulse action on the flow of a liquid-like medium disclosed in the application materials, in addition to performing the functions of a pump, provide a decrease in the total resistance to movement of the flow of a liquid-like medium, as a result of which the overall energy costs of transporting a liquid-like medium are reduced and its transportation speed is increased.

 The performance of this transport system will be determined by the total volume of the working cavities of all pumps and the frequency of the pulse action on the flow of a liquid-like medium.

Claims (4)

 1. A transport system for transporting a liquid-like medium, comprising a pipeline, a source of a liquid-like medium located at the beginning of the pipeline and means of alternating impulse action on the liquid-like medium flow to ensure its movement through the pipeline, located on one or several sections of the pipeline, characterized in that the means of impulse action to the fluid-like medium flow are made in the form of pumps installed in one or more rows around the circumference on the outer surface of the pipeline and, working spaces are connected through radial openings in the wall of the pipeline with a stream of a liquid-like medium, the pump actuators adapted eccentric mechanisms to ensure the operation of all pumps in the same phase, and the conduit is provided with a check valve.  2. The system according to p. 1, characterized in that the pumps are made of a piston type with rods installed parallel to the walls of the pipeline.  3. The system according to p. 1, characterized in that the pumps are made of a piston type and are installed on the pipeline according to a star-shaped scheme.  4. The system according to claim 1, characterized in that the pumps are made of a diaphragm type.

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