SU1055899A1 - Electromagnetically driven diaphragm pump - Google Patents

Abstract

1. DIAPHRAGM PUMP WITH ELECTROMAGNETIC DRIVE, comprising a case in which an annular electromagnet is installed and an elastic tubular working organ reinforced with electrically conductive elements interposed inside it to form two working chambers, which, in order to increase efficiency and reliability, reinforce electrically conductive elements The working bodies are made in the form of a flexible conductive spiral of variable pitch, the plane of the turns of which is perpendicular to the axis; tubular working body, and the spiral on the ends is supplied with plugs for connection of power supply. 2. A pump according to claim 1, in accordance with the fact that the spiral is made with a decrease in the step of winding in its central part. (L ate 00 CO

Description

The invention relates to pump engineering, diaphragm pumps are electromagnetically driven, and can be used in various sectors of the national economy for pumping various fluids. Known diaphragm pumps of electromagnetic heat, containing a body with electromagnets and an elastic tubular diaphragm, reinforced by magnetic elements in the form of ferromagnetic powder fl. The disadvantage of the pumps is relatively low durability due to the fact that the material of the diaphragm during deformations is incised by sharp ferromagnetic particles. In addition, the presence of interlayers of elastic material between ferromagnetic particles leads to a decrease in the intensity of the magnetic field and a decrease in the efficiency of the pump. Closest to the invention to the technical essence is a diaphragm pump with electromagnetism.1M drive, comprising a housing in which a ring electromagnet is installed and placed inside. With the formation of two working chambers, an elastic pipe with a working body reinforced with electrically conductive elements 2. The disadvantage of the known pump is that the electrically conductive elements are made in the form of split transverse rings, which, firstly, limit the deformation of the diaphragm, and secondly, are not interconnected into a single electrical system and work individually as an open element, in which an emf is induced. The operation of the pump is due to the interaction of the induced current in each ring and the magnetic field of the electromagnet. This interaction is very small, which causes an insufficiently high pump efficiency. In addition, with increasing degree of deformation of the working body, in order to increase the efficiency of the pump, povigennye stresses appear in the rings, and the radial deformation, uniform along the length of the working sphgan, leads to overvoltage of its annular segments. All this reduces the reliability of the pump. The aim of the invention is to increase the efficiency and reliability of the coca. This goal is achieved by the fact that in a diaphragm pump with an electromagnet drive, comprising a housing in which a ring electromagnet is installed and placed inside it with o & i. the development of two working chambers elastic. A tubular working body reinforced with electrically conductive elements, reinforcing electrically conducting elements of the working body are made in the form of a flexible conductive spiral of variable pitch, the plane of turns of which is perpendicular to the axis of the tubular working body, with the helix at the ends provided with terminals for connecting the power supply. In addition, the spiral can be performed with a decrease in the step of winding in its central part. FIG. 1 shows a pump, a cut; in fig. 2 - pump diaphragm; in FIG. 3, section A-A in FIG. 2. The diaphragm pump contains a case in which an annular electromagnet 2 is installed and placed inside it with the formation of two working chambers 3 and 4 an elastic tubular working body 5 reinforced by electrically conductive elements made in the form of a flexible current-carrying helix 6 of variable pitch, the plane of the swarm is perpendicular to the axis of the tubular working body 5 ,. the coil 6 at the ends is provided with terminals 7 and 8 for connecting the power supply (not shown). The spiral b can be executed with a decrease in the step of winding in its central part. The inner chamber 3 is equipped with suction and discharge nozzles 9 and 10, respectively. The suction and discharge valves 11 and 12 are installed in these nozzles, respectively. The outer chamber 4 is also equipped with suction and discharge nozzles 13 and 14, respectively, in which the suction and discharge valves 1 15 and 16 are installed. When the electromagnet 2 is connected to the power supply, a magnetic the field in which the working body 5 is located. After that, the coil b is connected to the power supply and the phases alternately alternate, as a result of which the current flowing through the Spiral 6 interacts with the magnetic field an electromagnet 2, and helix B are changed periodically guides nagravlenie kondemotornye its strength. These forces compress or expand the helix 6 and, together with it, the tubular working body 5.

In the process of periodically compressing the expansion of the working body 5, a decrease in the volume of chambers 3 and 4 occurs periodically in anti-phase. At the same time, the pumped medium enters them through the suction valves 11 and 15 and is forced out to the consumer through the discharge valves 12 and 16. with a decrease in the winding pitch in its central part, then the central part of the working & 5 body, in which the density of the turns of the helix is correspondingly higher, will act more than at the edges,

specific power. This will provide the most optimal spindle-shaped deformation of the working body.

Men the amount of current flowing

spiral 6, you can adjust the pump head.

Thus, due to the use of an elastic tubular working body 5, reinforced with a conductive spiral 6 of variable pitch, achieves the best organization of the deformation process of the working body 5, improves the efficiency and reliability of the pump.

FIG. 2

FIG.

Claims (2)

1. ELECTROMAGNETIC DIAGRAM PUMP, housing containing an annular electromagnet and an elastic tubular working body reinforced with electrically conductive elements placed inside it to form two working chambers, characterized in that, in order to increase efficiency and reliability, reinforcing electrically conductive elements the working bodies are made in the form of a flexible conductive spiral of variable pitch, the plane of the turns of which is perpendicular to the axis. a tubular working body, the spiral at the ends provided with terminals' for connecting the power supply. · 2. The pump according to π. 1, it is distinguished by the fact that the spiral is made with a decrease in the winding pitch in its central part. Figure 1 (L with ate sl 00 s ςφ 1 1055899