UA96927U - ELECTROMAGNETIC DOSAGE PUMP - Google Patents

Abstract

Electromagnetic pump dispenser containing a flexible membrane sandwiched between the electromagnetic actuator and the limiter, and in order to improve the accuracy of dosing microquantities of the fluid, simplify the structure, the membrane is made in the form of an elastic cylindrical tube, and hydraulic resistance to the lithium.

Description

The useful model belongs to analytical instrumentation, in particular to the design of electromagnetic dosing pumps, as well as to dosing devices intended for dosing microquantities of liquid solutions in automatic substance composition analyzers, in the chemical and other industries.

Dosing pumps are known, in which a membrane or a bellows is used as a squeezer

IAbilov A.G., Lyutfaliev K.A. Automatic microdispensers for liquids. M.: Znergia, 1975, pp. 12-17).

The disadvantage of these devices is the relatively small accuracy of dosing and the complexity of the design.

Known construction |IMembrane supercharger. Dumpe G.Z., Rekant A.3. MKY RO4B 43/04, GO4B 45/04. A.S. Mo 675202. Claimed. 11.02.69. (Mo 1303518/25-06). Publ. 07/25/79. Bul. Mo 271, which contains a case, a limiter, a flexible membrane clamped between them, an induction coil of the membrane drive installed in the case.

The disadvantage of this device is the relatively low dosing accuracy and the complexity of the design.

The specified design is closest to what is claimed and selected as a prototype.

The useful model is based on the tasks of increasing dosing accuracy, simplifying the design of the dosing pump for dosing and continuous pumping of microquantities of liquid solutions in automatic substance composition analyzers at a fixed speed by making the membrane in the form of an elastic cylindrical tube, and the hydraulic resistance in the injection line is greater than in the line absorption.

The electromagnetic dosing pump contains a flexible membrane clamped between the electromagnetic drive and the limiter.

The electromagnetic dosing pump is distinguished by the fact that, in order to increase the accuracy of dosing of microquantities of liquid, to simplify the design, the membrane is made in the form of an elastic cylindrical tube, and the hydraulic resistance in the discharge line is greater than in the suction line.

The indicated signs are necessary and sufficient to achieve the technical result.

The technical result is an increase in dosing accuracy and a simplification of the design.

A useful model is explained by a drawing where:

Zo - in fig. 1 shows the initial position of the electromagnetic dosing pump; - in fig. 2 shows the position of fluid movement inside the pump; - in fig. C shows the position of fluid movement along the line of the outlet pipeline.

The electromagnetic dosing pump contains: 1 - limiter; 2 - output hydraulic resistance; C - inlet pipeline; 4 - output pipeline; 5 - an electromagnetic drive consisting of a flexible membrane and inductors.

The operating cycle of the electromagnetic metering pump consists of a period of alternating current flowing through the coil and a period of its disconnection.

Cycle 1 (Fig. 1). In the initial position, the electromagnetic dosing pump does not pump microquantities of liquid solutions.

Cycle 2 (Fig. 2). During the transmission of electrical vibrations, an alternating current flows in the coils of the metering pump, which creates an alternating magnetic field. This magnetic field changes the magnetic flux that flows through the turns of the coil wound on the magnet wire. When the magnetic field changes, the magnetic resistance of the system changes, which acts on the flexible membrane of the dosing pump and forces it to oscillate.

A limiter made of ferromagnetic material presses the elastic tube against the flexible membrane.

The liquid moves inside the electromagnetic metering pump from the side of the inlet and outlet pipelines.

Cycle C (Fig. 3). The flexible membrane returns to its original position and covers the elastic tube. Hydraulic resistance is installed on the output pipeline line, which is greater than on the input pipeline line. The liquid is pumped along the line of the output pipeline.

The limiter adjusts the gap, which is proportionally related to the required consumption of the electromagnetic dosing pump.

An example of a specific application.

In the specific case, we use the designs (a - single-channel, b - three-channel) of the electromagnetic dosing pump, which are shown in Fig. 4: 1 - adjusting screw; 2 - flexible tube (silicone); C - nozzle; 4 - union nut; 5 - membrane made of ferromagnetic material; b - inductance coils with a winding of a thin wire installed on a magnet wire; 7 - a permanent magnet, which together with the pole tips creates a magnetic system; 8 - pole tip of the magnetic circuit.

The presented designs made it possible to increase the dosing accuracy by 1.5 95 and to simplify the design of the dosing pumps compared to the prototype. At the same time, the supply voltage for the proposed electromagnetic dosing pump is 0-5 V, the pump flow rate is 0.1 - 10 μl/s.

For the prototype, the supply voltage is O-220 V, the consumption is 10 - 500 ml/h.

Claims (1)

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