RO122503B1 - Electromagnetic pump with two chambers - Google Patents

Abstract

The invention relates to an electromagnetic pump with two low pressure chambers, in each of said chambers there being mounted a membrane which may supply a continuous flow rate of fluid. The claimed pump has a tubular body (1) wherein there is located an electric coil (2) wherein a core (3) glides, said core having some resilient membranes (4 and 4.1) fastened to their ends, said membranes operating in counter time in order to supply current to an electric coil (2), a membrane (4) discharges through a valve (8), while the other membrane (4) sucks through another valve (9. 1 upon switching off the current, under the influence of a spring (7), the first membrane (4) sucks through another valve (9), and the second membrane (4.1) discharges through another valve (8.1), the intake valves (9 and 9.1) and the discharging valves (8 and 8.1) are fastened in pairs on some covers (10 and 11) which, together with a central electromagnet, form a packet clamped by means of some dowel pins (12) and nuts (13).

Description

The invention relates to a low pressure pump, electromagnetically actuated, for fluid transport, consisting of two elastic discharge chambers, which operate in the counter stroke, thus generating a continuous flow.

Low pressure pumps with membrane or piston are known, mechanically or electromechanically driven, with a single discharge chamber, which generates a discontinuous, pulsating flow. The most popular are the classic petrol pumps, for cars, and air pumps, for aquariums.

The main disadvantages of these pumps are:

- the flow rates are reduced by half;

- the flow pulses are very high and depend on the frequency of the drive speed or the frequency of the electric power supply.

The pump according to the invention removes the above disadvantages by the fact that it consists of a central electromagnet, which can be supplied with variable frequency electric current, whose sliding core causes, through two elastic membranes, the flow of fluid to and from two chambers. of compression, which work in the contraction: while one aspirates, the other represses, then reversing the roles between them.

The pump according to the invention has the following advantages:

- the discharge flow is double;

- the pulses of the flow rate are not present;

- by adjusting the frequency of the electromagnet coil's supply current, the flow rate can be adjusted;

- the construction of the pump is very compact.

The following is an example of an embodiment of the invention, in connection with the figure representing a longitudinal section through the pump.

The pump is composed of a tubular cylindrical body 1, inside which is an electric coil 2 and a sliding core 3, the ends of which are fixed, each, with an elastic membrane 4; the membranes close two compression chambers, one formed by the fixed armature 5 and the suction cover 10, and the other chamber formed by the fixed armature 6 and the discharge cap 11.

On the sliding core 3 is a return spring 7.

Fluid filling of the two compression chambers is by means of valves 9 and the discharge is by valves 8.

The whole assembly is packaged with the help of prices 12 and 13.

When supplying the coil 2 with electric current, the sliding core 3 moves to the left, causing, in the same sense, the elastic membranes 4, forcing the left one to discharge a dose of fluid in the pipe b, through the valve 8, and on the right to suck a dose of fluid from the pipe a, through valve 9.1.

When the power supply of the coil 2 is interrupted, the spring 7 returns the core 3 to its initial position, causing the left membrane 4 to suck a dose of fluid from the pipe a, through the valve 9, and the membrane 4, to the right, to discharge a dose of fluid in pipe b, through valve 8.1.

The power supply is made with variable frequency, through an electronic device outside the pump and not shown, which causes the flow of the discharged liquid to depend directly on the oscillation frequency of the sliding core.

Claims (1)

Claim 1 Electromagnetic pump that has two chambers, composed of an electromagnet with 3 sliding core, on which are attached two elastic membranes, characterized in that inside a tubular body (1) there is an electric coil (2) and a sliding core ( 3), which, at 5 current supply, forces an elastic membrane (4) to discharge a dose of fluid and an elastic membrane (4.1) to aspirate a dose of fluid, and at the interruption of the current, under the influence 7 of an arc (7) ), the two membranes reverse the roles between them, thus generating a continuous flow, controlled on the discharge of some valves (8 and 8.1), and on the suction, of some 9 valves (9 and 9.1), mounted, a pair, in one suction cap (10), and another pair, in a discharge cap (11), the whole assembly being packed in the package with the help of brackets (12) 11 and nuts (13).