SU1601248A1 - Washing machine - Google Patents

Abstract

The invention relates to household small-sized washing machines, in which the mixing of the washing solution is carried out due to the wave deformation of the elastic bottom of the working capacity, and makes it possible to increase the intensity of washing due to more efficient use of magnetic flux. The non-magnetic base of the washing machine is made with an annular groove, which with its bottom part faces the elastic bottom. The pallet is filled with magnetic fluid, and a running magnetic field generator is placed in its annular groove, which makes it possible to more fully utilize its energy by increasing the surface of the generator circumference with magnetic fluid. The magnetic field of the generator changes the relief of the layer of magnetic fluid in the pan, forming bulges on it. Under the weight of the cleaning solution, the elastic bottom bends and reproduces the relief of a layer of magnetic fluid. The rotating magnetic field generates magnetic fluids running around the convexity, reproducible by an elastic bottom, the wave deformations of which create internal pressure waves in the washing solution, ensuring its mixing and washing under especially gentle conditions for the washing objects. The elastic bottom can be made with a bend in the zone above the ring groove, whereby the amplitude of oscillations of the working section of the elastic bottom is twice the height of the bend while reducing the energy loss to stretch the material, which increases the fraction of the energy transferred to the washing solution, and thereby intensifies washing. . 1 hp f-ly, 2 ill.

Description

The invention relates to washing equipment and can be used in small-sized washing machines. general purpose with a gentle washing mode.

The purpose of the invention is to increase the intensity of washing due to more efficient use of magnetic flux.

Fig. 1 schematically shows the proposed washing machine; in fig. 2 - the same, with modified elastic bottom and magnetic field generator.

The washing machine contains a working tank 1 for washing solution with an elastic bottom 2, a non-magnetic tray 3 having an annular groove 4 and filled with a magnetic fluid 5. The groove 4 contains a running magnetic field generator including permanent magnets 6 mounted on a rotary disk 7. Washing The machine with a running magnetic field generator in the form of an unrolled sectional stator 8 (Fig. 2) does not contain rotating parts.

The washing machine works as follows.

Under the influence of the field of permanent magnets, magnetic liquid 5 in the base 3

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is drawn to them and the field is located along the lines of force. Due to this, the magnetic fluid in the pallet changes the shape of its surface, forming a bulge in places of the greatest magnetic field strength, i.e. in the area of location of the magnets 6, and one common cavity where the magnetic field is absent. At the same time, in a bump eon, magnetic fluid changes its rheological properties and apparent density. Therefore, the protuberances acquire a certain elasticity and maintain the weight of the washing solution. When filling the container 1 with the washing solution, the elastic bottom bends, repeating the profile of the surface of the magnetic fluid in the pan. By arranging the magnets in the annular groove 4 and thereby bringing them closer to the elastic bottom, the dispersion of the magnetic flux is significantly reduced. It almost completely closes in the layer of magnetic fluid, and the deformation of the elastic bottom is more pronounced.

After the electric drive is turned on, the magnets rotating on the disk 7 create a traveling magnetic field that generates circular ribs that change the relief of the magnetic fluid layer, reproducible by the elastic bottom 2. The energy of the bottom oscillation is transmitted to the washing solution in the form of internal waves, which vary in direction but with prevalence vertical. These waves contribute to the mixing of the contents of the container 1 and, acting on the objects of washing, contribute to a more effective separation of the contaminating particles from them.

The heat generated by internal friction between the layers of magnetic fluid is absorbed by the cleaning solution, which increases the efficiency of the installation.

The elastic bottom of the washing machine shown in FIG. 2 is made with a bend in the area above the annular groove of the pallet. Such a design of the elastic bottom makes it possible to double the amplitude of oscillations of its working section, reduce the tensile losses of the material and, accordingly, increase the vertical component of the useful effort spent on the formation of internal waves in the mixed medium.

Before filling the pallet with magnetic fluid, air is pumped out of the submembrane volume. Under the influence of atmospheric pressure, the annular bend of the elastic bottom receives a deflection into the inside of the pallet, forming a depression on the outer side of the bottom.

Next, the submembrane volume is completely filled with magnetic fluid. In this case, an indissoluble contact of the elastic bottom with the surface of the magnetic fluid is formed, which is not disturbed in the course of further work. This contributes to the external pressure on him.

The execution of the working section of the elastic bottom with a bend and the possibility of its symmetric deformation relative to

the median bottom plane has a positive effect on the operation of the washing machine. At the time of formation of the convexity of the magnetic fluid, the local concave portion of the elastic bottom overcomes the weight of the column.

washing solution over it and, having passed through a neutral position, undergoes a symmetric deformation, the total amplitude of which is twice the original height of the bottom bend. This circumstance makes it possible to intensify the mixing of the washing solution and to increase the internal wave formation energy transferred to it as a result of a decrease in energy losses due to the vertical deformation of the working section of the elastic bottom due to a sharp decrease in tensile stresses in the bottom material.

Claims (2)

1. A washing machine containing a working tank with an elastic bottom and means for its oscillation, including a running magnetic field generator and a magnetic fluid interacting with it; located in the pallet under the elastic bottom, characterized in that, in order to increase the washing intensity due to more efficient use of the magnetic flux, an annular groove is made in the pallet that faces from the bottom to the elastic bottom, while the magnetic field generator is located in the groove. 2. The machine according to claim 1, characterized in that the elastic bottom of the working capacity in the area above the annular groove has a bend. Priority item: 26.01.89 in c. 2 j. Fy FIG.