RU49828U1 - WASHING DEVICE - Google Patents

Abstract

The utility model relates to household appliances, and, in particular, to equipment for washing textile materials, linen and other fabric products, using the influence of acoustic vibrations on a liquid medium. The washing device comprises a transducer connected by an electric cable to an ultrasonic oscillator, generating electric sinusoidal signals with a frequency of 1 to 100 kHz, modulated by a frequency of 10 to 500 Hz, while the formation of a modulated electric signal is carried out by a voltage in the range of more than 300 and less than 500 V The components of the emitter housing are made of non-metallic material, which can be used as a variety of thermoplastic or thermosetting plastics, for example, polyethylene or fiberglass and are two of its halves, equipped with elements of orientation between them and connected by adhesive bonding, for example based on epoxy resins. A piezoceramic element made in the form of a ring is used as a source of ultrasonic vibrations. At the same time, the piezoceramic element may take the form of a disk, plate, cylinder or sphere. The piezoceramic element is fixed inside the housing due to adhesive bonding based on sealant or epoxy resins. The technical result achieved is that due to the simplification of the design, the reliability of the tightness and operation of the device is increased, the complexity of its manufacture is reduced. Increasing the voltage in the range of more than 300 and less than 500 V allows you to increase the power of the device, improve quality and reduce washing time.

Description

The utility model relates to household appliances, and, in particular, to equipment for washing textile materials, linen and other fabric products, using the influence of acoustic vibrations on a liquid medium.

It is known "Laundry device" containing a housing made in the form of a cylindrical shell made of polymer material, and placed in it an ultrasonic piezoceramic emitter in the form of a flat ring connected to the power supply unit (Patent No. 8002 of 1997.12.26). The device comprises a bottom and a cover located at the ends of the cylindrical shell and pressed along the axis of the device through insulating spacers to a radiator having the shape of a flat ring, the cover being made in the form of a thin-walled disk of rigid elastic material.

The device has a laborious and non-technological design. In addition, in the description of the device is not disclosed electrical parameters that significantly affect the performance and quality of washing.

It is known "Ultrasonic washing device" (Application No. 2002105460M2 FROM 28.022002, publication date 03/20/2003). The device comprises an electric oscillation generator and an acoustic emitter, including a housing with piezoceramic elements placed on it in the form of bodies of revolution, the housing being a metal cylinder, on the ends of which metal sealing covers are rigidly fixed. Piezoceramic elements are rigidly fixed inside the housing by interference fit, and the dimensions of the body and piezoceramic elements are determined by the complex dependence of their diameters on the speed of sound in the piezoceramic material and in the body material.

The disadvantage of this device is a lot of elemental design. In addition, the metal case and covers are subject to potential corrosion in an aggressive environment at a temperature of about 50 - 70 ° C, which are washing solutions. In addition, the description of the device does not disclose electrical and acoustic parameters that significantly affect the performance and quality of washing.

It is known that in the process of washing using vibrational effects on the liquid, the separation of contaminants from the laundry occurs much more intensively than with conventional washing. This is due to the occurrence of the cavitation effect, which consists in

the formation of gas bubbles during the propagation of high-intensity ultrasonic waves and the collapse of the bubbles with the formation of spherical shock waves. Since the surface of contaminated linen fibers has nonlinear properties from the point of view of ultrasound propagation conditions, the effect of the vibration effect of the liquid medium on the washed fabrics is enhanced.

According to the authors of the invention "Method for washing textiles" optimal washing conditions are achieved when the intensity of ultrasonic vibrations is not less than 0.3 W / cm ² and at a frequency of 20 kHz (Patent No. 2116396 from 1997.09.24).

The inventors “Method of washing and / or cleaning and a device for its implementation” (Patent No. 02118673 of 09/10/97) believe that the washing method is advisable to carry out with an elastic vibration intensity of 0.3 - 3 W / cm ² sufficient for cavitation to form during ensuring safe operation, with a frequency of elastic vibrations ranging from 20 to 60 kHz.

Thus, as the intensity of elastic vibrations increases, the efficiency of the washing results increases, that is, its time is reduced and the quality of the washed materials increases.

The closest in technical essence to the claimed device is the "Method of washing clothes and a device for its implementation" (Patent No. 2111301 from 1997.07.10).

The device is made in the form of an emitter connected to a power source and contains a housing filled with a dielectric filler, piezoelectric elements mounted on metal plates, on the back of which acoustic resonators are placed. The power source is made in the form of a converter with the possibility of forming an electric modulated sinusoidal signal and is connected to piezoelectric elements. The electric sinusoidal signal is generated with a frequency from 1 to 100 kHz and a modulated signal with a frequency from 10 to 500 Hz with a voltage of up to 300 V. The energy of the emitter is converted into the movement of the washing liquid by exciting a sinusoidal acoustic wave with a non-planar front in the washing liquid.

The device contains a multi-element and non-technological design. However, the invention does not fully realize the potential for increasing the intensity of elastic vibrations that determine the effectiveness of washing clothes in terms of its quality and duration of washing.

The purpose of the utility model is to increase the reliability of the design of the device for washing clothes and improving the quality of washing.

This goal is achieved due to the fact that in the device for styri, containing a converter that generates electrical sinusoidal signals with a frequency of 1 to 100 kHz, modulated by a frequency of 10 to 500 Hz, and an emitter made in the form of a body of non-metallic material, inside which is fixed, at least one source of ultrasonic vibrations, characterized in that the housing is made of two components, and the formation of a modulated electrical signal is carried out by a voltage in the range of more than 300 and less than 50 0 V.

The components of the body are made in the form of two halves. The constituent parts of the housing may be made in the form of a housing and a cover, or of several parts.

To establish the relative position of the components of the housing, they are equipped with orientation elements.

Depending on the design of the device, its housing in plan can have a different configuration, for example, the shape of a circle or a rectangle with rounded sharp corners.

Regardless of the design of the device, the most rational ratio of the overall dimensions of the height B of the emitter body to its width A is determined by the limits (1 ÷ 10).

The components of the housing can be made of various plastics using a thermoplastic material, such as polyethylene or thermosetting material, such as fiberglass.

Between themselves, the components are connected due to adhesive bonding, for example based on epoxy resins.

A piezoceramic element in the form of a ring is used as a source of ultrasonic vibrations.

However, the piezoceramic element may be in the form of a disk, plate, cylinder or sphere.

The piezoceramic element is fixed inside the housing due to adhesive bonding based on sealant or epoxy resins.

The essence of the utility model is illustrated by drawings, which depict:

- figure 1. Block diagram of a device for washing;

- figure 2. Emitter.

The washing device comprises a converter 1 connected by an electric cable 2 to an ultrasonic oscillator 3, generating electric sinusoidal signals with a frequency of 1 to 100 kHz, modulated by a frequency of 10 to 500 Hz, while the formation of a modulated electric signal is carried out by a voltage in the range of more than 300 and less than 500 V. Optimum voltage

is about 400 V. Compared with the prototype, increasing the voltage allows to increase the power of the device and, accordingly, the quality of the wash.

The components of the emitter housing are made of non-metallic material, which can be used in various thermoplastic or thermosetting plastics, such as polyethylene or fiberglass.

The housing of the emitter 1 consists of two components, which are its two halves 4 and 5, equipped with orientation elements between them in the form of, for example, two landing diameters 6 and 7 and an abutment 8. In addition, the housing components can be made in the form of a housing and covers or from several components (not shown). The interconnection of the body parts is carried out by means of an adhesive joint 9, for example, based on epoxy resins.

The housing configuration in plan has the shape of a circle or the shape of a rectangle (not shown) with rounded sharp corners, while the most rational ratio of the overall dimensions of the housing height B to its width A is in the range (1 ÷ 10).

A piezoceramic element 10 made in the form of a ring or in the form of a disk, plate, cylinder or sphere (not shown) was used as a source of ultrasonic vibrations. The piezoceramic element 10 is fixed inside the housing due to adhesive bonding based on sealant or epoxy resins 11. If necessary, more than one piezoceramic element can be installed.

A device for washing works as follows.

Pour water with a temperature of no higher than 65 ° C into a washing container (not shown), add washing powder, stir until a washing solution is formed. The emitter 3 is lowered to the bottom of the tank and the laundry items are immersed in the washing solution, and they must float freely. Turn on the device by connecting to the electrical network of the Converter 1 and wash. The washing process occurs due to the occurrence of elastic waves under the influence of ultrasonic vibrations formed by the piezoceramic element 10, forming micro movements of the fabric and the solution.

At the end of the wash, the transducer 1 is disconnected from the power supply, the emitter 3 is removed from the washing solution, washed and wiped dry.

The technical result achieved is that due to the simplification of the design, the reliability of the tightness and operation of the device is increased, the complexity of its manufacture is reduced. Increasing the voltage in the range of more than 300 and less than 500 V can increase the power of the device, improve quality and reduce washing time.

Claims (14)

1. A washing device comprising a converter that generates electrical sinusoidal signals with a frequency of 1 to 100 kHz, modulated with a frequency of 10 to 500 Hz, and an emitter made in the form of a body of non-metallic material, characterized in that the body is made of two components, in this case, one source of ultrasonic vibrations is fixed inside the housing, and the formation of a modulated electrical signal is carried out with a voltage in the range of more than 300 and less than 500 V. 2. The device according to claim 1, characterized in that the components of the housing are equipped with orientation elements between them. 3. The device according to claim 1, characterized in that the casing in plan has the shape of a circle or rectangle with rounded sharp corners. 4. The device according to claim 2, characterized in that the ratio of the overall dimensions of the height B of the emitter body to its width A is within 1 ÷ 10. 5. The device according to claim 1, characterized in that the components of the housing are made of thermoplastic material, such as polyethylene. 6. The device according to claim 1, characterized in that the components of the housing are made of thermosetting material, such as fiberglass. 7. The device according to claim 1, characterized in that the components are interconnected due to adhesive bonding, for example based on epoxy resins. 8. The device according to claim 1, characterized in that a piezoelectric element is used as a source of ultrasonic vibrations. 9. The device according to claim 1, characterized in that the piezoceramic element is made in the form of a ring. 10. The device according to claim 1, characterized in that the piezoceramic element is made in the form of a disk. 11. The device according to claim 1, characterized in that the piezoceramic element is made in the form of a plate. 12. The device according to claim 1, characterized in that the piezoceramic element is made in the form of a cylinder. 13. The device according to claim 1, characterized in that the piezoceramic element is made in the form of a sphere. 14. The device according to claim 1, characterized in that the fastening of the piezoceramic element placed inside the housing is carried out by means of an adhesive joint based on sealant or epoxy resins.