RU2154129C1 - Washing machine - Google Patents

Abstract

FIELD: washing of articles without any use of detergents and wringers. SUBSTANCE: washing machine has a housing with a horizontal partition, ultrasonic vibrator, means for creation of vacuum and a system of solenoid-operated valves for feed and discharge of water and air. The effect of washing and wringing is attained due to the use of ultrasonic vibration within 46 to 200 kHz and rarefaction within 0.29 to 0.49 MPa. EFFECT: enhanced quality of washing. 1 dwg

Description

 The invention relates to household appliances, in particular to devices for washing products from any fabrics without the use of detergents. It can find application in industrial laundries, as well as at home.

 A washing machine is known, comprising a housing with a sealed cover, a chamber located inside the housing with a horizontal perforated partition to accommodate the material, a vibratory actuator connected to the chamber, and means for creating a vacuum connected through a valve to the upper part of the chamber (SU 153717 A1, 06/18/1963) .

 However, in this washing machine, a washing solution is used to wash the material, which requires rinsing of the product.

 The technical result achieved by the implementation of this invention is the ability to wash any fabrics, including the most delicate, without the use of detergents, in water at any temperature, while the washed items are wrung out and dried. The specified technical result is achieved in that the washing machine, comprising a housing with a sealed cover, a chamber with a horizontal partition located inside the housing, means for creating a vacuum connected through a valve to the upper part of the chamber, and a vibration actuator, according to the invention, comprises electrically operated water supply and discharge valves, air supply, and the vibrator is made in the form of an ultrasonic emitter, while the vacuum created by the means for creating a vacuum is 0.29-0.49 MPa, and the oscillation frequency given by an ultrasonic emitter is 46-200 kHz.

 Dissolved gases are always present in water at ordinary atmospheric pressure, which are released, for example, on the walls and at the bottom of the chamber, therefore water is an inhomogeneous medium for ultrasonic waves and the ultrasonic waves will decay. The use of rarefaction (0.29-0.49 MPa) can significantly reduce the amount of dissolved gases. The medium for the propagation of ultrasonic waves becomes almost uniform. The attenuation of ultrasonic waves is negligible and they effectively affect the washable product.

 With the passage of ultrasound (in the frequency range 46-2000 kHz) in the microbubbles are formed and almost instantly burst. The emergence and destruction of microbubbles occurs in the entire volume of liquid, including in the area where the product to be washed is located. This helps to knock out contaminants from the fibers of the fabric of the product that is washed.

 The invention is illustrated in the drawing, which schematically shows a washing machine consisting of a housing 1 with a sealed cover 2, a seal 3 and a latch 4. In the housing 1 there is a chamber 5 having a horizontal partition 6. The system of shut-off solenoid valves 7-10 controls the movement of air and water. Through the inlet solenoid valve 7 connected to the chamber 5, air enters the latter. The electrovalve 8 is connected to the chamber 5, serves to supply water. Water is discharged through the exhaust solenoid valve 10 and the dirty water purification filter 12. The vibrator 13 is made in the form of an ultrasonic emitter.

 The washing machine operates as follows.

 The level of filling of the chamber 5 with water is 0.45-0.52 of the height of its inner cavity. In the cavity of the chamber 5, a liquid level sensor (not shown) is installed with the possibility of interaction with the liquid. The product to be washed is loaded into the chamber 5 and laid on a horizontal partition 6. The chamber 5 is hermetically closed by a cover 2. The air electrovalve 7 and the electrovalve 9 of the water supply are opened. When water reaches a certain level, the liquid level sensor in the chamber 5 is activated and the electrovalves 7 and 9 are closed. The vacuum pump 11 is turned on, while the electrovalve 8 is closed and the vacuum pump 11 is turned off. The timer (not shown) includes an ultrasonic vibrator 13, which reproduces ultrasonic frequencies in the range of 46-200 kHz. Moreover, these frequencies apply to the entire thickness of the water with the product being washed. After a predetermined time (5-10 minutes), the shut-off electrovalve 10 for water discharge opens and then the air electrovalve 7. The pressure of the air entering through the air electrovalve 7 is such that intensive discharge of water from the chamber 5 through the filter 12 and the electrovalve 10 occurs. this forced air dehydrates the washable product, which becomes almost dry. This completes the washing process.

 This washing machine allows you to effectively wash not only thin products that are undesirable to wash in a conventional washing machine (for example, lace products, tulle, etc.), but also products from thick, heavy fabrics (for example, work clothes, etc.) . It was experimentally determined that it is a combination of ultrasonic vibrations in the frequency range 46-220 kHz and vacuum in the range 0.29-0.49 MPa that allows not only to wash any items well, but also to dry the washed items. An additional effect was revealed: washed items do not require ironing.

Claims (1)

 A washing machine comprising a housing with a sealed cover, a chamber with a horizontal partition located inside the housing, a means for creating a vacuum connected through a valve to the upper part of the chamber, and a vibration actuator, characterized in that it includes electrically operated valves for supplying and venting water, air supply, and a vibrating actuator made in the form of an ultrasonic emitter, while the vacuum created by the means for creating a vacuum is 0.29 - 0.49 MPa, and the oscillation frequency generated by the ultrasonic emitter is 46 - 2 00 kHz.