RU2118417C1 - Washing device - Google Patents

Abstract

FIELD: washing appliances. SUBSTANCE: device has layer of sealant with appliance located on it for intensification of propagation of elastic vibrations in detergent. EFFECT: enhanced efficiency of washing. 9 cl, 4 dwg

Description

 The invention relates to light industry and can be used in washing devices of vibration type.

 A washing device is known comprising a housing and a vibrating element with a power source located in the housing in such a way that the abscissa of its vibrations is parallel to the plane of the housing end (see DE, patent, 908801, class D 06 F 7/04, 1954).

 A disadvantage of the known device is the design complexity and low washing efficiency.

 It is known a washing device comprising a housing and a vibrating element with a power source, at least one of the ends of the housing is open, the vibrating element is placed in the holder, which is an elastic sealant filling the space between the element and the housing (see RF patent N 2047676, cl. D 06 F 7/04, publ. 11/10/95).

 The device provides for the operation of the vibrating element at the vibration frequencies of the sound range, in particular at the frequency (50 Hz) of the industrial network, with the formation of active microbubbles in the reservoir, acting on the treated textile surface by impact force, knocking out and destroying polluting particles.

 However, when used for cleaning low frequencies of the sound range, the washing, cleaning, and disinfection efficiency decreases due to the formation of large pulsating bubbles in the liquid, which do not create powerful pressure pulses characteristic of cavitation bubbles that arise in the ultrasonic frequency range.

 The large radius of cavitation bubbles and the long time of their existence explain the inefficiency of cleaning when using low-frequency cavitation.

 In connection with this drawback of the device is the low efficiency and inconvenience of operation due to the need for periodic manual shaking of the laundry with tongs or hands in rubber gloves (to ensure safety) in order to reduce the effect of the screening of the development of large pulsating bubbles by the laundry.

 In addition, the design of the device provides for its operation when placed at the bottom of the tank with the radiation direction in one vertical direction, which significantly reduces the productivity and washing efficiency. Placing a device with double-sided vertical radiation in the layers of the laundry does not increase the washing efficiency due to the high probability of the linen screening the cavitation effect (especially from the bottom side), since under the influence of the weight of the device and due to random shaking, the possibility of tightly fitting the surface of the sealant is not excluded linen, which prevents the development of cavitation processes. This disadvantage also reduces the effectiveness of stain removal due to the need to place the surface being cleaned in the maximum proximity to the emitter.

 Cleaning at ultrasonic frequencies is more effective, since the dominant factor in this case is cavitation (cavitation bubbles with a diameter of 0.01 to 1.0 mm), which create intense shock waves, and acoustic flows - stationary vortex flows generated in the sonicated fluid , microflows that form near the surface being cleaned by oscillating bubbles, the most important of which are the flows in the layer adjacent to the surface being cleaned and near it.

 The use of a known device for operating at ultrasonic frequencies, the use of which in many cases is more effective and appropriate (for bleaching, disinfection, stain removal, etc.) also leads to screening of the development of cavitation processes with linen at the device-liquid interface and is ineffective due to poor conditions for the development of hydrodynamic flows at the boundary between the device and the liquid and in the volume of the liquid, the role of which increases with increasing frequency of elastic vibrations. The operation of the device with the direction of radiation in the same plane reduces the effectiveness of washing, disinfection.

 Thus, the known device with low efficiency of washing, cleaning, disinfection is inconvenient in operation and provides limited technological modes of washing, which reduces its scope.

 The invention solves the problem of increasing the speed and efficiency of washing, ease of use of the device, expanding the technological capabilities of the device by providing a two-sided laundry washing mode by increasing the number of degrees of freedom of the device in the tank. The device allows you to make changes in the position and orientation of the radiating surface relative to the laundry and to wash with the direction of propagation of elastic vibrations in mutually perpendicular or inclined planes in a wide range of frequencies of elastic vibrations while improving conditions for acoustic flows and hydrodynamic processes at the boundaries of the device - liquid - fabric having a large importance in the purification of soluble contaminants.

 The specified technical result is achieved by the fact that the known washing device, comprising a holder located inside the sealant layer with a vibrating element for generating elastic vibrations in the washing liquid associated with the power source, has a means for enhancing the spread of elastic, connected with the sealant layer and located on its outer surface oscillations in the washing fluid, while the outer surface of the sealant layer is made in the form of the surface of bodies of revolution or parallelepiped with convex faces and / Whether rounded edges.

 Advantageously, the means for enhancing the propagation of elastic vibrations in the washing liquid is performed in the form of cantilever elements protruding above the outer surface of the sealant layer.

 It is preferable to implement a device with means for adjusting the degree of immersion of the vibrating element in the washing liquid. Advantageously, the means for adjusting the degree of immersion of the vibrating element in the washing liquid is made in the form of a float element. It is advisable to make the float element removable.

 Preferably, the surface of the body of rotation of the sealant layer is a spherical surface, or elliptical, or disk-shaped.

 It is advisable that the cantilever elements are made of sealant material. Preferably, the holder is made in one piece with the cantilever elements. Preferably, the vibrating element is made of a piezoceramic plate and / or a multilayer piezoelectric transducer.

 The analysis of the prior art, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allows us to establish that the applicant has not found technical solutions characterized by features identical to all the essential features of the claimed invention. The definition from the list of identified analogues of the prototype made it possible to identify a set of essential (in relation to the technical result perceived by the applicant) distinctive features in the claimed object set forth in the claims.

 Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

 Information about the fame of the distinguishing features in the totality of the features of the known technical solutions with the achievement of the same as the claimed device, there is no positive effect. Based on this, it was concluded that the proposed technical solution meets the criterion of "inventive step".

 In FIG. 1 shows a device for washing and / or cleaning and / or disinfection: a - front view, b - top view; in FIG. 2 device for washing and / or cleaning with a spherical shape of the sealant with a horizontal arrangement of the vibration element: a - front view, b - top view; in FIG. 3 device for washing and / or cleaning with a spherical shape of the sealant with a vertical arrangement of the vibrating element - front view; in FIG. 4 - the proposed device with a float element in the tank with liquid.

 The washing device comprises a vibrating element 2 located inside the sealant layer 1 on the holder 3 (Fig. 1) for generating elastic vibrations in the washing liquid, connected to the power source, and connected with the sealant layer and located on its outer surface, means for amplifying the propagation of elastic vibrations in washing liquid in the form of cantilever elements 4 protruding above the surface of the sealant layer 1. Cantilever elements 4 can be made integral with the holder 3 (Fig. 1) or are made of sealant 1 material (Fig. 2). The cantilever elements 4 in the form of protrusions can be made in various configurations depending on the manufacturing technology (lamellar, annular, cylindrical, conical, hemispherical, semi-elliptical, in the form of a wedge or fin of a fish or the tail of a swallow).

 The outer surface of the sealant layer 1 is made in the form of a surface of bodies of revolution or parallelepiped with convex faces and / or rounded edges. In this case, the sealant 1 may have, for example, a spherical, elliptical, cylindrical, conical shape. It is possible to perform sealant 1 in a disk-shaped form (for example, in the form of an octagonal disk).

 The device can be made with means for adjusting the degree of immersion of the vibrating element in the washing liquid in the form of a float element 5, in particular, removable. The float element 5 can be connected rigidly to the sealant 1 (not shown in Fig.) With the possibility of unilateral propagation of elastic vibrations towards the bottom of the tank or mounted on the cord 6 of the device (Fig. 2, 3, 4) or suspended by the protruding elements 4 ( in Fig. not shown) with the possibility of immersion to a given depth with two-way propagation of elastic vibrations.

 The holder 3 can be made in the form of a stand, the supporting parts of which, in particular the legs, are removed from the sealant 1 and are protruding elements 4 (Fig. 1).

 The protruding elements 4 can be made with removable reflective elements in the form of metal pads, fastened, for example, with screws (not shown in FIG.).

 As sealant 1, an elastic, dielectric non-hygroscopic material, for example, Vixid, injection molded plastic can be used.

 Additionally, the device can be equipped with a removable stand mounted on the bottom of the tank with liquid with a system of reflectors fixed to it in the form of metal plates (not shown in Fig.).

 The vibration element 2 is made of at least one piezoceramic plate and / or one multilayer piezoceramic transducer.

 The vibration element 2 can be made in the form of a half-wave or composite (multilayer) piezo-emitter to create a low-frequency ultrasonic transducer (of the order of 20-26 kHz). A composite piezo emitter, as is known, consists of three plates. The middle plate is made of piezomaterial, and the extreme (overlays) are made of metal (duralumin). Attaching additional pads to a flat piezoelectric element increases the overall height of the half-wave emitter and reduces its frequency.

 The geometric dimensions of the emitting plate of the transducer are chosen so that it is possible to obtain the best coordination of the impedance of the transducer with the wave resistance of the medium, and therefore the maximum intensity of ultrasonic vibrations. It is possible to perform a vibration element 2 of two piezoelectric emitters to ensure operation at several frequencies.

 The power of the vibration element 2 is carried out by known means depending on the required power, for example, transistor, thyristor generators. The frequency of the generator can be fixed or adjustable in a predetermined range depending on the type of material being processed and its composition (linen, cotton, silk, synthetic fiber, wool).

The device operates as follows. The device is placed in the tank 7 (Fig. 4) with the washing liquid, depending on the selected washing technology on the bottom or among the laundry or set to the required depth when working with the float element 5. It is advisable to change the position of the device in the tank by washing the device by 90 ^o , or by adjusting the position of the float element 5 on the cord 6, or by moving the float element 5 with a suspended device. When working with the float element 5, it is advisable to wash when the device is located on the bottom (the float element 5 is located on the cord 6 above the liquid level) with the propagation of elastic vibrations in the vertical direction, and then position the float element 5 on the cord 6 so that the device is in liquids, for example, in the position of FIG. 3 with a horizontal direction of elastic vibrations.

 When voltage is applied to the vibration element 2 from a power source (ultrasonic generator) (not shown in Fig.), An alternating electric field arises, exciting, due to the piezoelectric effect, mechanical vibrations of the piezoceramic vibration element 2, which are perceived by the sealant 1 and transferred to the washing liquid.

 When the device is operating at frequencies of the sound range (for example, at a frequency of 50 Hz, the formation of active pulsating microbubbles in the washing tank 7 acts on the treated textile surface with an impact force knocking out and destroying polluting particles. Low-frequency treatment provides a gentle washing mode.

 Washing at higher frequencies - with the use of ultrasonic vibrations, favors emulsification and peptization, contributes to the violation of boundary layers and foaming. As a result, under the influence of these fluctuations, the washing processes of various contaminants on the tissues are significantly accelerated and in some cases give the best quality indicators.

 During the washing process, the same protrusions 4 on the surface of the sealant 1 can be used as a support or stand and are designed to improve hydrodynamic processes during the formation of microbubbles, the movement of acoustic flows and local effects on particularly contaminated tissue areas, placing them in the zone of the highest radiation intensity . Layers of fabric, directly relying on the tabs 4 above and / or below, sagging between them and vibrating during operation, contribute to the emergence and strengthening of local microflows, while improving the dynamics of the movement of microbubbles from the surface of the sealant 1 and between the layers of fabric. This is especially important for eliminating the screening of the propagation of elastic vibrations by the bubbles due to their adhesion to the surface of the sealant 1. The streamlined shape of the sealant 1 with a convex surface simultaneously contributes to the better propagation of elastic vibrations, and to eliminate the specified screening effect of the bubbles at the emitter-liquid interface, and to improve movement acoustic flows.

The protrusions 4 are also intended as means providing a change in the direction of propagation of elastic vibrations. The rotation of the device by 90 ^o (Fig. 1), relying on the protrusions 4, provides a change in direction, while providing positive effects - a more uniform cavitation field in the entire volume of the liquid, intensive mixing of the solution, and an increase in the effect of dissolution of fluid particles.

 For a more uniform distribution of the washing solution and its better penetration into the material to be processed, it is advisable to use the device simultaneously with a portable removable metal disk with a plurality of metal plates fixed on it, enhancing the diffusion reflection of the produced ultrasound. It is advisable to install this disk on the bottom of the tank 7 with the washing liquid when using the device with the float element 5 or when the device is located with the direction of propagation of elastic vibrations parallel to the X axis. At the same time, the disk can also be used as a stand for the processed material.

 When cavitation is created in a washing medium, various bacteria and viruses are destroyed.

Satisfactory washing quality can be achieved in 3-5 minutes at the frequencies of the ultrasonic range at a temperature of the washing liquid of 50 ^o C and small safe intensities of 0.3 to 3 W / cm ² .

 The proposed design with a streamlined form of sealant with protrusions also contributes to a better exchange of solvents in the cleaning zone, the removal of contaminated solvent and the receipt of a fresh portion of the solution.

 The device is simple in design, technologically advanced to manufacture, convenient to operate, provides various technological modes that increase its efficiency, speed and applicability for washing various types of materials, in particular for bleaching, stain removal, disinfection, descaling in a kettle.

 The proposed technical solution is applicable when creating devices operating simultaneously or alternately at low frequencies of the sound frequency range and at the frequencies of the ultrasonic range (when several piezoelectric plates with various parameters are placed in the sealant and / or an oscillator with an adjustable frequency range is used).

 The quality of washing clothes in a vibrational way is not inferior to processing it in conventional washing machines, and is higher in some physical and hygienic indicators.

 The vibrational method is especially effective for woolen and silk fabrics that do not experience much shrinkage from fiber coiling.

 Elastic vibrations contribute to the intensification of the washing process, improve the physico-hygienic properties of the processed textile fabric and increase the foaming and emulsifying ability of detergents.

Claims (1)

 \ \\ 1 1. A washing device comprising a holder located inside the sealant layer with a vibrating element for generating elastic vibrations in the washing liquid associated with a power source, characterized in that it has a means for connecting to the sealant layer and located on its outer surface enhancing the propagation of elastic vibrations in the washing fluid, while the outer surface of the sealant layer is made in the form of the surface of bodies of revolution or parallelepiped with convex faces and / or rounded ribs. \\\ 2 2. The device according to claim 1, characterized in that the means for enhancing the propagation of elastic vibrations in the washing liquid is made in the form of cantilever elements protruding above the outer surface of the sealant layer. \\\ 2 3. The device according to claims 1 and 2, characterized in that it has means for adjusting the degree of immersion of the vibrating element in the washing liquid. \ \ \ 2 4. The device according to claim 3, characterized in that the means for adjusting the degree of immersion of the vibrating element in the washing liquid is made in the form of a float element. \\\ 2 5. The device according to claim 4, characterized in that the float element is removable. \\\ 2 6. The device according to claim 1, characterized in that the surface of the body of rotation of the sealant layer is a spherical surface, or elliptical, or disk-shaped. \\\ 2 7. The device according to claims 1 and 2, characterized in that the cantilever elements are made of sealant material. \\\ 2 8. The device according to claim 2, characterized in that the holder is made in one piece with the console elements. \\\ 2 9. The device according to claim 1, characterized in that the vibrating element is made of a piezoceramic plate and / or a multilayer piezoceramic transducer.

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