RU58393U1 - ULTRASONIC CLEANING DEVICE - Google Patents

Abstract

The ultrasonic cleaning device comprises a housing in which there is a bath with a washing solution, means for placing the products to be cleaned, an ultrasonic oscillation generator with a power supply unit consisting of separate ultrasonic modules, emitters uniformly located on at least one side of the bath, each ultrasonic generator module ultrasonic vibrations is connected to a separate emitter by a direct connection and a feedback circuit and is configured to automatically adjust the operating frequency per hour Toth mechanical resonance of the radiator. The device also contains means for cooling emitters and an ultrasonic oscillation generator and a unit for selecting and monitoring the cleaning time, equipped with a digital indicator and a temperature controller. A heater and a temperature sensor are installed on the wall of the bathtub, connected to a cleaning time selection and control unit, which is configured to display the current time on the digital display until the cleaning is completed and automatically set the original time after the cleaning. The unit for selecting and controlling the cleaning time is connected to an ultrasonic oscillation generator, cooling means, and through an interference suppression filter with an electrical network. The temperature controller is configured to control heating and automatically maintain the operating temperature of the washing solution and display on the digital indicator the current temperature of the washing solution and emergency conditions of the heating and temperature maintenance process. The device allows to reduce the laboriousness of the process of cleaning products from fat, oil and mechanical contaminants by heating the washing solution directly in the bath, to improve the quality of cleaning by stabilizing the temperature of the washing solution, and to improve the operational characteristics of the device by controlling the current temperature of the washing solution.

Description

Technical field

The utility model relates to ultrasonic cleaning of various parts and products, including complex profiles, in aqueous solutions of detergents from grease, oil and mechanical impurities in various industries and services and can also be used to clean medical instruments and products in solutions of detergents from protein (including blood), fatty and mechanical impurities in medical institutions.

State of the art

The closest in technical essence to the claimed utility model is an ultrasonic device for pre-sterilization cleaning of medical instruments according to PM No. 33334, IPC 7 V 08 V 3/12.

The known ultrasonic cleaning device comprises a housing and a bath with a washing solution placed inside it, means for accommodating the products to be cleaned, and an ultrasonic oscillation generator with a power supply unit consisting of separate ultrasonic modules, each of which is connected by a direct connection and a feedback circuit to a separate emitter and is configured to automatic adjustment of the operating frequency to the frequency of the mechanical resonance of the emitter. A cleaning time selection and control unit with a digital indicator is also located in the device’s body, made with the possibility of displaying at the last current time until the end of the cleaning and automatic installation after the end of the cleaning of the originally selected time and connected to the ultrasonic vibration generator and through the noise filter with an electrical network. The device contains cooling means for emitters and an ultrasonic oscillation generator, also located in the housing and connected with the selection and control unit for cleaning time. The emitters of the device are evenly located on at least one side of the bath.

This device has certain disadvantages. It does not heat the washing solution, and most ultrasonic cleaning processes are carried out at a temperature of the washing solution above the ambient temperature. As a result, pre-heating of the washing solution and its heating after the device is in standby mode is necessary, which creates additional difficulties and increases the complexity of the process. The device also does not have control of the current temperature of the washing solution, which can lead to its exceeding the permissible values (even with occasional temperature measurement by external control devices) and a decrease in the quality of cleaning (when lowering the temperature of the washing solution) or damage to the products being cleaned (when the temperature of the washing solution).

The essence of the utility model.

The tasks to which the utility model is directed are reducing the complexity of the cleaning process, improving the quality of cleaning and improving the operational characteristics of the device.

The technical result obtained by the implementation of the utility model is to reduce the preparation time of the washing solution by heating it directly in the bath, stabilizing the temperature of the washing solution by automatically maintaining it and increasing the usability of the device by controlling the current temperature of the washing solution.

The specified technical result is achieved by the fact that in the known ultrasonic cleaning device comprising a housing and a bath with a washing solution located inside it, means for accommodating the products to be cleaned, an ultrasonic oscillation generator with a power supply unit consisting of separate ultrasonic modules, each of which is connected by a direct connection and a circuit feedback with a separate emitter and is configured to automatically adjust the operating frequency to the frequency of the mechanical resonance of the emitter, the selection and control unit The fraction of the cleaning time with a digital indicator, configured to display at the last current time until the end of the cleaning and automatic installation after the end of the cleaning the originally selected time and connected to the generator of ultrasonic vibrations and through

an interference suppression filter with an electric network, and means for cooling emitters and an ultrasonic vibrations generator associated with a selection and control unit for cleaning time, while the emitters are evenly located on at least one side of the bath, a heater and a temperature sensor are additionally installed on the bath, connected to the select block and control the cleaning time, which includes a temperature controller, configured to control heating, automatically maintain the operating temperature of the washing r alignment and display on the digital display of the current temperature of the cleaning solution and emergency conditions of the heating process and temperature maintenance.

List of drawings

Figure 1 shows an example implementation of the device.

Figure 2 shows a block diagram of a device.

The ability to implement a utility model

The device, as shown in figures 1 and 2, contains a housing 1, a bath 2 made of stainless steel and filled with a washing solution 3, and an ultrasonic oscillation generator 4 with a power supply 5, consisting of individual ultrasonic modules 6. Each ultrasonic module 6 is associated with a separate emitter 7 with a direct connection 8 and a feedback circuit 9 and is made according to a generator circuit with self-excitation due to feedback 9. The emitters 7 are evenly located at the bottom of the bath 2 (depending on the size and complexity of the profile of the products to be cleaned STUDIO 7 may be located on the side wall of the vessel 2 or on the bottom wall and simultaneously, as well as two walls) and are designed as piezoelectric transducers. The emitters 7 are mounted on the bottom of the bath 2 by welding or gluing.

The device also contains a selection and control unit for cleaning time 10, connected to an ultrasonic vibrations generator 4 and equipped with a digital indicator 11, which is a two- or three-digit display of seven-segment sign-synthesizing indicators. The selection and control unit for the cleaning time 10 is made in the form of an electronic program-logical unit with the ability to display on the digital indicator 11 the current time until the end of the cleaning and automatic installation after the end of the cleaning initially

selected time. The unit for selecting and monitoring the cleaning time 10 also contains a temperature controller 12, configured to control heating and automatically maintain the operating temperature of the washing solution 3 and display on the digital indicator 11 the current temperature of the washing solution 3 and emergency conditions of the heating and temperature maintenance process, and is connected to the sensor temperature 13 and heater 14. The unit for selecting and controlling the cleaning time 10 is also connected to cooling means 15 of emitters 7 and an ultrasonic oscillation generator 4. Cooling means Tracks 15 include a fan assembly 16 and a system of inlet 17 and outlet 18 blinds. The fan assembly 16 consists, depending on the number of emitters 7, of one or more fans of the same or different types. The unit for selecting and controlling the cleaning time 10 is connected to the electric network 19 through an interference suppression filter 20 based on inductances and capacitances.

The device includes means for placing the products being cleaned, made in the form of a basket 21, into which the products to be cleaned are placed 22. The device for placing the products being cleaned can also be made in the form of a cartridge in which the products being cleaned 22, for example, reusable syringe cylinders, are installed with orientation relative to the emitters 7. Structurally, the basket and cassette are designed so as to minimize the intensity of cavitation of the washing solution 3.

As a washing solution 3, solutions of Zeta 1, Veltolen, Dyulbak DTBL disinfectants, Sarma-M, Kristall-Avtomat, and synthetic powder powders and others can be used.

All components of the device are placed inside the housing 1, made of sheet steel with a thickness of 1-1.5 mm The display and control bodies of the selection and control unit for cleaning time 10 are displayed on the front side of the housing 1. The bath 2 is closed by a cover 23. All structural parts of the above elements, assemblies and blocks in contact with the cleaning solution 3 are made of a material resistant to corrosion, for example, of stainless steel. All connections of the component parts of the device shown in figure 2, made of electrical wires.

The device operates as follows.

The products to be cleaned 22 are placed in a basket 21, which is installed in a bath 2 with a washing solution 3. The bath 2 is closed by a lid 23 to reduce the noise level. The device is connected to the electric network 19. When the device’s power switch is turned on, the voltage of the electric network 19 is supplied to the selection and control unit for cleaning time 10 through the noise suppression filter 20, which includes cooling means 15. In this case, the fan unit 16 draws outside air through the system of inlet blinds 17, drives it between the emitters 7 and the ultrasonic modules 6 of the ultrasonic oscillation generator 4 and throws it out through the system of output louvres 18. On the digital display 11, those stubbing temperature of the washing solution 3. Using the controls of the unit for selecting and controlling the cleaning time 10, the temperature required for the cleaning process (operating temperature) is set on the digital indicator 11 and the heating operation of the washing solution 3 is activated, if the current temperature of the washing solution 3, monitored by a temperature sensor 13 below the set temperature, the temperature controller 12 turns on the heater 14. When the set temperature of the washing solution 3 is reached, the temperature controller 12 turns off flushes the heater 14 and further performs automatic maintenance of the working temperature of cleaning solution 3 by controlling the operation of the heater 14, such as on-off law. Also, using the controls of the selection and control unit for the cleaning time 10, the digital indicator 11 sets the time (in minutes or seconds) necessary for the cleaning process, and the cleaning operation is started, while the unit for selecting and monitoring the cleaning time 10 supplies voltage to the electric network 19 to the power supply unit 5 of the ultrasonic oscillation generator 4, which provides the necessary power to the ultrasonic modules 6. In the system "ultrasonic module 6 - emitter 7" self-oscillations and electric power occur, worn on the emitter 7, is converted into acoustic and creates a cavitation effect in washing solution 3 (liquid ruptures with the creation of air cavities which then collapse with the occurrence of microexplosion), intensifying the process of removing contaminants from the cleaned products 22. Due to the feedback circuit 9, the operating frequency of the ultrasonic module 6 automatically adjusts to the frequency of the mechanical resonance of the emitter 7,

that is, the frequency of the maximum average acoustic power, which leads to the maximum intensity of cavitation in the washing solution 3 for a given emitter 7. The maximum average acoustic power level depends on the parameters of the emitter 7 and the parameters of the ultrasonic module 6 and is set by setting these parameters in the manufacture of these nodes, based from the condition for eliminating surface erosion of the products being cleaned 22. Radiators 7 are installed at the bottom of the bath 2 evenly taking into account the wavelength of the oscillations propagating in the bottom material Nij that provides minimal impact on the radiator 7 to each other and preclude unnecessary loss of electrical power. The operating frequency of each ultrasonic module 6 is different, since in practice it is impossible to manufacture emitters 7 with completely identical electromechanical characteristics, but the spread of these frequencies is within the standard tolerance for frequencies allowed for use in ultrasonic generators (for example, +/- 10% for 44 kHz, +/- 7.5% for 22 kHz). This frequency variation allows you to get additional sufficiently intense flows of the washing solution 3 in the bath 2, which contributes to a more efficient cleaning of the products to be cleaned 22. During operation, the cooling means 15 selects the excess heat generated by the emitters 7 and the ultrasonic vibration generator 4. thereby ensuring optimal thermal conditions and stability of the parameters, which leads to stabilization of the cavitation intensity in the washing solution 3, eliminating undesirable phenomena - a decrease in the quality of cleaning or, conversely, appeared erosion on the surface of the cleaned products 22. The working generator of ultrasonic vibrations 4 creates industrial radio interference that is reduced by the noise suppression filter 20, and their level in the electric network 19 does not exceed the maximum permissible norm. Due to the fact that all the component parts of the device are placed in a steel case 1 of sufficient thickness, the level of radiation of industrial radio interference into the surrounding space also does not exceed the maximum permissible norm. On the digital indicator 11 in the process, the current time remaining until the end of the cleaning process is displayed. The time reduction is displayed in increments equal to the accepted unit of measure, for example, one minute. After the end of the cleaning time, the selection and control unit for the cleaning time 10 removes the voltage of the electrical network 19

from the generator of ultrasonic vibrations 4, which turns off the emitters 7, and the cleaning process ends. On the digital display 11, the initially selected time is automatically set, which excludes the operation of repeated set of time (usually for a long period the cleaning time is the same for a large number of cleaning cycles). If necessary, a new cleaning time is set. The fan unit 16 continues its work and after the end of the cleaning operation to exclude heating of the emitters 7 and the ultrasonic oscillation generator 4 due to thermal inertia. With a small number of emitters 7, the selection and control unit for the cleaning time 10 can be programmed so that the fan unit 16 is turned on only during operation of the emitters 7. It is possible to disable the cleaning operation by the controls of the selection and control unit for the cleaning time 10 before the selected time expires. While the operation of heating the washing solution 3 is turned on, the temperature controller 12 controls the heater 14 both during cleaning operations and during pauses between operations, so the temperature of the washing solution 3 is constantly maintained at a set level. Using the controls of the selection and control unit for the cleaning time 10, the operator can at any time display both the current time of the cleaning operation and the current temperature of the washing solution 3 on the digital indicator 11 and set the cleaning time and temperature of the washing solution during a pause.

Thus, the proposed design of the ultrasonic cleaning device allows to reduce the complexity of the process of cleaning products from fat, oil and mechanical impurities by heating the washing solution directly in the bath, to improve the quality of cleaning by stabilizing the temperature of the washing solution and to improve the operational characteristics of the device by controlling the current temperature of the washing solution.

Claims (1)

An ultrasonic cleaning device comprising a housing and a bath with a washing solution located inside it, means for placing the products to be cleaned, an ultrasonic oscillation generator with a power supply unit, consisting of separate ultrasonic modules, each of which is connected by a direct connection and a feedback circuit to a separate emitter and is configured to automatic adjustment of the operating frequency to the frequency of the mechanical resonance of the emitter, the unit for selection and control of the cleaning time with a digital indicator, made with possible the ability to display at the last current time until the end of cleaning and automatic installation after the end of cleaning the originally selected time and connected to the ultrasonic vibrations generator and through an interference suppression filter with an electrical network, and radiators and ultrasonic vibrations cooling means associated with the cleaning time selection and control unit, while the emitters are evenly located on at least one side of the bath, characterized in that the bath is additionally installed heating a temperature sensor and sensor connected to a block for selecting and monitoring the cleaning time, which includes a temperature controller that is able to control heating, automatically maintain the operating temperature of the washing solution and display on the digital indicator the current temperature of the washing solution and emergency conditions of the heating and temperature maintenance process .