RU90301U1 - LED NAIL GEL POLYMERIZER - Google Patents

Abstract

1. LED polymerization of nail gels, containing a housing, a working area, designed to accommodate the fingernail of the fingers during the polymerization of the gel applied to the nails and located in the housing or outside and preferably below the last matrix of light-emitting diodes with ultraviolet radiation, built into the aforementioned case with the possibility of ultraviolet radiation entering the specified working area and equipped with a power supply and a control unit with a control panel, characterized in that the control unit comprises a software device, preferably made in the form of a microprocessor, the power supply unit is controllable and connected to its input and output, respectively, to the output of the software device and to the matrix of light emitting diodes, and the control panel is connected by its output to the input of the software device, the control unit is configured to operate the matrix of light emitting diodes in a pulsed mode with amplitude and / or frequency, and / or pulse-width modulation parameters of the said ultraviolet radiation, for which the control panel is equipped with switches, with which the amplitude and / or frequency, and / or pulse-width modulation of the parameters of ultraviolet radiation is set, the control unit is equipped with a modulator configured to form the input block power supply of control signals with amplitude and / or frequency and / or pulse-width modulation, corresponding to modulation of parameters of ultraviolet radiation

Description

The utility model relates to equipment used in performing manicure and pedicure, and can be used in ultraviolet polymerizers of nail gels.

A multifunctional device for cosmetic care of hands and feet with an ultraviolet nail gel polymerization device is known, comprising a body, a working area for accommodating the nail of the fingers or toes, and an ultraviolet radiation source integrated into the body used to polymerize the materials applied to the nails (see Patent RU 2359591, A45D 29/22, publ. 06/27/2009).

Also known is more effective in terms of performance and technical capabilities and at the same time closest in technical essence to the proposed polymerizer, the LED nail gel polymerizer adopted for the prototype adopted as the prototype contains a housing, a working area designed to accommodate the fingernail of the fingers during the polymerization procedure applied to gel nails, a matrix of light emitting diodes with ultraviolet radiation, built into the said body with the possibility of ultraviolet and radiation to the specified working area and equipped with a power supply and a control unit with a control panel and a timer that is activated at the end of the polymerization procedure (see "LED LED gel polymerizator Sky LED Unit" of the German company Wilde Cosmetics GmbH / trademark LCN /, presented in Russian the website of the specified company on the global Internet at: http://www.lcn.ru/vcd-2-l-4890/godsinfo/html; section "Nail Studio Equipment"; subsection "Equipment for polymerization mod. materials ").

A common disadvantage of known polymerizers is the inability to operate the matrix of light emitting diodes in a pulsed mode with modulation of ultraviolet radiation parameters, as well as the inability to control and maintain at a given level the intensity of ultraviolet radiation acting on the nail gel during the polymerization procedure. As a result, the possibility of optimizing the operating parameters of the polymerizer is excluded, which leads to a decrease in the rate of polymerization and hardening of the nail gels and, as a result, to an increase in the time and energy spent on the polymerization procedure. The inability to optimize the operating parameters of the polymerizator also leads to a decrease in the quality of light polymerization of the nail gels, which is reflected in a decrease in strength and, accordingly, in a decrease in the time of practical use of the gel nail coating after the polymerization procedure is carried out. However, in the known polymerizers there are no means of automatically turning on and off the source of ultraviolet radiation, which complicates the operation of the polymerization device. In addition, in the known polymerization systems there are no means of automatic monitoring of their serviceability and timely notification of malfunctions during the operation of the polymerization unit, which reduces the reliability of the known polymerization units and complicates their diagnosis and repair. A disadvantage of the known polymerizers is also the effect of ultraviolet radiation on the eyes of a person undergoing the polymerization of the nail gel, which reduces the degree of comfort of this procedure. However, in the prototype there are also no means of cooling the internal space of the polymerization case in the area of the matrix of light emitting diodes, which can cause overheating of these diodes and, accordingly, a decrease in their durability.

The objective of this utility model is to create an LED nail gel polymerizator, in which it is possible to operate a matrix of light emitting diodes in a pulsed mode with a given modulation mode of the ultraviolet radiation parameters of these diodes and with the ability to control these parameters, as well as the ability to control and maintain the specified UV intensity radiation, the ability to automate the on and off matrix of light emitting diodes, possibly be cooling the inner space of the polymerizer casing at the location area of the matrix of light emitting diodes, the possibility of avoiding direct contact with the ultraviolet radiation on the human eye, passing the nail gel polymerization procedure, and the ability to automatically control the proper polymerizer and timely warning of the appearance of faults in the course of his work.

The technical result obtained by the practical use of this utility model is:

- an increase in the rate of polymerization of the nail gels, which reduces the time and energy spent on the procedure for the specified polymerization;

- increasing the strength and, accordingly, increasing the time of practical use of the helium coating of nails obtained after polymerization;

- improving the reliability and simplifying the operation of the polymerization device;

- elimination of the possibility of overheating of light emitting diodes and increase due to this their durability;

- increasing the degree of comfort of the polymerization procedure of the nail gel.

The above problem is solved using an LED nail gel polymerizer with the essential features presented in the utility model formula, according to which the specified polymerizator contains a body, a working area designed to accommodate the fingernail of the fingers during the polymerization procedure of the gel applied to the nails and located in the specified body or outside and preferably below the latter, a matrix of ultraviolet light-emitting diodes integrated in said housing with POSSIBILITY ingress ultraviolet radiation to said working zone and provided with power supply and control panel with the control unit. Unlike the prototype, in the proposed polymerization unit, the control unit comprises a software device, preferably made in the form of a microprocessor, the power supply unit is controllable and connected to its input and output, respectively, to the output of the software device and to the matrix of light-emitting diodes, and the control panel is connected by its output to the input of the software device, while the control unit is configured to operate the matrix of light emitting diodes in a pulsed mode with amplitude and / or frequency , and / or pulse-width modulated parameters of the aforementioned ultraviolet radiation, for which the control panel is equipped with switches, with which the amplitude and / or frequency, and / or pulse-width modulated parameters of ultraviolet radiation are set, the control unit is equipped with a modulator configured to generate at the output of the software device, control signals arriving at the input of the power supply unit with amplitude and / or frequency and / or pulse-width modulation corresponding to modulation parameters of ultraviolet radiation specified on the control panel, and the power supply unit is equipped with an adapter that receives the specified control signals from the output of the software device and provides modulation of the electric current parameters at the output of the power supply unit connected to the matrix of light-emitting diodes in accordance with them. The implementation of the polymerization apparatus with a pulsed mode of operation of the matrix of light emitting diodes helps to accelerate the polymerization and solidification of the nail gel and increase the strength of the gel helium coating obtained after the polymerization procedure. At the same time, an increase in the rate of polymerization of the nail gels provides a reduction in the time and energy spent on the procedure for said polymerization.

In a preferred embodiment of the polymerization unit, the control unit is configured to allow the matrix of light emitting diodes to operate in pulsed mode, preferably with pulse-width modulation of the parameters of said ultraviolet radiation, whereby the control panel is provided with one or more switches, with which a pulse-width pulse is preferably set modulation of parameters of ultraviolet radiation, said modulator is made, respectively, with the possibility of forms tion outlet programmer entering input signals control the power supply is preferably a pulse width modulation corresponding to the modulation ultraviolet radiation parameters specified in the control panel. In this embodiment of the polymerizator, the highest polymerization efficiency is ensured by using the pulse mode of operation of the matrix of light emitting diodes in it.

In another preferred embodiment of the polymerization unit, the modulator is made in the form of a microcircuit, which increases the compactness of the polymerization unit.

According to another preferred embodiment of the polymerization unit, the control unit is equipped with a timer that is activated at the end of the polymerization procedure, and is configured to adjust the duration of the polymerization procedure and the intensity of ultraviolet radiation of these diodes, for which the specified timer is connected to its output and input, respectively, to the output and input software device, the control panel is equipped with switches with which the specified duration is set polymerization procedures and the intensity of ultraviolet radiation, and the software device is configured to set the response time of the specified timer in accordance with the duration of the polymerization procedure specified on the control panel and the possibility of generating at its output the control signals received at the input of the specified power supply to set the output power of the unit power supply corresponding to the UV intensity value set on the control panel, and on power off the matrix of light emitting diodes when the specified timer is triggered. This embodiment of the polymerizer allows you to adjust within the specified limits the duration of the polymerization procedure and the intensity of ultraviolet radiation depending on the physical properties and / or chemical composition of the nail gels, which helps to increase the efficiency of the polymerization of the nail gels, which differ from each other in the indicated properties and composition.

In accordance with another preferred embodiment of the polymerization device, the timer is made in the form of a microcircuit, which increases the compactness of the polymerization device.

In another preferred embodiment of the polymerization unit, the control unit is equipped with an ultraviolet radiation detector located in the polymerization unit near the matrix of light-emitting diodes with the possibility of ultraviolet radiation reaching it and connected to its input to the input of the software device, which is configured to form a power supply input to the input control signal to reduce the output power of the power supply when increasing the current value of int nsivnosti ultraviolet radiation above a predetermined value on the control panel and to increase said reduction in power at the current value of ultraviolet radiation intensity value below said predetermined value. This makes it possible to maintain a predetermined value of the intensity of ultraviolet radiation.

According to another preferred embodiment of the polymerization unit, the control unit is equipped with a visual indication unit for the operating parameters of the polymerization unit, connected by its input to the output of the software device and made with a screen and preferably in the form of a display, with the possibility of visual display on its screen of at least a given duration of the polymerization procedure, the specified intensity of ultraviolet radiation and the time remaining until the end of the polymerization procedure of the gel applied to the nails, silt the time elapsed since the beginning of this procedure, the software unit adapted to generate at its output a received input a visual indication of said block of information signals on the values of the working parameters of the polymerizer. Due to this, it is possible to obtain visual information about the operating parameters of the polymerizer, which, in turn, provides the ability to control these parameters.

In special cases, the execution of the polymerization unit with the indicated visual indication unit can be performed with the possibility of visual display on its screen of the current values of modulated ultraviolet radiation parameters to increase the amount of visual information about the operating parameters of the polymerization unit, which increases the level of control of these parameters, while the indicated visual indication unit can be combined with the control panel to increase the degree of compactness of the polymerization unit.

In another preferred embodiment of the polymerization unit, the control unit is equipped with a signal device, the input of which is connected to the output of the software device, which is configured to generate at its output a control signal supplied to the input of the signal device to trigger the signal device when the timer is triggered. This embodiment of the polymerizator provides the ability to automatically notify the end of the polymerization procedure of the nail gel.

The following private versions of the polymerization device with the specified signaling device are also possible:

- the signal device is combined with the control panel, which increases the compactness of the polymerization device;

- the control unit is equipped with a position sensor, preferably a sensor type, located in the working area of the polymerization unit and connected by its output to the input of the software device, while the position sensor is configured to operate when the fingernail of the fingers is inserted into the specified working area, and the software device is configured to the formation at its output of a control signal received at the input of the signal device to trigger the signal device when the specified sensor is triggered burns; thanks to this, it is possible to automatically notify about the beginning of the polymerization procedure of the nail gel;

- the control unit is configured to automatically turn on the power of the matrix of light emitting diodes when the fingernail of the fingers is inserted into the working area of the polymerizer, for which the software device is configured to generate a control signal at the output of the power supply input to turn on the power of the matrix of light emitting diodes when triggered said position sensor; the ability to automatically turn on the power of the specified matrix, which simplifies the operation of the polymerizer;

- when the working zone of the polymerization device is located in the housing of the latter, said position sensor is built into the specified housing, which increases the compactness of the polymerization device.

According to another preferred embodiment, the polymerization unit is configured to maintain, within predetermined limits, the temperature of the air inside its housing in the area where the matrix of light-emitting diodes is located or the temperature of these diodes, for which a fan is installed in the housing to cool the area of the matrix of light-emitting diodes with ultraviolet radiation, the control unit is equipped with a sensor of any of the indicated temperatures built into the said housing, the output of which is connected to the input of the software of the device, the switch is installed on the control panel, by means of which any of the indicated temperatures is set, while the fan is connected to the output of the software device, which is configured to generate a control signal arriving at the fan to turn it on and off, respectively, with increasing the temperature recorded by the indicated sensor is higher than the value set on the control panel and when it decreases below the last, and the visual indication of the operating parameters of the polymer izatora configured to visually display at its current temperature value screen fixed by said sensor. Thanks to this embodiment of the polymerization device, the possibility of overheating of light-emitting diodes is excluded and, accordingly, their durability is increased.

In the particular case of performing a polymerization device with the specified fan, when the working area of the polymerization unit is located in the housing of the latter, the fan is placed under the specified area with the possibility of cooling it, which makes it possible to cool the fingers located in the working area of the polymerization unit, which makes the nail gel polymerization procedure more comfortable.

In another preferred embodiment of the polymerization device, when the working zone is located in the housing, the latter is made with the possibility of eliminating direct exposure to ultraviolet radiation on the eyes of a person, for which a screening element is installed on the front side of the said housing, which prevents the ultraviolet radiation from escaping from the specified working zone zones. Due to the obtained possibility of eliminating the direct effect of ultraviolet radiation on the eyes of a person, the comfort of the polymerization procedure of the nail gel is increased.

According to another preferred embodiment of the polymerization device, a controlled RGB matrix of light emitting diodes is mounted in its housing, connected to the output of the said controlled power supply and installed preferably closer to the front edge of the indicated housing than the matrix of light emitting diodes with ultraviolet radiation, and along the latter, while the control unit made with the possibility of automatically turning on the power of the RGB matrix when you enter the nail of the fingers into the working area of the polymerizer, For this, the software device is configured to generate at its output a control signal supplied to the input of the power supply unit to turn on the power of the RGB matrix when the above-mentioned position sensor is triggered, in addition, a switch is installed on the control panel that sets the light intensity of the RGB matrix, the visual indication unit is configured to visually display on its screen the light intensity of the RGB matrix specified on the control panel, and the software device ystvo adapted to generate at its output a control signal supplied to the power supply input for providing values of intensity of light emission RGB-matrix given on the control panel, and a control signal for interrupting power RGB-matrix for actuation of said timer. The RGB matrix creates a backlight in the front part of the polymerization working area that smoothes out the pulsation of the light flux emanating from the indicated housing, which also increases the comfort of the nail gel polymerization procedure. In addition, the backlight created by the RGB matrix ensures the stability of the power of the specified luminous flux.

In the particular case of the polymerization with the specified RGB matrix of light emitting diodes, it can be made with the possibility of creating a chromotherapy effect, for which the light emitting diodes of the RGB matrix are made with the possibility of emitting light with a specially selected color scheme, which has a beneficial healing effect on the eyes, and the entire human body as a whole, which gives the polymerizator useful therapeutic properties.

In another preferred embodiment, the polymerization unit is configured to detect malfunctions arising in it during operation and to notify about the latter, for which the control unit is equipped with a control unit configured to detect and code possible malfunctions of the polymerization unit, while the visual indication unit is capable of visual display on its screen of codes of occurring malfunctions, the signaling device is configured to supply signals notifying of occurring malfunctions ia, and the software device is configured to generate a control signal at the output of a signal input to a signal device input to trigger a signal device received at the input of a visual indication block of a control signal to display on the screen the indicated block code of the occurring malfunction and input to the power supply control signal to turn off the power of both matrices of light emitting diodes. This embodiment of the polymerizator increases the reliability of its operation and simplifies its diagnosis and repair.

According to another preferred embodiment of the polymerization unit, the control unit or part thereof is based on a programmable logic matrix, thereby maximizing the compactness of the polymerization unit.

In another preferred embodiment of the polymerization unit, the power supply unit is autonomous, which makes it possible to use the polymerization unit in the absence of access to a stationary power supply network.

In accordance with another preferred embodiment of the polymerization unit, the control unit is integrated in the polymerization unit with free access to the control panel and the screen of the visual indication unit of the operating parameters of the polymerization unit. This design increases the compactness of the polymerizer.

In the particular case of performing a polymerization unit with a control unit integrated in the polymerization unit, the power supply unit is autonomous and integrated in the aforementioned case, which makes it possible to use the polymerization unit without access to a stationary power supply network and, at the same time, increases the compactness of the polymerization unit.

The essence of the utility model is illustrated in the drawing, which shows a functional block diagram of the proposed LED polymerization of nail gels.

The polymerizer contains a housing 1 with internal reflective surfaces, a working area 2, designed to accommodate the nail portion of the fingers or toes during the polymerization procedure of the gel applied to the nails, a matrix 3 of light-emitting diodes 4 with ultraviolet radiation, built into the housing 1 with the possibility of ultraviolet radiation falling on the working area 2 and equipped with a controlled power supply 5 and a control unit 6, equipped with a software device 7, preferably made in the form of a microprocessor, the control panel 8 and the timer 9, triggered at the end of the polymerization procedure.

Also, as well as known ultraviolet nail gel polymerizers, the proposed polymerizer can be made in the form of a tunnel or tube type polymerizer.

In the tunnel embodiment, the polymerization case 1 is made in the form of a tunnel - as shown in the block diagram (the drawing shows a top view of the housing 1), while the working area 2 is located in the lower part of the housing 1 and can be inserted into the nail part of the fingers hands, and the matrix 3 is fixed on the upper inner side of the housing 1, preferably along or near the line of the nails of the fingers (not shown) located in the working area 2 during the polymerization procedure applied to the legs ty gel. In a lamp embodiment of a polymerization device (not shown), the working area 2 is extended outside the polymerization housing and is preferably located below the specified housing, while the housing 1 is made primarily in the form of a spherical reflective bowl, and the matrix 3 is mounted on the inner surface of the specified bowl, which is mounted above the working a polymerization zone with the possibility of ultraviolet radiation emanating from the said bowl on the nail part of the fingers located in the specified working area and conducting polymerization procedure applied on gel nails.

The software device 7 has five inputs A ₁ -A ₅ and five outputs B ₁ -B ₅ , the controllable power supply 5 has an input C and two outputs D ₁ and D ₂ , and the control panel 8 has an output E. In this case, the power supply 5 is connected with its input C and output D ₁ , respectively, with the output Bi of the software device 7 and matrix 3, and the output E of the control panel 8 is divided into several separate outputs E ₁ -E _N , the number of which is equal to the number N of control switches installed on the panel 8. Accordingly, the input A _{1 of the} software device 7 is also divided into N separate inputs A _1/1 -A _{1 / N} , connected to the outputs E ₁ -E _{N of} the control panel 8. In addition, the output B _{1 of the} software device 7 is divided into five separate outputs B _1/1 -B _1/5 , and the input C of the control unit 5 is divided, respectively, into 5 separate inputs C ₁ -C ₅ connected to the outputs B _1/1 -B _{1/5 of the} software device 7. However, the output B _{3 of the} software device 7 is divided into three separate outputs B _3/1 -B _3/3 .

The control unit 6 is configured to operate the matrix 3 of light emitting diodes 4 in a pulsed mode with amplitude and / or frequency and / or pulse-width modulation of the parameters of the ultraviolet radiation of the diodes 4 with the ability to control these parameters. For this, the control unit 6 is equipped with a modulator 10, configured to generate at the output B _{1/1 of the} software device 7 control signals input to the input C ₁ of the power supply unit 5 with amplitude and / or frequency and / or pulse-width modulation, power supply 5 is provided with an adapter 11 receiving said control signals output from the _1/1 software in device 7 and provides them in accordance with the modulation parameters of the electric current at the output of D _1, the power supply 5 connected to the matrix 3 and the control panel 8 is provided with perek yuchatelyami December ₁ -12 _n, is given by which, respectively, the amplitude and / or frequency and / or pulse width modulation ultraviolet radiation parameters. The modulator 10 can be made in the form of an independent unit (not shown) connected to the software device 7, or can be integrated into the software device 7. In this case, the timer 9 and the modulator 10 can be made in the form of chips (not shown).

The control unit 6 is also configured to adjust the duration of the polymerization procedure and the intensity of the ultraviolet radiation of the diodes 4. For this, the timer 9 is connected by its input and output, respectively, to the output B ₂ and input A _{2 of the} software device 7, the control panel 8 is equipped with switches 13 and 14 , with the help of which, respectively, the duration of the polymerization procedure and the intensity of ultraviolet radiation of the diodes 4 are set, and the software device 7 is configured to adjust the response time timer 9 in accordance with the duration of the polymerization procedure specified by the switch 13 on the control panel 8. In addition, the software device 7 is configured to generate at its output B _{1/2 the} control signal received at input C ₃ of the power supply 5 to set the output power power supply 5, corresponding to the value of the intensity of ultraviolet radiation of the diodes 4 set by the switch 14 on the control panel 8, as well as with the possibility of forming at its output B _{1/3 of the} input input C ₃ of the power supply 5 of the control signal to turn off the power of the matrix 3 when the timer 9 is activated at the end of the polymerization of the nail gel.

The control unit 6 is equipped with an ultraviolet radiation detector 15 located in the housing 1 near the matrix 3 with the possibility of ultraviolet radiation falling onto it, having the UVI designation in the drawing. In this case, the detector 15 is connected by its output to the input A _{3 of the} software device 7, which, if there is a detector 15 in the control unit 6, is capable of generating at its output B _{1/2 a} control signal supplied to the input C ₂ of the power supply 5 to reduce the output power of the unit power 5 when increasing the current value of the intensity of the ultraviolet radiation of the diodes 4 above the value set by the switch 14 and to increase the indicated power while reducing the current value of the intensity of the ultraviolet radiation of the diodes 4 is lower than the value set by the switch 14.

In addition, the control unit 6 is provided with a block 16 for visual indication of the operating parameters of the polymerizer, made with a screen (not shown) and, preferably, in the form of a display. In this case, the software device 7 is connected with its output B ₃ to the input of block 16 and is configured to generate information signals at the output of B ₃ at the input of block 16 about the values of the operating parameters of the polymerizer, and block 16 is configured to visually display on its screen at least the duration of the polymerization procedure and the intensity of ultraviolet radiation specified by switches 13 and 14, and the time remaining until the end of the polymerization procedure of the gel applied to the nails, or the time taken Sheha from the beginning of said procedure. In addition, the block 16 can be configured to visually display on its screen the current values of the modulated parameters of ultraviolet radiation when the matrix 3 is in pulsed mode. In this case, the block 16 can be structurally combined with the control panel 8 (not shown).

The control unit 6 is equipped with a signal device 17 of sound or light action, made, respectively, in the form of a speaker or light indicator and having three inputs F ₁ -F ₃ , moreover, the signal device 17 of light action, it is advisable to use when undergoing the procedure of polymerization of the nail gel by a person with limited by hearing. The input F _{1 of the} signal device 17 is connected to the output B _{4/1 of the} software device 7, which is configured to generate at its output B _{4/1 a} control signal received at the input F _{1 of the} signal device 17 to trigger the device 17 when the timer 9 is activated the end of the polymerization procedure specified by the switch 13 on the control panel 8. The signal device 17 can be structurally combined with the control panel 8 (not shown).

In addition, the control unit 6 is equipped with a position sensor 18, preferably a sensor type, located in the working area 2 and connected by its output to the input A _{4 of the} software device 7. Moreover, the position sensor 18 is made with the possibility of its operation when entering the fingernail of the fingers into the working area 2, a software device 7 is connected in its output to the input _4/2 F ₂ the signaling device 17 and adapted to generate output in _4/2 supplied to input F ₁ signaling device 17 to actuate the control signal the signal device 17 when the position sensor 18 is triggered. When the working area 2 is located in the housing 1, the position sensor 18 is built into the housing 1.

The control unit 6 is configured to automatically turn on the power of the matrix 3 at the time of the input of the nail of the fingers into the working area 2. For this, the software device 7 is connected with its output _1/4 to input C ₄ of the power supply 5 and is configured to form an output B _{1/4 of the} control signal received at the input C ₄ of the power supply 5 to turn on the power of the matrix 3 at the time of the input of the nail part of the fingers in the working area 2.

In addition, the polymerization unit is configured to maintain, within predetermined limits, the air temperature inside the housing 1 in the area where the matrix 3 is located or the temperature of the diodes 4. For this, a fan 19 can be integrated into the housing 1 to cool the area of the matrix 3, and the control unit 6 can be is provided with a sensor 20 any of the temperatures, the output of which is connected to the input a ₅ of software devices 7 and 8 mounted control panel switch 21, by which any of said defined temperature, while in ntilyator 19 connected to the output V ₅ software device 7, which in this case is performed to generate an output V ₅ supplied to the fan 19, the control signal for turning on and off the latter, respectively, with increasing temperature sensed by sensor 20 is above a predetermined switch 21 panel 8 values and when it decreases below the specified set value. In this case, the visual indication unit 16 can be configured to visually display on its screen the current value of the air temperature inside the housing 1 in the area where the matrix 3 is located or the temperature of its diodes 4. When the working area 2 of the polymerizer is located in the housing 1, the fan 19 can be integrated into the lower part of the housing 1 (not shown) under the working area 2 with the possibility of its cooling.

The polymerizer can be configured to exclude the direct effects of ultraviolet radiation on human eyes. For this, a shielding element (not shown) can be installed on the front side of the housing 1, directed towards the working area 2 and preventing the ultraviolet radiation from leaving the zone 2.

A controllable RGB matrix 22 of light emitting diodes 23 is connected to the housing 1 and is connected to the output D ₂ of the power supply 5 and is preferably installed closer to the front edge of the housing 1 than the matrix 3 and along the latter. In this case, the control unit 6 is configured to automatically turn on the power of the RGB matrix 22 when the fingernail is inserted into the working area 2, for which the software device 7 is configured to form at its output B _1/4 of the power supply input C ₄ 5 of the control signal to turn on the power of the matrix 3 and the RGB matrix 22 simultaneously when the position sensor 18 is activated. In addition, a switch 24 is installed on the control panel 8, with which the light intensity of the RGB ma Ritsa 22, visual display unit 16 is arranged to visually display on its screen 24 a predetermined switch on the light emission intensity of the control panel 8, RGB-matrix and the programming device 7 in its output connected to the input _1/5 C ₅ supply unit 5 and adapted to to generate an output in _1/5 supplied to the input C ₅ power supply 5 providing a control signal to the light emission intensity of the RGB-values of the matrix 22 defined by the switch 24 on the control panel 8, as well as probably formed tion B _1/3 its output directed to the input C ₃ of the control signal supply unit 5 for simultaneous power outage of the matrix 3 and the RGB-matrices 22 at the timer 9 is triggered at the end time of the polymerization procedures set on switch 13 of the control panel 8.

In order to make it possible to create the effect of chromotherapy during the nail gel polymerization procedure, the light emitting diodes 23 of the RGB matrix 22 are made with the possibility of emitting light with a specially selected color scheme, which has a beneficial healing effect on both the eyes and the entire human body. In this case, the control panel 8 can be equipped with a set of switches (not shown), with which you can configure the color shades of the light radiation of the diodes 23.

The polymerization unit can be configured to detect malfunctions arising in it during operation and to notify about the latter. For this, the control unit 6 can be equipped with a control unit 25, configured to detect and code possible malfunctions of the polymerizer. In this embodiment of the polymerization unit, the visual indication unit 16 is configured to visually display the codes of occurring malfunctions on its screen, the signal device 17 is configured to provide signals to indicate occurring malfunctions, and the software device 7 is configured to generate B _4/3 at its output the control signal received at the input F _{3 of the} signal device 17 to trigger the signal device 17 when a malfunction occurs, and also the input of the block 16 of the visual indication of the control signal to display on the screen of the indicated block the code of the occurring malfunction and the control signal supplied to input B _1/3 of the power supply unit to turn off the power of the matrices 3 and 22 when a malfunction occurs. The control unit 25 can be made in the form of a microcircuit (not shown) and can be equipped with a system of sensors (not shown) that respond to possible malfunctions of the diodes 4 and 23, the power supply 5 and the control unit 6, and send fault signals to the unit control 25.

In addition to the pulse mode of operation of the matrix 3 in the polymerizer, if necessary, the usual static mode of operation of the matrix 3 can also be implemented with the corresponding switch of the operating modes of the matrix 3 (not shown) installed on the control panel 8. In this case, the control unit 6 or part thereof can be performed on the basis of a programmable logic matrix (not shown).

The power supply 5 can be connected to the mains (not shown) or can be autonomous with battery power (not shown), and the control unit 6 can be integrated into the polymerization case 1 with free access to the control panel 8 and to the screen of the unit 16 visual indication. To ensure compactness and complete autonomy of the polymerization device, it can simultaneously use an autonomous power supply unit 5 built into the housing 1, running on the specified battery, and a control unit 6 integrated into the housing 1.

The switches 12 ₁ -12 _n , 13, 14, 21 and 24 of the control panel 8 may be keyboard, button, touch, or other type.

LED polymerization of nail gels works as follows.

Before carrying out the polymerization procedure of the gel applied to the nails, the power supply unit 5 is turned on, after which the duration of the specified procedure is set using the switch 13 using the switch 13 and the operating parameters of the polymerizer necessary for the specified procedure are set using the switches 14, 24 and 21 - accordingly, the UV radiation of the diodes 4, the light emission intensity of the diodes 23 and the air temperature inside the housing 1 in the area of the matrices 3 and 22 or the temperature of the diodes 4.

In addition, using the switches 12 _l -12 _{n, the} amplitude and / or frequency and / or pulse-width modulation of the parameters of the ultraviolet radiation of the diodes 4 is required for the effective implementation of the nail gel polymerization procedure. Depending on the need determined by the conditions for optimizing the operation of the polymerizer, one of the above modulation modes, for example frequency modulation, or a combination of several modulation modes, for example frequency and pulse width modulation, can be used. In this case, preference is given to pulse-width modulation mode, which ensures the highest efficiency of the polymerization procedure with a higher quality gel nail coating obtained after the specified procedure.

Information about the operating parameters of the polymerization device specified on the control panel 8 using the switches 13, 14, 21, 24 and 12 ₁ -12 _n comes from the output E of the panel 8 to the input A _{1 of the} software device 7, the output B _{3 of} which produces information signals to the input of block 16, after which the values of the operating parameters of the polymerizer set on the control panel 8 are visually displayed on the screen of block 16. At the same time, information about the value of the intensity of ultraviolet radiation of diodes 4 and the intensity of light radiation of diodes 23 The output from the control panel 8 output E to the input A _{1 of the} software device 7 is processed in the latter, with the subsequent formation of control signals at the outputs B _1/2 and B _{1/5 of the} software device 7, which are received, respectively, at the inputs C ₂ and C _{5 of the} unit power supply 5. In this case, the control signal supplied to the input C ₂ of the power supply 5 sets the level of output power at the output D _{1 of the} last and, accordingly, the intensity level of ultraviolet radiation of the matrix 3, and the control signal supplied to the input C ₅ of the power supply 5, sets the output level power at the output D _{2 of the} last and, accordingly, the level of light radiation intensity of the matrix 22.

Information about the modulation parameters of the parameters of ultraviolet radiation of the diodes 4 specified by the switches 12 ₁ -12 _n , coming from the output E to the input A _{1 of the} software device 7, is processed in the latter with the subsequent formation at the output B _{1/1 of the} software device 7 using the modulator 10 control signals with amplitude and / or frequency and / or pulse-width modulation, coming through the input C ₁ of the power supply 5 to the adapter 11. In accordance with the incoming signals, the adapter 11 modulates the parameters of the electric about the current at the output D ₁ of the power supply 5 connected to the matrix 3, as a result of which the amplitude and / or frequency, and / or pulse-width modulation of the parameters of the ultraviolet radiation of the diodes 4 is set by the switches 12 ₁ -12 _n on the control panel 8.

After applying the gel to the nails and setting using the control panel 8 of the above operating parameters of the polymerization device, the fingernail of the fingers is introduced into the working area 2. At the same time, the position sensor 18 is activated, which sends an information signal about the specified input of the fingers to zone 2 to the input A _{4 of the} software device 7, after which the output software in the _1/4 device 7 is formed a control signal to the power switch matrixes 3 and 22, applied to the input power supply ₄ C 5, after which the matrix 3 and 22 begin to draw power from the unit 5 and imerizator starts. At the same time, at the output B _{4/2 of the} software device 7, a control signal is generated, which is input to the input F _{2 of the} signal device 17, which provides an audible or light signal, indicating the start of the polymerization of the nail gel.

Under the action of ultraviolet radiation coming from the diodes 4, in the working area 2, the polymerization reaction of the gel applied to the nails is carried out with the hardening of the latter. In this case, the pulsed glow of the diodes 4 of the matrix 3, especially with pulse-width modulation of the light waves emitted by the diodes 4, increases the efficiency of the polymerization process and helps to increase the strength of the helium nail coating obtained after the polymerization procedure. However, the pulsed glow of the diodes 4 allows you to maintain the optimum temperature of the gel during its polymerization.

Information about the current value of the intensity of the ultraviolet radiation of the matrix 3 during operation of the polymerization device is constantly transmitted from the output of the detector 15, which receives the specified radiation, to the input A _{3 of the} software device 7. When the current value of the intensity of the ultraviolet radiation of the matrix 3 increases above the value specified by the switch 14, the software device 7, in accordance with the information received from the output of the detector 15, after processing the latter, generates a control signal at its output B _1/2 To reduce the supply of electric power to the matrix 3, which is input to the input C ₂ of the power supply 5. In this case, the power at the output D ₁ of the power supply 5 decreases, which leads to a decrease in the current value of the intensity of ultraviolet radiation of the matrix 3 to the value specified by switch 14. When the current value of the intensity of the ultraviolet radiation of the matrix 3 decreases below the value set by the switch 14, the software device 7 receives information from the detector 15 about the indicated decrease in the intensity of ultraviolet radiation and after processing the specified information sends from the output B _1/2 to the input C ₂ of the power supply 5 control a signal to increase the power at the output D ₁ of the power supply 5, which leads to an increase in the current value of the intensity of ultraviolet radiation of the matrix 3 to the specified value of the switch 14.

In the process of operation of the polymerization unit, the control unit 6 monitors and maintains within the specified limits the temperature of the air inside the housing 1 in the area of the matrices 3 and 22 or the temperature of the diodes 4. In this case, if the current temperature recorded by the sensor 20 increases, it exceeds the value set by the switch 21 panel 8, from the sensor 20 to the input A _{5 of the} software device 7 receives a signal of the specified increase, after processing which at the output B _{5 of the} software device 7 a control signal is generated to turn on the valve a regulator 19, lowering the above temperature to a value set by the switch 21 of the panel 8. On the contrary, if the current value of the indicated temperature drops when the fan 19 is turned on, it falls below the value set by the switch 21 of the panel 8, the software device 7 generates an output B from its sensor 20 _{5, a} control signal to turn off the fan 19, which leads to an increase in the current value of the above temperature to the value set by the switch 21 of the panel 8.

During operation of the polymerizator, the RGB matrix 22 of the light emitting diodes 23 creates a backlight ahead of the ultraviolet radiation emanating from the diodes 4 of the matrix 3. This illumination provides a smoothing of the pulsation of the light flux emanating from the housing 1 during the operation of the polymerizer, which provides more comfortable conditions for the human eye when carrying out the specified procedure. In this case, the radiation intensity of the RGB matrix 22 is set to the necessary limits using the switch 24 of the control panel 8, and the color gamut of the light radiation of the diodes 23 is specially selected so that the specified radiation creates a chromotherapy effect during the polymerization of the nail gel, in which it is perceived by the eyes the light radiation emanating from diodes 23 has a beneficial healing effect, both on the eyes and on the whole human body.

After the time specified in the switch 13 of the panel 8 for the nail gel polymerization is completed, a timer 9 is triggered and a control signal transmitted to the input F _{1 of the} signal device 17 is generated at the output B _{4/1 of the} software device 7 to trigger the signal device 17, which gives an audio or light signal, notifying the end of the procedure for the polymerization of the nail gel, after which the nail part of the fingers is removed from the working area 2. At the same time, when the timer 9 is activated, output B _{1/3 is} software of device 7, a control signal is generated to turn off the power of the matrices 3 and 22, which is fed to input C ₃ of the power supply 5, as a result of which the power of these matrices is turned off automatically. If there is no timer 9 in the control unit 6, the matrices 3 and 22 can be powered off using a switch (not shown) located on the control panel 8 after the end of the nail gel polymerization procedure, monitored on the screen of the visual indication unit 16, or using the position sensor 18 - at the moment of the last actuation at the beginning of the removal of the nail part of the fingers from the working area 2.

In the event of any malfunction of the polymerization device during its operation, the control unit 25 detects and encodes the specified malfunction and generates at the output B _{4/3 of the} software device 7 a control signal for the operation of the signal device 17. After the specified signal is received at the input F _{3 of the} signal device 17 the latter gives a signal to indicate a malfunction. At the same time, the control unit 25 generates at the output B _{3 of the} software device 7 a control signal supplied to the input of the visual display unit 16 to display on the screen of the unit 16 the code of the occurring malfunction, by which the type of malfunction is established. Synchronously with the two first control signals, the control unit 25 generates at the output B _{1/3 of the} software device 7 also a control signal to turn off the power of the matrices 3 and 22. After the specified signal is input to input C ₃ of the power supply 5, the power of the matrices 3 and 22 is turned off.

When using the polymerization agent for carrying out the gel polymerization procedure on the toenails, the above described operation procedure of the polymerization agent is preserved.

Claims (24)

1. LED polymerization of nail gels, containing a housing, a working area, designed to accommodate the fingernail of the fingers during the polymerization of the gel applied to the nails and located in the housing or outside and preferably below the last matrix of light-emitting diodes with ultraviolet radiation, built into the aforementioned case with the possibility of ultraviolet radiation entering the specified working area and equipped with a power supply and a control unit with a control panel, characterized in that the control unit comprises a software device, preferably made in the form of a microprocessor, the power supply unit is controllable and connected to its input and output, respectively, to the output of the software device and to the matrix of light emitting diodes, and the control panel is connected by its output to the input of the software device, the control unit is configured to operate the matrix of light emitting diodes in a pulsed mode with amplitude and / or frequency, and / or pulse-width modulation parameters of the said ultraviolet radiation, for which the control panel is equipped with switches, with which the amplitude and / or frequency, and / or pulse-width modulation of the parameters of ultraviolet radiation is set, the control unit is equipped with a modulator configured to form the input block power supply of control signals with amplitude and / or frequency and / or pulse-width modulation, corresponding to modulation of parameters of ultraviolet radiation It is specified on the control panel, and the power supply unit is equipped with an adapter that receives the specified control signals from the output of the software device and provides modulation of the electric current parameters at the output of the power supply unit connected to the matrix of light emitting diodes in accordance with them. 2. The polymerizer according to claim 1, characterized in that the control unit is configured to operate the matrix of light emitting diodes in a pulsed mode, preferably with pulse-width modulation of the parameters of said ultraviolet radiation, whereby the control panel is equipped with one or more one switches, by means of which a pulse-width modulation of ultraviolet radiation parameters is preferably specified, said modulator is configured, respectively, to form Exit programmer entering input signals control the power supply is preferably a pulse width modulation corresponding to the modulation ultraviolet radiation parameters specified in the control panel. 3. The polymerizer according to claim 1, characterized in that the modulator is made in the form of a microcircuit. 4. The polymerizer according to claim 1, characterized in that the control unit is equipped with a timer that is activated at the end of the polymerization procedure, and is configured to adjust the duration of the polymerization procedure and the intensity of ultraviolet radiation of these diodes, for which the specified timer is connected with its input and output, accordingly, to the output and input of the software device, the control panel is equipped with switches, with which the specified duration of the polymerization procedure and the intensity of ultraviolet radiation, and the software device is configured to set the response time of the specified timer in accordance with the duration of the polymerization procedure specified on the control panel, and the possibility of generating at its output the control signals received at the input of the specified power supply unit to set the output power of the power supply unit corresponding to the value of the intensity of ultraviolet radiation set on the control panel, and to turn off the power of the matrix with veto-emitting diodes when the specified timer is triggered. 5. The polymerizer according to claim 4, characterized in that the timer is made in the form of a microcircuit. 6. The polymerizer according to claim 4, characterized in that the control unit is equipped with an ultraviolet radiation detector located in the said housing near the matrix of light emitting diodes with the possibility of ultraviolet radiation reaching it and connected to its input to the input of the software device, which is configured to form the output of the control signal supplied to the input of the power supply unit to reduce the output power of the power supply unit when increasing the current value of the intensity of ultraviolet radiation ovogo radiation above a predetermined value on the control panel and to increase said reduction in power at the current value of ultraviolet radiation intensity value below said predetermined value. 7. The polymerizer according to claim 4, characterized in that the control unit is provided with a visual indication unit for the operating parameters of the polymerizer, connected by its input to the output of the software device and made with a screen and preferably in the form of a display, with the possibility of visual display on its screen, at least , the specified duration of the polymerization procedure, the specified intensity of ultraviolet radiation and the time remaining until the end of the polymerization procedure of the gel applied to the nails, or the time elapsed from the beginning this procedure, the software unit adapted to generate at its output a received input a visual indication of said block of information signals on the values of the working parameters of the polymerizer. 8. The polymerizer according to claim 7, characterized in that the unit for visual indication of the operating parameters of the polymerizer is configured to visually display on its screen the current values of the modulated ultraviolet radiation parameters. 9. The polymerizer according to claim 7, characterized in that the unit for visual indication of the operating parameters of the polymerizer is combined with the control panel. 10. The polymerizer according to claim 7, characterized in that the control unit is equipped with a signal device, the input of which is connected to the output of the software device, which is configured to generate at its output a control signal supplied to the input of the signal device to trigger the signal device when the timer is triggered. 11. The polymerizer according to claim 10, characterized in that the signal device is combined with the control panel. 12. The polymerizer according to claim 10, characterized in that the control unit is equipped with a position sensor, preferably a sensor type, located in the said working area and connected by its output to the input of the software device, while the position sensor is made with the possibility of its operation when entering the fingernail to the specified working area, and the software device is configured to generate at its output a control signal received at the input of the signal device to trigger the signal device When actuation of said position sensor. 13. The polymerizer according to claim 12, characterized in that the control unit is configured to automatically turn on the power of the matrix of light emitting diodes when the fingernail of the fingers is inserted into the said working area, for which the software device is configured to form an input block supplying a control signal to turn on the power of the matrix of light emitting diodes when the said position sensor is triggered. 14. The polymerizer according to item 12 or 13, characterized in that when the location of its working area in the said housing, the position sensor is built into the latter. 15. The polymerizer according to claim 13, characterized in that it is capable of maintaining, within predetermined limits, the air temperature inside the housing in the area where the matrix of light-emitting diodes is located or the temperature of these diodes, for which a fan is installed in the body of the polymerizer to cool the area of the light-emitting matrix diodes with ultraviolet radiation, the control unit is equipped with a sensor of any of the indicated temperatures built into the said housing, the output of which is connected to the input of the software device, and on the control panel there is a switch with which any of the indicated temperatures is set, and the fan is connected to the output of the software device, which is configured to generate a control signal arriving at the fan to turn it on and off, respectively, with increasing the temperature recorded by the indicated sensor is higher than the value set on the control panel and when it decreases below the latter, and the visual indication unit The controller is capable of visually displaying on its screen the current temperature value recorded by the indicated sensor. 16. The polymerizer according to clause 15, characterized in that when the location of its working zone in said housing, the fan is placed under the specified zone with the possibility of cooling. 17. The polymerizer according to claim 1, characterized in that when its working area is located in the said case, the latter is made with the possibility of eliminating direct exposure to ultraviolet radiation on the eyes of a person, for which a screening element directed towards the said working area is installed on the front side of the body, preventing the exit of ultraviolet radiation out of the specified working area. 18. The polymerizer according to Claim 15, characterized in that a controllable RGB matrix of light emitting diodes is connected to the output of said controllable power supply and is preferably installed closer to the front edge of the said casing than the matrix of light emitting diodes with ultraviolet radiation in said casing. the latter, while the control unit is configured to automatically turn on the power of the RGB matrix when entering the fingernail of the fingers into the said working area, for which the software The property is configured to generate at its output a control signal supplied to the input of the power supply unit to turn on the power of the RGB matrix when the above-mentioned position sensor is triggered, in addition, a switch is installed on the control panel with which the light intensity of the RGB matrix is set, the visual indication unit configured to visually display on its screen the light intensity of the RGB matrix specified on the control panel, and the software device is configured to NOSTA formation at its output supplied to the input control signal supply unit for providing light intensity values RGB-matrix given on the control panel, and a control signal for interrupting power RGB-matrix for actuation of said timer. 19. The polymerizer according to claim 18, characterized in that it is capable of creating a chromotherapy effect, for which the light emitting diodes of the RGB matrix are adapted to emit light with a specially selected color gamut, which has a beneficial healing effect on both the eyes and the whole human body as a whole. 20. The polymerizer according to claim 19, characterized in that it is configured to detect malfunctions arising in it during operation and to notify the latter, for which the control unit is equipped with a control unit configured to detect and code possible malfunctions of the polymerizer, wherein visual indication is configured to visually display on its screen the codes of the occurring malfunctions, the signaling device is configured to provide signals to notify of occurring malfunctions x, and the software device is configured to generate a control signal at its output in the event of a malfunction of the control signal to the input of the signal device to activate the signal device, which is fed to the input of the visual indication unit of the control signal to display on the screen the indicated block code of the occurring malfunction and received at the input of the power supply control signal to turn off the power of both matrices of light emitting diodes. 21. The polymerizer according to claim 20, characterized in that the control unit or part thereof is based on a programmable logic matrix. 22. The polymerizer according to claim 1, characterized in that the power supply is autonomous. 23. The polymerizer according to claim 1, characterized in that the control unit is built into the said housing with free access to the control panel and the screen of the visual indication unit of the operating parameters of the polymerizer. 24. The polymerizer according to item 23, wherein the power supply is autonomous and built into the casing.