CN213661592U - Touch power supply for intelligent tattoo machine - Google Patents

Abstract

The touch power supply for the intelligent tattoo machine comprises a shell, a main control board, a panel bracket plastic board and a touch panel; the main control panel is provided with an OLED display screen, the OLED display screen is inserted into the square notch of the panel bracket plastic plate, and the touch panel is provided with a transparent window, a plurality of touch keys and three indicator lamps; the touch panel is in electrical signal connection with the main control panel, and the main control panel is respectively electrically connected with an external input power supply, the tattooing machine and the foot switch through an input socket, an output socket and a control socket on the side surface of the shell; the main control board is provided with a singlechip which is respectively in electrical signal connection with the main control board and the touch panel, the singlechip processes the received operation signal and controls the main control board to perform corresponding action, and the singlechip transmits a display instruction to the OLED display screen through a data line; it is not only that each button is multiple functional, instructs clearly simultaneously, and output voltage stable performance, the precision is high, the demand of cooperation tattoo machine continuous operation that can be better, and fail safe nature is high.

Description

Touch power supply for intelligent tattoo machine

Technical Field

The utility model relates to a cosmetic body beautification equipment field, concretely relates to intelligent touch power supply for line body machine.

Background

In recent years, as the living standard of people is improved, people are also gradually pursuing beauty, for example, tattooing is a popular beauty treatment method in recent years, and beautiful patterns are punched on the skin of people by using tattooing needles and coloring materials. Early tattoo machines were coarse, mostly hand-made, high cost of hand-made, single pattern, and at that time the electric tattoo machine jumped 1000 times per minute, only pricked the epidermis of the skin, and the depth was only 0.8-1 mm. Today tattoo machines are manufactured with a pure green fire, and electric tattoo machines jump 30000 times per minute. The tattoo machine generally comprises a tattoo machine frame (with the differences of stamping, casting, wire cutting and manual welding), a magnetic coil, a capacitor, a vibrating suspension iron, an elastic sheet, an adjusting ejector rod screw and other main components, and the tattoo machine frame cannot be used. When the tattooing needle reciprocating motion device works, 220V alternating current is connected to the outside through the intermediate voltage stabilizing and transformer and is converted into direct current with the voltage value between 3V and 20V, instant suction and spraying effects are generated between the two main coils and an electric spraying point under the direct current voltage between 3V and 20V, and the tattooing needle is driven to generate high-speed up-and-down reciprocating motion by virtue of the reciprocating motion of the tattooing machine spring leaf. When the tattooing needle works, the tattooing needle punctures the epidermis layer uniformly at a high speed, and the tattooing pigment is implanted into the basal layer of the epidermis layer, so that the pigment is permanently fixed on the epidermis to form exquisite patterns and characters of various pigment combinations, thereby achieving the effects of modifying the skin and covering scars of the epidermis. In order to achieve the above effects, a reasonable control power supply needs to be designed to complete the process.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, a touch power supply for an intelligent tattooing machine is provided so as to meet the requirement of better matching with continuous work of the tattooing machine and achieve the purposes of safety and reliability.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

a touch power supply for an intelligent tattoo machine comprises a shell, a main control board, a panel bracket plastic board and a touch panel; the main control panel is provided with an OLED display screen and is accommodated in the shell; an input socket, an output socket and a control socket are arranged on the side face of the shell, a square notch is formed in the panel support plastic plate and is arranged on the main control plate, the OLED display screen is inserted into the square notch, a transparent window, three indicating lamps and a plurality of touch keys are arranged on the touch panel and are arranged on the panel support plastic plate, and the OLED display screen faces the transparent window; the touch panel is in electrical signal connection with the main control panel, and the main control panel is electrically connected with an external input power supply, the tattooing machine and the foot switch through an input socket, an output socket and a control socket on the side surface of the shell respectively;

the main control panel is provided with a single chip microcomputer, the single chip microcomputer is respectively in electrical signal connection with the main control panel and the touch panel, the single chip microcomputer performs signal processing on received operation signals and controls the main control panel to perform corresponding actions, and the single chip microcomputer transmits display instructions to the OLED display screen through a data line;

the touch keys comprise a voltage regulation increasing button, a time button, a foot switch control button, a voltage regulation decreasing button, a V1 voltage storage gear, a V2 voltage storage gear, a V3 voltage storage gear, a V4 voltage storage gear, a two-way output switching button and a main switch button; the three indicator lamps are a first output indicator lamp, a second output indicator lamp and a pedal output port indicator lamp;

the transparent window is located touch panel's upper portion left side, voltage regulation increases progressively button, time button, foot switch control button and voltage regulation and decreases progressively the button and concentrate and set up touch panel's upper portion right side, V1 voltage storage gear, V2 voltage storage gear, V3 voltage storage gear and V4 voltage storage gear set up side by side on the touch panel of transparent window below, two way output shift buttons and total shift knob are close to respectively touch panel's lower right corner department sets up.

Preferably, a power input circuit, a 5V voltage reduction circuit, a 3.3V voltage reduction circuit, a storage circuit, a crystal oscillator circuit, a single chip microcomputer debugging programming circuit, a buzzer circuit, a single chip microcomputer main control circuit, a touch control circuit, a display circuit, a pedal control circuit, an output protection circuit, an output voltage conversion circuit and an interface platelet are respectively arranged on the main control board.

Preferably, the power input circuit inputs 24V direct current from the outside through a power socket, and enters the circuit system after passing through four current-limiting resistors, and the four current-limiting resistors R6, R7, R8, R9, Q2 and U10 protect the circuit; the 5V voltage reduction circuit is used for reducing an input direct-current 24V power supply into 5V voltage through an XL1509-5.0(U6) switching power supply chip and supplying the voltage to the next stage for use; the 3.3V voltage reduction circuit firstly reduces the voltage to 5V by XL1509-5.0(U6), then reduces the voltage to 3.3V by AMS1117-3.3(IC5), and supplies the voltage to a singlechip, a memory and an OLED display screen for use; the 24AA08(U2) of the storage circuit is an I2C storage device and is used for storing set voltage signals, and time data can be stored after power failure so as to be called when the power is turned on again; the crystal oscillator XT1 of the crystal oscillator circuit provides 8M clock signals for the singlechip; the single chip microcomputer debugging programming circuit can perform programming debugging operation on the single chip microcomputer through an 8PIN interface (J5J 7); the touch control circuit is provided with 8 touch switches which are respectively a voltage increasing button, a voltage decreasing button, a working mode switching button, a timing function button and four voltage storage buttons, after the buttons are pressed down, signal processing is carried out through a touch chip TS08P (U4), and the processed signals are transmitted to the single chip microcomputer to carry out corresponding actions; the 24V voltage input by the output voltage conversion circuit is reduced through an LMR14050(U3) switching power supply chip, an SGM358(U5) and peripheral related elements form a feedback controller, signals in various states are calculated and fed back to an LMR14050(U3) feedback pin, and therefore the output voltage of V-OUT is controlled; the output protection circuit is conducted when the load is short-circuited or overloaded, and AO440(U8) is conducted, so that the power supply is protected; when the pedal control circuit is pedaled, the optical coupler (U9) is switched on, so that the singlechip is controlled to perform corresponding actions; the LTL431ATLT1G (Q3) of the display circuit and the corresponding peripheral circuit provide a backlight voltage for the OLED display screen, and the singlechip transmits a display instruction to the OLED display screen through a data line; when a button is pressed, the buzzer circuit controls a buzzer (B1) to make a sound to indicate the pressing action of the button.

Through the technical scheme, the utility model discloses a be provided with the OLED display screen on the main control board to be equipped with power input circuit, 5V step-down circuit, 3.3V step-down circuit, storage circuit, crystal oscillator circuit, singlechip debugging and burn circuit, bee calling organ circuit, singlechip master control circuit, touch control circuit, display circuit, pedal control circuit, output protection circuit, output voltage transform circuit and interface platelet. The touch panel is provided with a voltage regulation increasing button, a time button, a foot switch control button, a voltage regulation decreasing button, a V1 voltage storage gear, a V2 voltage storage gear, a V3 voltage storage gear, a V4 voltage storage gear, a two-way output switching button and a main switch button; the three indicator lamps are a first output indicator lamp, a second output indicator lamp and a pedal output port indicator lamp, and not only are the keys complete in function, but also the indication is clear, the output voltage performance is stable, the precision is high, the requirement of continuous work of the tattooing machine can be better matched, and the safety and reliability are high. Thereby the purposes of novel design, reasonable structure and good application effect are achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is an exploded view of a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention;

fig. 2 is a schematic diagram of external connection of a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention;

fig. 3 is a power input circuit diagram of a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention;

fig. 4 is a 5V voltage-reducing circuit diagram of a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention;

fig. 5 is a 3.3V step-down circuit diagram of a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention;

fig. 6 is a storage circuit diagram of a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention;

fig. 7 is a crystal oscillator circuit diagram of a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention;

fig. 8 is a circuit diagram of a touch power supply for an intelligent tattooing machine according to an embodiment of the present invention;

fig. 9 is a circuit diagram of a buzzer of a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention;

fig. 10 is a circuit diagram of a single chip microcomputer main control circuit of a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention;

fig. 11 is a touch control circuit diagram of a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention;

fig. 12 is a circuit diagram showing a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention;

fig. 13 is a pedal control circuit diagram of a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention;

fig. 14 is an output protection circuit diagram of a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention;

fig. 15 is a circuit diagram of the output voltage conversion circuit of the touch power supply for the intelligent tattooing machine according to the embodiment of the present invention;

fig. 16 is a circuit diagram of an interface platelet of a touch power supply for an intelligent tattoo machine according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The present invention will be described in further detail with reference to examples and embodiments.

Examples

As shown in fig. 1 to 16, a touch power supply for an intelligent tattooing machine includes a housing 1, a main control board 2, a panel support plastic board 3, and a touch panel 4; the main control panel 2 is provided with an OLED display screen 5 and is accommodated in the shell 1; an input socket, an output socket and a control socket are arranged on the side surface of the shell 1, a square gap 31 is formed in the panel support plastic plate 3 and is arranged on the main control plate 2, the OLED display screen 5 is inserted into the square gap 31, a transparent window 41, three indicator lamps and a plurality of touch keys are arranged on the touch panel 4 and are arranged on the panel support plastic plate 3, and the OLED display screen 5 faces the transparent window 41; the touch panel 4 is in electrical signal connection with the main control panel 2, and the main control panel 2 is respectively in electrical connection with an external input power supply, the tattooing machine 6 and the foot switch 7 through an input socket, an output socket and a control socket on the side surface of the shell 1;

the main control panel 2 is provided with a single chip microcomputer 21, the single chip microcomputer 21 is respectively in electrical signal connection with the main control panel 2 and the touch panel 4, the single chip microcomputer 21 performs signal processing on received operation signals and controls the main control panel 2 to perform corresponding actions, and the single chip microcomputer 21 transmits display instructions to the OLED display screen 5 through a data line;

the plurality of touch keys include a voltage adjustment increment button 42, a time button 43, a foot switch control button 44, a voltage adjustment decrement button 45, a V1 voltage storage step 46, a V2 voltage storage step 47, a V3 voltage storage step 48, a V4 voltage storage step 49, a two-way output switching button 50 and a general switch button 51; the three indicator lights are a first output indicator light 81, a second output indicator light 82 and a foot pedal output port indicator light 83. The voltage adjustment increment button 42 is touched once to increment the voltage by 0.1V, and pressed for a long time to increment by 0.5V. The time button 43 is touched once to start timing, and is touched once again to stop timing, and the timing is cleared for a long time. The foot control switch button 44 is operated continuously by touching for 3 seconds. The voltage adjustment decrement button 45 is tapped once and decremented by 0.1V, and the long press is decremented by 0.5V. The voltage storage gear 46 of V1, the voltage storage gear 47 of V2, the voltage storage gear 48 of V3 and the voltage storage gear 49 of V4 are defaulted to 2V, 4V, 6V and 8V. The two-way output switching button 50 presses a first way output indicator lamp 81 to light, and meanwhile, the first way output; then, the first output indicator 81 is pressed to be turned off, the second output indicator 82 is turned on, and the first output is stopped and the second output is provided. When there is an output from the foot switch port, the foot output port indicator lamp 83 is on.

The transparent window 41 is disposed on the left side of the upper portion of the touch panel 4, the voltage regulation increment button 42, the time button 43, the foot switch control button 44 and the voltage regulation decrement button 45 are collectively disposed on the right side of the upper portion of the touch panel 4, the V1 voltage storage gear 46, the V2 voltage storage gear 47, the V3 voltage storage gear 48 and the V4 voltage storage gear 49 are disposed side by side on the touch panel 4 below the transparent window 41, and the two-way output switching button 50 and the total switch button 51 are disposed near the lower right corner of the touch panel 4 respectively.

Meanwhile, a power input circuit 201, a 5V voltage reduction circuit 202, a 3.3V voltage reduction circuit 203, a storage circuit 204, a crystal oscillator circuit 205, a single chip microcomputer debugging and programming circuit 206, a buzzer circuit 207, a single chip microcomputer main control circuit 208, a touch control circuit 209, a display circuit 210, a foot control circuit 211, an output protection circuit 212, an output voltage conversion circuit 213 and an interface platelet 214 are respectively arranged on the main control board 2. The power input circuit 201 inputs 24V direct current from the outside through a power socket, and enters a circuit system after passing through four current-limiting resistors, and the four current-limiting resistors R6, R7, R8, R9, Q2 and U10 of the circuit input circuit play a role in protecting the circuit; the 5V voltage reduction circuit 202 reduces the voltage of an input direct current 24V power supply into 5V voltage through an XL1509-5.0(U6) switching power supply chip, and supplies the voltage to the next stage for use; the 3.3V voltage reduction circuit 203 is used for firstly reducing the voltage to 5V by XL1509-5.0(U6), then reducing the voltage to 3.3V by AMS1117-3.3(IC5), and supplying the voltage to the singlechip 21, the memory and the OLED display screen 5 for use; the 24AA08(U2) of the memory circuit 204 is an I2C memory device and is used for storing set voltage signals, and time data can also be stored after power failure so as to be called when the computer is powered on again; the crystal oscillator XT1 of the crystal oscillator circuit 205 provides 8M clock signals for the single chip microcomputer; the single chip microcomputer debugging programming circuit 206 can perform programming debugging operation on the single chip microcomputer through an 8PIN interface (J5J 7); the touch control circuit 209 is provided with 8 touch switches which are respectively a voltage increasing button, a voltage decreasing button, a working mode switching button, a timing function button and four voltage storage buttons, after the buttons are pressed down, signal processing is carried out through a touch chip TS08P (U4), and the processed signals are transmitted to the single chip microcomputer to carry out corresponding actions; the 24V voltage input by the output voltage conversion circuit 213 is reduced by an LMR14050(U3) switching power supply chip, the SGM358(U5) and peripheral related elements form a feedback controller, and signals in various states are calculated and fed back to an LMR14050(U3) feedback pin, so that the output voltage of V-OUT is controlled; the output protection circuit 212 will conduct when the load is short-circuited or overloaded, AO440(U8), thereby protecting the power supply; when the pedal is stepped on, the foot control circuit 211 switches on an optical coupler (U9) so as to control the singlechip to perform corresponding actions; the LTL431ATLT1G (Q3) of the display circuit 210 and corresponding peripheral circuits provide a backlight voltage for the OLED display screen, and the singlechip transmits a display instruction to the OLED display screen through a data line; when a button is pressed, the buzzer circuit 207 controls a buzzer (B1) to sound and instructs the pressing operation of the button.

In this case, the utility model discloses a be provided with the OLED display screen on the main control board to be equipped with power input circuit, 5V step-down circuit, 3.3V step-down circuit, storage circuit, crystal oscillator circuit, singlechip debugging and burn circuit, bee calling organ circuit, singlechip owner's control circuit, touch control circuit, display circuit, pedal control circuit, output protection circuit, output voltage transform circuit and interface platelet. The touch panel is provided with a voltage regulation increasing button, a time button, a foot switch control button, a voltage regulation decreasing button, a V1 voltage storage gear, a V2 voltage storage gear, a V3 voltage storage gear, a V4 voltage storage gear, a two-way output switching button and a main switch button; the three indicator lamps are a first output indicator lamp, a second output indicator lamp and a pedal output port indicator lamp, and not only are the keys complete in function, but also the indication is clear, the output voltage performance is stable, the precision is high, the requirement of continuous work of the tattooing machine can be better matched, and the safety and reliability are high. Thereby the purposes of novel design, reasonable structure and good application effect are achieved.

What has just been said above is the preferred embodiment of the touch power supply for intelligent tattoo machine of the present invention, it should be noted that, for those skilled in the art, without departing from the inventive concept, several changes and improvements can be made, and these all belong to the protection scope of the present invention.

Claims (3)

1. A touch power supply for an intelligent tattoo machine is characterized by comprising a shell, a main control board, a panel bracket plastic board and a touch panel; the main control panel is provided with an OLED display screen and is accommodated in the shell; an input socket, an output socket and a control socket are arranged on the side face of the shell, a square notch is formed in the panel support plastic plate and is arranged on the main control plate, the OLED display screen is inserted into the square notch, a transparent window, a plurality of touch keys and three indicator lamps are arranged on the touch panel and are arranged on the panel support plastic plate, and the OLED display screen faces the transparent window; the touch panel is in electrical signal connection with the main control panel, and the main control panel is electrically connected with an external input power supply, the tattooing machine and the foot switch through an input socket, an output socket and a control socket on the side surface of the shell respectively;

the main control panel is provided with a single chip microcomputer, the single chip microcomputer is respectively in electrical signal connection with the main control panel and the touch panel, the single chip microcomputer performs signal processing on received operation signals and controls the main control panel to perform corresponding actions, and the single chip microcomputer transmits display instructions to the OLED display screen through a data line;

the touch keys comprise a voltage regulation increasing button, a time button, a foot switch control button, a voltage regulation decreasing button, a V1 voltage storage gear, a V2 voltage storage gear, a V3 voltage storage gear, a V4 voltage storage gear, a two-way output switching button and a main switch button; the three indicator lamps are a first output indicator lamp, a second output indicator lamp and a pedal output port indicator lamp;

the transparent window is located touch panel's upper portion left side, voltage regulation increases progressively button, time button, foot switch control button and voltage regulation and decreases progressively the button and concentrate and set up touch panel's upper portion right side, V1 voltage storage gear, V2 voltage storage gear, V3 voltage storage gear and V4 voltage storage gear set up side by side on the touch panel of transparent window below, two way output shift buttons and total shift knob are close to respectively touch panel's lower right corner department sets up.

2. The touch power supply for the intelligent tattooing machine according to claim 1, wherein the main control board is respectively provided with a power input circuit, a 5V voltage reducing circuit, a 3.3V voltage reducing circuit, a storage circuit, a crystal oscillator circuit, a single chip microcomputer debugging programming circuit, a buzzer circuit, a single chip microcomputer main control circuit, a touch control circuit, a display circuit, a foot control circuit, an output protection circuit, an output voltage conversion circuit and an interface platelet.

3. The touch power supply for the intelligent tattooing machine according to claim 2, wherein the power input circuit inputs 24V dc from outside through the power socket, and enters the circuit system through four current limiting resistors, and the four current limiting resistors R6, R7, R8, R9, Q2 and U10 protect the circuit; the 5V voltage reduction circuit is used for reducing an input direct-current 24V power supply into 5V voltage through an XL1509-5.0 switching power supply chip and supplying the voltage to the next stage for use; the 3.3V voltage reduction circuit firstly reduces the voltage to 5V from XL1509-5.0, then reduces the voltage to 3.3V through AMS1117-3.3, and supplies the voltage to a singlechip, a memory and an OLED display screen for use; the 24AA08 of the storage circuit is an I2C storage device and is used for storing set voltage signals, and time data can be stored after power failure so as to be called when the computer is started again; the crystal oscillator XT1 of the crystal oscillator circuit provides 8M clock signals for the singlechip; the single chip microcomputer debugging programming circuit can perform programming debugging operation on the single chip microcomputer through an 8PIN interface J5J 7; the touch control circuit is provided with 8 touch switches which are respectively a voltage increasing button, a voltage decreasing button, a working mode switching button, a timing function button and four voltage storage buttons, after the buttons are pressed down, signal processing is carried out through a touch chip TS08P, and the processed signals are transmitted to the single chip microcomputer to carry out corresponding actions; the 24V voltage input by the output voltage conversion circuit is reduced through an LMR14050 switching power supply chip, the SGM358 and peripheral related elements form a feedback controller, and signals in various states are calculated and fed back to an LMR14050 feedback pin, so that the output voltage of V-OUT is controlled; the output protection circuit is connected with the AO440 when the load is short-circuited or overloaded, thereby protecting the power supply; when the pedal control circuit is pedaled, the optical coupler is conducted, so that the single chip microcomputer is controlled to perform corresponding actions; the LTL431ATLT1G of the display circuit and corresponding peripheral circuits provide a backlight voltage for the OLED display screen, and the single chip microcomputer transmits a display instruction to the OLED display screen through a data line; when a button is pressed down, the buzzer circuit controls the buzzer to sound and indicates the pressing action of the button.

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