KR200483186Y1

KR200483186Y1 - Cosmetic bottle

Info

Publication number: KR200483186Y1
Application number: KR2020160000593U
Authority: KR
Inventors: 시아오민 주
Original assignee: 센젠 하리-파워 인더스트리얼 캄파니, 리미티드
Priority date: 2015-09-02
Filing date: 2016-02-02
Publication date: 2017-04-12
Also published as: CN204950947U; FR3040272A3; KR20170000924U; FR3040272B3; ITUB201613673U1; JP3203912U

Abstract

The present invention provides a cosmetic bottle comprising a skin detecting portion (101), a nut cap (102), and a skin moisture replenishing portion (103). The skin detecting portion 101 includes a first contact point 104, a second contact point 105 and a detection electric circuit. The first contact point 104 and the second contact point 105 are connected to a detection electric circuit, The skin moisture value is detected through the electric circuit, and the skin detecting part 101 and the nut cap 102 or the skin moisture replenishing part 103 are connected. Allow the user to be more intuitive about their skin moisture condition and immediately replenish the skin with water. Allows people to be more aware of their skin moisture condition, more scientifically and reasonably to supplement their skin moisture, and make cosmetics more intelligent to moisturize the skin's moisture.

Description

Cosmetic Bottle {COSMETIC BOTTLE}

The present invention relates to a cosmetic bottle, and more particularly to a cosmetic bottle for detecting skin moisture.

Traditional cosmetics are inevitable to supplement the skin with moisture, do not know the condition of skin moisture, and can not provide scientific and reasonable moisturization to the skin. This design allows the consumer to more intuitively understand their skin moisture condition and immediately replenish the skin with water. Allow people to take more care of their skin moisture conditions and make them more scientifically and reasonably replenishing their skin moisture.

In order to solve the technical problems existing in the existing technology, the present invention provides a cosmetic bottle including a skin inspection part, a nut cap, and a skin moisture replenishment part. Wherein the skin detecting portion includes a first contact point, a second contact point, and a detection electric circuit, the first contact point and the second contact point being connected to a detection electric circuit, detecting a skin moisture value through a detection electric circuit, Cap or skin moisturizing part is connected.

As an additional preliminary to this invention, the skin inspection portion and the nut cap are connected in a threaded or lock-coupled manner, the nut cap and skin replenishment portion are connected in a locking manner, and the nut cap is positioned in the middle.

As an additional preliminary to the present design, the skin test portion and the skin moisture replenishment portion are connected by a screw or lock joint, the skin moisture replenishment portion and the nut cap are connected by the lock joint method, and the skin moisture replenishment portion is located in the middle.

As an additional preliminary to this invention, the skin inspection portion and the nut cap are connected by a screw or lock joint, the skin moisture replenishment portion and the skin inspection portion are connected by a lock-in method, and the skin inspection portion is located in the middle.

This invention has the following beneficial effects. Allows users to be more intuitive about their skin moisture conditions and promptly replenish the skin with water. Allows people to be more aware of their skin moisture condition, more scientifically and reasonably to supplement their skin moisture, and make cosmetics more intelligent to moisturize the skin's moisture.

1 is a configuration diagram of a human skin moisture detection system according to the present invention.
2 is an explanatory diagram of an electric circuit structure of the present invention.
3 is a Bluetooth MCU control unit of the present invention.
4 is a Bluetooth antenna impedance matching unit of the present invention.
5 is a structural explanatory view of a sign signal sending unit of the present invention.
6 is a structural explanatory view of the RC integration and diode rectifier unit of the present invention.
Fig. 7 is a first embodiment of a cosmetic bottle according to the present invention.
8 is a second embodiment of the cosmetic bottle of the present invention.
9 is a third embodiment of the cosmetic bottle of the present invention.
FIG. 10 is a structural explanatory view of a portion of the cosmetic bottle of the present invention that is to be inspected.

The following diagrams are combined to further describe the present invention.

Practice Method 1:

As shown in Figs. 7 to 9, this product mainly consists of three parts. In Fig. 1, reference numeral 101 denotes a skin detecting portion, 102 in Fig. 1 denotes a nut cap portion, and numeral 103 in Fig. 1 denotes a skin moisture replenishing portion.

Skin Moisture Detection Part: When you check your skin, you can check the moisture of the skin using this part and connect it to the APP of the mobile phone via Bluetooth.

Nut cap part: Open this cap to check the skin or to replenish the skin with water.

Skin Moisture Replenishment: After detecting skin moisture, APP will instantly replenish the skin with reference to visible data and make your skin moisturize more scientifically and reasonably.

10 is a skin moisture detecting part and the operation method of the corresponding part is as follows. When the skin moisture is to be detected, this portion is mainly inspected after the first contact point 104 and the second contact point 105 (two short contact points) are brought into contact with the skin surface. His inspection principle is as follows. By measuring the "resistance" of the skin through the two contact points, the moisture content of the skin is shown in the APP on the phone in a percentage-wise fashion.

The skin moisture detection part of the present invention can be realized through the following measures and may be realized through other measures.

As shown in Figs. 1 to 6.

In a human skin moisture detection system including a Bluetooth MCU control unit, a Bluetooth antenna impedance matching unit, an RC integration and a diode rectification unit, a sine signal transmission unit, a first contact point Skin, and a second contact point Skin2, A square wave of a sine signal of a high frequency transmitted from the control unit is transmitted to the first contact point Skin, and after the current passes through the skin, the signal is returned to the Bluetooth MCU control unit via the second contact point Skin 2, After the signal is filtered through the integrating and diode rectifying unit and processed for shaping, the Bluetooth MCU control unit starts extracting the samples and then quantifies them to obtain the amount of signal. Then, through the Bluetooth antenna impedance matching unit, . The Bluetooth antenna impedance matching unit mainly manages the matching with the Bluetooth MCU and matches with the onboard antenna part so that the device and the terminal can perform remote and reliable data transmission.

The square wave of the high frequency signal is a 4 KHz ± 500 Hz sine signal such as 3700 Hz, 3800 Hz, 3900 Hz, 4000 Hz, 4300 Hz,

The ninth terminal of the Bluetooth MCU control unit is connected to the RC integration and diode rectification unit and detects the integration value.

The fifth terminal of the Bluetooth MCU control unit is pulled up and connected to the resistor R8 and the LED lamp to control the state of the LED lamp.

The fifteenth terminal of the Bluetooth MCU control unit transmits a sine signal of 4 KHz ± 500 Hz to the first contact point Skin.

The 31st terminal and the 32st terminal of the Bluetooth MCU control unit are connected to the Bluetooth antenna impedance matching unit.

The electric circuit of the Bluetooth antenna impedance matching unit is as follows. The third and fourth capacitors C4 and C6 are connected to the first and second windings L1 and L2 and the third and fourth windings L3 and L4 and the third and fourth capacitors C3 and C4, A fourteenth capacitor C14, a sixteenth capacitor C16 and an antenna, and the antenna, the sixteenth capacitor C16, the fourteenth capacitor C14, the fifth capacitor C5, the first winding L1, The two windings (L2) and the third condenser (C3) are connected in series and then grounded. The lead wire between the first winding L1 and the fifth capacitor C5 is connected to the 32 th terminal of the Bluetooth MCU control unit and the lead between the first winding L1 and the second winding L2 is connected to the Bluetooth MCU control unit and the lead between the second coil L2 and the third capacitor C3 is connected to the 30th terminal of the Bluetooth MCU control unit and the fifth capacitor C5 and the 14th terminal of the MCU control unit are connected to the 31st terminal of the MCU control unit, The fourth capacitor C4 is connected between the capacitor C14 and ground. The sixth capacitor C6 and the third winding L3 are connected in parallel between the fourteenth capacitor C14 and the sixteenth capacitor C16 and then grounded. The 16th capacitor C16 and the antenna are connected to the fourth winding L4 and grounded.

The Bluetooth MCU control unit is a chip including 48 terminals. The first terminal is connected to the power supply VCC and the first terminal is grounded through the seventh capacitor C7. The seventh terminal is connected to the switch; The 12th terminal is connected to the power supply VCC and the 12th terminal is grounded through the 11th capacitor C11. The thirteenth terminal is grounded; The 24th terminal is grounded through the first resistor R1. The 23rd terminal is connected to the D point, the 24th terminal is connected to the C point, and the G point is grounded. D, C, and G are MUC burn points; The 29th terminal is grounded through the tenth capacitor (C10). The 33rd and 34th terminals are grounded. The 35th terminal and the 36th terminal are connected to the power supply VCC and the 35th terminal and the 36th terminal are grounded through the ninth capacitor (C9). The 37th terminal is grounded through the first condenser C1. The 38th terminal is grounded through the second capacitor C2. A crystal oscillator (Y1) is connected between the 37th terminal and the 38th terminal. The 39th terminal is grounded through the eighth capacitor C8.

In the method for detecting the skin moisture of the human body, the method uses the human skin moisture detection system described above to detect the human skin moisture through the following steps. Step 1: Install the application program provided in the terminal location. Step 2: When the operation button of the detection system is pressed, the Bluetooth MCU control unit sends out a broadcast, and at this time, it selects to operate the terminal Bluetooth at the terminal position, then selects the corresponding Bluetooth signal of the broadcast at the APP interface, Use two contact points on the structural member of the test system to make contact with the skin. Step 3: The measured skin moisture value is calculated by Bluetooth MCU algorithm and transmitted intuitively to the terminal APP position.

As shown in Fig. 1, Fig. 1 is a configuration diagram of a human skin moisture detection system of the present invention. The present design includes a Bluetooth MCU control unit, a Bluetooth antenna impedance matching unit, an RC integration and diode rectification unit, and a sine signal transmission unit.

The above-mentioned human skin moisture detection system is connected to the terminal equipment through Bluetooth technology and sends the data obtained by the detection to the terminal (mobile phone, tablet PC, etc.) and measures the total nutrient moisture percentage of the skin on the basis of the skin- It is a skin moisture measuring instrument for guiding the management of the skin used for the skin. The main parts of the human body to be examined are hand, eye, eye, and neck respectively. First, when the user presses the button of the present invention after mounting the application program provided on the terminal side (i.e. MiLi Pure APP), the Bluetooth MCU sends the broadcast. At this time, the terminal Bluetooth is selected to operate the terminal, The SSID of the broadcast being selected and matched, then two contact points on the structural member of the present invention can be contacted to the skin.

A square wave of a high frequency is applied to the first contact point Skin1 which is in contact with the skin. The high frequency of this place is, for example, 4KHz ± 500Hz sine signal. After a small current is passed through the skin, it is returned via the second contact point Skin2. After the signal is filtered and shaped, the sample is extracted and then quantified to obtain the amount of the signal, and then converted into the resistance value of the skin. Through the analysis, a conversion equation is constructed, and then the corresponding resistance value is converted to the corresponding skin moisture content. The detected skin moisture value can be intuitively displayed after being calculated by the Bluetooth MCU algorithm and then sent to the terminal APP.

As shown in Fig. 3 (Bluetooth MCU control unit), Fig. 3 is a Bluetooth MCU control unit of the present invention. The main functions of the unit are sample extraction and detection of AD, reception and transmission of data signals, control of logic, and transmission of signals between high frequencies. His 9th terminal is connected to (RC integration unit - Figure 5) to measure the integral gain value. His fifth terminal is pulled up and connected to resistor R8 and LED to control the state of the LED lamp. Its fifteenth terminal transmits a sine signal of 4 KHz to the first contact point Skin1 which is a structural member of the present invention. Its 31st terminal and 32st terminal are connected to the Bluetooth antenna impedance matching unit.

As shown in FIG. 4, FIG. 4 is a Bluetooth antenna impedance matching unit. The unit mainly manages the matching with the Bluetooth MCU and matches with the on-board antenna part. Thus, the present invention and the terminal (i.e., mobile phone tablet PC) can perform remote and reliable data transmission So that it can proceed.

As shown in FIG. 5, FIG. 5 is a sine signal transmitting unit, and the unit mainly transmits a 4KHz sine signal sent from the MCU to a first contact point Skin1 which is a structural member of the present invention.

6, as shown in FIG. 6, the sine signal transmitted from the first contact point Skin1 passes through the human skin and is then returned to the corresponding RC integration and diode rectifier unit via the second contact point Skin2, which is a structural member, The sinusoidal signal at this time has already changed and is then integrated, filtered and shaped through the RC electrical circuit consisting of C15 and R8, then returned to the Bluetooth MCU position via the diode rectifier unit, AD extracts the sample signal, After obtaining the magnitude of the amount, it is converted to the skin resistance value again. The transformation equation is constructed through a proper analysis of the data, and finally the corresponding resistance value is converted back to the corresponding skin moisture value. Next, the data amount of the moisture value is sent to the terminal.

The foregoing contents are further described in conjunction with specific preferred embodiments thereof, and the specific embodiments of the present invention are not limited by the above description. Various modifications and changes may be made by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

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In cosmetic bottles,
A skin test portion (101), a nut cap (102), and a skin moisture replenishing portion (103);
The skin testing portion 101 includes a first contact point 104 and a second contact point 105 and a detection electrical circuit and the first contact point 104 and the second contact point 105 are connected to a detection electric circuit, The skin moisture value is detected through the electric circuit, the skin detecting part 101 is connected to the nut cap 102 or the skin moisture replenishing part 103,
The skin test portion 101 and the nut cap 102 are connected by a screw or lock joint and the nut cap 102 and the skin moisture replenishment portion 103 are connected in a locking manner and the nut cap 102 is in the middle Wherein the cosmetic bottle is located at the bottom of the cosmetic container.

In cosmetic bottles,
A skin test portion (101), a nut cap (102), and a skin moisture replenishing portion (103);
The skin testing portion 101 includes a first contact point 104 and a second contact point 105 and a detection electrical circuit and the first contact point 104 and the second contact point 105 are connected to a detection electric circuit, The skin moisture value is detected through the electric circuit, the skin detecting part 101 is connected to the nut cap 102 or the skin moisture replenishing part 103,
The skin detecting portion 101 and the skin moisture replenishing portion 103 are connected by a screw or lock joint manner and the skin moisture replenishing portion 103 and the nut cap 102 are connected in a lock joint manner and the skin moisture replenishing portion 103 ) Is located in the middle.

In cosmetic bottles,
A skin test portion (101), a nut cap (102), and a skin moisture replenishing portion (103);
The skin testing portion 101 includes a first contact point 104 and a second contact point 105 and a detection electrical circuit and the first contact point 104 and the second contact point 105 are connected to a detection electric circuit, The skin moisture value is detected through the electric circuit, the skin detecting part 101 is connected to the nut cap 102 or the skin moisture replenishing part 103,
The skin detecting portion 101 and the nut cap 102 are connected by a screw or lock joint manner and the skin moisture replenishing portion 103 and the skin detecting portion 101 are connected in a lock- Wherein the cosmetic bottle is positioned in the middle.