Disclosure of Invention
The invention aims to provide a depilating instrument, which improves the convenience of operation and carrying of the depilating instrument.
In a first aspect, the present invention provides an epilating apparatus comprising: the depilating device comprises a depilating machine body and a power supply device, wherein the depilating machine body is connected with the power supply device through a flexible connecting wire.
With reference to the first aspect, the present invention provides a first possible implementation manner of the first aspect, wherein the epilation body comprises: the handle comprises a handle shell, a polishing component and an adapter;
the polishing assembly is arranged in the handle shell and is connected with the power supply device through the flexible connecting wire;
the light that the subassembly sent of polishing jets out through the light-emitting window of handle casing, the adaptation head can dismantle connect in the light-emitting window of handle casing.
With reference to the first possible implementation manner of the first aspect, the present invention provides a second possible implementation manner of the first aspect, wherein a sensing assembly is mounted on the light outlet of the handle housing, and the sensing assembly includes: the induction piece bracket is arranged between the metal cover and the first induction piece.
With reference to the first possible implementation manner of the first aspect, the present invention provides a third possible implementation manner of the first aspect, wherein a first magnet is arranged in the handle housing, and the first magnet is used for adsorbing the adapter;
and a second magnet is arranged in the adapter head and used for adsorbing the handle shell.
With reference to the first possible implementation manner of the first aspect, the present invention provides a fourth possible implementation manner of the first aspect, wherein the adapter includes: the face light passing head and the lip light passing head are alternatively connected with the handle shell in a detachable mode.
With reference to the fourth possible implementation manner of the first aspect, the present invention provides a fifth possible implementation manner of the first aspect, wherein the face light-emitting head and the lip light-emitting head each include: the LED lamp comprises a light passing head shell, a shell inner support and a second light guide cover, wherein the second light guide cover is connected with the shell inner support, and the shell inner support is installed inside the light passing head shell.
With reference to the fifth possible implementation manner of the first aspect, the present invention provides a sixth possible implementation manner of the first aspect, wherein a second sensing piece is installed between the light emitting head housing and the internal housing bracket.
With reference to the first possible implementation manner of the first aspect, the present invention provides a seventh possible implementation manner of the first aspect, wherein a wind power heat dissipation assembly is disposed in the depilating body;
the handle shell is provided with a first air opening and a second air opening, and the first air opening and the second air opening are respectively communicated with the wind power heat dissipation assembly through fluid.
With reference to the first aspect, the present invention provides an eighth possible implementation manner of the first aspect, wherein the lighting assembly includes: the lighting assembly is provided with an inner heat dissipation air channel and an outer heat dissipation air channel;
the light reflecting cup is positioned between the inner heat dissipation air duct and the outer heat dissipation air duct, and the lamp tube is surrounded by the inner heat dissipation air duct.
With reference to the eighth possible implementation manner of the first aspect, the present invention provides a ninth possible implementation manner of the first aspect, wherein the lighting assembly further includes: the lighting device comprises a lighting circuit board and a mounting bracket connected with the lighting circuit board, wherein the lamp tube and the reflecting cup are respectively mounted on the mounting bracket.
The embodiment of the invention has the following beneficial effects: the depilating machine body is connected with the power supply device through the flexible connecting line, so that the weight of the depilating machine body is reduced, the depilating machine body is convenient to carry and hold to depilate, the power supply device is separated from the depilating machine body, the depilating machine body is far away from a power supply, and the power utilization safety of the depilating machine body is improved.
In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.
Example one
As shown in fig. 1, an epilating apparatus according to an embodiment of the present invention includes: an epilation body 100 and a power supply device 200, the epilation body 100 and the power supply device 200 being connected by a flexible connection line 300.
The power supply device 200 is used for supplying power to the electric appliance in the depilating machine body 100, the depilating machine body 100 can be held by hand to operate when in use, the flexible connecting wire 300 is connected between the depilating machine body 100 and the power supply device 200, the length of the flexible connecting wire 300 is not limited, and therefore the depilating machine body 100 can be moved randomly as required, and the carrying and the operation are convenient; the power supply device 200 can be independent of the hair removal body 100, so that the hair removal body 100 is smaller and lighter, the user does not feel tired when performing a hair removal operation, and the user feeling of use is improved.
It should be noted that, the depilating body 100 irradiates the skin with optical fiber to depilate, and dissipates a lot of heat during the process, and the depilating body 100 is connected to the power device 200 through the flexible connecting line 300, so as to increase the distance between the depilating body 100 and the power device 200, and further prevent the heat of the depilating body 100 from being transferred to the power device 200. In addition, the power device 200 can be connected to a strong power source, and supplies power to the depilating body 100 after the conversion processing of the power device 200, and the depilating body 100 is separated from the power device 200, thereby improving the safety of the power consumption for operating the depilating body 100.
Regarding the structure of depilating body 100, specifically:
as shown in fig. 1, 2 and 3, the hair removing body 100 includes: a handle housing 110, a polishing assembly 120, and an adapter 130; the polishing assembly 120 is installed in the handle housing 110, and the polishing assembly 120 is connected with the power supply device 200 through a flexible connecting line 300; the light emitted from the lighting assembly 120 is emitted through the light outlet of the handle housing 110, and the adapter 130 is detachably connected to the light outlet of the handle housing 110.
The adapter 130 has a light-transmitting opening for collecting light, and the adapter 130 with different light-transmitting openings can be selected according to the position to be depilated. When the multifunctional electric hair-polishing machine is used, the handle shell 110 is held by hand, the power switch key on the handle shell 110 is operated to control the power-on state of the light-polishing assembly 120, the working gear is selected through the function key arranged on the handle shell 110, and after the gear is regulated and controlled, the light-polishing assembly 120 is controlled to start to polish and depilate through the operation of the light-polishing function key.
As shown in fig. 3 and 5, the sensing assembly 140 is mounted on the light outlet of the handle housing 110, and the sensing assembly 140 includes: the metal cover 141, the sensing piece support 142 and the first sensing piece 143, the sensing piece support 142 is installed between the metal cover 141 and the first sensing piece 143. When the depilating apparatus is used, the light outlet of the handle housing 110 is close to the skin, the first sensing piece 143 senses the change of the capacitance value, and determines whether the light outlet is aligned with and close to the skin according to the signal of the change of the capacitance value. The polishing assembly 120 can activate and perform the polishing function only when the light outlet is aligned and sufficiently close to the skin.
The sensing piece support 142 is provided with an opening, a first light guide cover 144 is inserted into the opening, the sealing ring 145 is installed on the sensing piece support 142, and the sealing ring 145 encloses the first light guide cover 144, so that the first light guide cover 144 is ensured to be stable relative to the sensing piece support 142.
As shown in fig. 2, 3 and 5, a first magnet 111 is provided in the handle case 110, and the first magnet 111 is used for attracting the adapter 130.
In one possible embodiment, the adapter 130 may be a metal shell, and the metal shell is attracted by the first magnet 111, so that the adapter 130 can be fixed at the light outlet of the handle housing 110.
As shown in fig. 2, 3, 5 and 6, in the present embodiment, a second magnet 131 is provided in the adapter 130, and the second magnet 131 is used for attracting the handle housing 110.
The first magnet 111 is mounted on the sensing piece support 142, and the second magnet 131 and the first magnet 111 attract each other, so that the adapter 130 can be attached to the light outlet of the handle housing 110.
The adapter head 130 includes: the face leads to the optical head and the lip leads to the optical head, and the face leads to the optical head and the lip leads to the optical head and connect with handle casing 110 can dismantle. The light-passing port of the face light-passing head is suitable for the face, the light-passing port of the lip light-passing head is suitable for the lips, and the face light-passing head and the lip light-passing head can be selectively matched according to the using position when the depilating device is used.
Regarding the structure of the adapter head 130, specifically:
as shown in fig. 6, the face light-passing head and the lip light-passing head each include: the light-emitting head shell 132, the shell inner support 133 and the second light guide cover 134, the second light guide cover 134 is connected with the shell inner support 133, and the shell inner support 133 is installed inside the light-emitting head shell 132. The second light guide 134 has a light condensing effect, and the light is processed by the second light guide 134 and then emitted to the depilatory portion. The size of the second light guide cover 134 in the face light-transmitting head is designed according to the facial features, and the size of the light-transmitting port of the face light-transmitting head is larger; the size of the second light guide cover 134 in the lip light-transmitting head is designed according to the characteristics of the lip, and the light-transmitting opening of the lip light-transmitting head is smaller.
Further, a second sensing piece 135 is installed between the light passing head housing 132 and the housing inner bracket 133. The second sensing piece 135 is a metal sensing piece, and the metal sensing piece can detect whether the adapter 130 contacts the skin, and when the adapter 130 contacts the skin, the second sensing piece 135 and the skin form a sensing capacitor. The second sensing piece 135 has contacts for contacting the metal cover 141, and when the adapter 130 is installed at the light outlet of the handle case 110, the two contacts of the second sensing piece 135 abut against the metal cover 141.
As shown in fig. 3, 5 and 6, when the hair removal device is used, the light outlet of the adapter 130 is close to and contacts with the skin, the second sensing piece 135 generates a capacitance variation sensing signal with the skin of the human body, and the second sensing piece 135 contacts with the metal cover 141 through a contact, so that the second sensing piece 135 is conducted with the metal cover 141, and the first sensing piece 143 generates a corresponding signal variation. Whether the light outlet of the adapter 130 is close to and in contact with the skin is judged according to the sensing signal, and when the light outlet of the adapter 130 is close to the skin, the polishing assembly 120 is started to polish.
Regarding the structure of the wind-powered heat dissipation assembly 150, specifically:
as shown in fig. 2, 3 and 4, a wind heat dissipation assembly 150 is disposed inside the depilating machine body 100; the handle housing 110 is provided with a first air opening 112 and a second air opening 113, and the first air opening 112 and the second air opening 113 are respectively in fluid communication with the wind power heat dissipation assembly 150.
The wind power heat dissipation assembly 150 includes a fan 151, the fan 151 can drive external air to enter the inner cavity of the depilating device 100 through the second air opening 113, the internal devices of the depilating device 100 are cooled by the flowing air, and the air absorbing heat is exhausted through the first air opening 112, so that the air cooling and cooling of the polishing assembly 120 can be realized.
The wind power heat dissipation assembly 150 further includes an inner wind guiding housing 152, the inner wind guiding housing 152 is installed inside the handle housing 110, and the inner wind guiding housing 152 extends from the first wind opening 112 to the second wind opening 113, and the fan 151 can drive air to flow from the second wind opening 113 to the first wind opening 112 along the inner wind guiding housing 152.
Regarding the structure of the polishing assembly 120, specifically:
as shown in fig. 2, 3 and 4, the polishing assembly 120 includes: a lamp tube 121 and a reflective cup 122, and the lighting assembly 120 has an inner heat dissipation air duct 124 and an outer heat dissipation air duct 127; the reflective cup 122 is located between the inner heat dissipation air duct 124 and the outer heat dissipation air duct 127, and the lamp 121 is surrounded by the inner heat dissipation air duct 124. Wherein, the lamp 121 is installed between the reflective cup 122 and the optical filter 123, and an inner heat dissipation air duct 124 enclosing the lamp 121 is formed; one end of the inner heat dissipation air duct 124 is in fluid communication with the wind power heat dissipation assembly 150, and the other end of the inner heat dissipation air duct 124 is in fluid communication with the first air opening 112; one end of the outer heat dissipation air duct 127 is in fluid communication with the wind power heat dissipation assembly 150, the other end of the outer heat dissipation air duct 127 is in fluid communication with the first air opening 112, the wind power heat dissipation assembly 150 drives the air to flow into the inner heat dissipation air duct 124 and the outer heat dissipation air duct 127 from the second air opening 113, and the air entering the inner heat dissipation air duct 124 and the outer heat dissipation air duct 127 is exhausted through the first air opening 112, so that the air cooling of the lighting assembly 120 is realized.
Specifically, the inner heat dissipation air duct 124 surrounds the lamp 121, so that the gas flowing through the inner heat dissipation air duct 124 can sufficiently cool the lamp 121, the reflective cup 122 and the optical filter 123. In this embodiment, the wind power heat dissipation assembly 150 drives the air to flow into the inner heat dissipation air duct 124 through the second air opening 113, and the air that has absorbed the heat is exhausted through the first air opening 112, so as to prevent the service life of the lighting assembly 120 from being shortened due to an over-high temperature.
It should be noted that an outer heat dissipation air duct 127 is formed between the inner sidewall of the air guiding inner casing 152 and the reflective cup 122, and a dual air duct heat dissipation is formed by the inner heat dissipation air duct 124 and the outer heat dissipation air duct 127, so as to improve the heat dissipation effect of the polishing assembly 120.
Further, the polishing assembly 120 further includes: the lighting circuit board 125 and the mounting bracket 126 connected to the lighting circuit board 125, and the lamp tube 121 and the reflector cup 122 are respectively mounted on the mounting bracket 126.
Specifically, the lighting circuit board 125 is installed inside the handle casing 110, the mounting bracket 126 is used for mounting the reflective cup 122, the mounting bracket 126 is installed at the light outlet of the handle casing 110, and the mounting bracket 126 is connected to one side of the lighting circuit board 125.
As shown in fig. 1 and 7, the power supply device 200 includes: the power supply comprises a first half shell 210, a power circuit board 220 and a second half shell 230, wherein the first half shell 210 and the second half shell 230 are connected to form a power supply box, and the power circuit board 220 is installed in the power supply box. One end of the flexible connecting line 300 is connected to the power circuit board 220, and the other end of the flexible connecting line 300 is connected to the depilating machine body 100, so that the depilating machine body 100 can move freely relative to the power device 200, and the operation of the depilating apparatus is more convenient.
In summary, the depilating apparatus provided by the present embodiment has the following technical advantages:
1. the epilating body 100 is able to move freely with respect to the power supply device 200, the operation is light and the electrical safety of the epilating body 100 is improved.
2. The face light-passing head and the lip light-passing head are detachably interchanged in the handle housing 110, so that the adapter 130 can be selectively used according to the hair removal position.
3. The lamp tube 121, the reflecting cup 122 and the optical filter 123 can be air-cooled, so that the heat dissipation effect is better, and the service life of the polishing assembly 120 is prolonged.
4. Double-air-channel heat dissipation is formed inside and outside the reflective cup 122, so that the internal space of the depilating device is fully utilized, and the heat dissipation efficiency is improved.
5. Whether the light outlet of the adapter 130 is close to and in contact with the skin can be detected by the capacitance-sensitive signal, so that the epilator can start to shine when in contact with the skin.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.