SUMMERY OF THE UTILITY MODEL
In view of this, the utility model provides a novel beautiful mirror of making up, this beautiful mirror of making up not only mirror surface angle and altitude mixture control are convenient for fold moreover and accomodate, are difficult for touching the mirror surface simultaneously, have solved current beautiful mirror function singleness, awkward problem.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a novel cosmetic mirror comprising: the endoscope comprises an endoscope body, an endoscope column and an endoscope seat, wherein one end of the endoscope column is pivotally connected with the middle part of one side of the endoscope body, which is far away from a user, and the other end of the endoscope column is pivotally connected with the endoscope seat;
the mirror body includes mirror surface and mirror surface shell, the mirror surface inlay in the mirror surface shell and with mirror surface shell fixed connection, the mirror post with pivotable connection in the middle part of the mirror surface shell, the bottom edge of mirror surface shell is equipped with the knob handle that is used for adjusting the mirror surface angle.
The utility model has the advantages that: the cosmetic mirror can realize the angle adjustment of the mirror surface by holding the knob handle, and the mirror surface is not easy to be polluted, thereby influencing the use; the mirror column, the mirror body and the mirror base are in pivot connection, the mirror surface angle is convenient to adjust, the height of the whole beauty mirror can be adjusted, and the adjusting process is more flexible.
The scheme provided by the utility model is further explained on the basis of the scheme.
Furthermore, the mirror body still includes annular light filling lamp, annular light filling lamp along mirror surface edge arrange and with mirror surface shell fixed connection.
Furthermore, a circuit assembly is packaged in the lens base and comprises a microprocessor, a light supplement lamp driver and a power supply, the microprocessor is electrically connected with the light supplement lamp driver and the power supply respectively, and the light supplement lamp driver is also electrically connected with the annular light supplement lamp.
Further, annular light filling lamp is FPC lamp area by a plurality of LED lamp pearl is constituteed, and is a plurality of LED lamp pearl all with light filling lamp driver electricity is connected.
Furthermore, the light supplement lamp driver comprises a cold light driving circuit and a warm light driving circuit, the cold light driving circuit and the warm light driving circuit are both electrically connected with the microprocessor, and the plurality of LED lamp beads are respectively electrically connected with the cold light driving circuit and the warm light driving circuit. Cold light drive circuit and warm light drive circuit are used for the cold light and the warm light effect of annular light filling lamp to adjust, can realize the three-dimensional light filling of 3D, clear away the blind area that exists when making up, make the effect that the makeup process appears more three-dimensional.
Further, the cold light driving circuit or the warm light driving circuit comprises an LED driving chip, a triode Q11, a field effect transistor Q7, a field effect transistor Q8, an inductor L3, a diode D5 and a chip resistor L5;
the field-effect transistor Q7 and the field-effect transistor Q8 are connected IN parallel through respective gates, a parallel circuit of the field-effect transistor Q7 and the triode Q11 are connected with an FB pin of the LED driving chip through respective peripheral circuits, the inductor L3 is connected with one end of the chip resistor L5, the other end of the chip resistor L5 is connected with two XL pins of the LED driving chip, the inductor L3 is further connected with an IN pin of the LED driving chip, the anode of the diode D5 is connected with the common end of the inductor L3 and the chip resistor L5, and the cathode of the diode D5 is connected with an OVP pin of the LED driving chip through the peripheral circuits.
Furthermore, a knob switch is arranged on the outer wall of one side of the microscope base and is electrically connected with the microprocessor. The knob switch is used for realizing the on-off of part of LED lamp beads of the annular light supplement lamp and the adjustment of the warm light or cold light effect through the microprocessor and the light supplement lamp driver.
Furthermore, a switch circuit board and a connecting handle are arranged in the mirror surface shell, one end of the knob handle penetrates through a connecting hole formed in the bottom of the mirror surface shell and extends into the mirror surface shell, one end of the knob handle is inserted into the connecting hole and clamped with the connecting handle, the other end of the connecting handle is fixedly connected with the switch circuit board, the knob handle is further electrically connected with the switch circuit board, and the switch circuit board is electrically connected with the microprocessor.
The beneficial effect of adopting the further scheme is that: the knob handle is not only a mirror surface angle adjusting tool, but also an on-off key of the circuit device, the whole circuit device can be turned on and off through the knob handle, and the structure is more reasonable.
Further, the mirror column comprises a first swing arm, a second swing arm, a movable wall, a mirror body fixing part and a mirror base fixing part, wherein the first swing arm and the second swing arm are arranged in parallel, swing shafts are respectively arranged at two ends of the first swing arm and two ends of the second swing arm, the swing shafts at one side end part of the first swing arm and one side end part of the second swing arm which are parallel to each other are rotatably connected with the mirror base fixing part, and the swing shafts at the other side end part of the first swing arm and the second swing arm which are parallel to each other are rotatably connected with the mirror body fixing part;
the first swing arm, the second swing arm, the mirror body fixing piece and the mirror base fixing piece are enclosed into a parallelogram-like structure; one end of the movable wall is rotatably connected with the mirror body fixing part, the other end of the movable wall is fixedly connected with the middle part of the mirror surface shell, the movable wall rotates around the mirror body fixing part to drive the mirror surface shell and the mirror surface to rotate, and the mirror base fixing part is fixedly connected with the mirror base.
Further, the mirror base comprises a base body and a rotating base, the base body is placed on the rotating base, and the base body is also connected with the mirror column in a pivoting manner;
the rotary base comprises an upper shell, a bottom shell and a bearing, a bearing bone piece is arranged at the central position of the bottom shell, the bearing is installed at the central position of the inner wall of the upper shell and is connected with the bearing bone piece in an interference fit mode, the upper shell is buckled above the bottom shell, and the bearing rotates to drive the upper shell to rotate.
The beneficial effect of adopting the further technical scheme is that: place the pedestal and the mirror column of installing on it, the mirror body on rotating base, can realize the 360 degrees horizontal rotations of whole makeup mirror, increased the angle modulation scope of mirror surface to a certain extent, make the mirror surface on the basis of vertical direction upset, can also realize horizontal rotation, the function is more complete.
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 work belong to the protection scope of the present invention.
Referring to the attached figure 1, the embodiment of the utility model discloses a novel cosmetic mirror, include: the endoscope comprises an endoscope body 1, an endoscope column 2 and an endoscope seat 3, wherein one end of the endoscope column 2 is pivotally connected with the middle part of one side of the endoscope body 1 departing from a user, and the other end of the endoscope column is pivotally connected with the endoscope seat 3;
the mirror body 1 comprises a mirror surface 12 and a mirror surface shell 13, the mirror surface 12 is embedded in the mirror surface shell 13 and is fixedly connected with the mirror surface shell 13, the middle of the mirror column 2 and the mirror surface shell 13 are connected in a pivoting manner, and the bottom edge of the mirror surface shell 13 is provided with a knob handle 11 for adjusting the angle of the mirror surface 12.
Specifically, referring to fig. 2, the process of adjusting the angle of the mirror 12 by using the knob handle 11 is as follows: after the beauty mirror is placed at a fixed position of a table top, the whole mirror body 1 can be moved forward by 13 cm by pinching the knob handle 11 with the hand through the mirror column 2, and then the whole mirror body 1 is turned over by vertically adjusting the knob handle 11 with the hand, and the turning angle is approximately 50 degrees.
Preferably, the mirror 12 is made of permeable super white glass, which can meet the use requirements of different scenes and restore the real skin color.
In a specific embodiment, the mirror body further includes an annular fill light 14, and the annular fill light 14 is disposed along an edge of the mirror surface 12 and is fixedly connected to the mirror surface housing 13.
In a specific embodiment, referring to fig. 3, a circuit assembly is packaged inside the lens base 3, and the circuit assembly includes a microprocessor 301, a fill-in light driver 302 and a power supply 303, the microprocessor 301 is electrically connected to the fill-in light driver 302 and the power supply 303, respectively, and the fill-in light driver 302 is further electrically connected to the annular fill-in light 14.
In a specific embodiment, referring to fig. 4, the annular light supplement lamp 14 is an FPC lamp strip composed of a plurality of LED lamp beads, and the plurality of LED lamp beads are all electrically connected to the light supplement lamp driver 302.
Specifically, light filling lamp driver 302 includes cold light drive circuit and warm light drive circuit, and cold light drive circuit and warm light drive circuit all are connected with microprocessor 301 electricity, and a plurality of LED lamp pearls are connected with cold light drive circuit and warm light drive circuit electricity respectively. The cold light driving circuit and the warm light driving circuit are used for adjusting the cold light and warm light effects of the annular light supplementing lamp, so that the effect presented in the cosmetic process is more three-dimensional.
In a specific embodiment, referring to fig. 5, the cold light driving circuit or the warm light driving circuit includes an LED driving chip, a transistor Q11, a field effect transistor Q7, a field effect transistor Q8, an inductor L3, a diode D5, and a chip resistor L5;
the field-effect transistor Q7 and the field-effect transistor Q8 are connected IN parallel through respective gates, a parallel circuit and a triode Q11 of the field-effect transistor Q7 are connected with an FB pin of the LED driving chip through respective peripheral circuits, an inductor L3 is connected with one end of a chip resistor L5, the other end of the chip resistor L5 is connected with two XL pins of the LED driving chip, an inductor L3 is further connected with an IN pin of the LED driving chip, the anode of a diode D5 is connected with the common end of the inductor L3 and the chip resistor L5, and the cathode of the diode D5 is connected with an OVP pin of the LED driving chip through the peripheral circuits.
Specifically, the microprocessor 301 in this embodiment is a single chip microcomputer with a model of TM52F5268, but of course, other control devices with data processing capability may also be used as the microprocessor in the embodiment.
In a specific embodiment, referring to fig. 1 and 3, a knob switch 31 is disposed on an outer wall of one side of the lens holder 3, and the knob switch 31 is electrically connected to the microprocessor 301. The knob switch 31 is used for realizing the on-off of part of the LED lamp beads of the annular light supplement lamp and the adjustment of the warm light or cold light effect through the microprocessor 301 and the light supplement lamp driver 302.
Referring to fig. 6, a specific process for adjusting the annular light supplement lamp to achieve the light supplement effect is as follows:
as shown in fig. 6-1, in order to supplement light from top to bottom, the knob switch 31 is rotated clockwise or counterclockwise, and the microprocessor 301 sends signals to the warm light driving circuit and the cool light driving circuit, so as to turn on the warm light top and bottom W and the cool light top and bottom C, and the warm light top and bottom W and the cool light top and bottom C are in the closed state.
As shown in fig. 6-2, the knob switch 31 is rotated in the same direction again to turn on the left and right fill lights, and the microprocessor 301 sends signals to the warm light driving circuit and the cool light driving circuit to turn on the warm light left and right W and the cool light left and right C, and the warm light up and down W and the cool light up and down C are in the closed state.
As shown in fig. 6-3, in order to show the effect of the upper light supplement, the knob switch 31 is rotated again in the same direction, and the microprocessor 301 transmits a signal to the warm light driving circuit and the cool light driving circuit, so as to turn on the warm light upper W and the cool light upper C, and at this time, the warm light lower W and the cool light lower C are in the off state.
As shown in fig. 6-4, in order to show the effect of the downward light supplement, the knob switch 31 is rotated again in the same direction, and the microprocessor 301 transmits signals to the warm light driving circuit and the cold light driving circuit, so as to turn on the warm light lower W and the cold light lower C, and at this time, the warm light upper W and the cold light upper C are in the closed state.
As shown in fig. 6-5, the effect of the right fill-in light is shown, the knob switch 31 is rotated again in the same direction, the microprocessor 301 sends signals to the warm light driving circuit and the cool light driving circuit, the warm light right W and the cool light right C are turned on, and the warm light left W and the cool light left C are in the closed state.
As shown in fig. 6-6, the effect of the left fill-in light is shown, the knob switch 31 is rotated again in the same direction, the microprocessor 301 sends signals to the warm light driving circuit and the cool light driving circuit, the warm light left W and the cool light left C are turned on, and the warm light right W and the cool light right C are in a closed state.
In a specific embodiment, referring to fig. 3, 4 and 7, the mirror housing 13 has a switch circuit board 131 and a connection handle 132 therein, one end of the knob handle 11 passes through a connection hole formed at the bottom of the mirror housing 13 and extends into the mirror housing 13, and one end of the connection handle 132 is inserted to be clamped with the connection handle 132, the other end of the connection handle 132 is fixedly connected with the switch circuit board 131, the knob handle 11 is further electrically connected with the switch circuit board 131, and the switch circuit board 131 is electrically connected with the microprocessor 301.
Specifically, the mirror surface housing 13 further has an inner partition 133 therein, the annular fill-in light 14 is disposed in a groove at one side of the inner partition 113 adapted to the annular fill-in light 14, the mirror surface 12 is fixed to an edge of the inner partition 113, the switch circuit board 131 and the connection handle 132 are disposed at the other side of the inner partition, and the inner partition 133 is clamped in the mirror surface housing 13.
In a specific embodiment, referring to fig. 8 and 9, the mirror column 2 includes a first swing arm 21, a second swing arm 22, a movable wall 25, a mirror body fixing member 24 and a mirror base fixing member 23, the first swing arm 21 and the second swing arm 22 are arranged in parallel, and both ends of the first swing arm 21 and both ends of the second swing arm 22 are provided with swing shafts, specifically, the numbers of the swing shafts are 211, 212, 221 and 222, the swing shafts 211 and 221 of one side end portion of the first swing arm 21 and the second swing arm 22 parallel are rotatably connected with the mirror base fixing member 23, and the swing shafts 212 and 222 of the other side end portion of the first swing arm 21 and the second swing arm 22 parallel are rotatably connected with the mirror body fixing member 24;
the first swing arm 21, the second swing arm 22, the mirror body fixing piece 24 and the mirror base fixing piece 23 are enclosed into a parallelogram-like structure; one end of the movable wall 25 is rotatably connected with the mirror body fixing part 24, the other end of the movable wall is fixedly connected with the middle part of the mirror surface shell 13, the movable wall 25 rotates around the mirror body fixing part 24 to drive the mirror surface shell 13 and the mirror surface 12 to rotate, and the mirror base fixing part 23 is fixedly connected with the mirror base 3.
Preferably, the outer side of the mirror fixing member 24 is further provided with a first mirror fixing member housing 26 and a second mirror fixing member housing 27, and the first mirror fixing member housing 26 and the second mirror fixing member housing 27 are fastened and sleeved outside the mirror fixing member 24.
Preferably, a lens holder fixing housing 28 is further sleeved outside the lens holder fixing member 23. The lens base fixing piece 23 extends into the lens base 3 and is fixedly connected with a fixing frame 34 in the lens base 3.
Specifically, referring to fig. 9, the mirror base fixing member 23 includes a torsion spring 231, a first mirror base fixing frame 232, a second mirror base fixing frame 233, a plurality of mirror base end riveting studs 234 and first connecting wires 235 and 236, the mirror base end riveting studs 234 are provided, the mirror base end riveting studs pass through the swing shaft 211 or 221, and are fixed to the first mirror base fixing frame 232 and the second mirror base fixing frame 233 respectively through rivets, one side of the inner wall of the first mirror base fixing frame 232 is further connected with the torsion spring 231, and the whole mirror column 2 can be accurately positioned in the translation process through the damping force positioning of the torsion spring 231.
Specifically, the mirror body fixing part 24 includes a first mirror body fixing frame 241, a second mirror body fixing frame 247, elastic adapters 242 and 244, a mirror body end riveting bolt 243, a sliding gasket 245, a main shaft 246 and a second connecting wire 248, the elastic adapters 242 and 244, the mirror body end riveting bolts 243 are provided in plurality, the elastic adapters 242 or 244 penetrate through the mirror body end riveting bolt 243 near the end portion, and the mirror body end riveting bolt 243 is sequentially connected with the first mirror body fixing frame 241, the elastic adapters 242 or 244, the swinging arm 212 or 222, the sliding gasket 245, the movable arm 25, the main shaft 246 and the second mirror body fixing frame 247 through riveting screws.
In a specific embodiment, referring to fig. 1 and 10, the mirror base comprises a base body 32 and a rotating base 33, the base body 32 is placed on the rotating base 33, and the base body 32 is further pivotably connected with the mirror post 2;
the rotating base 33 comprises an upper shell 331, a bottom shell 333 and a bearing 332, a bearing bone 334 is arranged at the central position of the bottom shell 333, the bearing 332 is installed at the central position of the inner wall of the upper shell 331 and is connected with the bearing bone 334 in an interference fit manner, the upper shell 331 is buckled above the bottom shell 333, and the bearing 332 rotates to drive the upper shell 331 to rotate. The rotating base 33 can realize 360-degree rotation, so that the angle adjusting range of the mirror surface is larger.
Specifically, a raised mounting groove 335 adapted to the bearing 332 is formed in the center of the inner wall of the upper housing 331, and the outer edge of the bearing 332 is clamped in the mounting groove 335, so that the bearing 332 is mounted in the center of the inner wall of the upper housing 331.
To sum up, the embodiment of the utility model provides a novel beautiful mirror compares with prior art, has following advantage:
1. the cosmetic mirror can realize the angle adjustment of the mirror surface by holding the knob handle, and the mirror surface is not easy to be polluted, thereby influencing the use;
2. the knob handle is not only a mirror surface angle adjusting tool, but also an on-off key of the circuit device, the on-off of the whole circuit device can be realized through the knob handle, and the structure is more reasonable;
3. the cold light driving circuit and the warm light driving circuit are controlled by the microprocessor, the on-off effect and the cold light and warm light effect of the annular light supplementing lamp can be adjusted, 3D (three-dimensional) light supplementing can be realized, blind areas existing in the process of makeup are swept, and the effect presented in the process of makeup is more three-dimensional;
4. the mirror column is pivotally connected with the mirror body and the mirror base, so that the mirror surface angle is convenient to adjust, and the height of the whole beauty mirror can be adjusted;
5. place the pedestal and the mirror column of installing on it, the mirror body on rotating base, can realize the 360 degrees horizontal rotations of whole makeup mirror, increased the angle modulation scope of mirror surface to a certain extent, make the mirror surface on the basis of vertical direction upset, can also realize horizontal rotation, the function is more complete.
The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.
The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.