A makeup mirror, a mirror door and a mirror cabinet

By introducing an air guide surface and air cavity structure into the makeup mirror, combined with heating and lighting functions, the problem of water droplets and sweat on the face affecting makeup is solved, achieving rapid drying and convenient use, and improving makeup efficiency.

CN122229263APending Publication Date: 2026-06-19FOSHAN FAENZA SANITARY WARE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
FOSHAN FAENZA SANITARY WARE
Filing Date
2026-03-09
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing beauty mirrors have limited functionality and cannot effectively handle the problem of residual water droplets and sweat on the face affecting the makeup effect. In addition, the oiliness of skin care products prolongs the makeup application time.

Method used

A makeup mirror was designed with an air guide surface and an air cavity structure. The airflow generated by the fan blows out along the air guide surface and the flat surface through the air outlet gap. Combined with the heating component and light strip, it provides drying and lighting functions. The mirror component is easy to use through the telescopic component and the base component.

Benefits of technology

It quickly dries residual water droplets and sweat from the face, shortens makeup time, improves makeup efficiency, and provides a convenient user experience.

✦ Generated by Eureka AI based on patent content.

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    Figure CN122229263A_ABST
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Abstract

This invention discloses a makeup mirror, mirror door, and mirror cabinet, including a mirror assembly. The mirror assembly includes a front cover, a rear cover, and a lens. The outer peripheral wall of the front cover has an air guiding surface and a gentle surface. The air guiding surface gradually expands outward in a convex arc shape from back to front, and the front end of the air guiding surface smoothly connects with the gentle surface. The front cover and the rear cover form an installation cavity and an air cavity. The circumferential side wall of the rear cover gradually expands outward from back to front, and there is an oblique air outlet gap between the front end of the circumferential side wall and the rear end of the air guiding surface. The air cavity is connected to the air outlet gap, and the airflow ejected through the air outlet gap can be blown forward along the air guiding surface and the gentle surface. The airflow is blown out at high speed through the small air outlet gap. According to the Coanda effect, the high-speed airflow will follow the air guiding surface and the gentle surface until it blows forward. Moreover, the high-speed airflow along the air guiding surface will also drive the surrounding air forward, blowing forward together with the blown airflow, thus greatly increasing the final airflow.
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Description

Technical Field

[0001] This invention relates to the field of makeup mirror technology, and in particular to a makeup mirror, mirror door and mirror cabinet. Background Technology

[0002] Currently, most beauty mirrors on the market have limited functionality, typically only providing lighting. However, beauty mirrors are frequently used after washing your face to apply makeup, leaving a lot of water droplets on your face. You need to wait for your face to dry before applying makeup, and in summer, sweat can affect the makeup's effectiveness. Furthermore, during the skincare process before makeup application, the oily nature of skincare products slows down absorption, prolonging the entire makeup application process. Summary of the Invention

[0003] The present invention aims to at least partially solve one of the aforementioned technical problems in the related art. To this end, the present invention proposes a makeup mirror.

[0004] To achieve the above objectives, the technical solution of the present invention is as follows:

[0005] The present invention also proposes a mirror door having the above-mentioned makeup mirror.

[0006] The present invention also proposes a mirror cabinet having the above-mentioned beauty mirror.

[0007] A makeup mirror according to a first aspect of the present invention includes a mirror assembly, the mirror assembly comprising:

[0008] The front cover has an air guiding surface and a gentle surface on its outer peripheral wall. The air guiding surface gradually expands outward in a convex arc shape from back to front. The front end of the air guiding surface is smoothly connected to the gentle surface. The cross-section of the gentle surface is horizontal or tends to be horizontal.

[0009] The rear shell is located behind the front cover. The front cover and the rear shell form a mounting cavity and a wind cavity. The mounting cavity is connected to the wind cavity. A fan is installed in the mounting cavity. The circumferential sidewall of the rear shell gradually expands outward from back to front. There is an oblique air outlet gap between the front end of the circumferential sidewall and the rear end of the air guide surface. In the front-rear direction, the projection of the air outlet gap is located within the projection of the air guide surface. The wind cavity is connected to the air outlet gap. The airflow ejected through the air outlet gap can be blown forward along the air guide surface and the gentle surface.

[0010] The lens is located on the front side of the front cover.

[0011] The beauty mirror according to embodiments of the present invention has at least the following beneficial effects:

[0012] 1. The makeup mirror of this invention can blow air in all directions, making it convenient for users to apply makeup. The airflow generated by the fan forms a certain pressure in the air cavity, and then blows the air out at an angle through a small air outlet gap. According to Bernoulli's principle, the airflow speed increases at the air outlet gap because the air outlet area is smaller, so the airflow is blown out at high speed. The outer peripheral wall of the front cover has a convex arc-shaped air guide surface. When the high-speed airflow blows onto the air guide surface, according to the Coanda effect, the airflow will follow the air guide surface and the gentle surface until it blows out from the front. At the same time, the high-speed airflow along the air guide surface will also drive the surrounding air forward, blowing it forward together with the blown airflow, thus greatly increasing the final airflow.

[0013] 2. The air outlet gap of the present invention is located on the rear side of the front cover and is blocked by the convex arc-shaped air guide surface. From the front view of the makeup mirror, the air outlet gap is blocked by the convex arc-shaped air guide surface structure, so it is not visible from the front and the appearance is simpler.

[0014] According to some embodiments of the present invention, the front cover further has a windbreak wall, which is circumferentially connected to the rear end of the outer peripheral wall of the front cover. The windbreak wall is connected to the air guide surface by an arc transition. An airflow acceleration zone with a width that gradually narrows along the air outlet direction is formed between the windbreak wall and the rear cover. The air outlet gap is located at the end of the airflow acceleration zone.

[0015] According to some embodiments of the present invention, the air cavity is annularly surrounding the outer periphery of the mounting cavity, and the mounting cavity and the air cavity are connected by an air duct.

[0016] According to some embodiments of the present invention, a light strip is also included, which is mounted on the front cover, and the lens has a light-transmitting area through which light emitted by the light strip can pass.

[0017] According to some embodiments of the present invention, the mirror assembly includes a heating assembly, the heating assembly includes a back cover and a heating module, the back cover is disposed behind the back shell, the back cover is provided with an air inlet, the back shell is provided with a through hole, the mounting cavity communicates with the interior of the back cover through the through hole, and the heating module is installed inside the back cover.

[0018] According to some embodiments of the present invention, the heating assembly further includes a dustproof mesh located inside the rear cover and covering the air inlet.

[0019] According to some embodiments of the present invention, a telescopic assembly and a base assembly are further included. The base assembly is located behind the mirror assembly. The telescopic assembly is connected between the base assembly and the mirror assembly. The telescopic assembly includes a first link and a second link. A first end of the first link is hinged to the base assembly via a first hinge structure. A second end of the first link is hinged to the first end of the second link via a second hinge structure. A second end of the second link is hinged to the mirror assembly.

[0020] According to some embodiments of the present invention, the telescopic assembly further includes a connector, the connector being hinged to the second end of the second link via a first pivot, the connector being hinged to the mirror assembly via a second pivot, the first pivot and the second pivot being perpendicular to each other.

[0021] According to some embodiments of the present invention, the first rotating shaft and the second rotating shaft are formed on the connector, the main body of the connector and the second rotating shaft are hollow structures, the rear end of the connector is provided with a wire outlet hole, the second rotating shaft is connected to the internal space of the mirror assembly, and the wire of the mirror assembly passes through the second rotating shaft into the interior of the connector body and exits from the wire outlet hole.

[0022] According to some embodiments of the present invention, the base assembly includes a bottom shell, which is cylindrical. In an initial state, the mirror assembly and the telescopic assembly are located inside the bottom shell. The telescopic assembly further includes an ejection mechanism. The second connecting rod is a hollow structure. The ejection mechanism is installed inside the second connecting rod. The ejection mechanism includes a motor and a cam. The cam is connected to the motor. An opening is formed on the second connecting rod, and the cam is located in the opening. When the cam rotates to a first position, the cam extends out of the opening and pushes the mirror assembly, so that the mirror assembly extends out of the bottom shell.

[0023] According to some embodiments of the present invention, the bottom shell is provided with a buckle, which initially engages the second connecting rod.

[0024] According to some embodiments of the present invention, the first connecting rod is a hollow structure, and the interior of the second connecting rod, the second hinge structure, the interior of the first connecting rod, and the first hinge structure are sequentially connected to form a wiring space, through which the wires of the ejection mechanism pass out of the telescopic assembly.

[0025] According to a second aspect of the present invention, a mirror door includes the aforementioned makeup mirror.

[0026] According to a third aspect of the present invention, a mirror cabinet includes the makeup mirror or the mirror door.

[0027] Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description

[0028] The above and / or additional aspects and advantages of the present invention will become apparent and readily understood from the description of the embodiments taken in conjunction with the following drawings, in which:

[0029] Figure 1 This is an exploded view of the beauty mirror of the present invention;

[0030] Figure 2 This is an exploded view of the mirror assembly of the present invention;

[0031] Figure 3 This is a cross-sectional view of the mirror assembly of the present invention;

[0032] Figure 4 yes Figure 3 A magnified view of a section at point A in the middle;

[0033] Figure 5 This is a structural diagram of the front cover of the present invention;

[0034] Figure 6 This is a diagram showing the folded state of the telescopic component of the present invention;

[0035] Figure 7 This is an exploded view of the telescopic component of the present invention;

[0036] Figure 8 This is a structural diagram of the base assembly of the present invention;

[0037] Figure 9 This is a schematic diagram of the structure of the beauty mirror of the present invention installed on the mirror door;

[0038] Figure 10 This is a diagram showing the extended state of the makeup mirror of the present invention.

[0039] Reference numerals: Mirror assembly 100, front cover 110, air guide surface 111, smooth surface 112, windbreak wall 113, mounting cavity 114, air cavity 115, air duct 116, airflow acceleration zone 117, rear cover 120, through hole 121, fan 130, air outlet gap 140, lens 150, heating assembly 160, rear cover 161, air inlet 162, heating module 163, dustproof net 164, inner liner 165, light strip 170, telescopic assembly 200, first connecting rod 210, first hinge structure 211, second hinge structure 212, second connecting rod 220, opening 221, connector 230, first rotating shaft 231, second rotating shaft 232, wire outlet hole 233, motor 240, cam 250, silicone ring 260, base assembly 300, bottom shell 310, buckle 311, mirror door 400. Detailed Implementation

[0040] Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, and should not be construed as limiting the present invention.

[0041] In the description of this invention, it should be understood that the terms "front", "rear", "left", "right", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this invention.

[0042] Reference Figure 1-4 A makeup mirror includes a mirror assembly 100, the mirror assembly 100 comprising:

[0043] The front cover 110 has an outer peripheral wall with an air guide surface 111 and a flat surface 112. The air guide surface 111 gradually expands outward in a convex arc shape from back to front. The front end of the air guide surface 111 is smoothly connected to the flat surface 112. The cross-section of the flat surface 112 is horizontal or tends to be horizontal. The flat surface 112 is used to receive and continue the Coanda effect, so that the high-speed airflow flowing along the wall of the air guide surface 111 can continue to be smoothly transported forward along the flat surface 112, realizing front air blowing, avoiding the airflow from leaving the wall or generating turbulence due to the sudden change of the curved surface, ensuring stable air output, concentrated air direction and low air volume loss.

[0044] The rear shell 120 is located behind the front cover 110. The front cover 110 and the rear shell 120 form a mounting cavity 114 and a wind cavity 115. The mounting cavity 114 and the wind cavity 115 are connected. A fan 130 is provided in the mounting cavity 114. The circumferential sidewall of the rear shell 120 gradually expands outward from the back to the front. An oblique air outlet gap 140 is left between the front end of the circumferential sidewall and the rear end of the air guide surface 111. In the front-rear direction, the projection of the air outlet gap 140 is located within the projection of the air guide surface 111. The wind cavity 115 is connected to the air outlet gap 140. The airflow ejected through the air outlet gap 140 can be blown forward along the air guide surface 111 and the gentle surface 112.

[0045] Lens 150 is located on the front side of the front cover 110, and lens 150 is a magnifying glass.

[0046] In some embodiments of the present invention, reference is made to... Figure 4The front cover 110 also has a windbreak wall 113, which is circumferentially connected to the rear end of the outer peripheral wall of the front cover 110. The windbreak wall 113 is connected to the air guide surface 111 by an arc transition. An airflow acceleration zone 117 with a width that gradually narrows along the air outlet direction is formed between the windbreak wall 113 and the rear cover 120. The air outlet gap 140 is located at the end of the airflow acceleration zone 117. The airflow is continuously compressed within the gradually narrowing airflow acceleration zone 117, which guides, regulates, and pre-accelerates the airflow, reducing airflow turbulence and wind resistance, and lowering noise.

[0047] In some embodiments of the present invention, reference is made to... Figure 5 The air cavity 115 is circular and surrounds the outer periphery of the mounting cavity 114. The mounting cavity 114 and the air cavity 115 are connected by the air duct 116, which enables the airflow to be evenly distributed along the circumference and achieve uniform air outlet throughout the circle.

[0048] In some embodiments of the present invention, a light strip 170 is also included. The light strip 170 is mounted on the front cover 110, and the lens 150 has a light-transmitting area. Light emitted by the light strip 170 can pass through the light-transmitting area, and the light strip 170 provides an illumination function.

[0049] In some embodiments of the present invention, reference is made to... Figure 2 The mirror assembly 100 includes a heating assembly 160, which includes a rear cover 161 and a heating module 163. The rear cover 161 is located behind the rear shell 120 and has an air inlet 162. The rear shell 120 has a through hole 121, and the mounting cavity 114 communicates with the interior of the rear cover 161 through the through hole 121. The heating module 163 is installed inside the rear cover 161. Air enters the heating module 163 from the air inlet 162 of the rear cover 161, then passes through the heating module 163 to reach the fan 130. At this time, the air is heated by the heating module 163 and hot air is blown out.

[0050] In some embodiments of the invention, the heating assembly 160 further includes a dust filter 164 located inside the rear cover 161 and covering the air inlet 162. The dust filter 164 prevents dust from the outside air from entering the mirror assembly 100, ensuring that clean air is blown out.

[0051] In some embodiments of the present invention, reference is made to... Figure 6-8It also includes a telescopic component 200 and a base component 300. The base component 300 is located behind the mirror component 100. The telescopic component 200 connects the base component 300 and the mirror component 100. The telescopic component 200 includes a first link 210 and a second link 220. The first end of the first link 210 is hinged to the base component 300 through a first hinge structure 211, and the second end of the first link 210 is hinged to the first end of the second link 220 through a second hinge structure 212. The second end of the second link 220 is hinged to the mirror component 100. The telescopic component 200 allows the mirror component 100 to be pulled out and brought closer to the face.

[0052] In some embodiments of the present invention, the telescopic assembly 200 further includes a connector 230, which is hinged to the second end of the second connecting rod 220 via a first pivot 231 and to the mirror assembly 100 via a second pivot 232. The first pivot 231 and the second pivot 232 are perpendicular to each other. Perpendicularity includes both spatial perpendicularity and perpendicular intersection; in this embodiment, the first pivot 231 and the second pivot 232 are spatially perpendicular. Specifically, the rear end of the connector 230 is hinged to the second end of the second connecting rod 220 via the first pivot 231, and the front end of the connector 230 is hinged to the mirror assembly 100 via the second pivot 232. The first pivot 231 is vertically oriented, and the second pivot 232 is horizontally oriented. The perpendicularity of the first pivot 231 and the second pivot 232 allows the mirror assembly 100 to rotate up, down, left, and right (e.g., ...). Figure 10 As shown in the figure, it is better adapted to the use of people with different heights and different usage habits.

[0053] In some embodiments of the present invention, reference is made to... Figure 7The first rotating shaft 231 and the second rotating shaft 232 are formed on the connector 230. The main body of the connector 230 and the second rotating shaft 232 are hollow structures. The rear end of the connector 230 is provided with a wire outlet hole 233. The second rotating shaft 232 communicates with the internal space of the mirror assembly 100. The wires of the mirror assembly 100 pass through the second rotating shaft 232 into the body of the connector 230 and exit through the wire outlet hole 233. The first rotating shaft 231 and the second rotating shaft 232 are fitted with silicone rings 260, which can reduce hard friction, extend service life, and increase rotational damping, thereby improving the user experience. The hollow structure of the connector 230 is used for the wires of the mirror assembly 100 to pass through, realizing internal concealed wiring. Furthermore, the connector 230 is formed by the fitting of symmetrical left and right halves. During installation, the wires can be clamped between the left and right halves, that is, the wires can be directly inserted without threading or considering whether the wire end plug can pass through. Specifically, the heating assembly 160 also includes an inner liner 165. Both the inner liner 165 and the rear cover 161 have semi-circular grooves. During installation, the second rotating shaft 232 is first placed into the semi-circular groove of the rear cover 161, and then the inner liner 165 with the heating module 163 installed is installed into the rear cover 161. At this time, the semi-circular groove of the rear cover 161 and the semi-circular groove of the inner liner 165 are aligned, forming a rotational engagement with the second rotating shaft 232.

[0054] In some embodiments of the present invention, the base assembly 300 includes a bottom shell 310, which is cylindrical. In the initial state, the mirror assembly 100 and the telescopic assembly 200 are located within the bottom shell 310. The telescopic assembly 200 also includes an ejection mechanism. The second connecting rod 220 is hollow, and the ejection mechanism is installed within it. The ejection mechanism includes a motor 240 and a cam 250, which is connected to the motor 240. An opening 221 is formed on the second connecting rod 220, and the cam 250 is located within the opening 221. When the cam 250 rotates to a first position, it extends out of the opening 221 and pushes the mirror assembly 100, causing it to extend out of the bottom shell 310. In the initial state, the mirror assembly 100 is embedded in the bottom shell 310. In use, the cam 250 rotates to the first position and extends out of the opening 221 (e.g., ...). Figure 6 As shown, push the mirror assembly 100 out of the bottom shell 310 by a part, then manually pull out the mirror assembly 100 for use. After use, fold it up and store it in the bottom shell 310.

[0055] In some embodiments of the present invention, such as Figure 8 As shown, the bottom shell 310 is provided with a buckle 311. In the initial state, the buckle 311 locks the second connecting rod 220 to prevent the mirror assembly 100 from extending accidentally.

[0056] In some embodiments of the present invention, the first connecting rod 210 is a hollow structure, and the interior of the second connecting rod 220, the second hinge structure 212, the interior of the first connecting rod 210, and the first hinge structure 211 are connected in sequence to form a wiring space. The wire of the ejection mechanism passes through the wiring space and exits the telescopic component 200, realizing the hidden wiring of the wire inside the telescopic component 200, avoiding damage to the wire during the telescopic movement, and also avoiding the wire from obstructing the telescopic movement.

[0057] Reference Figure 9-10 A mirror door 400 includes the aforementioned makeup mirror. In existing mirror cabinets, the makeup mirror is installed behind the door, requiring the mirror door 400 to be opened for use, which is inconvenient. This invention features a slot on the front of the mirror door 400 to house the makeup mirror. Initially, the mirror lens 150 is flush with the mirror surface of the mirror door 400. To use the makeup mirror, the mirror assembly 100 can be pulled out from the front of the mirror door 400, making it very convenient to use.

[0058] A mirror cabinet, comprising the aforementioned makeup mirror or the aforementioned mirror door 400.

[0059] Although embodiments of the invention have been shown and described, those skilled in the art will understand that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims

1. A makeup mirror, characterized in that, Includes a mirror assembly (100), the mirror assembly (100) comprising: The front cover (110) has an air guiding surface (111) and a flat surface (112) on its outer peripheral wall. The air guiding surface (111) gradually expands outward in a convex arc shape from back to front. The front end of the air guiding surface (111) is smoothly connected to the flat surface (112). The cross-section of the flat surface (112) is horizontal or tends to be horizontal. The rear shell (120) is located behind the front cover (110). The front cover (110) and the rear shell (120) form an installation cavity (114) and an air cavity (115). The installation cavity (114) and the air cavity (115) are connected. A fan (130) is provided in the installation cavity (114). The circumferential sidewall of the rear shell (120) gradually expands outward from back to front. An oblique air outlet gap (140) is left between the front end of the circumferential sidewall and the rear end of the air guide surface (111). In the front-rear direction, the projection of the air outlet gap (140) is located within the projection of the air guide surface (111). The air cavity (115) is connected to the air outlet gap (140). The airflow ejected through the air outlet gap (140) can be blown forward along the air guide surface (111) and the gentle surface (112). A lens (150) is disposed on the front side of the front cover (110).

2. The makeup mirror according to claim 1, characterized in that, The front cover (110) also has a windbreak wall (113), which is circumferentially connected to the rear end of the outer peripheral wall of the front cover (110). The windbreak wall (113) is connected to the air guide surface (111) by an arc transition. An airflow acceleration zone (117) with a width that gradually narrows along the air outlet direction is formed between the windbreak wall (113) and the rear cover (120). The air outlet gap (140) is located at the end of the airflow acceleration zone (117).

3. The makeup mirror according to claim 1, characterized in that, The mirror assembly (100) includes a heating assembly (160), which includes a rear cover (161) and a heating module (163). The rear cover (161) is located behind the rear shell (120). The rear cover (161) has an air inlet (162), and the rear shell (120) has a through hole (121). The mounting cavity (114) communicates with the interior of the rear cover (161) through the through hole (121), and the heating module (163) is installed inside the rear cover (161).

4. The makeup mirror according to claim 1, characterized in that, It also includes a telescopic assembly (200) and a base assembly (300), the base assembly (300) being located behind the mirror assembly (100), the telescopic assembly (200) being connected between the base assembly (300) and the mirror assembly (100), the telescopic assembly (200) including a first link (210) and a second link (220), the first end of the first link (210) being hinged to the base assembly (300) via a first hinge structure (211), the second end of the first link (210) being hinged to the first end of the second link (220) via a second hinge structure (212), and the second end of the second link (220) being hinged to the mirror assembly (100).

5. The makeup mirror according to claim 4, characterized in that, The telescopic assembly (200) further includes a connector (230), which is hinged to the second end of the second connecting rod (220) via a first pivot (231) and to the mirror assembly (100) via a second pivot (232). The first pivot (231) and the second pivot (232) are perpendicular to each other.

6. The makeup mirror according to claim 5, characterized in that, The first rotating shaft (231) and the second rotating shaft (232) are formed on the connector (230). The main body of the connector (230) and the second rotating shaft (232) are hollow structures. The rear end of the connector (230) is provided with a wire outlet hole (233). The second rotating shaft (232) is connected to the internal space of the mirror assembly (100). The wires of the mirror assembly (100) pass through the second rotating shaft (232) into the interior of the main body of the connector (230) and exit from the wire outlet hole (233).

7. The makeup mirror according to claim 4, characterized in that, The base assembly (300) includes a bottom shell (310), which is cylindrical. In the initial state, the mirror assembly (100) and the telescopic assembly (200) are located inside the bottom shell (310). The telescopic assembly (200) also includes an ejection mechanism. The second connecting rod (220) is hollow. The ejection mechanism is installed inside the second connecting rod (220). The ejection mechanism includes a motor (240) and a cam (250). The cam (250) is connected to the motor (240). The second connecting rod (220) has an opening (221). The cam (250) is located in the opening (221). When the cam (250) rotates to the first position, the cam (250) extends out of the opening (221) and pushes the mirror assembly (100) so that the mirror assembly (100) extends out of the bottom shell (310).

8. The makeup mirror according to claim 7, characterized in that, The first connecting rod (210) is a hollow structure. The interior of the second connecting rod (220), the second hinge structure (212), the interior of the first connecting rod (210), and the first hinge structure (211) are connected in sequence to form a wiring space. The wires of the ejection mechanism pass through the wiring space and exit the telescopic component (200).

9. A mirror door, characterized in that, Includes the makeup mirror as described in any one of claims 1-8.

10. A mirror cabinet, characterized in that, Includes the makeup mirror as described in any one of claims 1-8 or the mirror door as described in claim 9.