Mirror and mirror cabinet applying the same
By designing a mirror base and a sliding assembly, the mirror is stably fixed on the cabinet surface and easily placed and removed, solving the problems of difficult installation and automatic adsorption of existing mirrors, and improving the user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YINGCHENG LEHUA KITCHEN&BATHROOM FURNITURE CO LTD
- Filing Date
- 2025-05-23
- Publication Date
- 2026-06-09
AI Technical Summary
When existing mirrors are attached to cabinets using suction cups, removing them requires considerable effort, and the mirrors tend to stick to other places automatically, affecting the user experience.
A mirror was designed, comprising a base, a lens, a suction cup, and a push-pull assembly. The push-pull assembly causes the suction cup to elastically deform in the mounting cavity of the base in both directions, thereby achieving negative pressure adsorption and release between the suction cup and the cabinet surface, ensuring that the mirror is stably fixed or easily removed and placed.
The mirror can be quickly attached and detached, and is stably fixed on the mirror cabinet, allowing users to easily place and remove it, thus improving the user experience.
Smart Images

Figure CN224330636U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of mirror technology, and in particular to a mirror and a mirror cabinet using the same. Background Technology
[0002] Some existing mirrors are installed on cabinets using suction cups. However, removing the mirror requires considerable force. After removal, the mirror easily reattaches itself using the suction cups, requiring the user to exert significant effort to pull it out again, which undoubtedly negatively impacts the user experience. Utility Model Content
[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 mirror.
[0004] To achieve the above objectives, the technical solution of this utility model is as follows:
[0005] This utility model also proposes a mirror cabinet having the above-mentioned mirror.
[0006] The mirror according to a first aspect of the present invention comprises:
[0007] The base has a mounting cavity, and the mounting cavity wall has a mounting opening;
[0008] A lens, which is mounted on the base;
[0009] A suction cup, wherein the suction cup is elastically deformable and mounted on the mounting port;
[0010] A push-pull assembly is connected to the suction cup, and the push-pull assembly can drive the suction cup to elastically deform in the direction of the inside or outside of the mounting cavity.
[0011] The mirror according to the embodiments of this utility model has at least the following beneficial effects: the push-pull assembly keeps the suction cup in a deformed state that is flush with the outer surface of the base or protruding to the outside of the mounting opening, allowing the user to pick up and put down the mirror at will; the push-pull assembly pulls the suction cup toward the inside of the mounting cavity, creating a negative pressure between the suction cup and the cabinet surface, causing the suction cup to adhere to the cabinet surface; under the pulling action of the push-pull assembly, the suction cup can fully deform to create a high negative pressure between it and the cabinet surface, ensuring the stability of the mirror fixed on the mirror cabinet.
[0012] According to some embodiments of the present invention, the push-pull assembly includes an elastic element, which is installed in the mounting cavity. The suction cup is connected to the elastic element, and the elastic element applies an elastic force to the suction cup, causing it to deform toward the interior of the mounting cavity.
[0013] According to some embodiments of the present invention, the elastic element includes a connecting part and two elastic arms. The two elastic arms extend symmetrically from both sides of the connecting part. An installation groove is provided on the inner wall of the mounting cavity. The installation groove extends radially to the mounting opening. The elastic arms are fixed on the installation groove. A locking protrusion is provided in the middle of the suction cup. The locking protrusion is engaged with the connecting part.
[0014] According to some embodiments of the present invention, the push-pull assembly includes a pressure member, which is oscillatingly mounted in the mounting cavity and is capable of pushing the suction cup toward the outside of the mounting cavity.
[0015] According to some embodiments of the present invention, the push-pull assembly further includes a lifting member, which is slidable relative to the mounting cavity between a first position and a second position. The mounting cavity is provided with a support position, and the pressing member swings around the support position. One end of the pressing member is opposite to the suction cup, and the other end of the pressing member rests on the lifting member. When the lifting member slides from the first position to the second position, the lifting member lifts one end of the pressing member, and the other end of the pressing member presses down on the suction cup.
[0016] According to some embodiments of the present invention, the mounting cavity is provided with an inclined platform. When the lifting member translates between the first position and the second position, the lifting member slides along the inclined platform to rise and fall relative to the suction cup.
[0017] According to some embodiments of this utility model, the mounting cavity is provided with a locking position. When the lifting member moves to the second position, the lifting member is locked onto the locking position; when the lifting member moves to the first position, the lifting member disengages from the locking position.
[0018] According to some embodiments of the present invention, the push-pull assembly further includes a motor and a push rod. The motor is connected to the push rod to drive the push rod to reciprocate and translate. The motor pushes the lifting member from the first position to the second position through the push rod.
[0019] According to some embodiments of the present invention, it also includes a push pin, which is telescopically movably inserted through the side wall of the mounting cavity. The push pin can extend to the outside of the base, and the push pin can retract towards the mounting cavity and push the lifting member to lift it so that it is disengaged from the locking position.
[0020] According to some embodiments of this utility model, an electrical control mechanism, a first limit switch, and a second limit switch are installed in the mounting cavity. The motor, the first limit switch, and the second limit switch are all connected to the electrical control mechanism. When the lifting member moves to the first position, it abuts against the first limit switch. When the lifting member moves to the second position, it abuts against the second limit switch.
[0021] A mirror cabinet according to a second aspect of the present invention includes a mirror.
[0022] The mirror cabinet according to the present utility model has at least the following beneficial effects: the mirror can be quickly installed and removed, and can be used in any position on the mirror cabinet.
[0023] Additional aspects and advantages of this 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
[0024] The above and / or additional aspects and advantages of this utility model will become apparent and readily understood from the description of the embodiments taken in conjunction with the following drawings, in which:
[0025] Figure 1 This is a structural breakdown diagram of a mirror;
[0026] Figure 2 This is an assembly diagram of a mirror;
[0027] Figure 3 This is a diagram illustrating one of the usage scenarios inside the mirror;
[0028] Figure 4 This is another diagram illustrating the internal usage of the mirror;
[0029] Figure 5 This is a structural diagram of the base;
[0030] Figure 6 yes Figure 1 Partial structural diagram;
[0031] Figure 7 This is an exploded view of the push-pull assembly.
[0032] Figure 8 This is an exploded structural diagram of the suction cup, elastic element, and pressure element;
[0033] Figure 9 This is a schematic diagram of the internal structure of a mirror.
[0034] Reference numerals: Base 100; Mounting cavity 110; Mounting opening 120; Mounting groove 130; Support position 140; Inclined platform 150; Locking position 160; Lens 200; Suction cup 300; Adsorption surface 301; Locking protrusion 310; Push-pull assembly 400; Elastic element 410; Connecting part 411; Spring arm 412; Pressing element 420; Pressing column 421; Lifting element 430; Motor 440; Push rod 450; Ejector pin 500; Electrical control mechanism 610; First limit switch 620; Second limit switch 630. Detailed Implementation
[0035] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown 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 this utility model, and should not be construed as limiting this utility model.
[0036] This utility model relates to a mirror, including a base 100, a lens 200, a suction cup 300, and a push-pull assembly 400.
[0037] like Figure 1 and Figure 2As shown, the shape of the lens 200 is not limited and can be circular, elliptical, square, etc. The base 100 has an internal mounting cavity 110, and a mounting opening 120 is provided on one side wall of the mounting cavity 110. The lens 200 is mounted on the base 100, covering the mounting cavity 110 and opposite to the mounting opening 120. The side wall of the mounting cavity 110 where the mounting opening 120 is located can be a flat wall. A suction cup 300 is mounted on the mounting opening 120. The suction cup 300 is disc-shaped, and the shape of the mounting opening 120 matches the peripheral shape of the suction cup 300. One, two, or more suction cups 300 can be provided, and the number of mounting openings 120 matches the number of suction cups 300, with one suction cup 300 corresponding to one mounting opening 120. A step can be provided on the circumferential inner wall of the mounting opening 120, and the periphery of the suction cup 300 overlaps on this step and is then fixed by adhesive or other means. The periphery of the suction cup 300 is flush with the outer surface of the base 100. The suction cup 300 covers the mounting opening 120. The side of the suction cup 300 facing outwards from the base 100 is defined as the suction surface 301. The push-pull assembly 400 is installed inside the mounting cavity 110 and is connected to the side of the suction cup 300 facing the mounting cavity 110. The suction cup 300 is made of elastic material such as rubber or silicone. When subjected to the force of the push-pull assembly 400, the suction cup 300 can undergo elastic deformation in the direction of deformation towards the inside or outside of the mounting cavity 110. The push-pull assembly 400 can be configured to primarily push the center of the suction cup 300, while the periphery of the suction cup 300 does not move relative to the mounting opening 120. Under the action of the push-pull assembly 400, the center of the suction cup 300 can deform uniformly relative to the mounting opening 120. The push-pull assembly 400 can be driven manually, for example, by using a lever structure to deform the suction cup 300; alternatively, it can be driven electrically, for example, by using an electric motor to control the movement of a lever to deform the suction cup 300. The deformation of the suction cup 300 depends on the travel distance of the push-pull assembly 400. Figure 4As shown, when the push-pull assembly 400 pushes the suction cup 300 outward from the mounting cavity 110 (in the diagram, in the direction away from the lens 200), the suction cup 300 elastically deforms outward from the base 100, and can deform until its adsorption surface 301 is flush with the outer surface of the base 100, and the deformed position of the suction cup 300 is integrated with the outer surface of the base 100. Here, "flush" can be understood as the adsorption surface 301 of the suction cup 300 and the outer surface of the base 100 being on the same plane, or it can be that the adsorption surface 301 and the outer surface of the base 100 have a misalignment of less than 5mm in the thickness direction. Depending on the actual use, the middle part of the suction cup 300 can be pushed and deformed by the push-pull assembly 400 until it protrudes outward from the mounting opening 120. The push-pull assembly 400 keeps the suction cup 300 in its current deformed state of being flush with the outer surface of the base 100 or protruding outward from the mounting opening 120. At this time, the mirror cannot be attached to any object using the suction cup 300. Users can freely place and remove the mirror without needing to forcefully pull it off due to the suction cup 300 automatically adhering to the surface. When the mirror needs to be fixed in a specific position, such as when using it on a mirror cabinet, the base 100 is placed vertically on the cabinet surface or mirror surface, with the suction surface 301 facing the cabinet surface and the periphery of the suction cup 300 abutting against the cabinet surface. Figure 3 As shown, the push-pull assembly 400 moves, pulling the suction cup 300 towards the interior of the mounting cavity 110 (towards the lens 200 in the diagram). The suction cup 300 elastically deforms towards the interior of the mounting cavity 110, and the suction surface 301 gradually moves away from the cabinet surface. A negative pressure is formed between the suction cup 300 and the cabinet surface, causing the suction cup 300 to adhere to the cabinet surface, thus fixing the mirror to the mirror cabinet for use. Under the pulling action of the push-pull assembly 400, the suction cup 300 can fully deform to form a high negative pressure with the cabinet surface, ensuring the stability of the mirror fixed to the mirror cabinet. At this time, the side of the base 100 facing the mirror cabinet is tightly pressed against the cabinet, preventing the base 100 from shaking during use and causing the suction cup 300 to tilt and partially detach from the cabinet surface, resulting in the loss of negative pressure. When it is necessary to remove the mirror, simply control the push-pull assembly 400 to push the suction cup 300 outwards from the base 100 to quickly disengage the negative pressure, saving time and effort.
[0038] In one embodiment, such as Figure 5 , Figure 6 , Figure 7 , Figure 8 and Figure 9As shown, the push-pull assembly 400 includes an elastic element 410. The elastic element 410 can be a spring, sheet metal, or other elastic structural component. The elastic element 410 is installed in the mounting cavity 110. The suction cup 300 is connected to the elastic element 410. The elastic element 410 applies an elastic force to the suction cup 300, which drives the suction cup 300 to elastically deform towards the interior of the mounting cavity 110. After the suction cup 300 is pushed and deformed towards the exterior of the mounting cavity 110 by other components of the mounting cavity 110, the elastic element 410 is in an elastically compressed state. When the downward pressure on the suction cup 300 is released, the elastic element 410 elastically resets, and the suction cup 300 is deformed towards the interior of the mounting cavity 110 by the elastic element 410. Under the elastic action of the elastic element 410, the suction cup 300 can stably deform in the direction of the mounting cavity 110 without the need for other power. The suction cup 300 and the cabinet surface are kept in a negative pressure state to stably adhere to the cabinet surface.
[0039] Based on the above embodiments, the elastic element 410 can be configured as a spring sheet structure, such as... Figure 5 , Figure 6 , Figure 7 , Figure 8 and Figure 9 As shown, the elastic element 410 includes a connecting portion 411 and two spring arms 412. The connecting portion 411 can be annular, and the two spring arms 412 extend symmetrically from both sides of the connecting portion 411. A mounting groove 130 is provided on the inner wall of the mounting cavity 110, and the mounting groove 130 extends radially to the mounting opening 120. The spring arms 412 can be fixed to the mounting groove 130 by means of glue or snap-fit. This means that the elastic element 410 spans across the mounting opening 120, and the connecting portion 411 is positioned opposite to the mounting opening 120. A locking protrusion 310 is provided in the middle of the suction cup 300, and the locking protrusion 310 is engaged with the connecting portion 411. When not pressed down by the pressure member 420, the elastic element 410 is supported by the spring arms 412, and the connecting portion 411 tends to bulge inward toward the mounting cavity 110, causing the suction cup 300 to deform inward toward the mounting cavity 110. The pressure member 420 is provided with a pressure post 421, which is movably inserted into the latching protrusion 310. The pressure post 421 remains inserted into the latching protrusion 310, so that the pressure member 420 maintains a relative position with the suction cup 300 during the swinging process, ensuring that the pressure member 420 can accurately press down on the center of the suction cup 300. The end of the pressure member 420 presses down on the latching protrusion 310, thereby pushing the suction cup 300 to deform outward from the mounting cavity 110.
[0040] In one embodiment, such as Figure 5 , Figure 6 , Figure 7 , Figure 8 and Figure 9As shown, the push-pull assembly 400 includes a pressure member 420, which can be configured as a rod-shaped, sheet-shaped, or other structure. The pressure member 420 is installed in the mounting cavity 110 and can be hinged within the mounting cavity 110 via a pivot or other means, allowing it to swing within the mounting cavity 110. One end of the pressure member 420 can be connected to the suction cup 300, and the swinging of the pressure member 420 causes the suction cup 300 to deform in the direction of the inside or outside of the mounting cavity 110. In this embodiment, with the cooperation of the elastic member 410, the pressure member 420 is mainly used to press the suction cup 300 downwards towards the outside of the mounting cavity 110. The pressure member 420 can directly abut against the suction cup 300 or against the elastic member 410, pushing the elastic member 410 to deform the suction cup 300, thereby pushing the suction cup 300 towards the outside of the mounting cavity 110. When the pressure member 420 presses down on the suction cup 300, the suction cup 300 deforms towards the outside of the mounting cavity 110 until it is flush with the outer surface of the base 100. At this time, the elastic member 410 is in an elastically compressed state. When the pressure member 420 is released from the suction cup 300, the elastic member 410 elastically returns to its original position, and the suction cup 300 is deformed towards the inside of the mounting cavity 110 through the elastic member 410.
[0041] Based on the above embodiments, the push-pull assembly 400 further includes a lifting member 430. The lifting member 430 can be configured as a slider, rod, or other structure. The lifting member 430 slides within the mounting cavity 110, and the sliding position has a first position and a second position. A support position 140 is provided in the mounting cavity 110, and the pressure member 420 swings around the support position 140. Alternatively, the pressure member 420 can be hinged to the support position 140 via a pivot; or a crossbar can be provided on the support position 140, with a gap between the crossbar and the inner wall of the mounting cavity 110, and the pressure member 420 passes through this gap, swinging around the crossbar. One end of the pressure member 420 is positioned opposite the suction cup 300, and the other end of the pressure member 420 overlaps the lifting member 430. When the lifting member 430 slides from the first position to the second position, the lifting member 430 lifts one end of the pressure member 420, and the other end of the pressure member 420 presses down on the suction cup 300. The lifting member 430 may be provided with a ramp. When the lifting member 430 moves horizontally, one end of the pressing member 420 can slide along the ramp on the lifting member 430, thereby causing one end of the pressing member 420 to rise or fall. According to the lever principle, the pressing member 420 can then rise or fall around the other end of the support position 140. In this embodiment, as shown... Figure 5As shown, the mounting cavity 110 is provided with a ramp 150. When the lifting member 430 moves from the first position to the second position, the lifting member 430 slides upward along the ramp 150. The ramp 150 causes the lifting member 430 to rise relative to the surface where the mounting opening 120 is located, thereby causing one end of the pressing member 420 overlapping the lifting member 430 to rise along with the lifting member 430, and then pressing down on the suction cup 300 through the other end of the pressing member 420. Under the elastic force of the spring sheet, when the end of the pressing member 420 opposite to the suction cup 300 moves towards the interior of the mounting cavity 110, the lifting member 430 slides downward along the ramp 150, and the lifting member 430 resets from the second position to the first position. The ramp 150 causes the lifting member 430 to descend relative to the surface where the mounting opening 120 is located, and one end of the pressing member 420 overlapping the lifting member 430 descends along with the lifting member 430.
[0042] Based on the above embodiments, such as Figure 5 As shown, the mounting cavity 110 is provided with a locking position 160. A snap-fit structure can be provided on the locking position 160. The lifting member 430 is provided with a hook that mates with the snap-fit structure. When the lifting member 430 moves to the second position, it engages with the locking position 160, thereby fixing the lifting member 430 in the second position and keeping the suction cup 300 flush with the outer surface of the base 100. When the lifting member 430 moves to the first position, it disengages from the locking position 160.
[0043] One end of the lifting member 430 can extend outside the base 100 and can be moved manually by pushing the lifting member 430. In this embodiment, the push-pull assembly 400 also includes a motor 440 and a push rod 450. The motor 440 is connected to the push rod 450, and the motor 440 is a forward and reverse reversible motor 440. The motor 440 drives the push rod 450 to reciprocate. The motor 440 pushes the lifting member 430 from a first position to a second position through the push rod 450. When the lifting member 430 is fixed in the second position, the motor 440 drives the push rod 450 to return to its original position away from the lifting member 430. Alternatively, the motor 440 can pull the lifting member 430 back to the second position through the push rod 450. A ejector pin 500 can be installed on the base 100. The ejector pin 500 is telescopically movably inserted through the side wall of the mounting cavity 110. The ejector pin 500 can extend outside the base 100. The end of the ejector pin 500 facing the mounting cavity 110 abuts against the lifting member 430. When the lifting member 430 moves to the second position, it is locked in place on the locking position 160, and pushes the ejector pin 500 outward from the base 100. When it is necessary to reset the lifting member 430 to the first position, the ejector pin 500 is pushed from the outside of the base 100, and retracts inward from the mounting cavity 110. The ejector pin 500 pushes the lifting member 430 to lift, causing it to disengage from the locking position 160. With the cooperation of the inclined platform 150 and the elastic member 410, the lifting member 430 resets to the first position. At the same time, the suction cup 300 can be attached to the mirror cabinet or other places under the action of the elastic member 410.
[0044] Among them, such as Figure 5 , Figure 6 , Figure 7 , Figure 8 and Figure 9As shown, an electronic control mechanism 610, a first limit switch 620, and a second limit switch 630 are installed in the mounting cavity 110. The electronic control mechanism 610, the first limit switch 620, and the second limit switch 630 are all connected to the electronic control mechanism 610 via wires. The elastic element 410 is made of a conductive metal. The motor 440, the elastic element 410, and the electronic control mechanism 610 are electrically connected sequentially via wires. When the relative installation positions of the electronic control mechanism 610 and the motor 440 in the mounting cavity 110 are far apart, the elastic element 410 serves as a relay structure between the motor 440 and the electronic control mechanism 610, shortening the required wire length between them and preventing interference between the wires and the pressure element 420 and the lifting element 430. When the lifting element 430 moves to the first position, it abuts against the first limit switch 620, which feeds back a signal to the electronic control mechanism 610, causing the electronic control mechanism 610 to control the motor 440 to stop running. When the lifting member 430 moves to the second position, it abuts against the second limit switch 630. The second limit switch 630 feeds a signal back to the electronic control mechanism 610, which then controls the motor 440 to stop running or reverses to drive the push rod 450 away from the lifting member 430. The electronic control mechanism 610 may include a circuit board, control buttons, and a power supply. The control buttons may be mechanical buttons, touch buttons, etc., and may be located on the side of the base or on the lens.
[0045] In the description of this utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc., indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this utility model and simplifying the description, and are not intended to indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model.
[0046] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this utility model, "a plurality of" means at least two, such as two, three, etc., unless otherwise explicitly specified.
[0047] In this utility model, unless otherwise explicitly specified and limited, the terms "installation," "connection," "joining," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0048] In this invention, unless otherwise explicitly specified and limited, "above" or "below" the second feature can include direct contact between the first and second features, or contact between the first and second features through another feature between them. Furthermore, "above," "over," and "on top" of the second feature includes the first feature directly above or diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Below," "below," and "under" the second feature includes the first feature directly below or diagonally below the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.
[0049] In the description of this specification, references to terms such as "some specific embodiments" indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.
[0050] Although embodiments of the present 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 present invention, the scope of which is defined by the claims and their equivalents.
Claims
1. A mirror, characterized in that, The utility model relates to a lens installation device, including: a base (100) provided with a mounting cavity (110) with a mounting opening (120) on the cavity wall; a lens (200) mounted on the base (100); a suction cup (300) elastically deformed mounted on the mounting opening (120); a push-pull assembly (400) connected with the suction cup (300), which can drive the suction cup (300) to elastically deform towards the inside and outside of the mounting cavity (110).
2. The mirror of claim 1, wherein: The push-pull assembly (400) includes an elastic member (410) mounted in the mounting cavity (110), the suction cup (300) is connected with the elastic member (410), and the elastic member (410) exerts an elastic force on the suction cup (300) to deform it towards the inside of the mounting cavity (110).
3. The mirror of claim 2, wherein: The elastic member (410) includes a connecting part (411) and elastic arms (412), two elastic arms (412) symmetrically extend from both sides of the connecting part (411), an installation groove (130) is formed on the inner wall of the mounting cavity (110) and extends to the mounting opening (120) along the radial direction of the mounting opening (120), the elastic arms (412) are fixed on the installation groove (130), and the middle part of the suction cup (300) is provided with a clamping protrusion (310) clamped on the connecting part (411).
4. The mirror of claim 1 or 2, wherein: The push-pull assembly (400) includes a pressing member (420) swingably mounted in the mounting cavity (110), which can push the suction cup (300) towards the outside of the mounting cavity (110).
5. The mirror of claim 4, wherein: The push-pull assembly (400) further includes a lifting member (430) capable of sliding between a first position and a second position relative to the mounting cavity (110), the mounting cavity (110) is provided with a support position (140), the pressing member (420) swings around the support position (140), one end of the pressing member (420) is opposite to the position of the suction cup (300), and the other end of the pressing member (420) is lapped on the lifting member (430); when the lifting member (430) slides from the first position to the second position, the lifting member (430) lifts one end of the pressing member (420), and the other end of the pressing member (420) presses down the suction cup (300).
6. The mirror of claim 5, wherein: The mounting cavity (110) is provided with an inclined table (150), and when the lifting member (430) translates between the first position and the second position, the lifting member (430) slides along the inclined table (150) to lift and lower relative to the suction cup (300).
7. The mirror of claim 5, wherein: The mounting cavity (110) is provided with a clamping position (160), when the lifting piece (430) moves to the second position, the lifting piece (430) is clamped on the clamping position (160); when the lifting piece (430) moves to the first position, the lifting piece (430) is separated from the clamping position (160).
8. The mirror of claim 5, wherein: The push-pull assembly (400) further comprises a motor (440) and a push rod (450), the motor (440) is connected with the push rod (450) to drive the push rod (450) to reciprocatingly translate, the motor (440) drives the lifting piece (430) to move from the first position to the second position through the push rod (450).
9. The mirror of claim 7, wherein: Further comprising a ejector pin (500), the ejector pin (500) is movably arranged in the side wall of the mounting cavity (110), the ejector pin (500) can extend to the outside of the base (100), the ejector pin (500) can retract to the direction of the mounting cavity (110) and push the lifting piece (430) to lift to make it separate from the clamping position (160).
10. The mirror of claim 8, wherein: The mounting cavity (110) is provided with an electric control mechanism (610), a first travel switch (620) and a second travel switch (630), the motor (440), the first travel switch (620) and the second travel switch (630) are connected with the electric control mechanism (610), when the lifting piece (430) moves to the first position, the lifting piece (430) abuts against the first travel switch (620), when the lifting piece (430) moves to the second position, the lifting piece (430) abuts against the second travel switch (630).
11. A cabinet, characterized in that The mirror according to any one of claims 1 to 9.