A framed mirror structure with storage function

By designing a framed mirror structure with storage function, the problem of traditional framed mirrors being unable to flexibly classify and store small items has been solved. It also allows for flexible adjustment of the shelf position and the angle of the magnified round mirror, improving the aesthetics of the space and the user experience.

CN224420599UActive Publication Date: 2026-06-30FOSHAN QIMEI DECORATION MATERIALS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FOSHAN QIMEI DECORATION MATERIALS CO LTD
Filing Date
2025-09-12
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Traditional framed mirrors are not convenient for flexibly classifying and storing small items according to their size, which affects the aesthetics and tidiness of the space.

Method used

A framed mirror structure with storage function was designed, including components such as a rotating frame, storage box, positioning hole, positioning post, locking hole, locking post, sliding seat, and locking screw. It realizes flexible adjustment of the partition and angle adjustment of the magnifying round mirror, making it convenient to classify and store small items.

Benefits of technology

It enables flexible adjustment of the partition position and the angle of the magnifying mirror as needed, improving the aesthetics of the space and the user experience.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model provides a framed mirror structure with storage function, belonging to the field of framed mirror technology, to solve the problem of inconvenience in flexibly classifying and storing small items according to their size; it includes a mounting frame; a rotating frame is provided on one side of the mounting frame via a hinge, and a glass mirror is embedded inside one side of the rotating frame; a storage structure is fixedly provided on the rotating frame, and an adjustment component is also fixedly provided on the rotating frame, with an auxiliary structure rotatably provided inside the adjustment component; the storage structure includes: a storage box, positioning holes, partitions, and positioning posts; by providing locking posts and locking holes, as well as positioning posts and positioning holes, the partitions can be fixed in a designated position inside the storage box according to actual usage needs, which is conducive to adjusting the position of the partitions according to the size of the items, so that the interior of the storage box is rationally divided; thus, it can flexibly classify and store items according to their size, ensuring aesthetics and tidiness.
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Description

Technical Field

[0001] This utility model belongs to the field of framed mirror technology, and more specifically, it relates to a framed mirror structure with storage function. Background Technology

[0002] In the field of interior decoration, mirrors, as an important element that combines practicality and decorative effect, are widely used in various spaces such as bedrooms, bathrooms, and entryways. They not only meet people's daily grooming needs, but also visually expand space by reflecting light and images, adding a unique atmosphere and aesthetic to the interior environment.

[0003] Traditional framed mirror designs are mostly quite simple, focusing primarily on the mirror's imaging function and the simple decorative aspect of the frame, while neglecting the mirror's functionality. However, in daily life, people often need to use various cosmetics, jewelry, and other small items around the mirror; traditional framed mirrors are not convenient for flexibly classifying and storing these small items according to their size, resulting in these small items being placed randomly around the mirror, which in turn affects the aesthetics and tidiness of the entire space. Utility Model Content

[0004] To address the aforementioned technical problems, this utility model provides a framed mirror structure with storage function, thereby resolving the issue raised in the background art regarding the inconvenience of flexibly classifying and storing these small items according to their size.

[0005] This utility model discloses a framed mirror structure with storage function, achieved through the following specific technical means:

[0006] A framed mirror structure with storage function includes a mounting frame; a rotating frame is provided on one side of the mounting frame via a hinge, and a glass mirror is embedded inside one side of the rotating frame; a storage structure is fixedly provided on the rotating frame, and an adjustment component is also fixedly provided on the rotating frame, and an auxiliary structure is rotatably provided inside the adjustment component.

[0007] The storage structure includes: a storage box, positioning holes, a partition, and positioning posts; the storage box is fixedly mounted on the rotating frame; the positioning holes are opened inside the bottom side of the storage box and are arranged in a straight line; the partition is movably mounted inside the storage box; the positioning posts are fixedly mounted at the bottom of the partition and are movably mounted inside the positioning holes, and the bottom end of the positioning posts is chamfered.

[0008] Furthermore, a mounting base is fixedly installed inside the mounting frame, and a magnetic block is fixedly installed inside one side of the mounting frame; two sets of magnetic blocks are arranged symmetrically, and an auxiliary groove A is opened inside one side of the mounting frame; a metal block is fixedly installed inside one side of the rotating frame, and two sets of metal blocks are arranged symmetrically, and the metal block and the magnetic block are attracted to each other; an auxiliary groove B is opened inside one side of the rotating frame.

[0009] Furthermore, the storage structure also includes: a locking hole, a locking post, and a limiting rod; the locking hole is opened inside the top side of the storage box; the locking post is slidably disposed inside the partition, and a spring is provided between the locking post and the partition; the end of the locking post is chamfered, and the locking post is slidably disposed inside the locking hole; the limiting rod is slidably disposed inside the partition, and the limiting rod is fixedly disposed on the top of the locking post.

[0010] Furthermore, the adjustment assembly includes: a guide rail, a sliding seat, and a locking screw; the guide rail is fixedly mounted on the rotating frame; the sliding seat is slidably mounted on the outside of the guide rail; the locking screw is threadedly connected inside the sliding seat, and one end of the locking screw is fixedly provided with a knob, while the other end of the locking screw is tightly fitted with the guide rail.

[0011] Furthermore, the adjustment assembly also includes: a fixed seat, a guide seat, a guide post, and a gear plate A; the fixed seat is fixedly disposed on the outside of the sliding seat; the guide seat is fixedly disposed on the bottom of the fixed seat; the guide post is slidably disposed inside the guide seat, and the guide post is hexagonal; the gear plate A is fixedly disposed on the top of the guide post, and a spring is disposed between the bottom of the gear plate A and the guide seat, and the spring is located on the outside of the guide post.

[0012] Furthermore, the auxiliary structure includes: an auxiliary shaft, a gear disk B, and a connecting rod; the auxiliary shaft is rotatably disposed inside the fixed seat; the gear disk B is fixedly disposed at the bottom end of the auxiliary shaft, and the gear disk B meshes with the gear disk A; the connecting rod is fixedly disposed at the bottom of the gear disk B, and the connecting rod is movably disposed between the gear disk A and the guide post.

[0013] Furthermore, the auxiliary structure also includes: a connecting seat, a connecting plate, and a magnifying circular lens; the connecting seat is fixedly disposed on the outside of the auxiliary shaft; the connecting plate is fixedly disposed on the outside of the connecting seat; and the magnifying circular lens is fixedly disposed at the end of the connecting plate.

[0014] Compared with the prior art, the present invention has the following beneficial effects:

[0015] 1. In this utility model, by providing locking pins and locking holes as well as positioning pins and positioning holes, the partition can be fixed in a designated position inside the storage box according to actual usage needs. This facilitates adjusting the position of the partition according to the volume of the items, so that the internal space of the storage box can be rationally divided. Furthermore, it allows for flexible classification and storage according to the size of the items, ensuring aesthetics and tidiness.

[0016] 2. In this utility model, by providing a locking screw and a sliding seat, the sliding seat can be fixed at a designated position on the outside of the guide rail by utilizing the friction between the locking screw and the guide rail; thus, the height position of the auxiliary structure can be adjusted according to the user's actual needs.

[0017] 3. In this utility model, by providing a magnifying circular mirror, users can conveniently perform detailed makeup and skincare operations, thus improving the user experience and practicality of the mirror; at the same time, through the coordinated action of the auxiliary shaft, gear plate B, gear plate A, guide post and spring, the angle adjustment function of the magnifying circular mirror is realized; users can flexibly adjust the angle of the magnifying circular mirror according to their own needs, enhancing its practicality. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the overall structure of this utility model.

[0019] Figure 2 This is a schematic diagram of the mounting frame of this utility model.

[0020] Figure 3 This is a schematic diagram of the rotating frame of this utility model.

[0021] Figure 4 This is a schematic diagram of the storage structure of this utility model.

[0022] Figure 5 This is a schematic diagram of the partition of this utility model.

[0023] Figure 6 This is a schematic diagram of the connection structure between the adjustment component and the auxiliary structure of this utility model.

[0024] Figure 7 This is a schematic diagram of the auxiliary structure of this utility model.

[0025] In the diagram, the correspondence between component names and drawing numbers is as follows:

[0026] 1. Mounting frame; 101. Rotating bracket; 102. Glass mirror; 103. Mounting base; 104. Magnetic block; 105. Auxiliary slot A; 106. Metal block; 107. Auxiliary slot B;

[0027] 2. Storage structure; 201. Storage box; 202. Locking hole; 203. Positioning hole; 204. Divider; 205. Positioning post; 206. Locking post; 207. Limiting rod;

[0028] 3. Adjustment assembly; 301. Guide rail; 302. Sliding seat; 303. Locking screw; 304. Fixed seat; 305. Guide seat; 306. Guide post; 307. Gear plate A;

[0029] 4. Auxiliary structure; 401. Auxiliary shaft; 402. Gear plate B; 403. Connecting rod; 404. Connecting seat; 405. Connecting plate; 406. Magnifying round mirror. Detailed Implementation

[0030] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples.

[0031] Example 1: As shown in the attached document Figure 1 To be continued Figure 7 As shown:

[0032] This utility model provides a framed mirror structure with storage function, including a mounting frame 1; a rotating frame 101 is provided on one side of the mounting frame 1 via a hinge, and a glass mirror 102 is embedded inside one side of the rotating frame 101; a storage structure 2 is fixedly provided on the rotating frame 101, and an adjustment component 3 is also fixedly provided on the rotating frame 101, and an auxiliary structure 4 is rotatably provided inside the adjustment component 3.

[0033] In this embodiment, the storage structure 2 includes: a storage box 201, positioning holes 203, a partition 204, and positioning posts 205; the storage box 201 is fixedly mounted on the rotating frame 101; the positioning holes 203 are formed inside the bottom side of the storage box 201 and are arranged in a straight line; the partition 204 is movably mounted inside the storage box 201; the positioning posts 205 are fixedly mounted at the bottom of the partition 204 and are movably mounted inside the positioning holes 203. Furthermore, the bottom end of the positioning post 205 is chamfered; a mounting base 103 is fixedly installed inside the mounting frame 1, and a magnetic block 104 is fixedly installed inside one side of the mounting frame 1; two sets of magnetic blocks 104 are symmetrically arranged, and an auxiliary groove A105 is opened inside one side of the mounting frame 1; a metal block 106 is fixedly installed inside one side of the rotating frame 101, and two sets of metal blocks 106 are symmetrically arranged, and the metal block 106 is attracted to the magnetic block 104; the interior of one side of the rotating frame 101... An auxiliary slot B107 is provided; the storage structure 2 also includes: a locking hole 202, a locking post 206, and a limiting rod 207; the locking hole 202 is located inside the top side of the storage box 201; the locking post 206 is slidably disposed inside the partition 204, and a spring is provided between the locking post 206 and the partition 204; the end of the locking post 206 is chamfered, and the locking post 206 is slidably disposed inside the locking hole 202; the limiting rod 207 is slidably disposed inside the partition 204, and the limiting rod 207 is fixedly disposed on the top of the locking post 206; its specific function is: by providing the locking post 206 and the locking hole 202, as well as the positioning post 205 and the positioning hole 203, the partition 204 can be fixed in a designated position inside the storage box 201 according to actual usage needs, which is conducive to adjusting the position of the partition 204 according to the volume of the items, so that the internal space of the storage box 201 can be reasonably divided; thus, it is possible to flexibly classify and store items according to their size.

[0034] Example 2: As shown in the attached document Figure 3 With appendix Figure 6 As shown: Based on Embodiment 1, the adjustment component 3 includes: a guide rail 301, a sliding seat 302, and a locking screw 303; the guide rail 301 is fixedly mounted on the rotating frame 101; the sliding seat 302 is slidably mounted on the outside of the guide rail 301; the locking screw 303 is threadedly connected to the inside of the sliding seat 302, and one end of the locking screw 303 is fixedly provided with a knob, and the other end of the locking screw 303 is tightly fitted with the guide rail 301; its specific function is: by providing the locking screw 303 and the sliding seat 302, the sliding seat 302 can be fixed at a specified position on the outside of the guide rail 301 by utilizing the friction between the locking screw 303 and the guide rail 301.

[0035] Example 3: As shown in the attached document Figure 6 With appendix Figure 7As shown: Based on Embodiment 1 and Embodiment 2, the adjustment component 3 further includes: a fixed seat 304, a guide seat 305, a guide post 306, and a gear plate A307; the fixed seat 304 is fixedly disposed on the outside of the sliding seat 302; the guide seat 305 is fixedly disposed on the bottom of the fixed seat 304; the guide post 306 is slidably disposed inside the guide seat 305, and the guide post 306 is hexagonal; the gear plate A307 is fixedly disposed on the top of the guide post 306, and a spring is disposed between the bottom of the gear plate A307 and the guide seat 305, and the spring is located on the outside of the guide post 306; the auxiliary structure 4 includes: an auxiliary shaft 401, a gear plate B402, a connecting rod 403, a connecting seat 404, a connecting plate 405, and a magnifying circular mirror 406; the auxiliary shaft 401 is rotatably disposed inside the fixed seat 304; the gear plate B402 is fixedly mounted at the bottom end of the auxiliary shaft 401, and the gear plate B402 meshes with the gear plate A307; the connecting rod 403 is fixedly mounted at the bottom of the gear plate B402, and the connecting rod 403 is movably mounted between the gear plate A307 and the guide post 306; the connecting seat 404 is fixedly mounted on the outside of the auxiliary shaft 401; the connecting plate 405 is fixedly mounted on the outside of the connecting seat 404; the magnifying round mirror 406 is fixedly mounted at the end of the connecting plate 405; its specific function is: by setting the magnifying round mirror 406, users can conveniently perform detailed makeup, skin care and other operations, improving the user experience and practicality of the mirror; at the same time, through the coordinated action of the auxiliary shaft 401, gear plate B402, gear plate A307, guide post 306 and spring, the angle adjustment function of the magnifying round mirror 406 is realized.

[0036] The specific usage and function of this embodiment are as follows:

[0037] In this invention, the mounting frame 1 is fixedly installed in a designated position using the mounting base 103; during use, activities such as grooming are performed using the glass mirror 102; when it is necessary to store items or use the magnifying round mirror 406, an appropriate external force is applied to the rotating frame 101 through the auxiliary grooves B107 and A105 to overcome the attraction between the magnet 104 and the metal block 106, causing the rotating frame 101 to rotate around the hinge until it is fully extended; after use, the rotating frame 101 is rotated towards the mounting frame 1, causing the metal block 106 and the magnet 106 to interact. 4. Re-engage to close the rotating frame 101 for convenient storage and space saving; various cosmetics, jewelry and other small items can be placed in the storage box 201 for storage; when it is necessary to change the position of the partition 204, pull the locking pin 206 out of the locking hole 202 through the limiting rod 207; then, according to the needs, move the partition 204 to the appropriate position so that the positioning pin 205 at the bottom of the partition 204 is aligned with the positioning hole 203 inside the bottom side of the storage box 201. Since the bottom end of the positioning pin 205 is chamfered, it is easy for the positioning pin 205 to enter the positioning hole 203. After accurate positioning, release the limiting rod 207. Under the action of the spring, the locking pin 206 slides downward into the locking hole 202, fixing the partition 204 in the current position and completing the partitioning of the storage space. When it is necessary to adjust the up and down position of the auxiliary structure 4, rotate the locking screw 303 to separate the end of the locking screw 303 from the guide rail 301. At this time, the sliding seat 302 can slide freely on the outside of the guide rail 301. As needed, slide the sliding seat 302 to a suitable position, and then tighten the locking screw 303 to make the end of the locking screw 303 fit tightly against the guide rail 301, thus fixing the sliding seat 302. The magnifying round lens 406 is fixed in its current position. When the angle of the magnifying round lens 406 needs to be adjusted, the magnifying round lens 406 and the connecting plate 405 are moved, causing the connecting seat 404 to drive the auxiliary shaft 401 to rotate inside the fixed seat 304. This causes the gear plate B402 to drive the gear plate A307 and the guide post 306 to slide downward through the toothed structure. When the magnifying round lens 406 is stopped, the spring causes the gear plate A307 to reset and re-engage with the gear plate B402, fixing the auxiliary shaft 401 and thus fixing the angle of the magnifying round lens 406. Users can use the magnifying round lens 406 to perform more detailed operations such as makeup and shaving.

Claims

1. A framed mirror structure with storage function, characterized in that, include: Mounting frame (1); a rotating frame (101) is provided on one side of the mounting frame (1) via a hinge, and a glass mirror (102) is inlaid inside one side of the rotating frame (101); a storage structure (2) is fixedly provided on the rotating frame (101), and an adjustment component (3) is also fixedly provided on the rotating frame (101), and an auxiliary structure (4) is rotatably provided inside the adjustment component (3); The storage structure (2) includes: a storage box (201), a positioning hole (203), a partition (204), and a positioning post (205); the storage box (201) is fixedly mounted on the rotating frame (101); the positioning hole (203) is opened inside the bottom side of the storage box (201), and the positioning holes (203) are arranged in a straight line; the partition (204) is movably mounted inside the storage box (201); the positioning post (205) is fixedly mounted at the bottom of the partition (204), and the positioning post (205) is movably mounted inside the positioning hole (203), and the bottom end of the positioning post (205) is chamfered.

2. The framed mirror structure with storage function according to claim 1, characterized in that: The mounting frame (1) is fixedly provided with a mounting base (103) inside, and a magnetic block (104) is fixedly provided inside one side of the mounting frame (1); two sets of magnetic blocks (104) are arranged symmetrically, and an auxiliary groove A (105) is opened inside one side of the mounting frame (1); a metal block (106) is fixedly provided inside one side of the rotating frame (101), and two sets of metal blocks (106) are arranged symmetrically, and the metal block (106) attracts the magnetic block (104); an auxiliary groove B (107) is opened inside one side of the rotating frame (101).

3. The framed mirror structure with storage function according to claim 1, characterized in that: The storage structure (2) further includes: a locking hole (202), a locking post (206), and a limiting rod (207); the locking hole (202) is opened inside the top side of the storage box (201); the locking post (206) is slidably disposed inside the partition (204), and a spring is provided between the locking post (206) and the partition (204); the end of the locking post (206) is chamfered, and the locking post (206) is slidably disposed inside the locking hole (202); the limiting rod (207) is slidably disposed inside the partition (204), and the limiting rod (207) is fixedly disposed on the top of the locking post (206).

4. The framed mirror structure with storage function according to claim 1, characterized in that: The adjustment assembly (3) includes: a guide rail (301), a sliding seat (302), and a locking screw (303); the guide rail (301) is fixedly mounted on the rotating frame (101); the sliding seat (302) is slidably mounted on the outside of the guide rail (301); the locking screw (303) is threadedly mounted inside the sliding seat (302), and one end of the locking screw (303) is fixedly mounted with a knob, and the other end of the locking screw (303) is tightly fitted with the guide rail (301).

5. A framed mirror structure with storage function according to claim 4, characterized in that: The adjustment assembly (3) further includes: a fixed seat (304), a guide seat (305), a guide post (306), and a gear plate A (307); the fixed seat (304) is fixedly disposed on the outside of the sliding seat (302); the guide seat (305) is fixedly disposed on the bottom of the fixed seat (304); the guide post (306) is slidably disposed inside the guide seat (305), and the guide post (306) is hexagonal; the gear plate A (307) is fixedly disposed on the top of the guide post (306), and a spring is disposed between the bottom of the gear plate A (307) and the guide seat (305), and the spring is located on the outside of the guide post (306).

6. The framed mirror structure with storage function according to claim 5, characterized in that: The auxiliary structure (4) includes: an auxiliary shaft (401), a gear disk B (402), and a connecting rod (403); the auxiliary shaft (401) is rotatably disposed inside the fixed seat (304); the gear disk B (402) is fixedly disposed at the bottom end of the auxiliary shaft (401), and the gear disk B (402) meshes with the gear disk A (307); the connecting rod (403) is fixedly disposed at the bottom of the gear disk B (402), and the connecting rod (403) is movably disposed between the gear disk A (307) and the guide post (306).

7. The framed mirror structure with storage function according to claim 6, characterized in that: The auxiliary structure (4) further includes: a connecting seat (404), a connecting plate (405), and a magnifying circular lens (406); the connecting seat (404) is fixedly disposed on the outside of the auxiliary shaft (401); the connecting plate (405) is fixedly disposed on the outside of the connecting seat (404); and the magnifying circular lens (406) is fixedly disposed at the end of the connecting plate (405).