A folding garment rack

By using the rotating combination of the insert rod and sleeve and the angle adjustment mechanism of the garment folding hanger, the problems of insufficient space utilization, flexibility of use and ease of disassembly of existing hangers are solved. The hanger achieves space saving, easy disassembly and angle adjustment, and improves the convenience and safety of use.

CN224440930UActive Publication Date: 2026-07-03XIAMEN HUILIBAO IMPORT & EXPORT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XIAMEN HUILIBAO IMPORT & EXPORT CO LTD
Filing Date
2025-09-19
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing clothing racks are inadequate in terms of space utilization, flexibility of use, and practicality, making it difficult to meet diverse needs. They take up too much space, especially in small apartments and narrow spaces, and are inconvenient to disassemble and lack angle adjustment functions.

Method used

A garment folding rack was designed, which uses a plug-and-sleeve rotation mechanism and an angle-locking function to switch between unfolding and folding the rack. The angle between the hanging rod and the wall panel is adjustable, and the plug-in connection and welding structure facilitates disassembly and replacement of parts.

Benefits of technology

It achieves space saving, convenient disassembly, stable load-bearing capacity and adjustable angle of the bracket, improving space utilization, ease of use and safety, and reducing production and maintenance costs.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224440930U_ABST
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Abstract

This utility model belongs to the field of hanging rack technology, and in particular to a folding garment hanging rack. It includes a hanging rod with a stop welded to its end, and an insert rod integrally formed at the lower part of the stop, which is rotatably installed inside the upper end of a sleeve; a suspension rod with its end integrally formed with the hanging rod, and several connecting rods welded between the hanging rod and the suspension rod; a connecting plate welded to the other end of the suspension rod, located directly below the insert rod; and an adjusting piece positioned between the sleeve and the stop. Through the rotational cooperation of the insert rod and sleeve and the angle locking function of the adjusting piece, the hanging rack can freely switch between "unfolded for use" and "folded for storage." When unfolded, the hanging rod forms a preset angle with the wall panel, providing ample hanging space; when folded, the hanging rod is rotated to fit snugly against the wall panel, with the overall thickness being only the combined thickness of the wall panel and the hanging rod, occupying almost no extra space.
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Description

Technical Field

[0001] This utility model belongs to the field of hanging rack technology, specifically relating to a folding garment hanging rack. Background Technology

[0002] In daily life, clothing racks are essential tools for hanging clothes in homes, clothing stores, and other settings. Their core requirement is to provide stable support for clothing while adapting to different spaces and scenarios. However, existing clothing racks still have many shortcomings in practical applications, failing to meet users' diverse needs for space utilization, flexibility, and practicality.

[0003] Currently, clothing racks on the market are mainly divided into two categories: fixed and simple movable. Fixed racks (such as integrated hanging rods in wardrobes and wall-mounted racks installed by drilling holes) are usually fixed to the wall or cabinet by welding or screws. They are structurally stable and have a strong load-bearing capacity, but they have a fatal flaw: once installed, the position and shape of the rack cannot be adjusted, and it is impossible to store clothes according to changes in the amount or space requirements. In small apartments, narrow wardrobes, or temporary storage spaces, fixed racks will continuously occupy space, resulting in low space utilization, especially during the off-season, when idle racks become a "space hindrance."

[0004] While simple, portable racks (such as floor-standing clothes racks) solve the problem of fixation, their overall size is relatively large, requiring the entire rack to be moved, which is inconvenient. Furthermore, they still occupy floor space when not in use, failing to meet the need for "zero-space-occupancy" storage. In addition, many foldable floor-standing racks use multi-jointed structures, retaining a certain volume even when folded, and the joints are prone to loosening, resulting in weak load-bearing capacity and potential deformation or breakage after prolonged use.

[0005] Meanwhile, the existing racks generally lack "removability": the core components of most racks (such as the hanging rod and the support) are fixed with screws or welded together. Disassembly requires tools, and repeated disassembly can easily lead to stripped threads and structural damage, making it difficult to meet users' needs for cleaning racks, replacing parts, or temporarily moving racks.

[0006] Furthermore, traditional garment racks lack or have inadequate angle adjustment functionality. When hanging long coats, dresses, or other garments at a fixed angle to the wall, the clothes are prone to friction and wear; in confined spaces, fixed-angle racks can also interfere with surrounding objects. Therefore, the market urgently needs a garment rack that combines space-saving design, flexible folding, easy disassembly, and adjustable angle to address the pain points of existing products. Utility Model Content

[0007] In order to overcome the above-mentioned shortcomings of the existing technology, the purpose of this utility model is to provide a space-saving and easy-to-assemble / disassemble clothing folding rack.

[0008] This utility model is achieved through the following technical solution: a folding garment rack, including a wall panel, and further comprising:

[0009] A sleeve, which is integrally formed in the middle of the wall panel;

[0010] The boom has a stop block welded to its end, and the lower part of the stop block has an insert rod integrally formed thereon, and the insert rod is rotatably installed inside the upper end of the sleeve.

[0011] A suspension rod, the end of which is integrally formed with a hanger rod, and a plurality of connecting rods are welded between the hanger rod and the suspension rod for connection;

[0012] A connecting plate, which is welded to the other end of the suspension rod and is located directly below the insertion rod;

[0013] An adjusting member is disposed between the sleeve and the stop block, and is used to adjust the angle of the wall panel and the hanger.

[0014] Preferably, a screw is installed in the hole in the middle of the stop block, and the lower end of the screw passes through the insert rod and is screwed into the screw hole in the surface of the connecting plate.

[0015] Preferably, both sides of the wall panel are bonded with magnetic strips for magnetic attraction of the connecting rod when the rod is folded.

[0016] Preferably, the angle adjusting component includes a limiting protrusion integrally formed at the lower end of the stop block, and the limiting protrusion is located directly below the hanging rod. The upper end of the sleeve is provided with three limiting grooves, and the three limiting grooves are distributed on a 180-degree arc.

[0017] Preferably, the hanger rod, suspension rod, and screw form a triangle, and several connecting rods welded between the hanger rod and suspension rod are evenly distributed, with the length of the connecting rods decreasing sequentially along the hanger rod.

[0018] Compared with the prior art, the beneficial effects of this utility model are:

[0019] 1. Extremely space-saving, adaptable to various storage needs.

[0020] Through the rotational engagement of the "plug-sleeve" and the angle locking function of the "angle adjuster," the hanging rack can freely switch between "unfolded for use" and "folded for storage." When unfolded, the hanging rod is at a preset angle (e.g., 90°) to the wall panel, providing ample hanging space; when folded, the hanging rod is rotated to fit snugly against the wall panel, with the overall thickness being only the combined thickness of the wall panel and the hanging rod, taking up almost no extra space. This design is particularly suitable for small apartments with wardrobes, narrow walls, rental rooms, and other spaces with limited space. During the off-season for clothing, the rack can be folded for storage, significantly improving space utilization.

[0021] 2. Detachable design enhances ease of use and maintainability.

[0022] The "plug" and "sleeve" of the wall mount use a plug-in rotating connection with no irreversible fixing structure. Users can remove the entire "hanging rod-stop-plug-suspending rod-connecting rod" from the wall panel without tools. This design offers multiple conveniences: First, it facilitates cleaning, allowing for thorough washing after removal of the mount components, avoiding the dust accumulation and bacterial growth problems caused by the difficulty in disassembling traditional fixed mounts; second, it facilitates component replacement, allowing for individual removal and replacement of easily damaged components such as the suspension rod and connecting rod, without replacing the entire mount, reducing usage costs; third, it facilitates temporary relocation, enabling quick disassembly and transport when moving, moving out of a rental, or when additional mounts are needed temporarily, adapting to temporary usage scenarios.

[0023] 3. Stable structure and strong load-bearing capacity ensure long-term reliability.

[0024] The hanging rack employs multiple "one-piece molding" and "welding" reinforcement connection methods to effectively improve structural strength and load-bearing capacity. Specifically, the sleeve and wall panel are integrally molded to prevent loosening; the stop block and insert rod are integrally molded, as are the hanger rod and suspension rod, reducing gaps between components; the hanger rod and suspension rod are reinforced by welding connecting rods, forming a stable triangular structure that effectively distributes the weight of clothing and prevents problems such as hanger rod bending and suspension rod deformation when hanging heavy objects. Simultaneously, the stop block, positioned at the upper end of the sleeve, bears the weight of the entire suspension structure, preventing the hanger rod from slipping down and ensuring the rack remains stable even when fully loaded with clothing, meeting the load-bearing requirements for daily use (tested to stably hang multiple adult garments, meeting household use standards).

[0025] 4. Adjustable angle to adapt to diverse suspension needs

[0026] The "angle adjuster" located between the sleeve and the stop block allows for flexible adjustment of the angle between the wall panel and the hanging rod, enabling users to adjust the rack angle according to the type of clothing and the available space. For example, when hanging long coats or trench coats, the angle can be adjusted to 90° to keep the clothing away from the wall and prevent friction and wear; when folding, it can be adjusted to 0° or 180° for a snug fit. The angle locking function of the angle adjuster ensures that the rack position is fixed after adjustment, preventing angle shift due to collisions during use and improving safety and stability.

[0027] 5. The process is simple and easy to produce, reducing manufacturing costs.

[0028] The core components of the hanging rack are primarily connected using "one-piece molding" and "welding," eliminating the need for complex mold designs or precision assembly parts (such as screws, nuts, and bearings). The one-piece molding process allows for mass production of components such as wall panels-sleeves, stops-insertion rods, and hangers-suspension rods, resulting in high production efficiency. The welding process is mature, easy to operate, and suitable for large-scale industrial production. Compared to traditional multi-joint folding hanging racks, this design has fewer parts and a simpler assembly process, effectively reducing production and assembly costs and giving it strong market competitiveness. Attached Figure Description

[0029] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;

[0030] Figure 2 This is a three-dimensional schematic diagram of the present invention.

[0031] Figure 3 This is a schematic diagram of the disassembled structure of the parts of this utility model;

[0032] Figure 4 for Figure 1 A magnified structural diagram of point A in the middle.

[0033] Reference numerals in the attached drawings: 1. Wall panel; 2. Sleeve; 3. Hanging rod; 4. Stop block; 5. Insert rod; 6. Suspension rod; 7. Connecting rod; 8. Connecting plate; 9. Screw; 10. Limiting protrusion; 11. Limiting groove; 12. Magnet strip. Detailed Implementation

[0034] The technical solution of this utility model will now be described with reference to the accompanying drawings and embodiments.

[0035] Please see Figure 1-4This embodiment provides the following technical solution: A garment folding hanger, comprising a wall panel 1, a sleeve 2, a hanging rod 3, a suspension rod 6, a connecting plate 8, and an adjusting piece. The sleeve 2 is integrally formed in the middle of the wall panel 1. A stop block 4 is welded to the end of the hanging rod 3. An insert rod 5 is integrally formed at the lower part of the stop block 4 and is rotatably installed inside the upper end of the sleeve 2. The end of the suspension rod 6 is integrally formed with the hanging rod 3. Several connecting rods 7 are welded between the hanging rod 3 and the suspension rod 6 for connection. The connecting plate 8 is welded to the other end of the suspension rod 6 and is located directly below the insert rod 5. The adjusting piece is disposed between the sleeve 2 and the stop block 4 and is used to adjust the angle between the wall panel 1 and the hanging rod 3.

[0036] In this embodiment, the sleeve 2 integrally formed in the middle of the wall panel 1 is used to support the stop block 4 welded to the end of the hanging rod 3. At the same time, the insert rod 5 integrally formed at the lower part of the stop block 4 is rotatably installed inside the upper end of the sleeve 2, which facilitates the hanging rod 3 to rotate and fold on the side of the wall panel 1. The angle adjustment piece set between the stop block 4 and the sleeve 2 realizes that the hanging rod 3 is fixed by the angle adjustment piece after being folded. The suspension rod 6 integrally formed at the end of the hanging rod 3 is welded and fixed by the connecting rod 7, which facilitates the hanging rod 6 to hang clothing. At the same time, the insert rod 5 can be removed from the upper end of the sleeve 2, which also facilitates the disassembly of the hanging rod 3.

[0037] Specifically, a screw 9 is installed in the hole in the middle of the stop 4, and the lower end of the screw 9 passes through the insert rod 5 and is screwed into the screw hole on the surface of the connecting plate 8.

[0038] In this embodiment, the screw 9 is installed in the hole on the upper part of the stop block 4. At the same time, the lower end of the screw 9 passes through the insert rod 5 and screws into the screw hole on the surface of the connecting plate 8. This makes it easy to fix the stop block 4 and the connecting plate 8 with the screw 9, so that the screw 9 is located in the sleeve 2, thereby achieving the purpose of fixing the ends of the hanging rod 3 and the suspension rod 6, and preventing the end of the suspension rod 6 from deforming due to excessive weight of the clothing hanging on the suspension rod 6.

[0039] Specifically, both sides of the wall panel 1 are bonded with magnetic strips 12 for magnetic attraction of the connecting rod 7 when the hanging rod 3 is folded.

[0040] In this embodiment, the magnetic strips 12 bonded to both sides of the wall panel 1 allow the hanging rod 3 to rotate and fold when the magnetic rod 3 is rotated and folded. The magnetic strips 12 attract the connecting rod 7 welded between the hanging rod 3 and the suspension rod 6 through magnetic force, thereby achieving double fixation of the angle adjustment piece and the magnetic strips 12 after the hanging rod 3 is rotated and folded.

[0041] Specifically, the angle adjustment component includes a limiting protrusion 10 integrally formed at the lower end of the stop block 4, and the limiting protrusion 10 is located directly below the hanger rod 3. The upper end of the sleeve 2 is provided with three limiting grooves 11, and the three limiting grooves 11 are distributed on a 180-degree arc.

[0042] In this embodiment, an angle adjustment component consisting of a limiting protrusion 10 and a limiting groove 11 is used. The limiting protrusion 10 integrally formed at the lower end of the stop block 4 is installed in the limiting groove 11 opened at the upper end of the sleeve 2. There is one limiting protrusion 10 and three limiting grooves 11 are distributed on a 180-degree arc, which makes it easy for the hanger 3 to rotate to be parallel or perpendicular to the wall panel 1.

[0043] Specifically, the hanger 3, the suspension rod 6, and the screw 9 form a triangle, and several connecting rods 7 welded between the hanger 3 and the suspension rod 6 are evenly distributed, and the length of the connecting rods 7 decreases sequentially along the hanger 3.

[0044] The above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A garment folding hanger comprising a wall panel (1), characterized in that, Also includes: Sleeve (2), wherein the sleeve (2) is integrally formed in the middle part of the sleeve (2); The rod (3) has a stop (4) welded to its end. The lower part of the stop (4) is integrally formed with a plug (5), and the plug (5) is rotatably installed inside the upper end of the sleeve (2). The suspension rod (6) is integrally formed with the hanger rod (3) at its end, and a plurality of connecting rods (7) are welded between the hanger rod (3) and the suspension rod (6) for connection. A connecting plate (8) is welded to the other end of the suspension rod (6) and the connecting plate (8) is located directly below the insertion rod (5); An adjusting member is provided between the sleeve (2) and the stop block (4), and the adjusting member is used to adjust the angle of the wall panel (1) and the hanging rod (3).

2. A garment folding hanger according to claim 1, wherein: A screw (9) is installed in the hole in the middle of the stop (4), and the lower end of the screw (9) passes through the insert (5) and is screwed into the screw hole on the surface of the connecting plate (8).

3. A garment folding hanger as defined in claim 1, wherein: Both sides of the wall panel (1) are bonded with magnet strips (12) for magnetic attraction of the connecting rod (7) when the hanging rod (3) is folded.

4. A garment folding hanger as defined in claim 1, wherein: The angle adjustment component includes a limiting protrusion (10) integrally formed at the lower end of the stop block (4), and the limiting protrusion (10) is located directly below the hanging rod (3). The upper end of the sleeve (2) is provided with three limiting grooves (11), and the three limiting grooves (11) are distributed on an arc of 180 degrees.

5. A garment folding hanger as defined in claim 2, wherein: The hanger (3), suspension rod (6) and screw (9) form a triangle, and several connecting rods (7) welded between the hanger (3) and suspension rod (6) are distributed at equal intervals, and the length of the connecting rods (7) decreases sequentially along the hanger (3).