Novel bamboo hat and coat stand
By incorporating a circular guide rail, rotating disc, lifting mechanism, and lighting on the coat rack, the problems of insufficient rotation and storage space in bamboo coat racks are solved, enabling multi-angle access and height adjustment, thus improving ease of use and practicality.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FUJIAN BICHENG IND & TRADE CO LTD
- Filing Date
- 2025-08-25
- Publication Date
- 2026-06-16
Smart Images

Figure CN224357349U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of household goods technology, and in particular to a novel bamboo clothes rack. Background Technology
[0002] Coat racks are essential storage tools in modern homes, primarily used for hanging and temporarily storing various clothing items, hats, backpacks, and other items. Currently, traditional coat racks on the market are mostly made of materials such as metal, wood, or plastic, and their structural designs are generally quite simple, typically consisting of a fixed support base and several upright main rods with a few hooks. While this traditional structure can meet basic hanging needs, it has many shortcomings in practical use.
[0003] With the development of society and the economy and the increasing awareness of environmental protection, consumers have increasingly higher requirements for home furnishing products. They not only pay attention to their basic functions, but also focus on the aesthetics, multifunctionality, and environmental friendliness of the materials. Bamboo, due to its short growth cycle, high renewability, and natural texture and color, has gradually become an important environmentally friendly material in the furniture manufacturing industry and is widely used in the manufacture of home furnishing products such as coat racks.
[0004] However, existing bamboo coat racks still have significant design flaws: First, their structures are mostly fixed, with no rotating hanging space, requiring users to walk around the rack to retrieve items from different locations, which is extremely inconvenient in rooms with limited space; second, they are functionally limited, offering only simple hanging functionality, lacking effective storage space for items such as hats, scarves, and handbags that are unsuitable for hanging or require flat placement, resulting in these items being randomly stacked or stored elsewhere, affecting space utilization and creating a cluttered room; third, the storage board height of existing products is fixed, unable to be flexibly adjusted according to item size and usage needs, severely limiting practicality; in addition, traditional coat racks lack necessary auxiliary functions, such as lighting, resulting in a poor user experience in low-light environments. Summary of the Invention
[0005] In view of this, the purpose of this utility model is to provide a new type of bamboo coat rack that can improve space utilization, facilitate the retrieval and placement of items from multiple angles, and flexibly adjust the storage space.
[0006] This utility model is achieved by the following method: A novel bamboo coat rack includes a support base, an annular guide rail groove on the upper surface of the support base, a rotating disk on the support base, guide wheels embedded in the annular guide rail groove at both ends of the lower surface of the rotating disk, multiple support rods evenly spaced on the upper surface of the rotating disk, a clothes hanging block at the upper end of the support rod, a first placement plate at the upper end between the multiple support rods, and a strip-shaped groove at the lower end of the inner side of the multiple support rods, with a second placement plate being lifted and lowered in the strip-shaped groove via a lifting component.
[0007] Furthermore, the multiple support rods are arranged in a triangular pattern.
[0008] Furthermore, two clothes hanging blocks are provided at both the left and right ends of the upper part of the support rod.
[0009] Furthermore, a lighting lamp is provided on the lower surface of the first placement plate.
[0010] Furthermore, the lifting component includes a drive motor, with the drive motor installed in the strip groove of the support rod at the left end. The output end of the drive motor is connected to a screw, and a moving block is spirally sleeved on the screw. Guide rods are installed in the strip grooves at the right end and the front end, and sliding blocks are sleeved on the guide rods. Both the moving block and the sliding block are connected to the second placement plate.
[0011] The beneficial effects of this utility model are as follows: This utility model realizes the overall rotation of the coat rack through the rotating disk, which makes it convenient to pick up and put down items from multiple angles; the height of the second placement plate can be adjusted by the lifting component to adapt to the storage needs of items of different sizes, while the triangular support structure enhances stability. It has the advantages of improving space utilization, flexibly adjusting storage space and enhancing ease of use. Attached Figure Description
[0012] Figure 1 This is a schematic diagram of the structure of this utility model.
[0013] Figure 2 This is the front view of the present invention. Detailed Implementation
[0014] The present invention will be further described below with reference to the accompanying drawings.
[0015] Please see Figure 1 and Figure 2As shown, this utility model provides an embodiment: a novel bamboo coat rack, including a support base 1, an annular guide rail groove (not shown) on the upper surface of the support base 1, a rotating disk 2 on the support base 1, guide wheels 21 embedded in the annular guide rail groove at both ends of the lower surface of the rotating disk 2, a plurality of support rods 22 evenly spaced on the upper surface of the rotating disk 2, a hanging block 23 on the upper end of the support rod 22, a first placement plate 24 on the upper end between the plurality of support rods 22, a strip groove 25 on the lower end of the inner side of the plurality of support rods 22, and a second placement plate 4 raised and lowered in the strip groove 25 via a lifting member 3.
[0016] The support base is the foundation that supports the entire structure. It can be made of bamboo in a round or square shape, with a diameter of 50-80 cm. A non-slip pad at the bottom enhances stability. The annular guide rail groove is a grooved track surrounding the surface of the base. It can be a U-shaped groove structure with a depth of 2-3 cm, used to guide the rotation of the rotating disk. The guide wheel is a rolling component installed at the bottom of the rotating disk. It can be made of nylon-coated wheels with a diameter of 4-6 cm, creating rolling friction with the guide rail groove to reduce rotational resistance. The lifting mechanism is the adjustment mechanism that controls the height of the second placement plate. It can be implemented using a screw drive or pneumatic rod device, with a stroke range of 20-40 cm, and height adjustment is achieved via a handle or electric drive.
[0017] Specifically, the support base serves as the basic load-bearing platform, with its annular guide rail groove cooperating with the guide wheels of the rotating disk to form a rotating mechanism. When the user rotates the support rod for hanging clothes, the guide wheels roll along the guide rail groove to achieve a 360-degree rotation, turning clothes in different positions toward the user. The first placement plate is fixed to the top of the support rod to form the upper storage space for storing flat items such as hats. A strip-shaped groove is formed on the lower side of the support rod, with a built-in lifting mechanism that drives the second placement plate to move vertically. The height of the storage layer can be changed by adjusting bolts or an electric push rod to accommodate the storage needs of items of different sizes. The bamboo material, after high-temperature carbonization treatment, retains its natural texture while enhancing its moisture-proof performance.
[0018] Compared to existing technologies, traditional fixed coat racks require users to walk around to operate them, while this solution uses a rotating structure to allow for controllable adjustment of the placement and retrieval of clothing, significantly improving convenience in confined spaces. Existing products only have a single shelf, while this solution adopts a two-tiered design with an adjustable second shelf, providing dedicated storage space for items such as scarves and handbags. Compared to metal or plastic materials, bamboo's natural antibacterial properties effectively inhibit bacterial growth during clothing storage.
[0019] Through the above technical solution, this application achieves controllable rotation of the hanging area of the coat rack, allowing users to retrieve and place clothing from different positions while standing. The double-layered storage structure, combined with an adjustable height design, provides categorized storage space for items such as hats and bags, effectively solving the problem of cluttered stacking. The appropriate use of bamboo ensures structural strength while meeting the modern home's demand for environmentally friendly materials.
[0020] Please continue reading. Figure 1 As shown, in one embodiment of this utility model, the multiple support rods 22 are arranged in a triangular pattern.
[0021] The triangular arrangement of multiple support rods refers to the triangular layout of the support rods on the support base. Specifically, this can be achieved by placing three support rods at the three vertices of the triangle and fixing them to the rotating disk using mortise and tenon joints or metal connectors. This layout enhances the overall structural strength through geometric stability while optimizing the spatial distribution between the support rods.
[0022] Specifically, multiple support rods are fixed to the upper surface of the rotating disk in a triangular arrangement, with the vertices of the triangles corresponding to the mounting points of the support rods. As the rotating disk rotates, the support rods rotate synchronously with it. This triangular arrangement ensures stable relative positions between the support rods, preventing structural displacement due to rotation. Because triangles possess inherent mechanical stability, this arrangement can distribute the load pressure when hanging clothing, reducing the risk of deformation caused by uneven stress on the support rods.
[0023] Compared to existing technologies, traditional coat racks typically use symmetrical arrangements of support rods, such as circles or squares. Their structural stability depends on the rigidity of the material, but bamboo exhibits anisotropic mechanical properties, making it prone to swaying during dynamic rotation. The triangular layout compensates for the limitations of material properties through geometric optimization, significantly improving torsional resistance with the same amount of material. At the same time, the gaps between the vertices of the triangles allow users to easily access clothing from different angles, reducing interference caused by the dense arrangement of support rods.
[0024] Through the above technical solution, this application solves the problem of insufficient stability caused by the unreasonable layout of support rods in traditional bamboo coat racks, while optimizing the accessibility of the hanging space. The triangular arrangement ensures that the support rods maintain a stable relative position during rotation, allowing users to reach different hanging areas without frequently adjusting their standing position, making it particularly suitable for environments with limited space.
[0025] Please continue reading. Figure 1 and Figure 2 As shown in one embodiment of the present invention, two clothes hanging blocks 23 are provided at both the left and right ends of the upper part of the support rod 22.
[0026] The upper left and right ends of the support rod refer to the symmetrically distributed positions on both sides of the top area of the support rod. These can be achieved by cutting and processing bamboo to create fixed connection points, allowing the hanging position of clothing to expand horizontally. The hanging block is an independent structural unit used to support the hanging items. It can be made by carving bamboo into parts with hooks or protrusions, and its surface can be treated with an anti-slip finish to enhance friction.
[0027] Specifically, two hanging blocks are installed on each side of the top of the support rod, forming four hanging points. When clothes, backpacks, or other items need to be hung, they can be placed on the hanging blocks at the left and right ends respectively, avoiding multiple items piling up in the same area. Since the hanging blocks are symmetrically distributed along the horizontal direction of the support rod, users can operate the hanging items on both sides simultaneously from a fixed position without frequently adjusting their standing angle.
[0028] Compared to existing technologies, traditional coat racks typically have only a single hanging structure at the top of the support rod, leading to clothes obstructing each other and making them inconvenient to retrieve when piled up. This solution expands the storage capacity of a single support rod by increasing the number of horizontally distributed hanging points, while maintaining spacing between hanging items to prevent tangling or compression.
[0029] Through the above technical solution, this application solves the problem of insufficient hanging space in traditional coat racks leading to the accumulation of items. By using a multi-point horizontal layout, it achieves efficient use of space, enabling different sizes and types of hanging items to be stored in categories, and improving the convenience of retrieval and placement.
[0030] Please continue reading. Figure 1 and Figure 2 As shown in one embodiment of the present invention, a lighting lamp 20 is provided on the lower surface of the first placement plate 24.
[0031] The lighting fixture refers to a light source installed in the area below the first placement board. It can be implemented using LED light strips or recessed lighting fixtures, and is connected to an external power supply system via a power cord, such as a built-in battery or an external socket. Its function is to provide auxiliary lighting for the hanging area below the first placement board, allowing users to clearly observe the placement of clothing or items in low-light conditions. The control switch can be located on the side of the support rod or the edge of the base, and can be in the form of a touch sensor or physical button for convenient user operation.
[0032] Specifically, the lighting is mounted on the lower surface of the first shelf via a fixed bracket or snap-on structure. When the user needs to retrieve or view hanging clothing or other items, the lighting function can be activated via a control switch. For example, at night or in dimly lit indoor environments, turning on the lighting projects light directly onto the hanging area between the support rods, preventing clothing from being missed or other items from being accidentally bumped due to poor visibility. Furthermore, the lighting's installation position is designed so that the light coverage extends to the space between multiple support rods without interfering with the storage function of the upper shelf.
[0033] Compared to existing technologies, traditional bamboo coat racks lack any lighting. In low-light environments, users must rely on external light sources to accurately retrieve and place clothing, which is inconvenient and poses safety hazards. This solution directly addresses the limitations of nighttime use caused by the single function of existing technologies by adding a light source under the first placement board, without requiring additional space or altering the main structure of the coat rack.
[0034] Through the above technical solution, this application can provide directional lighting for users in low-light environments, significantly improving the functionality and ease of use of the coat rack, while maintaining the environmental protection and aesthetics of the bamboo structure, thus meeting the demand for multifunctional integrated storage equipment in modern home settings.
[0035] Please continue reading. Figure 1 and Figure 2 As shown, in one embodiment of the present invention, the lifting component 3 includes a drive motor (not shown). The drive motor is disposed in the strip groove of the support rod 22 at the left end. The output end of the drive motor is connected to a screw 31. A moving block 32 is spirally sleeved on the screw 31. A guide rod 33 is disposed in the strip groove 25 at the right end and the front end. A sliding block 34 is sleeved on the guide rod 33. Both the moving block 32 and the sliding block 33 are connected to the second placement plate 4.
[0036] Among them, the drive motor refers to the rotating device driven by electricity, which can be implemented by a miniature DC geared motor to provide power for the rotation of the screw.
[0037] The screw refers to a metal rod with a spiral pattern on its surface, which can be made of stainless steel. It converts rotational motion into linear motion by engaging with the threaded part of the moving block.
[0038] The movable block refers to a metal block with a threaded hole inside, which can be made of aluminum alloy. It is used to move up and down along the strip groove when the screw rotates and drive the second placement plate to rise and fall.
[0039] The guide rod is a smooth cylindrical metal rod, which can be made of galvanized steel. It restricts the movement trajectory of the second placement plate by cooperating with the sliding block to prevent deviation during the lifting process.
[0040] The sliding block refers to a metal block with through holes inside, which can be made of nylon material, and is used to slide freely on the guide rod and support the second placement plate.
[0041] Specifically, when the drive motor starts, the output shaft drives the screw to rotate, causing the moving block to move along the screw's axial direction. Since the moving block is rigidly connected to the second placement plate, its vertical displacement is directly transmitted to the second placement plate. Simultaneously, the guide rods installed in the right and front strip grooves form a sliding pair with the sliding block, providing horizontal constraint during the lifting and lowering of the second placement plate, ensuring a smooth and wobbly process. This structure allows the height of the second placement plate to be electrically adjusted according to actual needs; for example, raising the height to increase lower space when storing thicker clothing, or lowering the height for easier access when storing small items.
[0042] Compared to existing technologies, traditional coat racks typically have fixed-height storage shelves, which cannot accommodate items of different sizes. This solution achieves precise electric adjustment of the storage shelf height through a combination of motor drive and screw transmission mechanism. Furthermore, the use of a guide rod and sliding block mechanism effectively solves the problem of jamming that may occur during lifting.
[0043] Through the above technical solution, this application can flexibly adjust the height of the second placement board according to actual usage needs, significantly improving the space utilization of the coat rack. For example, when hanging long coats, the second placement board can be lowered to prevent the clothes from dragging on the ground, while it can be raised to increase hanging space when storing folded items, thereby meeting diverse home storage needs.
[0044] The drive motor used in this invention is existing technology, which is already well understood by those skilled in the art, and will not be described in detail here.
[0045] The above description is only a preferred embodiment of the present utility model. All equivalent changes and modifications made within the scope of the patent application of the present utility model shall be covered by the present utility model.
Claims
1. A novel bamboo coat rack, characterized in that: The device includes a support base, an annular guide rail groove on the upper surface of the support base, a rotating disk on the support base, guide wheels embedded in the annular guide rail groove at both ends of the lower surface of the rotating disk, multiple support rods evenly spaced on the upper surface of the rotating disk, clothes hanging blocks at the upper ends of the support rods, a first placement plate at the upper end between the multiple support rods, and strip-shaped grooves at the lower ends of the inner sides of the multiple support rods, with a second placement plate being raised and lowered within the strip-shaped grooves via a lifting component.
2. The novel bamboo coat rack according to claim 1, characterized in that: Multiple support rods are arranged in a triangular pattern.
3. The novel bamboo coat rack according to claim 1, characterized in that: Two clothes hanging blocks are provided at both the left and right ends of the upper part of the support rod.
4. A novel bamboo coat rack according to claim 1, characterized in that: A light is provided on the lower surface of the first placement plate.
5. A novel bamboo coat rack according to claim 1, characterized in that: The lifting component includes a drive motor. The drive motor is installed in the strip groove of the support rod at the left end. The output end of the drive motor is connected to a screw. A moving block is spirally sleeved on the screw. Guide rods are installed in the strip grooves at the right end and the front end. Sliding blocks are sleeved on the guide rods. Both the moving block and the sliding block are connected to the second placement plate.