A storage cabinet
By using tension shaft and telescopic shaft assemblies in the storage cabinet, the problem of loose cabinet doors was solved, thus improving the stability and lifespan of the cabinet doors.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG WANGU IND TECH CO LTD
- Filing Date
- 2025-06-20
- Publication Date
- 2026-06-23
AI Technical Summary
The hinge structure of existing storage cabinets is prone to loosening after prolonged use, causing the cabinet doors to wobble or become damaged.
The system employs a tension shaft assembly and a telescopic shaft assembly, which are hooked into the cabinet panel. Combined with an arc-shaped pull rod and a slot locking structure, it stabilizes the cabinet door during opening and closing to prevent loosening.
It improves the support capacity of the cabinet doors, prevents them from loosening, extends their service life, and enhances their storage performance.
Smart Images

Figure CN224396288U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of furniture, and more specifically, to a storage cabinet. Background Technology
[0002] A storage cabinet is a type of cabinet used for storing items. Typically, besides providing internal storage space, storage cabinets also feature hooks on the doors for hanging items. However, existing cabinet doors are usually installed using hinges, which are secured to the door and cabinet side with screws. When items are hung on the cabinet door, the weight increases. When the door is open, it relies on the hinges for support. Over time, the screws securing the hinges can loosen due to the weight of the door and the opening and closing process, leading to the door wobbling or even damage. Utility Model Content
[0003] In order to overcome the defects of the existing technology, this utility model provides a storage cabinet to solve the problems in the existing technology.
[0004] The technical solution adopted by this utility model to solve its technical problem is: a storage cabinet, including a cabinet body, with cabinet panels installed at both the upper and lower ends of the cabinet body. Multiple vertically corresponding tension shaft seat assemblies are embedded in the sides of the upper and lower cabinet panels facing each other. A cabinet door is provided between the upper and lower cabinet panels. Telescopic shaft assemblies are embedded in both the upper and lower ends of the cabinet door. The telescopic shaft assemblies are inserted into the tension shaft seat assemblies. The tension shaft seat assembly includes a shaft seat body embedded in the cabinet panel. A hook is provided at one end of the shaft seat body. The hook extends outward relative to the surface of the shaft seat body and hooks into the cabinet panel.
[0005] In the aforementioned storage cabinet, the hook includes a connecting rod, one end of which is connected to the bearing body, and the other end is provided with a pull rod. The pull rod is inclinedly disposed on the bearing body, and the pull rod and the connecting rod are intersecting each other, with the intersection point of the pull rod and the connecting rod being point T.
[0006] In the aforementioned storage cabinet, the bearing body, connecting rod, and pull rod are an integral structure.
[0007] In the aforementioned storage cabinet, the pull rod is an arc-shaped rod.
[0008] In the aforementioned storage cabinet, slots are symmetrically arranged on the upper and lower sides of the bearing body, and a locking hole is provided at one end of the slot. A locking rib is provided on the inner wall between the slot and the locking hole. The telescopic shaft assembly is inserted into the slot and slides into the locking hole within the slot.
[0009] In the aforementioned storage cabinet, the lower inner end of the slot and the card hole is a bevel.
[0010] In the aforementioned storage cabinet, both the upper and lower edges of the bearing body are provided with protruding arc-shaped inserts, which are inserted into the cabinet panel.
[0011] In the aforementioned storage cabinet, the telescopic shaft assembly includes a shaft housing, which is embedded in the cabinet door. A connecting shaft passes through the shaft housing, and a spring is also provided inside the shaft housing. One end of the spring abuts against the connecting shaft, and the other end abuts against the inner wall of the shaft housing at the end away from the connecting shaft.
[0012] In the aforementioned storage cabinet, barbs are provided on the outer wall of the shaft housing.
[0013] The beneficial effects of this utility model are that, by hooking the hook on the tension shaft seat assembly into the cabinet panel, and inserting the cabinet door into the shaft body via the telescopic shaft assembly, even if heavy objects are hung on the cabinet door during opening and closing, the tension shaft seat assembly can be better stabilized within the cabinet panel by the hook under the pull of the cabinet door's weight. This ensures the tension shaft seat assembly is stable within the cabinet panel. Compared to traditional hinge structures, this utility model can prevent the cabinet door from becoming loose, improve the cabinet door's support capacity, thereby providing storage performance and extending its service life. Attached Figure Description
[0014] Figure 1 This is a three-dimensional structural diagram of the storage cabinet in this embodiment.
[0015] Figure 2 for Figure 1 A magnified structural diagram of point A in the middle.
[0016] Figure 3 This is a schematic diagram of the three-dimensional structure of the cabinet panel.
[0017] Figure 4 for Figure 3 A magnified structural diagram of point A in the middle.
[0018] Figure 5 This is a schematic diagram of the connection structure between the telescopic shaft assembly and the tension shaft seat assembly.
[0019] Figure 6 This is a three-dimensional structural diagram of the tension shaft bearing assembly.
[0020] In the diagram: 1. Cabinet body; 2. Cabinet panel; 3. Cabinet door; 4. Telescopic shaft assembly; 5. Pull shaft seat assembly; 6. Shaft seat body; 7. Connecting rod; 8. Pull rod; 9. Slot; 10. Clip; 11. Bevel; 12. Arc-shaped insert; 13. Shaft housing; 14. Connecting shaft; 15. Barb; 16. Detailed Implementation
[0021] The specific embodiments of this utility model will be further described below with reference to the accompanying drawings. It should be noted that these descriptions are for the purpose of aiding understanding of this utility model, but do not constitute a limitation thereof. Furthermore, the technical features involved in the various embodiments of this utility model described below can be combined with each other as long as they do not conflict with each other.
[0022] Combination Figures 1 to 6 The storage cabinet shown includes a cabinet body 1, with cabinet panels 2 installed at both the top and bottom ends of the cabinet body 1. Multiple vertically aligned tension shaft assemblies 5 are embedded in the opposite sides of the upper and lower cabinet panels 2. A cabinet door 3 is provided between the upper and lower cabinet panels 2, and telescopic shaft assemblies 4 are embedded in both the top and bottom ends of the cabinet door 3. The telescopic shaft assemblies 4 are inserted into the tension shaft assemblies 5. Each tension shaft assembly 5 includes a shaft body 6 embedded in the cabinet panel 2. One end of the shaft body 6 has a hook that extends outward relative to the surface of the shaft body 6 and hooks onto the cabinet panel 2. In this embodiment, the door 2 is hooked into the cabinet panel 2 by the hook on the tension shaft assembly 5, and the door 2 is inserted into the shaft body 6 by the telescopic shaft assembly 4. This allows the door 2 to be better stabilized inside the cabinet panel 2 by the hook under the pull of the gravity of the door 2 on the tension shaft assembly 5 during the opening and closing process. This stabilizes the tension shaft assembly 5 inside the cabinet panel 2. Compared with the traditional hinge structure, this utility model can prevent the door 3 from loosening, improve the support capacity of the door 3, thereby providing storage performance and increasing service life.
[0023] Specifically, the hook includes a connecting rod 7, one end of which is connected to the bearing body 6, and the other end is provided with a pull rod 8. The pull rod 8 is inclinedly set on the bearing body 6, and the pull rod 8 and the connecting rod 7 are intersected, with the intersection point of the pull rod 8 and the connecting rod 7 being point T. By extending the pull rod 8 at point T, a wider range of tensile support can be obtained. After the cabinet door 2 is opened, the weight of the cabinet door 2 pulls the bearing body 6 through the telescopic shaft assembly 4, so that the pull rod 8 can better tighten and stabilize the bearing body 6, greatly improving the stability of the opening and closing of the cabinet door 3 and preventing the cabinet door 3 from shaking or loosening.
[0024] It is worth noting that the bearing body 6, connecting rod 7, and tie rod 8 are an integral structure, which improves the overall stability. Specifically, the bearing body 6, connecting rod 7, and tie rod 8 can be injection molded. The tie rod 8 is an arc-shaped rod, which makes the tie rod 8 form a hook shape, so that it can be better hooked into the cabinet panel 2, improving the stability and firmness of the bearing body 6. The connecting rod 7 forms a certain angle with the tie rod 8, and the length of one end of the tie rod 8 at point T is shorter than the length of the other end, thus forming a long side and a short side. The long side at point T extends to the strong load-bearing area, and the short side can reduce the impact on the weak load-bearing unit.
[0025] In this embodiment, slots 9 are symmetrically arranged on the upper and lower sides of the bearing body 6. One end of the slot 9 is connected to a locking hole 10. A retaining rib 11 is provided on the inner wall between the slot 9 and the locking hole 10. The telescopic shaft assembly 4 is inserted into the slot 9 and slides into the locking hole 10 within the slot 9. This allows the telescopic shaft assembly 4 to be inserted from the slot 9 and to be locked into the locking hole 10 by sliding, thereby completing the assembly. The cabinet door 3 can rotate within the locking hole 10 via the telescopic shaft assembly 4. When disassembling, the telescopic shaft assembly 4 can be moved in the opposite direction, making disassembly and assembly more convenient.
[0026] Since the slots 9 are symmetrically arranged on the upper and lower sides of the bearing body 6, in some embodiments, when the storage space is longitudinally distributed and divided by a partition, only one tension bearing assembly 5 can be installed on the partition, so that the slots 9 are symmetrically arranged on the upper and lower sides of the bearing body 6 respectively on the upper and lower sides of the partition, thereby allowing cabinet doors 3 to be installed in the storage space in the longitudinal direction, saving the number of slots and the number of tension bearing assemblies 5.
[0027] It is worth noting that the lower inner end of the slot 9 and the locking hole 10 is a bevel 12; this allows the telescopic shaft assembly 4 to be easily slid into the locking hole 10, while it can be guided out by the bevel 12 when moving in the opposite direction.
[0028] It is also worth noting that the upper and lower edges of the bearing body 6 are provided with protruding arc-shaped inserts 13. The arc-shaped inserts 13 are inserted into the cabinet panel 2, which further stabilizes the bearing body 6, prevents shaking, and further improves the support of the cabinet door 3.
[0029] The telescopic shaft assembly 4 in this embodiment includes a shaft housing 14, which is embedded in the cabinet door 3. A connecting shaft 15 is inserted through the shaft housing 14, and a spring is also provided inside the shaft housing 14. One end of the spring abuts against the connecting shaft 15, and the other end abuts against the inner wall of the shaft housing 14 away from the connecting shaft 15. After the connecting shaft 15 is inserted into the slot 9, the connecting shaft 15 is pressed into the shaft housing 14 under the action of the inclined surface 12 until the connecting shaft 15 slides into the locking hole 10. Then, the connecting shaft 15 is ejected under the action of the spring, completing the installation. When moving in the opposite direction, the connecting shaft 15 is compressed after contacting the inclined surface 12 until the connecting shaft 15 is pulled out from the slot 9.
[0030] To further improve the stability of the shaft housing 14 within the cabinet door 3, shaft housing holes are provided at the upper and lower ends of the cabinet door 3. The shaft housing 14 is inserted into the shaft housing holes, and barbs 16 are provided on the outer wall of the shaft housing 14 to further prevent the shaft housing 14 from detaching. In this embodiment, shaft seat grooves matching the shape of the tension shaft seat assembly 5 are respectively provided on the opposite sides of the upper and lower cabinet panels 2. The shaft seat assembly 5 is embedded and installed in the shaft seat grooves.
[0031] The embodiments of this utility model have been described in detail above with reference to the accompanying drawings, but this utility model is not limited to the described embodiments. For those skilled in the art, various changes, modifications, substitutions, and variations can be made to these embodiments without departing from the principles and spirit of this utility model, and these variations still fall within the protection scope of this utility model.
Claims
1. A storage cabinet comprising a cabinet body (1), characterized in that, The cabinet (1) is equipped with cabinet panels (2) at both the top and bottom. Multiple tension shaft assemblies (5) are embedded in the sides of the cabinet panels (2) facing each other. A cabinet door (3) is provided between the cabinet panels (2). Telescopic shaft assemblies (4) are embedded in both the top and bottom of the cabinet door (3). The telescopic shaft assembly (4) is inserted into the tension shaft assembly (5). The tension shaft assembly (5) includes a shaft body (6) embedded in the cabinet panel (2). A hook is provided at one end of the shaft body (6). The hook extends outward relative to the surface of the shaft body (6) and hooks into the cabinet panel (2).
2. The cabinet of claim 1, wherein The hook includes a connecting rod (7), one end of which is connected to the bearing body (6), and the other end is provided with a pull rod (8). The pull rod (8) is inclinedly arranged on the bearing body (6), and the pull rod (8) and the connecting rod (7) are intersecting each other. The intersection point of the pull rod (8) and the connecting rod (7) is point T.
3. A storage cabinet according to claim 2, characterized in that, The bearing body (6), connecting rod (7) and tie rod (8) are an integral structure.
4. A storage cabinet according to claim 2, characterized in that, The pull rod (8) is an arc-shaped rod.
5. A storage cabinet according to claim 2, characterized in that, The upper and lower sides of the bearing body (6) are symmetrically provided with slots (9), one end of the slot (9) is connected to a locking hole (10), and the inner wall between the slot (9) and the locking hole (10) is provided with a locking rib (11). The telescopic shaft assembly (4) is inserted into the slot (9), and the telescopic shaft assembly (4) slides into the locking hole (10) within the slot (9).
6. A storage cabinet according to claim 5, characterized in that, The lower inner end of the slot (9) and the card hole (10) is a bevel (12).
7. A storage cabinet according to claim 5, characterized in that, The upper and lower edges of the bearing body (6) are provided with protruding arc-shaped inserts (13), which are inserted into the cabinet panel (2).
8. A storage cabinet according to claim 5, characterized in that, The telescopic shaft assembly (4) includes a shaft housing (14), which is embedded in the cabinet door (3). A connecting shaft (15) is inserted inside the shaft housing (14), and a spring is also provided inside the shaft housing (14). One end of the spring abuts against the connecting shaft (15), and the other end abuts against the inner wall of the shaft housing (14) away from the connecting shaft (15).
9. A storage cabinet according to claim 8, characterized in that, The outer wall of the shaft housing (14) is provided with barbs (16).