An exhibition hall display cabinet convenient to disassemble and install
By using modular design and standardized connecting components, combined with beveled fitting and snap-fit components, the problems of transportation and installation of traditional exhibition hall display cases have been solved, enabling rapid disassembly and assembly and stable connection, reducing transportation damage rate and production costs, and adapting to the frequent changes of exhibits in exhibition halls.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN YUNSHI ZHONGLIAN TECHNOLOGY CO LTD
- Filing Date
- 2025-06-12
- Publication Date
- 2026-06-09
AI Technical Summary
Traditional exhibition hall display cases are prone to damage during transportation due to their integrated structure, while their modular structure is cumbersome to install and has low disassembly efficiency, making it difficult to meet the needs of exhibition halls that frequently change exhibits.
The modular design features four identical side glass panels and standardized connecting components. Combined with a beveled fit design and snap-fit components, it allows for quick assembly and disassembly by tightening or loosening the connecting screws. The glass panels can be axially rotated to adapt to different positions, reducing production costs.
It enables rapid and stable installation and disassembly, reduces transportation damage and logistics costs, reduces the types of proprietary parts, improves anti-shaking performance, and adapts to the needs of exhibition halls that frequently change exhibits.
Smart Images

Figure CN224330724U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of display cabinet technology, and in particular relates to an exhibition hall display cabinet that is easy to disassemble and install. Background Technology
[0002] Display cases are cabinets used to display items and are widely used in museums, shopping malls, exhibition halls and other places.
[0003] Traditional exhibition hall display cases often employ a one-piece structure or a complex splicing and fixing design for their glass covers. One-piece glass covers are easily damaged during transportation and have difficulty passing through narrow passages; while spliced structures often result in cumbersome installation due to inconsistent component specifications, requiring professional operation. Current technologies mostly rely on metal frames or adhesive bonding for connecting glass panels. The former affects the transparency of the display, while the latter easily damages the glass during disassembly, failing to meet the disassembly and assembly needs of exhibition halls that frequently change exhibits. Utility Model Content
[0004] This utility model addresses the shortcomings of the existing technology by providing an exhibition hall display cabinet that is easy to disassemble and install. The problem solved is that common display cabinets have an integral structure that does not change during transportation, have complex splicing and fixing methods, and have low disassembly efficiency.
[0005] This utility model achieves the above-mentioned objectives through the following technical solution: it includes a counter, a display stand is installed on the top of the counter, a glass cover is provided above the counter, the glass cover is composed of four side glass panels and a glass top panel, eight sets of connecting components are provided between the side glass panels, the eight sets of connecting components are distributed in a design of four sets at the top and four sets at the bottom, and a snap-fit component is provided at the bottom of the glass top panel.
[0006] Furthermore, the four side glass panels have the same structure, and the joint surfaces of two adjacent side glass panels are designed to be beveled. Threaded holes are provided at the four corners of the top of the counter.
[0007] Furthermore, the beveled fit design reduces the gap between adjacent side glass panels, minimizing the impact on overall stability. In addition, the top of the counter is provided with a side groove to limit the glass cover.
[0008] Furthermore, each set of connecting components includes two glass connecting plates of equal area, which are respectively connected to the inner wall surfaces of two adjacent side glass panels. One corner of each glass connecting plate is designed with a limiting slope, and the two slopes in each set of connecting components are located in the same vertical plane. Each set of connecting components also includes a round-headed connecting screw that passes through the two glass connecting plates.
[0009] Furthermore, the size of the glass connecting plate is four times that of the circular hole through which the threaded end of the connecting screw passes.
[0010] Furthermore, the snap-fit assembly includes a glass frame with a hollow center, the top surface of the glass frame is fitted and connected to the bottom surface of the glass top plate, the four corners of the glass frame are provided with insertion slots, the innermost corner of the insertion slot is provided with a blocking slope, the blocking slope and the limiting slope form an abutment after the display cabinet is assembled, and the upper surface of the insertion slot is provided with a groove and a connecting nut is embedded.
[0011] Furthermore, the groove is formed on the bottom plate of the insertion slot.
[0012] Furthermore, four glass connecting plates are attached to the four corners of the inner wall of a single side glass panel. Two adjacent side glass panels have opposite assembly directions, while two opposite side glass panels have the same assembly direction.
[0013] Furthermore, after the side glass panel is axially flipped, it can be spliced with another side glass panel facing forward. The glass connecting plates on the two side glass panels can be combined to form the connecting assembly, and the height of the four sets of connecting assemblies can be kept the same, while also reducing the cost of producing different models of side glass panels.
[0014] Furthermore, the connecting screws in the lower four sets of connecting components pass through the two glass connecting plates and are connected to the threaded holes by thread engagement. The connecting components in the upper four sets are inserted into the insertion slot and are penetrated downward from the top of the glass top plate by the connecting screws. The connecting screws in the upper four sets are connected to the connecting nuts by thread engagement.
[0015] Beneficial effects: Compared with the prior art, this utility model has the following advantages:
[0016] 1. In this utility model solution, the four identical side glass panels with modular design and standardized connecting components, combined with the two-way installation structure, allow the replacement of the top or side panels to be completed simply by tightening or loosening the connecting screws. No professional tools are required. The insertion slots and grooves of the snap-fit components form precise positioning. A single person can complete the disassembly and assembly of the entire cabinet within minutes. Furthermore, the flat packaging after disassembly significantly reduces the transportation damage rate and logistics costs.
[0017] 2. In this utility model, the inclined surface fitting design eliminates the visible gap of the side glass plate, the contact between the limiting inclined surface and the blocking inclined surface forms a horizontal constraint, and the connecting screw passes through the glass connecting plate and the threaded hole and the connecting nut at the same time to achieve rigid locking in the vertical direction and improve the overall anti-shaking performance.
[0018] 3. In this utility model solution, all side glass panels are completely homogeneous, and the glass connecting plate only needs to be of one specification. Different installation positions can be adapted by axially flipping the plate. Compared with the traditional solution, the types of exclusive parts are greatly reduced, and the production and spare parts costs are significantly reduced. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of the structure of this utility model;
[0020] Figure 2 This is a partial structural diagram of the glass cover of this utility model;
[0021] Figure 3 This is a schematic diagram of part A of the present invention;
[0022] Figure 4 This is a cross-sectional view of the snap-fit assembly structure of this utility model;
[0023] Figure 5 This is a schematic diagram of the display stand structure of this utility model.
[0024] In the diagram: 1-counter, 2-display stand, 3-glass cover, 4-connecting components, 5-clamping components;
[0025] 11-Threaded hole, 31-Side glass plate, 32-Glass top plate, 41-Glass connecting plate, 42-Limiting bevel, 43-Connecting screw, 51-Glass frame, 52-Insertion groove, 53-Blocking bevel, 54-Embedded groove, 55-Connecting nut. Detailed Implementation
[0026] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.
[0027] Combination Figures 1 to 5 The exhibition hall display cabinet shown is easy to disassemble and install, including a counter 1, a display stand 2 installed on the top of the counter 1, a glass cover 3 above the counter 1, the glass cover 3 is composed of four side glass panels 31 and a glass top panel 32, eight sets of connecting components 4 are provided between the side glass panels 31, the eight sets of connecting components 4 are divided into four sets at the top and four sets at the bottom in a distributed design, and a snap-fit component 5 is provided at the bottom of the glass top panel 32.
[0028] The four side glass panels 31 have the same structure, and the joint surfaces of two adjacent side glass panels 31 are designed to be beveled. Threaded holes 11 are provided at the four corners of the top of the counter 1.
[0029] The beveled fitting design reduces the splicing gap between adjacent side glass panels 31, minimizing the impact on overall stability.
[0030] Each connecting assembly 4 includes two glass connecting plates 41 of equal area. The two glass connecting plates 41 are respectively connected to the inner wall of the two adjacent side glass plates 31. A limiting inclined surface 42 is designed at one corner of the glass connecting plate 41, and the two inclined surfaces in each connecting assembly 4 are located in the same vertical plane. Each connecting assembly 4 also includes a round-headed connecting screw 43, which passes through the two glass connecting plates 41.
[0031] The glass connecting plate 41 is four times the size of the round hole through which the threaded end of the connecting screw 43 passes.
[0032] The snap-fit assembly 5 includes a glass frame 51 with a hollow center. The top surface of the glass frame 51 is attached to the bottom surface of the glass top plate 32. Insertion slots 52 are provided at the four corners of the glass frame 51. A blocking slope 53 is provided at the innermost corner of the insertion slot 52. The blocking slope 53 and the limiting slope 42 form an abutment after the display cabinet is assembled. The upper surface of the insertion slot 52 is provided with a groove 54 and a connecting nut 55 is embedded therein.
[0033] The groove 54 is formed on the base plate of the insertion groove 52.
[0034] Four glass connecting plates 41 are attached to the four corners of the inner wall of a single side glass panel 31. The two adjacent side glass panels 31 are assembled in opposite directions, while the two opposite side glass panels 31 are assembled in the same direction.
[0035] After the side glass panel 31 is axially flipped, it can be spliced with another side glass panel 31 facing forward. The glass connecting plates 41 on the two side glass panels 31 can be combined to form a connecting component 4, and the height of the four connecting components 4 can be kept the same, while also reducing the cost of producing different models of side glass panels 31.
[0036] The connecting screws 43 in the lower four sets of connecting components 4 pass through the two glass connecting plates 41 and are connected to the threaded holes 11 by thread engagement. The connecting components 4 in the upper four sets are inserted into the insertion slots 52 and are penetrated downward from the top of the glass top plate 32 by the connecting screws 43. The connecting screws 43 in the upper four sets are connected to the connecting nuts 55 by thread engagement.
[0037] Working principle: During the assembly process, adjacent side glass panels 31 are installed in opposite directions, allowing the corner glass connecting plates 41 to be paired and locked with connecting screws 43. The connecting screws 43 of the lower four sets of connecting components 4 are screwed downward into the threaded holes 11 at the top corner of the counter 1, firmly fixing the bottom of the entire glass cover 3. The top of the upper four sets of connecting components 4 are inserted into the insertion slots 52 at the four corners of the bottom locking components 5 of the glass top plate 32. At this time, the limiting inclined surface 42 of the glass connecting plate 41 and the blocking inclined surface 53 in the insertion slot 52 abut against each other and limit the movement. Finally, the connecting screws 43 are screwed downward from the top of the glass top plate 32, so that they pass through the glass top plate 32 and are screwed into the connecting nut 55 embedded in the groove 54 of the bottom plate of the insertion slot 52, thereby tightly locking the glass top plate 32 and the side frame into a whole, achieving quick and stable installation. When disassembling, only the connecting screws 43 need to be removed in sequence to disassemble the glass cover 3.
[0038] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.
[0039] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.
Claims
1. A showroom display case that is easy to disassemble and install, comprising a counter (1), wherein a display stand (2) is mounted on the top of the counter (1), characterized in that: The counter (1) is provided with a glass cover (3) above it. The glass cover (3) is composed of four side glass panels (31) and a glass top panel (32). Eight sets of connecting components (4) are provided between the side glass panels (31). The eight sets of connecting components (4) are divided into four sets above and four sets below in a distributed design. The bottom of the glass top panel (32) is provided with a snap-fit component (5).
2. The exhibition hall display cabinet that is easy to disassemble and install according to claim 1, characterized in that: The four side glass panels (31) have the same structure. The contact surfaces of two adjacent side glass panels (31) are designed to be beveled. Threaded holes (11) are provided at the four corners of the top of the counter (1).
3. The exhibition hall display cabinet that is easy to disassemble and install according to claim 2, characterized in that: Each set of connecting components (4) includes two glass connecting plates (41) of equal area. The two glass connecting plates (41) are respectively connected to the inner wall surfaces of the two adjacent side glass panels (31). One corner of the glass connecting plate (41) is designed with a limiting slope (42), and the two slopes in each set of connecting components (4) are located in the same vertical plane. Each set of connecting components (4) also includes a round-headed connecting screw (43), which passes through the two glass connecting plates (41).
4. The exhibition hall display cabinet that is easy to disassemble and install according to claim 3, characterized in that: The snap-fit assembly (5) includes a glass frame (51) with a hollow center. The top surface of the glass frame (51) is attached to the bottom surface of the glass top plate (32). The four corners of the glass frame (51) are provided with insertion slots (52). The innermost corner of the insertion slot (52) is provided with a blocking slope (53). The blocking slope (53) and the limiting slope (42) form an abutment after the display cabinet is assembled. The upper surface of the insertion slot (52) is provided with a groove (54) and a connecting nut (55) is inlaid.
5. The exhibition hall display cabinet that is easy to disassemble and install according to claim 4, characterized in that: Four glass connecting plates (41) are attached to the four corners of the inner wall of a single side glass panel (31). The two adjacent side glass panels (31) are assembled in opposite directions, while the two opposite side glass panels (31) are assembled in the same direction.
6. The exhibition hall display cabinet that is easy to disassemble and install according to claim 5, characterized in that: The connecting screws (43) in the four lower sets of connecting components (4) pass through the two glass connecting plates (41) and are connected to the threaded hole (11) by thread engagement. The connecting components (4) in the four upper sets are inserted into the insertion slot (52) and are passed through the top of the glass top plate (32) downward by the connecting screws (43). The connecting screws (43) in the four upper sets are connected to the connecting nut (55) by thread engagement.