Round type elevator shaft structure
By adopting a circular steel structure frame and glass barrier design, the problem of traditional elevator shafts failing to meet the aesthetic and space utilization requirements of modern buildings is solved, achieving a stable and aesthetically pleasing elevator shaft structure suitable for complex building forms.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- WANLIAN TECH (ZHONGSHAN) CO LTD
- Filing Date
- 2025-07-07
- Publication Date
- 2026-07-10
Smart Images

Figure CN224478679U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of building and elevator shaft, and in particular to a circular elevator shaft structure suitable for modern buildings and buildings with special shapes. Background Technology
[0002] Traditional elevator shafts are mostly straight steel structures, which cannot meet the high requirements of modern architecture for aesthetics and space utilization. Especially in buildings that require circular or curved designs, traditional shafts fail to meet the aesthetic requirements of clients. Therefore, developing a circular steel frame elevator shaft that can meet the operational needs of elevators and adapt to complex building forms is particularly important.
[0003] In response to the above problems, the applicant proposed a solution. Utility Model Content
[0004] This utility model aims to solve at least one of the technical problems existing in the prior art. Therefore, this utility model aims to provide a circular elevator shaft structure that is structurally stable, easy to construct, aesthetically pleasing, and practical. It employs a specially designed circular steel frame, which effectively meets the structural requirements of the elevator shaft while perfectly integrating with the building's appearance. The technical solution adopted is as follows:
[0005] A circular elevator shaft structure includes a skirt, a circular shaft glass, a door frame, a shaft frame beam, vertical columns, and a ceiling. Multiple vertical columns are arranged evenly around the circumference of a reference circle of the elevator shaft, with the center of the reference circle coinciding with the shaft's central axis. The circular shaft glass is fixedly connected to the vertical columns and is positioned on the outer circumference of the vertical columns. The shaft frame beam is fixedly connected to the vertical columns and is positioned on the inner circumference of the vertical columns. The shaft frame beam includes a front doorway beam, a right-side arc-shaped beam, and a left-side arc-shaped beam.
[0006] According to the circular elevator shaft structure of this utility model embodiment, a main guide rail bracket is connected to the inner side of the right arc-shaped crossbeam, and a secondary guide rail bracket is connected to the inner side of the left arc-shaped crossbeam.
[0007] According to the circular elevator shaft structure of this utility model embodiment, a landing door device is connected to the front doorway beam.
[0008] According to the circular elevator shaft structure of this utility model embodiment, the left arc-shaped crossbeam includes a first left-side bracket and a second left-side bracket, which are arranged parallel to each other in the top view direction.
[0009] According to the circular elevator shaft structure of this utility model embodiment, the circular shaft glass includes multiple curved glass pieces, and the vertical column and the curved glass pieces are connected by glass support members; the multiple curved glass pieces cooperate to form a circular shaft glass.
[0010] According to the circular elevator shaft structure of this utility model embodiment, the vertical column is connected to the front door beam, the right arc beam, and the left arc beam by connecting plates.
[0011] According to the circular elevator shaft structure of this utility model embodiment, the glass support is L-shaped.
[0012] According to the embodiment of the present utility model, the circular elevator shaft structure further includes a circular positioning template, which consists of four arc-shaped positioning plates and four sets of connecting parts. The four arc-shaped positioning plates are connected by connecting parts to form a circle. The outer edge of the arc-shaped positioning plate is provided with a column mounting and fixing groove for installing vertical columns.
[0013] According to the circular elevator shaft structure of this utility model embodiment, the roof includes a frame and a sealing plate.
[0014] According to the circular elevator shaft structure of this utility model embodiment, the curved glass is connected to the glass support by glass claws, and the connection gap is filled with sound insulation and water-proof functional components.
[0015] Compared with the prior art, the beneficial effects of this utility model are:
[0016] In this utility model, the shaft frame beam is composed of a front doorway beam, a right-side arc-shaped beam, and a left-side arc-shaped beam, which are fixedly connected to multiple vertical columns installed in the shaft to form a circular steel structure frame. The circular shaft glass is fixedly connected to the vertical columns to form a glass barrier on the outer circumference of the vertical columns. A conical canopy is provided on the top of the circular steel structure frame, which not only provides rain protection but also encloses the shaft. The above structure constitutes the main structure of the circular shaft. Its design is reasonable, the stress is evenly distributed, which improves the overall stability of the shaft. It is easy to construct, shortens the construction period, reduces the construction difficulty, and the shaft has a smooth appearance that is consistent with the overall architectural style, enhancing the architectural aesthetics. It is suitable for elevator shaft designs with various curvatures and radii, meeting the needs of complex architectural forms. Attached Figure Description
[0017] The above and / or additional aspects and advantages of this utility model will become apparent and readily understood from the description of the embodiments taken in conjunction with the following drawings, in which:
[0018] Figure 1This is a schematic diagram of the structure of some embodiments of the present utility model. Figure 1 ;
[0019] Figure 2 This is a schematic diagram of the structure of some embodiments of the present utility model. Figure 2 ;
[0020] Figure 3 This is a schematic diagram of the structure of some embodiments of the present utility model. Figure 3 ;
[0021] Figure 4 These are enlarged views of some embodiments of the present invention;
[0022] Figure 5 This is a positioning template diagram for some embodiments of the present invention.
[0023] Explanation of key component symbols:
[0024] 10. Skirting; 20. Circular shaft glass; 21. Curved glass; 30. Door frame; 40. Vertical column; 50. Front doorway beam; 60. Right side curved beam; 70. Left side curved beam;
[0025] 71. First left-side bracket; 72. Second left-side bracket; 80. Main guide rail bracket; 90. Secondary guide rail bracket; 100. Glass support component; 110. Glass claw; 120. Connecting plate; 130. Arc-shaped positioning plate; 131. Column clamping and fixing groove; 140. Connector; 150. Frame; 160. Sealing plate; 170. Hoistway frame crossbeam. Detailed Implementation
[0026] The embodiments of this utility model are described in detail below. Examples of the embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout.
[0027] The orientation shown in the accompanying drawings should not be construed as limiting the specific protection scope of this utility model, but is only for reference and understanding of preferred embodiments. The product components shown in the drawings can be changed in position, increased in number, or simplified in structure.
[0028] The “connection” described in the specification and the “connection” relationship between the components shown in the accompanying drawings can be understood as a fixed connection, a detachable connection, or a connection that forms an integral unit; it can be a direct connection or a connection through an intermediate medium. Those skilled in the art can understand the connection relationship according to the specific circumstances and can derive different implementation methods such as screwing, riveting, welding, snap-fitting, or embedding to suitably replace the connection.
[0029] The directional terms such as up, down, left, right, top, and bottom mentioned in the instruction manual and the directions shown in the attached drawings indicate that the components can directly contact each other or contact each other through other features; for example, "up" can mean directly above or diagonally above, or it simply means above other objects; other directions can be understood by analogy.
[0030] The materials used to manufacture solid-shaped parts as shown in the specification and drawings may be metallic, non-metallic, or other synthetic materials. The machining processes used for solid-shaped parts may include stamping, forging, casting, wire cutting, laser cutting, injection molding, CNC milling, 3D printing, machining, etc. Those skilled in the art may adapt or combine the above materials and manufacturing processes according to different processing conditions, costs, and precision requirements.
[0031] This utility model relates to a circular structure for adding an elevator shaft, such as... Figure 1 , 2 As shown in Figures 3 and 4, the elevator shaft includes a skirt 10, a circular shaft glass 20, a door frame 30, a shaft frame beam 170, vertical columns 40, and a ceiling. There are multiple vertical columns 40, and all vertical columns 40 are evenly arranged around the circumference of the reference circle of the elevator shaft, with the center of the reference circle coinciding with the central axis of the shaft. The circular shaft glass 20 is fixedly connected to the vertical columns 40 and is located on the outer circumference of the vertical columns 40. The shaft frame beam 170 is fixedly connected to the vertical column 40 and is located on the inner circumference of the vertical column 40. The shaft frame beam 170 includes a front doorway beam 50, a right arc-shaped beam 60, and a left arc-shaped beam 70. A main guide rail bracket 80 is connected to the inner side of the right arc-shaped beam 60, and a secondary guide rail bracket 90 is connected to the inner side of the left arc-shaped beam 70. A landing door device is connected to the front doorway beam 50.
[0032] All of the above components are prefabricated in the factory.
[0033] In this utility model, a shaft frame beam 170 is formed by a front doorway beam 50, a right-side arc-shaped beam 60, and a left-side arc-shaped beam 70. These beams are fixedly connected to multiple vertical columns 40 installed within the shaft to form a circular steel structure frame. A circular shaft glass 20 is fixedly connected to the vertical columns 40 to form a glass barrier on the outer circumference of the vertical columns 40. A conical canopy is provided at the top of the circular steel structure frame, serving both rainproof and enclosing functions. The bottom of the main guide rail support 80 and the secondary guide rail support 90... The connectors for the gate and landing door devices are integrated and installed at various positions on the shaft frame beam 170. The door frame 30 is integrated into the front of the shaft frame beam 170 to form an entrance and exit passage. The above structure constitutes the main structure of the circular shaft. Its design is reasonable, the stress is even, and the overall stability of the shaft is improved. The use of prefabricated components for on-site assembly shortens the construction cycle and reduces the construction difficulty. The shaft has a smooth appearance and is consistent with the overall architectural style, which enhances the architectural aesthetics. It is suitable for elevator shaft designs with various curvatures and radii, and meets the needs of complex architectural forms.
[0034] In one embodiment of this utility model, such as Figure 3 As shown, the left arc-shaped crossbeam 70 includes a first left-side bracket 71 and a second left-side bracket 72. The first left-side bracket 71 and the second left-side bracket 72 are arranged parallel to each other in the top view so as to facilitate the connection of the auxiliary guide rail bracket 90.
[0035] In one embodiment of this utility model, such as Figure 3 , 4 As shown, the circular shaft glass 20 includes multiple curved glass panels 21. The vertical column 40 is connected to the curved glass panels 21 by a glass support 100. The multiple curved glass panels 21 work together to form the circular shaft glass 20. The glass support 100 is L-shaped. The curved glass panels 21 are connected to the glass support 100 by glass claws 110. The connection gaps are filled with sound insulation and water-proofing components, which can effectively isolate the internal space of the circular elevator shaft from the surrounding environment.
[0036] In one embodiment of this utility model, such as Figure 3 , 4 As shown, the vertical column 40 is connected to the front doorway beam 50, the right-side arc-shaped beam 60, and the left-side arc-shaped beam 70 via connecting plates 120.
[0037] In one embodiment of this utility model, such as Figure 5As shown, it also includes a circular positioning template, which consists of four arc-shaped positioning plates 130 and four sets of connecting parts 140. The four arc-shaped positioning plates 130 are connected by connecting parts 140 to form a circle. The outer edge of the arc-shaped positioning plate 130 is provided with a column mounting and fixing groove 131 for installing the vertical column 40.
[0038] In one embodiment of this utility model, such as Figure 1 , 2 As shown, the canopy includes a frame 150 and a sealing plate 160.
[0039] Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art that various changes or modifications can be made to the present invention without departing from the principles and spirit of the present invention as defined by the claims. Therefore, the detailed description of the embodiments in this disclosure is for explanation only and not for limiting the present invention, but rather the scope of protection is defined by the content of the claims.
Claims
1. A circular elevator shaft structure, characterized in that, It includes a skirt (10), a circular shaft glass (20), a door frame (30), a shaft frame beam (170), vertical columns (40), and a ceiling; there are multiple vertical columns (40), all of which are evenly arranged around the circumference of the reference circle of the elevator shaft, and the center of the reference circle of the elevator shaft coincides with the central axis of the shaft; the circular shaft glass (20) is fixedly connected to the vertical columns (40) and is located on the outer circumference of the vertical columns (40); the shaft frame beam (170) is fixedly connected to the vertical columns (40) and is located on the inner circumference of the vertical columns (40); the shaft frame beam (170) includes a front door opening beam (50), a right arc-shaped beam (60), and a left arc-shaped beam (70).
2. The circular elevator shaft structure according to claim 1, characterized in that, A main guide rail bracket (80) is connected to the inner side of the right arc-shaped crossbeam (60), and a secondary guide rail bracket (90) is connected to the inner side of the left arc-shaped crossbeam (70).
3. The circular elevator shaft structure according to claim 1, characterized in that, A door device is connected to the front door beam (50).
4. The circular elevator shaft structure according to claim 1, characterized in that, The left-side arc-shaped crossbeam (70) includes a first left-side bracket (71) and a second left-side bracket (72), which are arranged parallel to each other in the top view direction.
5. A circular elevator shaft structure according to claim 1, characterized in that, The circular wellbore glass (20) includes multiple curved glass pieces (21), and the vertical column (40) and the curved glass pieces (21) are connected by a glass support (100); the multiple curved glass pieces (21) cooperate to form a circular wellbore glass (20).
6. A circular elevator shaft structure according to claim 1, characterized in that, The vertical column (40) is connected to the front doorway beam (50), the right arc-shaped beam (60), and the left arc-shaped beam (70) respectively via connecting plates (120).
7. A circular elevator shaft structure according to claim 5, characterized in that, The glass support (100) is L-shaped.
8. A circular elevator shaft structure according to claim 1, characterized in that, It also includes a circular positioning template, which consists of four arc-shaped positioning plates (130) and four sets of connectors (140). The four arc-shaped positioning plates (130) are connected by connectors (140) to form a circle. The outer edge of the arc-shaped positioning plate (130) is provided with a column mounting and fixing groove (131) for installing vertical columns (40).
9. A circular elevator shaft structure according to claim 1, characterized in that, The canopy includes a frame (150) and a sealing panel (160).
10. A circular elevator shaft structure according to claim 5, characterized in that, The curved glass (21) is connected to the glass support (100) by glass claws (110), and the connection gap is filled with sound insulation and waterproofing components.