Building tent with heat preservation function

By designing a construction tent with a foundation frame, inclined beams, top beams, and installation components, and combining PVDF architectural membrane material and fabric-covered composite wall material, the problems of poor thermal insulation and low assembly/disassembly efficiency of traditional tents have been solved. This has enabled rapid assembly/disassembly and stable connection, improving the work efficiency and comfort of workers in extreme climates.

CN224396169UActive Publication Date: 2026-06-23GUANGDONG YASHE CONSTR TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG YASHE CONSTR TECH CO LTD
Filing Date
2025-06-20
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Traditional temporary buildings have poor insulation, low dismantling and assembly efficiency, and low reuse rate on construction sites, which affects the work efficiency and comfort of workers in cold or hot climates.

Method used

An architectural tent comprising a foundation frame, an upper inclined beam, a top beam, and mounting components was designed. It utilizes components such as mounting parts, ground pegs, and diagonal braces to achieve rapid assembly and stable connection, and combines 1050g PVDF architectural membrane material and fabric-faced composite wall material to improve thermal insulation performance.

Benefits of technology

It enables rapid disassembly and assembly of construction tents, enhances the flexibility of multi-site use, maintains stability in various environments, and improves worker efficiency and comfort.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224396169U_ABST
    Figure CN224396169U_ABST
Patent Text Reader

Abstract

The utility model belongs to the technical field of building tent, disclose a kind of building tent with heat preservation function, including foundation frame, upper inclined beam, roof beam and installation component;Foundation frame is used to support and fix the main structure of building tent;Upper inclined beam and roof beam, the upper inclined beam is connected in the foundation frame, the roof beam is connected in the upper inclined beam;Installation component includes mounting piece one, mounting piece two, mounting piece three, vertical pole and arc-shaped rod, the mounting piece one is connected in the foundation frame, the mounting piece two is connected in the foundation frame and upper inclined beam;Through the installation component of setting, the coordination and cooperation between multiple mounting piece one, mounting piece two and mounting piece three, the main frame of building tent can be quickly spliced, so that tent frame can be easily disassembled and assembled, not only can improve the flexibility of tent multi-site use, also greatly reduce the difficulty of disassembly and transportation.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model belongs to the field of architectural tent technology, and in particular relates to an architectural tent with heat preservation function. Background Technology

[0002] As a temporary or semi-permanent architectural form, tent-style architecture can be traced back to the construction of the outer walls of large stadiums in ancient Rome. With the advancement of materials science and structural technology, modern architectural tents have broken through traditional forms and formed a technical system with tensioned structures and prefabricated frames as the core.

[0003] On construction sites, workers often need to work or rest outdoors. Traditional temporary buildings have problems such as poor insulation, low dismantling and assembly efficiency, and low reuse rate. Especially in cold or hot climates, workers' work efficiency and comfort will be seriously affected.

[0004] Therefore, developing a construction tent with heat insulation function is particularly important. Utility Model Content

[0005] This utility model addresses the problem in existing technologies where construction workers often need to work or rest outdoors, and traditional temporary structures suffer from poor insulation, low dismantling and assembly efficiency, and low reuse rate. This is especially problematic in cold or hot climates, where workers' work efficiency and comfort are severely affected. The following technical solution is proposed:

[0006] A construction tent with thermal insulation function includes:

[0007] The foundation frame is used to support and secure the main structure of the construction tent;

[0008] An inclined beam and a top beam, wherein the inclined beam is connected to the foundation frame and the top beam is connected to the inclined beam;

[0009] The installation components include mounting component one, mounting component two, mounting component three, a vertical pole, and an arc-shaped pole. Mounting component one is connected to the foundation frame, mounting component two is connected to the foundation frame and the upper inclined beam, mounting component three is connected to the upper inclined beam and the top beam, the vertical pole is connected to the top beam, and the arc-shaped pole is connected to the vertical pole.

[0010] As a preferred embodiment of the above technical solution, the foundation frame is connected to a tie rod, and the number of tie rods is set to multiple, with each tie rod having a lug at its end.

[0011] As a preferred embodiment of the above technical solution, each set of diagonal tie rods is connected to a support rod, and the end of the support rod away from the diagonal tie rod is connected to a mounting component.

[0012] As a preferred embodiment of the above technical solution, it also includes ground stakes, which are fixedly installed on the ground through threaded holes and have through holes for connecting to ropes on a construction tent.

[0013] As a preferred embodiment of the above technical solution, each of the three mounting components has multiple sets of mounting holes inside, and these mounting holes are connected to the foundation frame, the inclined beam, and the top beam by screws.

[0014] As a preferred embodiment of the above technical solution, it also includes a grounding post, the bottom end of which is connected to the ground, and the top of which is connected to the tent via a rope.

[0015] The beneficial effects of this utility model are as follows:

[0016] (1) Through the installation components set up, the coordinated cooperation between multiple installation parts one, two and three, the main frame of the construction tent can be quickly spliced, so that the tent frame can be easily disassembled and assembled. This not only improves the flexibility of the tent for use in multiple locations, but also greatly reduces the difficulty of disassembly and transportation.

[0017] (2) By setting ground pegs, diagonal braces and ground bracing rods, this utility model can tighten and stabilize the tent fabric, so that the tent fabric is closely connected with the main frame to form a stable overall structure, ensuring that the tent can remain stable in various environments. Attached Figure Description

[0018] Figure 1 The diagram shown is a schematic representation of the overall structure of a building tent with thermal insulation function;

[0019] Figure 2 The diagram shown is a structural schematic of mounting component one and mounting component two;

[0020] Figure 3 The diagram shown is a structural schematic of the upright pole and the curved pole;

[0021] Figure 4 The diagram shown is a structural schematic of mounting component three;

[0022] Figure 5 The diagram shown is a schematic of the structure of the ground nail.

[0023] In the diagram: 1. Foundation frame; 2. Upper inclined beam; 3. Top beam; 4. Diagonal tie rod; 5. Mounting component one; 6. Mounting component two; 7. Mounting component three; 8. Upright pole; 9. Curved pole; 91. Hanging lug one; 10. Mounting hole; 11. Support rod; 12. Ground nail; 121. Threaded hole; 122. Through hole; 13. Hanging lug two; 14. Grounding post. Detailed Implementation

[0024] To make the objectives, technical solutions, and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below in conjunction with the embodiments.

[0025] Example 1

[0026] This utility model provides a construction tent with heat preservation function, such as Figures 1 to 5 As shown, the construction tent includes a foundation frame 1, an upper inclined beam 2, a top beam 3, and installation components. The foundation frame 1 is used to support and fix the main structure of the construction tent. The upper inclined beam 2 is connected to the top of the foundation frame 1, and the end of the upper inclined beam 2 away from the foundation frame 1 is connected to the top beam 3. The installation components include mounting component 1 5, mounting component 2 6, mounting component 3 7, uprights 8, and arc-shaped rods 9. Mounting component 1 5 has a grounding hole and can be fixed to the ground by expansion bolts, etc. The upper inclined beam 2 is connected to the foundation frame 1 through mounting component 2 6, and the top beam 3 is connected to the upper inclined beam 2 through mounting component 3 7. The top of the top beam 3 is fixedly connected to the uprights 8. There are multiple sets of uprights 8, and the top of each set of uprights 8 is fixedly snapped with the same arc-shaped rod 9. The two ends of the arc-shaped rod 9 are fixedly connected to the lugs 91.

[0027] In this embodiment, multiple sets of mounting holes 10 are provided inside the mounting component 5, mounting component 6, and mounting component 7. The mounting holes 10 are detachably connected to the foundation frame 1, the upper inclined beam 2, and the top beam 3 by screws. The main structure used to build the construction tent, namely the foundation frame 1, the upper inclined beam 2, and the top beam 3, are all constructed of rust-proof coated steel.

[0028] By using the steel of foundation frame 1 Figure 1 The tent is constructed by connecting the steel members of the foundation frame 1 with mounting parts 5, the upper inclined beam 2 with mounting parts 6, and the top beam 3 with mounting parts 7. This completes the construction of the main structure of the tent. All the steel members are connected by screws, allowing the tent frame to be easily disassembled and assembled.

[0029] During use, the workers will fix the installation component 5 to the ground using expansion bolts, etc., and then arrange the steel materials for assembling the foundation frame 1 according to... Figure 1 As shown in the diagram, installer 2 6 is then installed onto the foundation frame 1 using screws. Next, prepare the upper inclined beam 2 and insert it into installer 2 6. The portion of the upper inclined beam 2 inserted into the end of installer 2 6 is then fixed with screws. After the upper inclined beam 2 is installed, the end of the upper inclined beam 2 away from installer 2 6 is connected to installer 3 7 with screws. The two ends of installer 3 7 are then connected to the top beam 3 with screws, thus completing the preparation work for building the main frame of the tent.

[0030] The foundation frame 1 is also fixedly connected with diagonal braces 4 by screws. The number of diagonal braces 4 is the same as the number of vertically installed steel in the foundation frame 1. Each diagonal brace 4 has two hanging ears 13 symmetrically installed at the end away from the upper inclined beam 2. Each group of diagonal braces 4 is fixedly connected with a support rod 11. The end of the support rod 11 away from the diagonal brace 4 is connected to the installation part 5. That is, the vertically installed steel in the foundation frame 1, the diagonal braces 4 and the support rod 11 form a whole, forming a stable triangular support structure, so that the diagonal braces 4 will not shift or sway when connected to the rope of the tarpaulin.

[0031] In order to securely attach the tarpaulin to the main structure, such as Figures 1 to 5 As shown, the building tent also includes ground pegs 12 and grounding posts 14. The ground pegs 12 have threaded holes 121 and are fixed to the ground by expansion bolts. The ground pegs 12 also have through holes 122 for connecting with the ropes of the tent fabric. There are three sets of grounding posts 14, and the bottom of each set of grounding posts 14 is embedded in the ground. The top of the grounding posts 14 is connected to the tent by ropes.

[0032] The number of ground stakes 12 is set to twice the total number of tie rods 4 and grounding posts 14. After each ground stake 12 is installed on the ground with expansion bolts, the tent fabric is symmetrically and evenly spread out along both sides of the arc-shaped pole 9. The ropes attached to the tent fabric are connected to the ends of the tie rods 4 and grounding posts 14. After the ropes on the tent fabric are connected to the tie rods 4 and grounding posts 14, the ropes are then passed through the second lug 13 at the end of the tie rod 4 and connected to the through hole 122 on the ground stake 12. The above operation is repeated in sequence, so that the second lug 13 on multiple sets of tie rods 4 are passed through the ropes and connected to the through hole 122 on the ground stake 12. The top of the grounding post 14 is also connected to the ground stake 12 on the ground through the ropes. This allows the tent fabric to be tightened and securely fitted onto the main frame formed by the foundation frame 1, the upper inclined beam 2, and the top beam 3, so that the tent fabric is tightly connected to the main frame, ensuring that the tent remains stable in various environments.

[0033] Specifically, the tent's fabric is supported by 1050g PVDF architectural membrane material, and with the arc-shaped pole 9 set at the top of the top beam 3, the supported fabric can draw an arc in the air. After the main frame structure of the foundation frame 1, the upper inclined beam 2 and the top beam 3 are completed, the wall material is a 90mm fabric-faced composite wall. Fabric-faced composite wall is a wall structure composed of multiple materials, usually including inner and outer walls, with materials with heat insulation and sound insulation functions sandwiched in between. It has good fireproof, shockproof, waterproof, heat insulation and sound absorption properties, and is also suitable for high-altitude and cold environments.

[0034] Working principle: In the actual setup process, after the staff selects the site, the steel material of the horizontally placed base frame 1 is installed in the mounting part 5 with screws. After the foundation is laid, the mounting part 5 connecting the base frame 1 is fixed to the ground with expansion bolts. Then, the mounting part 2 6 is installed on the top of the base frame 1 with screws, and the upper inclined beam 2 is inserted into the mounting part 2 6. The end of the upper inclined beam 2 away from the mounting part 2 6 is connected to the mounting part 3 7 with screws. The two ends of the mounting part 3 7 are then connected to the top beam 3 with screws, thus completing the preparation work for the tent's main frame. This allows the tent frame to be easily disassembled and assembled, which not only improves the flexibility of the tent for use in multiple sites, but also greatly reduces the difficulty of disassembly and transportation.

[0035] After the main frame of the tent is erected, 1050g PVDF architectural membrane material is symmetrically laid out along the arc-shaped pole 9, so that the top of the main frame is arched in the air by the arc-shaped pole 9. After the tent is laid, the rope attached to the tent is connected to the ends of the diagonal tie rod 4 and the grounding post 14. The rope is then passed through the second hanging lug 13 and tied around the perforation 122 to tighten and stabilize the tent, so that the tent is tightly connected to the main frame to form a stable whole structure, ensuring that the tent remains stable in various environments.

[0036] The above embodiments are only used to illustrate the technical solution of this utility model, and are not intended to limit it.

Claims

1. A construction tent with heat insulation function, characterized in that, It includes: The ground frame (1) is used to support and fix the main structure of the building tent; The upper inclined beam (2) is connected to the ground frame (1), and the top beam (3) is connected to the upper inclined beam (2); The mounting assembly includes mounting piece one (5), mounting piece two (6), mounting piece three (7), vertical rod (8) and arc-shaped rod (9), the mounting piece one (5) is connected to the ground frame (1), the mounting piece two (6) is connected to the ground frame (1) and upper inclined beam (2), the mounting piece three (7) is connected to the upper inclined beam (2) and top beam (3), the vertical rod (8) is connected to the top beam (3), and the arc-shaped rod (9) is connected to the vertical rod (8).

2. The building tent having a thermal function according to claim 1, wherein, The ground frame (1) is connected with the inclined pull rod (4), a plurality of the inclined pull rod (4) are arranged, and the end of each inclined pull rod (4) is connected with the lug two (13).

3. The building tent having a thermal function according to claim 1, wherein, Each group of inclined pull rod (4) is connected with support rod (11), and the end of the support rod (11) away from the inclined pull rod (4) is connected with the mounting piece one (5).

4. The building tent having a thermal function according to claim 1, wherein, It also includes ground nail (12), which is fixedly installed on the ground through the threaded hole (121), the ground nail (12) is provided with a through hole (122), and the through hole (122) is used to be connected with the rope on the building tent.

5. The building tent having a thermal function according to claim 1, wherein, The inside of the mounting piece one (5), mounting piece two (6) and mounting piece three (7) is provided with a plurality of groups of mounting holes (10), and the mounting holes (10) are connected with the ground frame (1), the upper inclined beam (2) and the top beam (3) through screws.

6. The building tent having a thermal function according to claim 1, wherein, It also includes grounding column (14), the bottom end of the grounding column (14) is connected with the ground, and the top of the grounding column (14) is connected with the tent through the rope.