High-efficiency integrated ventilation structure of container house

By employing a highly efficient integrated ventilation structure with spring-loaded clamping and positioning components in the container house, the problem of aging of sealing strips under high temperature and humidity conditions is solved, achieving long-term sealing of the air outlet and uniform airflow, thus improving the ventilation effect of the container house.

CN224365010UActive Publication Date: 2026-06-16SUZHOU JINGU STEEL STRUCTURE ENGINEERING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU JINGU STEEL STRUCTURE ENGINEERING CO LTD
Filing Date
2025-07-29
Publication Date
2026-06-16

AI Technical Summary

Technical Problem

In high-temperature and high-humidity environments, the sealing strips of the ventilation structure of container houses are prone to aging and failure, resulting in gaps between the air outlets and the frame. This causes airflow to move between clean and non-clean areas, and existing technologies cannot effectively maintain long-term sealing.

Method used

The high-efficiency integrated ventilation structure, composed of spring-loaded clamping and positioning components, includes an air supply duct, cover plate, diffuser plate, spring base, memory spring, U-shaped baffle, connecting plate, clamping plate, and stop block. It utilizes the elastic deformation of the memory spring to achieve self-adaptive clamping, ensuring the air supply outlet's sealing performance, and is conveniently installed through the positioning components.

Benefits of technology

Maintaining a tighter seal for longer periods in harsh environments improves the connection stability and performance of the air outlet, reduces installation time, and enhances the sealing and airflow uniformity of the air outlet.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a kind of container house efficient integrated ventilation structure, including ventilation component, the ventilation component includes the air supply channel of being set, the cover plate buckled in air supply channel mouth, the air diffuser plate embedded in air supply channel;Spring clamping component, the clamping component includes the spring base fixed in air supply channel interior, memory spring fixed on spring base, U type baffle threadedly fixed in air supply channel, connecting plate threadedly fixed on U type baffle, clamping plate connected on connecting plate, fixed block fixed on the four corners of air supply channel, fixed ring fixed on the both ends of memory spring;Positioning component, the positioning component includes the clamping block buckled in the edge of air supply channel, arc locating block connected on clamping block, long rod through connection locating block and clamping block.The utility model solves the problem of material degradation under high temperature and high humidity environment by the spring clamping component set, reduces the frequency of maintenance, reduces artificial cost.
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Description

Technical Field

[0001] This utility model relates to the field of air purification equipment installation technology, specifically to a high-efficiency integrated ventilation structure for container houses. Background Technology

[0002] Container houses are mobile, modular buildings made from shipping containers. They feature standardized design, convenient transportation, rapid assembly, and flexible use, and are widely used in temporary housing, commercial, and industrial fields. Ventilation structures are one of the components of container houses, meeting the ventilation requirements inside.

[0003] Ventilation air outlets require extremely high sealing performance, and are usually surrounded by sealing strips. However, some workshops have high temperature and humidity environments, which cause the sealing strips to age rapidly and lose their elasticity, thus losing their sealing effect. Therefore, the sealing strips in such environments need to be replaced frequently. If they are not replaced in time, the compression permanent deformation rate will exceed 30%, which will cause gaps between the air outlet and the frame, resulting in airflow between clean and non-clean areas. Therefore, a high-efficiency integrated ventilation structure for container houses is needed. Utility Model Content

[0004] The purpose of this utility model is to provide a highly efficient integrated ventilation structure for container houses, thereby solving the problems mentioned in the background section. To solve these technical problems, this utility model is achieved through the following technical solution:

[0005] This utility model is a high-efficiency integrated ventilation structure for container houses, comprising:

[0006] A ventilation component, comprising an air supply duct, a cover plate snapped onto the air supply duct opening, and a diffuser plate fitted into the air supply duct;

[0007] A spring-loaded clamping component, comprising a spring base fixed inside the air supply channel, a memory spring fixed on the spring base, a U-shaped baffle threaded inside the air supply channel, a connecting plate threaded on the U-shaped baffle, a clamping plate connected to the connecting plate, and stops fixed at the four corners of the air supply channel.

[0008] Furthermore, the spring clamping component also includes a first anti-slip pad threaded to both ends of the spring base and a second anti-slip pad fixed to one side of the clamping plate.

[0009] Furthermore, the spring clamping component also includes fixing rings fixed to both ends of the memory spring and fixing posts threaded onto the spring base. One end of the memory spring is fixed to the spring base, and the other end is fixed to the clamping plate.

[0010] Furthermore, a through hole is provided between the U-shaped baffle and the connecting plate, and the memory spring connects both ends by passing through the middle.

[0011] Furthermore, the spring clamping component also includes a third anti-slip pad adhered to both sides of the stop block.

[0012] Furthermore, it also includes a positioning component, which includes a locking block that snaps onto the edge of the air supply channel and an arc-shaped positioning block connected to the locking block.

[0013] Furthermore, the arc-shaped positioning block is only connected to the locking blocks on the upper and lower sides of the air supply channel.

[0014] Furthermore, the positioning component also includes a long rod that runs through and connects the arc-shaped positioning block and the locking block.

[0015] This utility model has the following beneficial effects: With the spring-clamping component, when installing the air outlet, it is pushed into the air supply channel and pressed against the clamping plate. The clamping plate is squeezed to the four sides, compressing the memory spring. The fixing post in the middle of the memory spring keeps it from horizontal displacement. After being fully pushed in, the memory spring has an inward force, clamping the air outlet tightly against the two sides of the U-shaped baffle and the air supply channel. The first anti-slip pad is tightly attached to the inside, achieving a seal. This design uses a metal structure instead of the original rubber strip for clamping, which can maintain its position for a longer time in harsh environments, ensuring the sealing of the structural connection and improving the performance. Attached Figure Description

[0016] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0017] Figure 1 This is a schematic diagram of the appearance and structure of this utility model;

[0018] Figure 2 This is a schematic diagram of the spring clamping component of this utility model;

[0019] Figure 3 This is a schematic diagram of the positioning component structure of this utility model.

[0020] The attached diagram lists the components represented by each number as follows:

[0021] 10. Air supply duct; 11. Cover plate; 12. Diffuser; 20. Spring base; 201. First anti-slip pad; 21. Memory spring; 22. U-shaped baffle; 23. Connecting plate; 24. Clamping plate; 241. Second anti-slip pad; 25. Stop block; 251. Third anti-slip pad; 26. Fixing ring; 27. Fixing column; 30. Clamping block; 31. Arc-shaped positioning block; 32. Long rod. Detailed Implementation

[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0023] To make the objectives, technical solutions, and advantages of this utility model clearer, the embodiments of this utility model will be described in further detail below with reference to the accompanying drawings.

[0024] Please see Figure 1-3 As shown, this utility model is a high-efficiency integrated ventilation structure for container houses, comprising:

[0025] The ventilation component includes an air supply duct 10, a cover plate 11 that is snapped onto the opening of the air supply duct 10, and a diffuser plate 12 that is fitted into the air supply duct 10.

[0026] The spring clamping component includes a spring base 20 fixed inside the air supply channel 10, a memory spring 21 fixed on the spring base 20, a U-shaped baffle 22 threaded inside the air supply channel 10, a connecting plate 23 threaded on the U-shaped baffle 22, a clamping plate 24 connected to the connecting plate 23, and a stop block 25 fixed at the four corners of the air supply channel 10.

[0027] The air supply duct 10 is the main path for airflow transmission; the cover plate 11 is snapped onto the air outlet, serving to fix the air outlet and form a sealing surface; the diffuser plate 12 is embedded in the air supply duct 10, which can evenly disperse the airflow and make the distribution of purified air in the workshop more reasonable; the spring base 20 provides support for the memory spring 21; the memory spring 21 uses elastic deformation to achieve self-adaptive clamping, ensuring a tight connection of the air outlet; the U-shaped baffle 22, in addition to limiting the movement range of the spring clamping parts, also serves as a seal to prevent local airflow turbulence and damage to the requirement of uniform air supply; the connecting plate 23 connects the memory spring 21 and the clamping plate 24; the clamping plate 24 is used to clamp the air outlet; the baffle is used to assist in positioning and prevent displacement.

[0028] The spring clamping component also includes a first anti-slip pad 201 threadedly fixed to both ends of the spring base 20 and a second anti-slip pad 241 fixed to one side of the clamping plate 24;

[0029] The first anti-slip pad 201 is used to prevent the spring base 20 from sliding, and the second anti-slip pad 241 enhances the clamping stability of the clamping plate 24.

[0030] The spring clamping component also includes a fixing ring 26 fixed to both ends of the memory spring 21 and a fixing post 27 threadedly fixed to the spring base 20. One end of the memory spring 21 is fixed to the spring base 20 and the other end is fixed to the clamping plate 24.

[0031] The retaining ring 26 connects the memory spring 21 to other components, and the retaining post 27 provides a fixed fulcrum for the memory spring 21.

[0032] A through hole is opened between the U-shaped baffle 22 and the connecting plate 23, and the memory spring 21 connects the two ends and passes through the middle.

[0033] The through holes of the U-shaped baffle 22 and the connecting plate 23 ensure the linear movement of the memory spring 21.

[0034] The spring clamping component also includes a third anti-slip pad 251 that is adhered to both sides of the stop block 25;

[0035] The third anti-slip pad 251 improves the anti-slip performance and positioning accuracy between the stop block 25 and the connecting parts.

[0036] Working principle: When installing the air outlet, the spring clamping component pushes it into the air supply channel 10 and presses it against the clamping plate 24. The clamping plate 24 is squeezed to the four sides, compressing the memory spring 21. The fixing post 27 in the middle of the memory spring 21 keeps the memory spring 21 from horizontal displacement. After being fully pushed in, the memory spring 21 has an inward force, which clamps the air outlet tightly against the two sides of the U-shaped baffle 22 and the air supply channel 10. The first anti-slip pad 201 is tightly attached to the inside to achieve a seal. This design uses a metal structure instead of the original rubber strip used for clamping, which can maintain its position for a longer time in harsh environments.

[0037] Please see Figure 1-3 This embodiment is based on the above embodiments:

[0038] It also includes positioning components, which include a locking block 30 that snaps onto the edge of the air supply duct 10 and an arc-shaped positioning block 31 connected to the locking block 30;

[0039] The locking block 30 is snapped onto the edge of the air supply duct 10 for easy disassembly and adjustment; the arc-shaped positioning block 31 is adapted to the air duct and its arc can be directly pushed into the air duct.

[0040] The arc-shaped positioning block 31 is only connected to the locking blocks 30 on both the upper and lower sides of the air supply channel 10;

[0041] The left and right locking blocks 30 are used for positioning, and the upper and lower arc shapes facilitate direct sliding into the air supply channel 10.

[0042] The positioning component also includes a long rod 32 that passes through and connects the arc-shaped positioning block 31 and the locking block 30;

[0043] The long rod 32 connects the arc-shaped positioning block 31 and the locking block 30, fixing the arc-shaped positioning block 31 and enhancing structural stability.

[0044] Working principle: When docking is required, rotate the long rod 32 to move the upper and lower arc-shaped positioning blocks 31 to the required position, push the left and right locking blocks 30 to the fixed position, then place the part to be installed on the upper and lower arc-shaped positioning blocks 31, and then push it inward along the arc of the arc-shaped positioning blocks 31 to enter the clamping part.

[0045] This solution further saves time in installing air outlets, enabling quick connection of the air outlets.

[0046] The preferred embodiments of this utility model disclosed above are merely illustrative of the present utility model. These preferred embodiments do not exhaustively describe all details, nor do they limit the utility model to any specific implementation. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of this utility model, thereby enabling those skilled in the art to better understand and utilize it. This utility model is limited only by the claims and their full scope and equivalents.

Claims

1. A highly efficient integrated ventilation structure for container houses, characterized in that, include: The ventilation component includes an air supply channel (10), a cover plate (11) snapped at the opening of the air supply channel (10), and a diffuser plate (12) fitted into the air supply channel (10). The spring clamping component includes a spring base (20) fixed inside the air supply channel (10), a memory spring (21) fixed on the spring base (20), a U-shaped baffle (22) threaded inside the air supply channel (10), a connecting plate (23) threaded on the U-shaped baffle (22), a clamping plate (24) connected to the connecting plate (23), and stops (25) fixed at the four corners of the air supply channel (10).

2. The high-efficiency integrated ventilation structure for container houses according to claim 1, characterized in that: The spring clamping component also includes a first anti-slip pad (201) threaded to both ends of the spring base (20) and a second anti-slip pad (241) fixed to one side of the clamping plate (24).

3. The high-efficiency integrated ventilation structure for container houses according to claim 1, characterized in that: The spring clamping component also includes a fixing ring (26) fixed at both ends of the memory spring (21) and a fixing post (27) threaded on the spring base (20). One end of the memory spring (21) is fixed on the spring base (20) and the other end is fixed on the clamping plate (24).

4. The high-efficiency integrated ventilation structure for container houses according to claim 1, characterized in that: The U-shaped baffle (22) and the connecting plate (23) have a through hole in the middle, and the memory spring (21) connects the two ends and passes through the middle.

5. The high-efficiency integrated ventilation structure for container houses according to claim 1, characterized in that: The spring clamping component also includes a third anti-slip pad (251) that is adhered to both sides of the stop (25).

6. The high-efficiency integrated ventilation structure for container houses according to claim 1, characterized in that: It also includes a positioning component, which includes a locking block (30) that snaps onto the edge of the air supply channel (10) and an arc-shaped positioning block (31) connected to the locking block (30).

7. The high-efficiency integrated ventilation structure for container houses according to claim 6, characterized in that: The arc-shaped positioning block (31) is only connected to the locking blocks (30) on the upper and lower sides of the air supply channel (10).

8. The high-efficiency integrated ventilation structure for container houses according to claim 6, characterized in that: The positioning component also includes a long rod (32) that runs through and connects the arc-shaped positioning block (31) and the locking block (30).