A closed space humidification circulation control system

By designing a closed-space humidification circulation control system, and utilizing hydrophobic strips and booster pumps to achieve uniform distribution of water mist and wastewater recycling, the problems of water waste and pollution in traditional humidification methods are solved, realizing the recycling of water resources and improving system efficiency.

CN224486338UActive Publication Date: 2026-07-14CHENGDU GONGLU ENG TESTING CENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHENGDU GONGLU ENG TESTING CENT CO LTD
Filing Date
2025-08-04
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Traditional humidification methods for enclosed spaces lead to water waste and environmental pollution, especially when operating for extended periods in large, enclosed spaces, where water waste is severe.

Method used

A closed-space humidification and circulation control system was designed, including a hydrophobic strip, an atomizing nozzle, a water storage tank, a wastewater recovery tray, and a drive mechanism. By swinging the hydrophobic strip and using a booster pump, the uniform distribution of water mist and the recycling of wastewater are achieved.

Benefits of technology

It enables the recycling of water resources, reduces water waste and environmental pollution, and ensures uniform humidity distribution and improved system operating efficiency.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224486338U_ABST
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Abstract

The utility model discloses a closed space humidification circulation control system belongs to environmental control technical field, and it is designed to solve the technical problem of water resource waste of existing closed space humidification system. The closed space humidification circulation control system includes closed container, water storage jar and wastewater recovery tray. The closed container top is provided with the hydrophobic batten, and the hydrophobic batten bottom is provided with a plurality of atomizing nozzles, the water storage jar is set up outside the closed container, and the water storage jar is connected with first water supply pipe and second water supply pipe, and the first water supply pipe is communicated with a plurality of atomizing nozzles through the hydrophobic batten, and the second water supply pipe is communicated with the water pipe, and the tap water is transported to the water storage jar through the second water supply pipe and then is transported to a plurality of atomizing nozzles by the first water supply pipe and sprays, and the wastewater recovery tray is set up in the bottom of the closed container. The closed space humidification circulation control system can realize the humidification circulation control of wastewater recovery and recycling.
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Description

Technical Field

[0001] This utility model belongs to the field of environmental control technology, specifically relating to a closed space humidification and circulation control system. Background Technology

[0002] In industrial production, warehousing and logistics, laboratory research, and some special civilian settings, precise humidity control in enclosed spaces is often required. For example, in electronic component manufacturing workshops, a suitable humidity environment can effectively prevent static electricity generation, avoiding damage to electronic components caused by static electricity attracting dust or electrostatic breakdown; in pharmaceutical storage warehouses, appropriate humidity conditions help maintain the stability and efficacy of medicines; and in laboratories housing precision instruments, stable humidity is crucial for the accuracy of experimental results.

[0003] Traditional humidification methods for enclosed spaces mostly involve directly spraying water mist into the space. While this method can increase humidity to some extent, it has many drawbacks. Specifically, the sprayed water mist gradually settles under gravity, forming wastewater. This wastewater is usually discharged directly, wasting water resources and potentially polluting the surrounding environment. This is especially true for humidifying large, enclosed spaces, where prolonged operation of the humidifier leads to significant water waste. Therefore, designing a system that can effectively recover and recycle the wastewater generated during humidification is of significant environmental and economic value. Utility Model Content

[0004] In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a closed space humidification circulation control system, which aims to solve the technical problem of water waste in the existing closed space humidification system.

[0005] To address the aforementioned technical problems, this utility model provides a closed-space humidification and circulation control system, comprising a sealed container, a water storage tank, and a wastewater recovery tray. A hydrophobic strip is installed at the top of the sealed container, and multiple atomizing nozzles are installed at the bottom of the hydrophobic strip. The water storage tank is located outside the sealed container, and a first water supply pipe and a second water supply pipe are connected to the water storage tank. The first water supply pipe is connected to the multiple atomizing nozzles through the hydrophobic strip, and the second water supply pipe is connected to a tap water pipe. Tap water is transported to the water storage tank through the second water supply pipe and then to the multiple atomizing nozzles through the first water supply pipe. The wastewater recovery tray is located at the bottom of the sealed container, and a recovery pipe connects the wastewater recovery tray to the second water supply pipe.

[0006] Preferably, a first booster pump is installed on the recovery pipe, and a second booster pump is installed on the first water supply pipe.

[0007] Preferably, a control valve is provided on the second water supply pipe, and the control valve is located on the side away from the water storage tank at the connection between the recovery pipe and the second water supply pipe.

[0008] Preferably, the top two ends of the hydrophobic strip are fixed with a first cantilever, and the ends of the first cantilever are hinged with a second cantilever. The second cantilever is fixed to the top wall inside the sealed container. The hydrophobic strip is suspended inside the sealed container by the first and second cantilever and can swing. The sealed container is provided with a drive mechanism for driving the hydrophobic strip to swing. A connecting hose is connected to the hydrophobic strip. The first water supply pipe is connected to multiple atomizing nozzles through the connecting hose and the hydrophobic strip.

[0009] Preferably, the driving mechanism includes a fixed plate vertically fixed to the hydrophobic plate and a vertical plate vertically fixed to the top wall of the sealed container. A rotating arm is hinged to the bottom end of the vertical plate, and a traction plate is hinged to the end of the rotating arm. The end of the traction plate away from the rotating arm is hinged to the fixed plate. A motor for driving the rotating arm to rotate is installed on the vertical plate.

[0010] Preferably, the bottom of the sealed container is provided with a recycling bottom shell, and a recycling cavity is formed between the recycling bottom shell and the bottom wall of the sealed container. The bottom wall of the recycling cavity is designed to gradually sink towards the middle. The recycling pipe is connected to the middle position of the recycling cavity. Multiple wastewater recycling trays are provided, and the bottom ends of the multiple wastewater recycling trays are connected to the recycling cavity.

[0011] Preferably, the wastewater recovery tray is embedded in the bottom wall of a sealed container, the wastewater recovery tray is configured as a bucket-shaped structure, and a filter screen is installed inside the wastewater recovery tray. Beneficial effects

[0012] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0013] This invention utilizes a wastewater recovery tray, recovery chamber, and recovery pipe to recover settled wastewater into a storage tank, thereby achieving water resource recycling, greatly reducing water waste, and also reducing environmental pollution.

[0014] In this invention, the hydrophobic strip is oscillated by a drive mechanism, so that the water mist sprayed from the atomizing nozzle can be evenly distributed in the sealed container, avoiding the problem of excessively high or low local humidity.

[0015] In this invention, by designing a booster pump, the return efficiency of the recycled water is improved, ensuring smooth water circulation within the system and enhancing the overall operating efficiency of the system. Attached image description:

[0016] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. 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 overall structure of this utility model;

[0018] Figure 2 This is a schematic diagram of the internal structure of the sealed container in this utility model;

[0019] Figure 3 This is a schematic diagram of the hydrophobic strip in this utility model;

[0020] Figure 4 This is a schematic diagram of the drive mechanism in this utility model;

[0021] Figure 5 This utility model Figure 2 Enlarged view of point A in the image.

[0022] The labels in the attached diagram are as follows: 1. Sealed container; 2. Water storage tank; 3. First water supply pipe; 4. Second water supply pipe; 5. Recovery pipe; 6. Control valve; 7. First booster pump; 8. Second booster pump; 9. Drainage strip; 10. Atomizing nozzle; 11. Wastewater recovery tray; 12. Connecting hose; 13. First cantilever; 14. Second cantilever; 15. Drive mechanism; 16. Fixing strip; 17. Traction strip; 18. Vertical plate; 19. Rotating arm; 20. Motor; 21. Recovery bottom shell; 22. Recovery chamber; 23. Filter screen. Detailed Implementation

[0023] 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.

[0024] This embodiment provides a closed-space humidification and circulation control system, the structural diagram of which is shown below. Figures 1-5 As shown, it includes a sealed container 1, a water storage tank 2, and a wastewater recovery tray 11.

[0025] In this embodiment, a hydrophobic strip 9 is provided at the top of the sealed container 1, and multiple atomizing nozzles 10 are installed at the bottom of the hydrophobic strip 9. First cantilever 13 is fixed at both ends of the top of the hydrophobic strip 9, and second cantilever 14 is hinged to the end of the first cantilever 13. The second cantilever 14 is fixed to the top wall inside the sealed container 1, so that the hydrophobic strip 9 is suspended inside the sealed container 1 by the first cantilever 13 and the second cantilever 14, and can swing. The sealed container 1 is also equipped with a drive mechanism 15 for driving the hydrophobic strip 9 to swing. The drive mechanism 15 includes a fixed strip 16 vertically fixed to the hydrophobic strip 9 and a vertical plate 18 vertically fixed to the top wall inside the sealed container 1. A rotating arm 19 is hinged to the bottom end of the vertical plate 18, and a traction strip 17 is hinged to the end of the rotating arm 19. The end of the traction strip 17 away from the rotating arm 19 is hinged to the fixed strip 16. A motor 20 for driving the rotating arm 19 to rotate is mounted on the vertical plate 18. The motor 20 is waterproof. A connecting hose 12 is connected to the hydrophobic strip 9.

[0026] Furthermore, the water storage tank 2 is located outside the sealed container 1, and a first water supply pipe 3 and a second water supply pipe 4 are connected to the water storage tank 2. The first water supply pipe 3 is connected to the drainage strip 9 via a connecting hose 12, and then to multiple atomizing nozzles 10; the second water supply pipe 4 is connected to a tap water pipe, and tap water is transported to the water storage tank 2 through the second water supply pipe 4, and then transported to the multiple atomizing nozzles 10 by the first water supply pipe 3. A control valve 6 is installed on the second water supply pipe 4, located on the side away from the water storage tank 2 at the connection between the recovery pipe 5 and the second water supply pipe 4, and is used to control the delivery of tap water. At the same time, a second booster pump 8 is installed on the first water supply pipe 3, and a first booster pump 7 is installed on the recovery pipe 5 to ensure normal water flow.

[0027] Furthermore, multiple wastewater recovery trays 11 are installed at the bottom of the sealed container 1. The wastewater recovery trays 11 are embedded in the bottom wall of the sealed container 1 and are designed in a funnel shape. A filter screen 23 is installed inside to filter impurities in the recovered wastewater. A recovery bottom shell 21 is provided at the bottom end of the sealed container 1. A recovery cavity 22 is formed between the recovery bottom shell 21 and the bottom wall of the sealed container 1. The bottom wall of the recovery cavity 22 is designed to gradually sink towards the middle. The recovery pipe 5 is connected to the middle position of the recovery cavity 22. The bottom ends of the multiple wastewater recovery trays 11 are connected to the recovery cavity 22, so that the wastewater recovered by the wastewater recovery trays 11 can flow into the recovery cavity 22 and then be transported back to the water storage tank 2 through the recovery pipe 5, realizing the recycling of water.

[0028] Working principle:

[0029] When humidification is needed within the sealed container 1, the control valve 6 is opened, and tap water is supplied to the water storage tank 2 via the second water supply pipe 4. The water in the storage tank 2, under the action of the second booster pump 8, is then supplied to the hydrophobic strip 9 via the first water supply pipe 3, and then sprayed out from multiple atomizing nozzles 10 via the connecting hose 12, forming a fine water mist that is evenly distributed within the sealed container 1, thereby increasing the humidity of the space.

[0030] During the humidification process, the motor 20 drives the rotating arm 19 to rotate. Through the transmission of the traction strip 17 and the fixed strip 16, the hydrophobic strip 9 is driven to swing, so that the water mist sprayed by the atomizing nozzle 10 can more evenly cover the space inside the entire sealed container 1.

[0031] The sprayed water mist gradually settles under gravity and falls into the wastewater recovery tray 11. After being filtered by the filter screen 23, the wastewater flows into the recovery chamber 22 through the bottom of the wastewater recovery tray 11. Due to the design of the bottom wall of the recovery chamber 22 gradually sinking towards the middle, the wastewater will concentrate and flow to the middle position of the recovery chamber 22, and then flow back to the water storage tank 2 through the recovery pipe 5, realizing the recovery and reuse of wastewater.

[0032] When the humidity inside the sealed container 1 reaches the set value, the control valve 6 and the corresponding booster pump are closed, and the humidification operation is stopped. When the humidity drops again and humidification is needed, the above process is repeated.

[0033] All technical features in this embodiment can be freely combined according to actual needs.

[0034] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A closed-space humidification and circulation control system, characterized in that, include: A sealed container (1) is provided with a hydrophobic strip (9) at the top and a plurality of atomizing nozzles (10) at the bottom of the hydrophobic strip (9). A water storage tank (2) is set outside a sealed container (1). A first water supply pipe (3) and a second water supply pipe (4) are connected to the water storage tank (2). The first water supply pipe (3) is connected to multiple atomizing nozzles (10) through a water-draining strip (9). The second water supply pipe (4) is connected to a tap water pipe. Tap water is transported to the water storage tank (2) through the second water supply pipe (4) and then transported to multiple atomizing nozzles (10) through the first water supply pipe (3) and sprayed out. Wastewater recovery tray (11) is located at the bottom of the sealed container (1), and a recovery pipe (5) is connected between the wastewater recovery tray (11) and the second water supply pipe (4).

2. The closed-space humidification and circulation control system according to claim 1, characterized in that, The first booster pump (7) is installed on the recovery pipe (5), and the second booster pump (8) is installed on the first water supply pipe (3).

3. The closed-space humidification and circulation control system according to claim 1, characterized in that, A control valve (6) is provided on the second water supply pipe (4). The control valve (6) is located on the side away from the water storage tank (2) at the connection between the recovery pipe (5) and the second water supply pipe (4).

4. The closed-space humidification and circulation control system according to claim 1, characterized in that, The top two ends of the hydrophobic strip (9) are fixed with a first cantilever (13), and the end of the first cantilever (13) is hinged with a second cantilever (14). The second cantilever (14) is fixed on the top wall inside the sealed container (1). The hydrophobic strip (9) is suspended in the sealed container (1) through the first cantilever (13) and the second cantilever (14) and can swing. The sealed container (1) is provided with a drive mechanism (15) for driving the hydrophobic strip (9) to swing. A connecting hose (12) is connected to the hydrophobic strip (9). The first water supply pipe (3) is connected to multiple atomizing nozzles (10) through the connecting hose (12) and the hydrophobic strip (9).

5. The closed-space humidification and circulation control system according to claim 4, characterized in that, The drive mechanism (15) includes a fixed plate (16) vertically fixed on the hydrophobic strip (9) and a vertical plate (18) vertically fixed on the inner top wall of the sealed container (1). A rotating arm (19) is hinged to the bottom end of the vertical plate (18), and a traction plate (17) is hinged to the end of the rotating arm (19). The end of the traction plate (17) away from the rotating arm (19) is hinged to the fixed plate (16). A motor (20) for driving the rotating arm (19) to rotate is installed on the vertical plate (18).

6. The closed-space humidification and circulation control system according to claim 1, characterized in that, The bottom of the sealed container (1) is provided with a recycling bottom shell (21), and a recycling cavity (22) is formed between the recycling bottom shell (21) and the bottom wall of the sealed container (1). The bottom wall of the recycling cavity (22) is designed to gradually sink towards the middle. The recycling pipe (5) is connected to the middle position of the recycling cavity (22). Multiple wastewater recycling trays (11) are provided, and the bottom ends of multiple wastewater recycling trays (11) are connected to the recycling cavity (22).

7. The closed-space humidification and circulation control system according to claim 6, characterized in that, The wastewater recovery tray (11) is embedded in the bottom wall of the sealed container (1). The wastewater recovery tray (11) is configured as a bucket-shaped structure and a filter screen (23) is installed inside the wastewater recovery tray (11).