Passive humidification type badminton packaging

By using passive humidification badminton packaging, which incorporates a humidifier body and temperature and humidity detection components, the problem of badminton shuttlecocks drying out due to high temperatures during long-distance transportation is solved. This achieves continuous humidification and humidity detection, preventing damage and extending service life.

CN224492196UActive Publication Date: 2026-07-14ANHUI SHUANGAN FIRE EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ANHUI SHUANGAN FIRE EQUIP CO LTD
Filing Date
2025-09-12
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Shuttlecocks are easily damaged by high temperatures and dryness during long-distance transportation. Current technology is unable to effectively maintain humidity, leading to brittleness and breakage of the feathers.

Method used

The badminton shuttlecock packaging adopts a passive humidification system, which includes a humidifier body, a water storage sponge, and a temperature and humidity detection component. It maintains humidity by passively releasing water vapor and is connected to the shuttlecock tube through a sealed cover to achieve continuous humidification and humidity detection.

Benefits of technology

It effectively prevents badminton shuttlecocks from being damaged by dryness during long-distance transportation, maintains the flexibility of the feathers, extends their service life, and improves the accuracy and efficiency of humidity detection.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224492196U_ABST
    Figure CN224492196U_ABST
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Abstract

The utility model relates to badminton packaging technical field, concretely relates to a passive humidification formula badminton package, including humidifier main part, the inside screw thread connection of humidifier main part has fixed apron, be provided with the water storage sponge in humidifier main part, the water body in water storage sponge is passive to the outside emission water vapor, the middle part of humidifier main part is nested with temperature and humidity detection subassembly, the end of temperature and humidity detection subassembly is equipped with the closed apron, the closed apron is set up in the inside of humidifier main part, the closed apron and shell inner wall between form the clamping groove that supplies badminton ball cylinder nesting fixed, through the clamping groove humidifier main part can directly with ball cylinder carry out the connection, need not additional ball cylinder package, and the use convenience is high, can simultaneously with closed apron from the humidifier main part is taken out, and closed apron and humidifier main part can be installed respectively in the both ends of ball cylinder to the more accurate detection of humidity in ball cylinder from the other end of ball cylinder, further improve detection accuracy.
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Description

Technical Field

[0001] This utility model relates to the field of badminton packaging technology, specifically to a passive humidification badminton packaging. Background Technology

[0002] Badminton feathers become brittle and easily break in dry environments. Humidifying the feathers helps them retain moisture, increasing their flexibility and elasticity, thus reducing the likelihood of breakage due to impact during play and extending the lifespan of the shuttlecock.

[0003] Currently, badminton shuttlecocks are prone to high-temperature drying during long-distance transportation. For example, during long-distance sea transport, the shuttlecocks inside the packaging will remain at high temperatures due to direct sunlight. High temperatures will accelerate the drying of the shuttlecocks, which will lead to damage during long-distance transportation. To address this issue, a passive humidification badminton shuttlecock packaging method has been proposed. Utility Model Content

[0004] In order to solve the technical problems existing in the prior art, the present invention provides a passive humidification badminton packaging.

[0005] To solve the above-mentioned technical problems, this utility model provides the following technical solution: a passive humidifying badminton shuttlecock packaging, including a humidifier body, a fixed cover plate connected internally by threads to the humidifier body, a water-storing sponge inside the humidifier body, water in the water-storing sponge passively releasing water vapor outward, a temperature and humidity detection component nested in the middle of the humidifier body, and a sealing cover plate fitted at the end of the temperature and humidity detection component, the sealing cover plate being disposed inside the humidifier body.

[0006] Preferably, the humidifier body includes an outer shell, an inner shell, an inner cavity, and fixing strips. The inner shell is formed inside the outer shell, and the outer shell and the inner shell cooperate to form an inner cavity inside the outer shell. The inner wall of the inner cavity is formed with several sets of fixing strips.

[0007] Preferably, the inner diameter of the water-storing sponge is consistent with the outer diameter of the inner shell, the outer diameter of the water-storing sponge is consistent with the inner diameter of the outer shell, and the fixing strip penetrates into the temperature and humidity detection component.

[0008] Preferably, the temperature and humidity detection component includes a detector housing and a detector body. The detector housing is nested inside the inner housing and maintains its relative position to the inner housing through contact friction. The detector body is disposed at the end of the detector housing.

[0009] Preferably, the bottom of the detector housing has several sets of through holes, and the detection end of the detector body is located inside the detector housing.

[0010] Preferably, the detector housing has two sets of fixing points on its surface, located at the top and bottom of the detector housing surface, respectively, and the sealing cover is selectively fixed to the fixing points on the detector housing surface by interference fit.

[0011] Preferably, the sealing cover is fixed in position relative to the detector housing, and the sealing cover moves synchronously with the movement of the detector housing.

[0012] Preferably, the diameter of the sealing cover is smaller than the inner diameter of the inner cavity, and a groove is formed between the sealing cover and the inner wall of the outer shell for the badminton shuttlecock tube to be nested and fixed.

[0013] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0014] 1. This utility model provides a humidifier body, in which a temperature and humidity detection component is nested in the middle. A sealing cover is fitted at the end of the temperature and humidity detection component. The sealing cover is also located inside the humidifier body. A slot is formed between the sealing cover and the inner wall of the outer shell for the badminton shuttlecock tube to be nested and fixed. The humidifier body can be directly connected to the shuttlecock tube through the slot to achieve continuous passive humidification, thereby ensuring the humidity of the badminton shuttlecock during long-distance transportation and avoiding excessive drying and damage to the badminton shuttlecock.

[0015] 2. In this utility model, the sealing cover can be removed from the humidifier body. The sealing cover and the humidifier body can be installed at both ends of the shuttlecock tube, so that the humidity inside the shuttlecock tube can be detected more accurately from the other end of the tube, further improving the detection accuracy. At the same time, before use, the temperature and humidity detection component can determine whether the humidity inside the tube meets the usage requirements, so that the humidifier body can humidify in advance in time, so that the entire tube of badminton shuttlecocks can reach the optimal humidity requirements at the same time, which can meet the needs of large-scale shuttlecock usage scenarios and avoid temporary humidification by an active humidifier on-site when a large number of shuttlecocks are used. Attached Figure Description

[0016] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0017] Figure 2 This is a three-dimensional unfolded schematic diagram of the present invention;

[0018] Figure 3 This is a schematic diagram of the unfolded inverted three-dimensional structure of this utility model;

[0019] Figure 4 This is a schematic diagram of the temperature and humidity detection component of this utility model;

[0020] Figure 5 This is a schematic diagram of the usage state of this utility model.

[0021] The numbers in the image represent:

[0022] 1. Humidifier body; 11. Outer shell; 12. Inner shell; 13. Inner cavity; 14. Fixing strip; 2. Fixing cover; 3. Water storage sponge; 4. Temperature and humidity detection component; 41. Detector shell; 42. Detector body; 5. Sealing cover. Detailed Implementation

[0023] The present invention will be further described below with reference to the accompanying drawings and embodiments, highlighting the above and other technical features and advantages of the present invention. However, the following embodiments are merely preferred embodiments of the present invention and are not exhaustive.

[0024] Example:

[0025] like Figure 1-5 As shown, this utility model provides a passive humidification badminton packaging, including a humidifier body 1, a fixed cover plate 2 connected to the inside of the humidifier body 1 by threads, a water storage sponge 3 disposed inside the humidifier body 1, the water in the water storage sponge 3 passively releasing water vapor outward, a temperature and humidity detection component 4 nested in the middle of the humidifier body 1, a sealing cover plate 5 sleeved on the end of the temperature and humidity detection component 4, and the sealing cover plate 5 is also disposed inside the humidifier body 1;

[0026] The temperature and humidity detection component 4 can be either mechanical or electronic.

[0027] The humidifier body 1 includes an outer shell 11, an inner shell 12, an inner cavity 13, and a fixing strip 14;

[0028] The outer shell 11 has an inner shell 12 formed inside it. The outer shell 11 and the inner shell 12 form an inner cavity 13 inside itself. The inner wall of the inner cavity 13 has several sets of fixing strips 14. The inner diameter of the water-storing sponge 3 is consistent with the outer diameter of the inner shell 12, and the outer diameter of the water-storing sponge 3 is consistent with the inner diameter of the outer shell 11. The fixing strips 14 penetrate into the temperature and humidity detection component 4. Under the compression of the fixing strips 14, the water-storing sponge 3 will deform. Under the deformation of the water-storing sponge 3, the water-storing sponge 3 will be better fixed in the inner cavity 13 due to friction, preventing the water-storing sponge 3 from sliding freely inside the inner cavity 13. The fixing strips 14 also provide limiting points for the threaded connection of the fixing cover plate 2.

[0029] Temperature and humidity detection component 4 includes detector housing 41 and detector body 42;

[0030] The detector housing 41 is nested inside the inner housing 12 and maintains its relative position to the inner housing 12 through contact friction. The detector body 42 is disposed at the end of the detector housing 41. When disposed, the detector housing 41 is fixed inside the inner housing 12 by friction. The detector body 42 monitors the temperature and humidity inside the sphere by relying on the detector housing 41.

[0031] The detector housing 41 has two sets of fixing points on its surface. The two sets of fixing points are located at the top and bottom of the detector housing 41 surface, respectively. The sealing cover 5 is selectively fixed to the fixing points on the surface of the detector housing 41 by interference fit. By selecting between the two fixing points on the surface of the detector housing 41, two different combination methods can be realized between the detector housing 41 and the sealing cover 5. The two different combination methods can realize two combination methods: combined installation and separate installation.

[0032] The sealing cover 5 remains fixed relative to the detector housing 41. The sealing cover 5 moves synchronously with the movement of the detector housing 41. When the sealing cover 5 is in contact with the surface of the water-storing sponge 3, the sealing cover 5 can seal the water-storing sponge 3, thereby preventing moisture evaporation. When humidification is required, the detector housing 41 can be pushed to move the sealing cover 5 synchronously. The moving sealing cover 5 releases its contact with the surface of the water-storing sponge 3, and the moisture in the water-storing sponge 3 can then diffuse outward.

[0033] The bottom of the detector housing 41 is provided with several sets of through holes. The detection end of the detector body 42 is located inside the detector housing 41. After the detector housing 41 pushes the sealing cover 5 to release the sealing effect of the water storage sponge 3, the evaporated water can normally enter the ball cylinder through the through holes of the detector housing 41.

[0034] The diameter of the sealing cover 5 is smaller than the inner diameter of the inner cavity 13. A groove is formed between the sealing cover 5 and the inner wall of the outer shell 11 for the badminton shuttlecock tube to be nested and fixed. During use:

[0035] One end of the bulb is directly inserted into the slot, and friction is generated by the contact with the slot. Under the action of friction, the connection between the bulb and the humidifier body 1 remains fixed. The temperature and humidity detection component 4 is pushed to move the sealing cover 5. During the movement, the sealing cover 5 releases the sealing effect on the water storage sponge 3. At this time, the water in the water storage sponge 3 in the inner cavity 13 evaporates, increasing the humidity inside the bulb. The temperature and humidity detection component 4 monitors the humidity inside the bulb.

[0036] By pushing the temperature and humidity detection component 4, it is detached from the inner shell 12. Further pushing the temperature and humidity detection component 4 separates it from the sealing cover plate 5. After reversing the orientation of the temperature and humidity detection component 4, it is reconnected to the sealing cover plate 5. After the connection is completed, the sealing cover plate 5 can be pressed into one side of the ball tube, and then the other side of the ball tube can be inserted into the outer shell 11. At this time, the water in the water-storing sponge 3 in the inner cavity 13 evaporates, increasing the humidity inside the ball tube. The temperature and humidity detection component 4 monitors the humidity inside the ball tube.

[0037] The above description is merely a preferred embodiment of this utility model and is illustrative rather than restrictive. Those skilled in the art will understand that many changes, modifications, and even equivalents can be made within the spirit and scope defined by the claims of this utility model, all of which will fall within the protection scope of this utility model.

Claims

1. A passive humidifying badminton shuttlecock packaging, characterized in that, The humidifier includes a humidifier body (1), a fixed cover plate (2) is threadedly connected inside the humidifier body (1), a water storage sponge (3) is provided inside the humidifier body (1), the water in the water storage sponge (3) passively releases water vapor outward, a temperature and humidity detection component (4) is nested in the middle of the humidifier body (1), and a sealing cover plate (5) is fitted at the end of the temperature and humidity detection component (4), and the sealing cover plate (5) is also provided inside the humidifier body (1).

2. The passive humidification badminton shuttlecock packaging as described in claim 1, characterized in that, The humidifier body (1) includes an outer shell (11), an inner shell (12), an inner cavity (13), and fixing strips (14). The inner shell (12) is formed inside the outer shell (11). The outer shell (11) and the inner shell (12) form an inner cavity (13) inside the outer shell (11). The inner wall of the inner cavity (13) is formed with several sets of fixing strips (14).

3. The passive humidification badminton shuttlecock packaging as described in claim 2, characterized in that, The inner diameter of the water-storing sponge (3) is consistent with the outer diameter of the inner shell (12), and the outer diameter of the water-storing sponge (3) is consistent with the inner diameter of the outer shell (11). The fixing strip (14) penetrates into the temperature and humidity detection component (4).

4. The passive humidification badminton shuttlecock packaging as described in claim 2, characterized in that, The temperature and humidity detection component (4) includes a detector housing (41) and a detector body (42). The detector housing (41) is nested inside the inner housing (12) and maintains a relative positional relationship with the inner housing (12) through contact friction with the inner housing (12). The detector body (42) is disposed at the end of the detector housing (41).

5. A passive humidifying badminton shuttlecock packaging as described in claim 4, characterized in that, The bottom of the detector housing (41) is provided with several sets of through holes, and the detection end of the detector body (42) is located inside the detector housing (41).

6. A passive humidifying badminton shuttlecock packaging as described in claim 5, characterized in that, The detector housing (41) has two sets of fixing points on its surface. The two sets of fixing points are located at the top and bottom of the detector housing (41) surface, respectively. The sealing cover (5) is selectively fixed to the fixing points on the detector housing (41) surface by means of interference fit.

7. A passive humidifying badminton shuttlecock packaging as described in claim 5, characterized in that, The sealing cover (5) remains fixed relative to the detector housing (41), and the sealing cover (5) moves synchronously with the movement of the detector housing (41).

8. A passive humidifying badminton shuttlecock packaging as described in claim 7, characterized in that, The diameter of the closed cover plate (5) is smaller than the inner diameter of the inner cavity (13), and a slot is formed between the closed cover plate (5) and the inner wall of the outer shell (11) for the badminton shuttlecock tube to be nested and fixed.