A mechanical badminton shuttlecock tube humidity detection device
By designing a mechanical badminton shuttlecock tube humidity detection device, the problem of traditional badminton shuttlecock tubes being unable to monitor temperature and humidity is solved. This enables convenient and accurate humidity detection and fixation, protects the structural integrity of the shuttlecock, and is suitable for various usage scenarios.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI SHUANGAN FIRE EQUIP CO LTD
- Filing Date
- 2025-09-23
- Publication Date
- 2026-06-30
Smart Images

Figure CN224435486U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of temperature and humidity detection technology, specifically to a mechanical badminton shuttlecock tube humidity detection device. Background Technology
[0002] In daily storage, badminton shuttlecocks are usually placed in shuttlecock tubes. However, traditional shuttlecock tubes only have storage functions and cannot monitor the internal temperature and humidity. When the humidity of the storage environment is high, the feathers of the shuttlecock easily absorb moisture, which leads to a decrease in feather fluffiness and an increase in weight. This not only affects the flight trajectory and speed when hitting the shuttlecock and reduces the sports experience, but may also accelerate the mold growth of the feathers and shorten the lifespan of the shuttlecock. On the other hand, if the humidity is too low, the feathers will become dry and brittle, which will also damage the structural integrity of the shuttlecock.
[0003] Currently, although there are some temperature and humidity detection devices on the market, most of them are independent electronic detection devices that need to be purchased separately and are difficult to adapt to badminton tubes. They are inconvenient to carry and have limited usage scenarios. They lack a dedicated adaptation structure for badminton tube storage scenarios and are also difficult to fix or place next to badminton tubes for real-time monitoring. Therefore, a mechanical badminton tube humidity detection device is proposed. Utility Model Content
[0004] In order to solve the technical problems existing in the prior art, the present invention provides a mechanical badminton shuttlecock tube humidity detection device.
[0005] To solve the above-mentioned technical problems, this utility model provides the following technical solution: a mechanical badminton shuttlecock tube humidity detection device, including a lower outer shell, a mechanical temperature and humidity detection component installed inside the top of the lower outer shell, an upper outer shell being fitted over the top of the lower outer shell, the upper outer shell and the lower outer shell being locked together by a locking assembly, and a support base being installed at the bottom of the lower outer shell.
[0006] Preferably, the lower outer shell includes a lower outer shell body, a lower inner shell body, and fixing buckles. The lower inner shell body is formed at the middle position inside the lower outer shell body, and several sets of fixing buckles are formed at equal intervals on the top edge of the lower outer shell body.
[0007] Preferably, the top of the lower inner shell is provided with several sets of protrusions, and the several sets of protrusions are equally spaced on the top of the lower inner shell. The mechanical temperature and humidity detection component is nested in the lower inner shell. The bottom of the lower outer shell is provided with several sets of through holes, and the through holes connect the inside and outside of the lower outer shell.
[0008] Preferably, the upper outer shell includes an upper outer shell body and a locking groove. The upper outer shell body has a plurality of locking grooves inside. The locking grooves are positioned to correspond to the positions of the upper outer shell body. The locking grooves cooperate with the fixing buckles to form a locking assembly for fixing the upper outer shell body.
[0009] Preferably, a circular hole is provided in the middle of the upper outer shell, the circular hole having the same diameter as the top of the mechanical temperature and humidity detection component, the top of the mechanical temperature and humidity detection component being nested in the circular hole, and the mechanical temperature and humidity detection component being restricted by the downward pressure of the upper outer shell.
[0010] Preferably, the lower housing further includes a magnet holder, and a magnet is disposed inside the magnet holder.
[0011] Preferably, the middle part of the support base has an irregular shape, and the bottom of the lower outer shell has an irregular shape that matches the support base.
[0012] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0013] 1. This utility model is equipped with a mechanical temperature and humidity detection component, which is nested inside the lower inner shell. The bottom of the lower outer shell has several sets of through holes that connect the inside and outside of the lower outer shell. When the lower outer shell is connected to the badminton tube, the temperature and humidity inside the lower outer shell and the lower inner shell will be consistent with the badminton tube. The mechanical temperature and humidity detection component detects the temperature and humidity inside the lower inner shell, thereby obtaining accurate temperature and humidity inside the badminton tube.
[0014] 2. In this utility model, a magnet base is provided inside the lower outer shell, and a magnet is provided inside the magnet base. When used as a normal temperature and humidity detection device, the magnet base can fix the lower outer shell to the surface of a metal object by adsorbing metal.
[0015] 3. In this utility model, the support base rotates out of the lower outer shell and forms an angle with the lower outer shell. The position of the support base relative to the lower outer shell is kept fixed by friction. At this time, the lower outer shell can be placed on the table in an inclined manner. 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 side view structural diagram of the present invention;
[0018] Figure 3 This is a schematic diagram of the three-dimensional unfolded structure of this utility model;
[0019] Figure 4 This is a top view schematic diagram of the three-dimensional unfolded structure of this utility model;
[0020] Figure 5 This is a schematic diagram of the support base of this utility model in use.
[0021] The numbers in the diagram represent:
[0022] 1. Lower outer shell; 11. Lower outer shell body; 12. Lower inner shell; 13. Fixing buckle; 14. Magnet base; 2. Mechanical temperature and humidity detection component; 3. Upper outer shell; 31. Upper outer shell body; 32. Locking groove; 4. Support base. 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 mechanical badminton shuttlecock tube humidity detection device, including a lower outer shell 1, a mechanical temperature and humidity detection component 2 installed inside the top of the lower outer shell 1, an upper outer shell 3 covered on the top of the lower outer shell 1, the upper outer shell 3 and the lower outer shell 1 are locked together by a locking component, and a support base 4 is installed at the bottom of the lower outer shell 1.
[0026] The lower outer shell 1 includes a lower outer shell body 11, a lower inner shell 12, and a fixing buckle 13;
[0027] The lower inner shell 12 is formed in the middle of the lower outer shell 11. Several sets of fixing buckles 13 are formed at equal intervals on the top edge of the lower outer shell 11. Several sets of protrusions are provided on the top of the lower inner shell 12. The mechanical temperature and humidity detection component 2 is nested inside the lower inner shell 12. Several sets of through holes are provided on the bottom of the lower outer shell 11, which connect the inside and outside of the lower outer shell 11. Through the through holes, when the lower outer shell 11 is connected to the badminton tube, the temperature and humidity inside the lower outer shell 11 and the lower inner shell 12 will be consistent with the badminton tube, thereby ensuring the accuracy of the mechanical temperature and humidity detection component 2 in measuring the temperature and humidity inside the badminton tube.
[0028] The upper outer casing 3 includes an upper outer casing body 31 and a locking groove 32;
[0029] The upper outer shell 31 has several sets of locking grooves 32 inside. The locking grooves 32 are positioned corresponding to the upper outer shell 31. The locking grooves 32 and the fixing buckles 13 cooperate to form a locking assembly for fixing the upper outer shell 31. When the upper outer shell 31 is connected to the lower outer shell 11, the locking grooves 32 inside the upper outer shell 31 are aligned with the fixing buckles 13. When the fixing buckles 13 are inserted into the locking grooves 32, the fixing buckles 13 cooperate with the locking grooves 32 to lock the upper outer shell 31, thereby making the upper outer shell 31 stably fixed to the outside of the lower outer shell 11.
[0030] A circular hole is provided in the middle of the upper outer shell 31. The diameter of the circular hole is the same as that of the top of the mechanical temperature and humidity detection component 2. The top of the mechanical temperature and humidity detection component 2 is nested in the circular hole. The mechanical temperature and humidity detection component 2 is restricted by the downward pressure of the upper outer shell 31. Under the restriction of the upper outer shell 31, the mechanical temperature and humidity detection component 2 remains fixed in the lower inner shell 12. At the same time, the upper outer shell 31 cooperates with the lower outer shell 11 to seal the mechanical temperature and humidity detection component 2, so that the mechanical temperature and humidity detection component 2 can only detect the temperature and humidity inside the lower inner shell 12, thereby obtaining accurate temperature and humidity inside the sphere.
[0031] The mechanical temperature and humidity detection component 2 can be configured to fit the lower housing 1, allowing the mechanical temperature and humidity detection component 2 to be directly connected to the lower housing 1, and the mechanical temperature and humidity detection component 2 to directly serve as the upper cover.
[0032] The lower outer casing 1 also includes a magnet base 14, which contains a magnet. When used as a normal temperature and humidity detection device, the magnet base 14 can fix the lower outer casing 1 to a metal surface, such as a refrigerator door, by adsorbing metal.
[0033] The middle part of the support base 4 has an irregular design, and the bottom of the lower outer shell 11 is designed to match the irregular design of the support base 4. When used as a normal temperature and humidity detection device, the support base 4 is rotated so that it rotates out of the lower outer shell 11 and forms an angle with the lower outer shell 11. The position of the support base 4 relative to the lower outer shell 1 is kept fixed by friction. At this time, the lower outer shell 1 can be placed on the table in an inclined manner. The support base 4 serves as a support for the lower outer shell 1. At the same time, since the middle part of the support base 4 has an irregular design, the support base 4 can restrict the rotation of the lower outer shell 1 when supporting it.
[0034] When using the device, first check the status of each component to ensure that the mechanical temperature and humidity detection component 2 inside the lower outer shell 1 is securely installed and that the upper outer shell 3 and the lower outer shell 1 are locked in place by the locking assembly, that is, the fixing buckle 13 at the top of the lower outer shell 11 is fully embedded in the locking groove 32 of the upper outer shell 31 to avoid the components from loosening during the detection process and affecting the accuracy of the data. Use the through hole at the bottom of the lower outer shell 11 to allow the air inside the badminton tube to circulate with the air inside the lower outer shell 1 and the lower inner shell 12. After the reading of the mechanical temperature and humidity detection component 2 is stable, the detection data can be observed through the round hole in the middle of the upper outer shell 31 to determine whether the temperature and humidity inside the badminton tube meet the storage requirements.
[0035] When it is necessary to use the device to monitor the ambient temperature and humidity on a flat surface such as a desktop, first rotate the support base 4 at the bottom of the lower outer shell 11 so that the support base 4 rotates out from the lower outer shell 11 until it forms a stable angle with the lower outer shell 11. Since the support base 4 and the lower outer shell 11 are both irregularly shaped and fit together, and rely on friction to keep the position fixed, a stable support can be achieved without additional locking structure.
[0036] The above description is merely a preferred embodiment of the present 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 the present utility model, all of which will fall within the protection scope of the present utility model.
Claims
1. A mechanical badminton shuttlecock tube humidity detection device, characterized in that, It includes a lower outer shell (1), a mechanical temperature and humidity detection component (2) is installed inside the top of the lower outer shell (1), an upper outer shell (3) is provided on the top of the lower outer shell (1), the upper outer shell (3) and the lower outer shell (1) are locked together by a locking component, and a support base (4) is installed at the bottom of the lower outer shell (1).
2. The mechanical badminton shuttlecock tube humidity detection device as described in claim 1, characterized in that, The lower outer shell (1) includes a lower outer shell body (11), a lower inner shell body (12) and a fixing buckle (13). The lower inner shell body (12) is formed in the middle position inside the lower outer shell body (11), and several sets of fixing buckles (13) are formed at equal intervals on the top edge of the lower outer shell body (11).
3. The mechanical badminton shuttlecock tube humidity detection device as described in claim 2, characterized in that, The top of the lower inner shell (12) is provided with several sets of protrusions, and the several sets of protrusions are equally spaced on the top of the lower inner shell (12). The mechanical temperature and humidity detection component (2) is nested inside the lower inner shell (12). The bottom of the lower outer shell (11) is provided with several sets of through holes, and the through holes connect the inside and outside of the lower outer shell (11).
4. The mechanical badminton shuttlecock tube humidity detection device as described in claim 1, characterized in that, The upper outer shell (3) includes an upper outer shell body (31) and a locking groove (32). The upper outer shell body (31) has several sets of locking grooves (32) inside. The locking grooves (32) are positioned to correspond to the positions of the upper outer shell body (31). The locking grooves (32) cooperate with the fixing buckle (13) to form a locking assembly for fixing the upper outer shell body (31).
5. The mechanical badminton shuttlecock tube humidity detection device as described in claim 4, characterized in that, A circular hole is provided in the middle of the upper outer shell (31). The diameter of the circular hole is the same as that of the top of the mechanical temperature and humidity detection component (2). The top of the mechanical temperature and humidity detection component (2) is nested in the circular hole. The mechanical temperature and humidity detection component (2) is restricted by the downward pressure of the upper outer shell (31).
6. The mechanical badminton shuttlecock tube humidity detection device as described in claim 1, characterized in that, The lower outer casing (1) also includes a magnet base (14), and a magnet is disposed inside the magnet base (14).
7. The mechanical badminton shuttlecock tube humidity detection device as described in claim 2, characterized in that, The middle part of the support base (4) is irregularly shaped, and the bottom of the lower outer shell (11) is irregularly shaped to match the support base (4).