Mechanical flip-top storage medium protection case with humidity sensing

By designing a mechanical flip-top storage media protection box with humidity sensing, the compatibility, sealing and protection issues of optical disc storage devices were solved, achieving stable storage and convenient operation of optical discs, and improving data security and storage efficiency.

CN224492083UActive Publication Date: 2026-07-14

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Filing Date
2025-09-11
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing optical disc storage devices suffer from poor size compatibility, inadequate sealing, poor dust and moisture protection, and insufficient shock absorption design, making optical discs prone to damage and data loss.

Method used

A mechanical flip-top storage media protection box with humidity sensing was designed. It adopts a mechanical flip-top structure consisting of a detachable placement box, shock-absorbing block, ventilation holes and mesh, guide rod and drive component. Combined with a humidity sensor and a dryer storage box, it can achieve stable storage and environmental control of optical discs.

Benefits of technology

It achieves flexible storage, shockproof protection, dustproof and moisture-proof properties for optical discs, ensuring data stability and convenient operation, and adapting to the needs of different usage scenarios.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a mechanical flip formula storage medium protection box with humidity response, include: box and lid, the lid is through hinged swing joint in the box top edge, the box is detachably provided with the placing box in, the placing box lower four corners are provided with the clamping groove, and the upper four corners are fixedly connected with the cushioning block through the bolt, the placing box is recessed and is provided with the placing groove, the placing groove is nested with the storage box, the lateral wall of placing box and storage box all are densely provided with the vent hole, and the vent hole is covered and is installed with the breathable net, the inside both sides of lid are provided with the sliding slot along the length direction, the utility model discloses through drive part, screw rod, sliding block and movable rod etc.
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Description

Technical Field

[0001] This utility model relates to the field of CNC lathe technology, specifically a mechanically flip-top storage medium protection box with humidity sensing. Background Technology

[0002] Storage media are physical carriers used to store data, information, or programs. They can record digital, analog, and other signals in physical forms such as magnetism, optics, and electricity, and can be read and written when needed. Like a "container" for information, they support the long-term preservation and transmission of data. Common types include magnetic storage media, optical storage media, electrical storage media, as well as special or emerging types such as holographic storage and nano-storage. Their development trend is higher capacity, faster speed, smaller size, and more stable and durable. They are the basic components that support data storage, transmission, and application in the information age.

[0003] Optical discs are an important component of storage media, but existing optical disc storage systems rely on optical disc storage units, which have many drawbacks. For example, the internal structure of these units is mostly fixed pockets or slots, resulting in poor size adaptability and difficulty in accommodating different sizes of optical discs. This can easily lead to unstable placement or difficulty in removing the discs. The materials used in these units are mostly plastic or paper, which have poor sealing properties and cannot effectively prevent dust and moisture. Over time, the surface of the discs can easily become dusty, damp, and moldy, affecting data reading and even causing damage to the discs. Furthermore, the lack of effective shock-absorbing design means that during carrying or transportation, the discs are prone to collisions and friction with the inner wall of the storage unit or other optical discs, resulting in scratches on the disc surface, damage to the data layer, and ultimately, data loss. Utility Model Content

[0004] The purpose of this invention is to provide a mechanically flip-top storage media protection box with humidity sensing in order to solve the problems mentioned above.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a mechanical flip-top storage media protection box with humidity sensing, comprising: a box body and a box cover, the box cover being movably connected to the top edge of the box body via a hinge, a detachable placement box being provided inside the box body, slots being provided at the four lower corners of the placement box, and shock-absorbing blocks being fixed to the four upper corners by bolts, a placement groove being recessed inside the placement box, a storage box being nested inside the placement groove, ventilation holes being densely provided on the side walls of both the placement box and the storage box, and a ventilation mesh being installed at the ventilation holes, sliding grooves being provided on both sides of the inside of the box cover along the length direction, a lead screw and a guide rod being fixedly installed in the two sets of sliding grooves respectively, one end of the lead screw extending to the outside of the box cover and connected to a driving component, and sliding blocks being threadedly connected and slidably connected to the outside of the lead screw and the guide rod respectively, and a movable rod being movably connected to the bottom of the sliding block via a pin, the end of the movable rod away from the sliding block being movably connected to the top of the box body;

[0006] The lid allows for flexible opening and closing, facilitating easy access to items inside. The detachable storage box allows for easy assembly or replacement according to storage needs. The nested fit between the storage slot and the storage box limits the storage box's movement within the box. Ventilation holes ensure airflow inside the box, preventing damage from moisture, while a ventilation mesh prevents dust and other impurities from entering the storage space. A guide rod guides and stabilizes the sliding block's movement. A drive mechanism rotates a lead screw, moving the sliding block along a sliding groove. The opening angle of the lid can then be adjusted via a movable rod to meet the needs of different usage scenarios.

[0007] As a further embodiment of this utility model: the shock-absorbing block includes a soft rubber block and a spring damping rod. The number of soft rubber blocks is two sets and they are symmetrically distributed vertically. The two ends of the spring damping rod are respectively fixedly connected to the opposite surfaces of the two sets of soft rubber blocks. The shape of the soft rubber block is adapted to the inner wall contour of the slot, and the side of the soft rubber block away from the spring damping rod abuts against the inside of the placement box.

[0008] The matching snap-fit ​​of the soft rubber block and the slot enhances the stability of the connection between the shock absorber and the storage box. The spring damping rod can use its own elasticity to buffer external impacts. Combined with the flexible material of the soft rubber block, it can effectively reduce the vibration impact on the storage box and the items inside, and play a good role in shockproof protection.

[0009] As a further embodiment of this utility model: the storage box has a first rotating plate and a second rotating plate rotatably connected to its two sides via a damping shaft. The side of the first rotating plate away from the rotating shaft is hinged to a CD storage rod. The surface of the second rotating plate is provided with a storage rod limiting groove corresponding to the position of the CD storage rod. The groove width of the storage rod limiting groove is adapted to the diameter of the CD storage rod.

[0010] The first and second rotating plates can be stably stopped at different rotation angles via a damping shaft. The optical disc storage rod is used to insert and place optical discs. The storage rod limiting groove can support and limit the optical disc storage rod, preventing the optical disc storage rod from shaking, thereby achieving orderly storage and protection of optical discs.

[0011] As a further embodiment of this utility model: the rotation angle range of the first rotating plate and the second rotating plate is 0°-90°, and when rotated to 90°, both the first rotating plate and the second rotating plate remain perpendicular to the bottom surface of the storage box;

[0012] The rotation angle range of 0°-90° allows for flexible adjustment of the positions of the first and second rotating plates according to the number of optical discs and storage requirements. When rotated to 90°, the optical disc storage rod is in a vertical position, maximizing the use of the internal space of the storage box and facilitating quick loading and unloading of optical discs.

[0013] As a further embodiment of this utility model: a humidity sensor is fixedly installed inside the box cover near the edge by a bracket, and a control panel is embedded in the top surface of the box cover. The control panel includes a display screen and operation buttons, and the humidity sensor is electrically connected to the control panel by a wire.

[0014] The humidity sensor can monitor the humidity data inside the chamber in real time and transmit the data to the control panel. The display screen on the control panel can intuitively display the humidity information. Users can set relevant parameters through operation buttons to achieve real-time monitoring of the humidity inside the chamber.

[0015] As a further embodiment of this utility model: a dryer storage box is fixedly provided on the inner side wall of the box cover by a buckle, and a storage drawer is slidably connected in the horizontal direction inside the dryer storage box. The storage drawer can hold a desiccant pack or a small dehumidifier, and a sealing strip is provided on the contact surface between the storage drawer and the dryer storage box.

[0016] The combination of the dryer storage box and the storage drawer allows for convenient placement and replacement of desiccant or dehumidification equipment. The sealing strip enhances the seal between the two, preventing moisture from entering through gaps and effectively maintaining a dry environment inside the cabinet.

[0017] As a further embodiment of this utility model: the front of the box is fixedly mounted with a mounting frame by screws, and a transparent viewing window is embedded in the mounting frame. The viewing window is made of acrylic sheet material, and a waterproof gasket is provided between its edge and the mounting frame.

[0018] The transparent viewing window allows users to observe the contents of the box without opening the lid. The acrylic material has good light transmission and wear resistance, and the waterproof gasket prevents external moisture from seeping into the box through the edge of the viewing window.

[0019] As a further improvement of this utility model: support feet are welded to the four corners of the bottom of the box, and anti-slip pads are fixed to the bottom of the support feet by adhesive. The anti-slip pads are made of rubber and have anti-slip texture on the bottom surface.

[0020] The support feet can raise the cabinet, preventing the bottom of the cabinet from directly contacting the ground and getting damp. The rubber anti-slip pads and the anti-slip texture on the bottom increase the friction with the placement surface, effectively preventing the cabinet from sliding during use and improving the stability of the device.

[0021] Compared with the prior art, the beneficial effects of this utility model are:

[0022] The mechanical flip-top structure composed of a drive unit, lead screw, sliding block and movable rod in this utility model can flexibly adjust the opening and closing angle of the lid. With the help of hinges, it can not only achieve stable opening and closing of the lid, but also make it convenient for users to put in and take out items. It is convenient and efficient to operate and adapts to different usage scenarios.

[0023] The first rotating plate, the second rotating plate, the optical disc storage rod, and the storage rod limiting groove inside the storage box work together to flexibly adjust the angle according to the number of optical discs, so as to achieve orderly storage and stable positioning of optical discs, while maximizing the use of internal space, facilitating quick access and improving storage efficiency. Attached Figure Description

[0024] Figure 1 This is a schematic diagram of the overall structure of the mechanically flip-top storage media protection box with humidity sensing described in this utility model;

[0025] Figure 2 This is a schematic diagram of the front of the mechanically flip-top storage media protection box with humidity sensing described in this utility model;

[0026] Figure 3 This is a schematic diagram of the internal structure of the storage medium protection box with humidity sensing described in this utility model;

[0027] Figure 4 This is a schematic diagram of the back of the mechanically flip-top storage medium protection box with humidity sensing described in this utility model;

[0028] Figure 5 This is a schematic diagram of the shock-absorbing block in the mechanically flip-top storage medium protection box with humidity sensing described in this utility model.

[0029] In the diagram: 1. Cabinet; 2. Storage box; 3. Slot; 4. Shock absorber; 41. Soft rubber block; 42. Spring damping rod; 5. Storage slot; 6. Storage box; 7. Ventilation mesh; 8. First rotating plate; 9. Optical disc storage rod; 10. Second rotating plate; 11. Storage rod limiting slot; 12. Cabinet lid; 13. Sliding groove; 14. Lead screw; 15. Sliding block; 16. Movable rod; 17. Humidity sensor; 18. Control panel; 19. Dryer storage box; 20. Storage drawer; 21. Mounting frame; 22. Viewing window; 23. Support leg; 24. Anti-slip pad. Detailed Implementation

[0030] 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.

[0031] In this description of the utility model, the terms "center," "upper," "lower," "left," "right," and "vertical" are used.

[0032] The terms "horizontal," "inner," and "outer," indicating orientation or positional relationships, are based on the accompanying drawings and are used solely for ease of description and simplification. They do not indicate or imply that the device / component must have a specific orientation or structural operation, and therefore do not constitute a limitation. Furthermore, the terms "first," "second," and "third" are descriptive only and do not imply relative importance. It should be noted that, unless otherwise explicitly specified and limited, the terms "installed" and "connected" are not used.

[0033] "Connection" and "setting" should be interpreted broadly, for example: fixed connection, detachable connection or integral connection; mechanical connection or electrical connection; direct connection or indirect connection through an intermediate medium; or internal connection between two components. The specific meaning can be understood by those skilled in the art in combination with the actual situation. The following describes the embodiments of this utility model in conjunction with its overall structure.

[0034] Reference Figures 1 to 5In this embodiment of the present invention, a mechanically flip-top storage media protection box with humidity sensing includes: a box body 1 and a box cover 12. The box cover 12 is movably connected to the top edge of the box body 1 via a hinge. This connection provides structural support for the basic opening and closing of the box cover 12. When it is necessary to adjust the opening angle of the box cover 12, the subsequent drive structure will play a role. A storage box 2 is detachably installed inside the box body 1, which can be easily disassembled or replaced according to storage needs. The four corners of the bottom of the storage box 2 are provided with slots 3, and the four corners of the top are fixed with shock-absorbing blocks 4 by bolts. The storage box 2 is recessed with a storage groove 5, and a storage box 6 is nested inside the storage groove 5. The nesting can limit the storage box 6 and prevent it from shaking freely inside the box body 1. The side walls of the storage box 2 and the storage box 6 are densely provided with ventilation holes, and ventilation mesh 7 is installed at the ventilation holes to keep the ventilation holes clean and dry. The cabinet 1 is designed to allow for air circulation inside, preventing items from being damaged by moisture. The breathable mesh 7 prevents dust and other impurities from entering the storage space through the ventilation holes. Sliding grooves 13 are formed on both sides of the inside of the lid 12 along its length. A lead screw 14 and a guide rod are fixedly installed in each of the two sets of sliding grooves 13. One end of the lead screw 14 extends to the outside of the lid 12 and is connected to a driving component. Sliding blocks 15 are threadedly connected to the outside of the lead screw 14 and the guide rod, respectively, and slidably connected to the outside of the guide rod. The guide rod guides and stabilizes the movement of the sliding blocks 15. A movable rod 16 is movably connected to the bottom of the sliding block 15 via a pin. The end of the movable rod 16 away from the sliding block 15 is movably connected to the top of the cabinet 1. The driving component rotates the lead screw 14, causing the sliding block 15 to move along the sliding grooves 13. The movable rod 16 then adjusts the opening angle of the lid 12 to meet the needs of different usage scenarios.

[0035] The shock absorber 4 includes a soft rubber block 41 and a spring damping rod 42. There are two sets of soft rubber blocks 41, which are symmetrically distributed vertically. The two ends of the spring damping rod 42 are fixedly connected to the opposite sides of the two sets of soft rubber blocks 41. The shape of the soft rubber block 41 is adapted to the inner wall contour of the slot 3, and the side of the soft rubber block 41 away from the spring damping rod 42 abuts against the inside of the placement box 2. The matching and engaging of the soft rubber block 41 and the slot 3 can enhance the stability of the connection between the shock absorber 4 and the placement box 2. When the device is subjected to external impact, the spring damping rod 42 uses its own elasticity to buffer the impact force. Combined with the flexible material of the soft rubber block 41, it can further absorb the vibration energy, effectively reduce the vibration impact on the placement box 2 and the items inside, and play a good shockproof protection role.

[0036] Inside the storage box 6, a first rotating plate 8 and a second rotating plate 10 are rotatably connected to both sides via damping shafts. The side of the first rotating plate 8 away from the rotating shaft is hinged to a disc storage rod 9. The surface of the second rotating plate 10 has a storage rod limiting groove 11 corresponding to the position of the disc storage rod 9. The width of the storage rod limiting groove 11 is adapted to the diameter of the disc storage rod 9. The first rotating plate 8 and the second rotating plate 10 can be stably stopped at different rotation angles via the damping shafts. The disc storage rod 9 is used to insert and place discs. The storage rod limiting groove 11 can support and limit the disc storage rod 9, preventing the disc storage rod 9 from shaking, thereby achieving orderly storage and protection of the discs.

[0037] The rotation angle range of the first rotating plate 8 and the second rotating plate 10 is 0°-90°. When rotated to 90°, both the first rotating plate 8 and the second rotating plate 10 remain perpendicular to the bottom surface of the storage box 6. The rotation angle range of 0°-90° can be flexibly adjusted according to the number of optical discs and storage requirements. When rotated to 90°, the optical disc storage rod 9 is in a vertical state, maximizing the use of the internal space of the storage box 6 and facilitating quick loading and unloading of optical discs.

[0038] A humidity sensor 17 is fixedly installed near the edge of the cabinet 12 by a bracket. A control panel 18 is embedded in the top surface of the cabinet 12. The control panel 18 includes a display screen and operation buttons. The humidity sensor 17 is electrically connected to the control panel 18 by a wire. The humidity sensor 17 can monitor the humidity data inside the cabinet 1 in real time and transmit the data to the control panel 18. The display screen of the control panel 18 can intuitively display the humidity information. Users can set relevant parameters through the operation buttons to realize real-time monitoring of the humidity inside the cabinet 1.

[0039] A desiccant storage box 19 is fixedly installed on the inner wall of the lid 12 by a snap fastener. A storage drawer 20 is slidably connected to the desiccant storage box 19 in the horizontal direction. The storage drawer 20 can hold desiccant packets or a small dehumidifier. A sealing strip is provided on the contact surface between the storage drawer 20 and the desiccant storage box 19. The cooperation between the desiccant storage box 19 and the storage drawer 20 makes it convenient to place and replace desiccant or dehumidifier. When the humidity sensor 17 detects that the humidity inside the box 1 is high, these dehumidifiers can be activated. The sealing strip can enhance the sealing of the connection between the two and prevent moisture from entering from the gaps, thereby effectively maintaining a dry environment inside the box 1.

[0040] The front of the cabinet 1 is fixed with a mounting frame 21 by screws. A transparent viewing window 22 is embedded in the mounting frame 21. The viewing window 22 is made of acrylic sheet, and a waterproof gasket is provided between its edge and the mounting frame 21. The transparent viewing window 22 allows the user to observe the storage of items inside the cabinet 1 without opening the cabinet lid 12. The acrylic sheet material has good light transmission and wear resistance, and the waterproof gasket can prevent external moisture from seeping into the interior of the cabinet 1 through the edge of the viewing window 22.

[0041] Support feet 23 are welded to the four corners of the bottom of the box 1. Anti-slip pads 24 are fixed to the bottom of the support feet 23 by adhesive. The anti-slip pads 24 are made of rubber and have anti-slip texture on the bottom. The support feet 23 can raise the box 1 to prevent the bottom of the box 1 from directly contacting the ground and getting wet. The rubber anti-slip pads 24 and the anti-slip texture on the bottom can increase the friction with the placement surface, effectively preventing the box 1 from sliding during use and improving the stability of the device.

[0042] Furthermore, any content not described in detail in this specification is existing technology known to those skilled in the art.

[0043] The working principle of this utility model is as follows: the driving component drives the lead screw 14 to rotate, causing the sliding block 15 to move along the sliding groove 13. Then, the opening angle of the cover 12 is adjusted by the movable rod 16. After opening the cover 12, the media such as optical discs that need to be stored can be placed into the storage box 6. At this time, the angle of the first rotating plate 8 and the second rotating plate 10 can be adjusted according to the number of optical discs, so that they can rotate within the range of 0°-90°. When the appropriate angle is reached, the optical discs are inserted and placed on the optical disc storage rod 9 on the side of the first rotating plate 8, and the end of the optical disc storage rod 9 away from the first rotating plate 8 is inserted into the second rotating plate. The storage rod limiting groove 11 on the surface of the storage box 10 is used to limit and fix the optical disc. If other items need to be placed, the placement groove 5 in the placement box 2 can be used to place the items and then nest the storage box 6 into the placement groove 5. The four corner slots 3 at the bottom of the placement box 2 are adapted to the soft rubber blocks 41 of the shock-absorbing block 4 to enhance the connection stability. After placement, the reverse operation of the drive component closes the lid 12. During the closing process, the hinge ensures that the lid 12 can rotate flexibly. After the lid 12 is closed, the humidity sensor 17 starts to monitor the humidity data inside the cabinet 1 in real time and transmits the data to the control panel 18 to control the operation. The display screen on panel 18 shows humidity information. Users can set parameters such as humidity warning values ​​via operation buttons. When the humidity sensor 17 detects that the humidity inside the cabinet 1 exceeds the set value, the storage drawer 20 inside the dryer storage box 19 on the inner side wall of the cabinet cover 12 can be opened, and a desiccant pack or a small dehumidifier can be placed inside. The sealing strip ensures the airtight connection between the storage drawer 20 and the dryer storage box 19 to prevent moisture from entering. At the same time, the ventilation holes on the side walls of the placement box 2 and storage box 6 ensure air circulation inside the cabinet 1, and the ventilation mesh 7 blocks dust from entering. Users can view the transparent screen inside the mounting frame 21 on the front of the cabinet 1. The viewing window 22 allows observation of the internal storage conditions without opening the lid 12. The support feet 23 at the bottom of the box 1 raise the box 1 to prevent moisture. The rubber anti-slip pads 24 and the anti-slip texture on the bottom increase the friction with the placement surface to prevent the box 1 from sliding. When it is necessary to take out or put in items, the opening angle of the lid 12 can be adjusted again by the drive component, and the above take-out and put-in operations can be repeated. Throughout the process, the spring damping rod 42 and the soft rubber block 41 of the shock absorber 4 can buffer the external impact force and reduce the vibration of the internal items. All components work together to achieve safe storage and convenient management of the storage medium.

[0044] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A mechanical flip-top storage medium protection case with humidity sensing, characterized in that, include: The box consists of a body (1) and a lid (12). The lid (12) is hinged to the top edge of the body (1). A storage box (2) is detachably installed inside the body (1). The storage box (2) has slots (3) at its four lower corners and shock absorbers (4) at its four upper corners secured by bolts. The storage box (2) has a recessed storage groove (5), and a storage box (6) is nested inside the storage groove (5). Both the storage box (2) and the storage box (6) have densely packed ventilation holes on their side walls, and ventilation mesh is installed over the ventilation holes. 7) The inside of the box cover (12) has sliding grooves (13) on both sides along the length direction. A lead screw (14) and a guide rod are fixedly installed in the two sets of sliding grooves (13). One end of the lead screw (14) extends to the outside of the box cover (12) and is connected to a driving component. The outer sides of the lead screw (14) and the guide rod are respectively threaded and slidably connected to sliding blocks (15). The bottom of the sliding block (15) is movably connected to a movable rod (16) through a pin. The end of the movable rod (16) away from the sliding block (15) is movably connected to the top of the box body (1).

2. The mechanically flip-top storage media protection box with humidity sensing according to claim 1, characterized in that, The damping block (4) includes a soft rubber block (41) and a spring damping rod (42). There are two sets of soft rubber blocks (41) and they are symmetrically distributed vertically. The two ends of the spring damping rod (42) are fixedly connected to the opposite surfaces of the two sets of soft rubber blocks (41). The shape of the soft rubber block (41) is adapted to the inner wall contour of the slot (3), and the side of the soft rubber block (41) away from the spring damping rod (42) abuts against the inside of the placement box (2).

3. The mechanically flip-top storage media protection box with humidity sensing according to claim 1, characterized in that, The storage box (6) has a first rotating plate (8) and a second rotating plate (10) rotatably connected to its two sides via damping shafts. The side of the first rotating plate (8) away from the rotating shaft is hinged to a disc storage rod (9). The surface of the second rotating plate (10) is provided with a storage rod limiting groove (11) corresponding to the position of the disc storage rod (9). The width of the storage rod limiting groove (11) is adapted to the diameter of the disc storage rod (9).

4. The mechanically flip-top storage medium protection box with humidity sensing according to claim 3, characterized in that, The rotation angle range of the first rotating plate (8) and the second rotating plate (10) is 0°-90°, and when the rotation reaches 90°, the first rotating plate (8) and the second rotating plate (10) remain perpendicular to the bottom surface of the storage box (6).

5. The mechanically flip-top storage media protection box with humidity sensing according to claim 1, characterized in that, A humidity sensor (17) is fixedly installed inside the lid (12) near the edge by a bracket. A control panel (18) is embedded in the top surface of the lid (12). The control panel (18) includes a display screen and operation buttons. The humidity sensor (17) is electrically connected to the control panel (18) by a wire.

6. The mechanically flip-top storage media protection box with humidity sensing according to claim 1, characterized in that, The inner wall of the lid (12) is fixed with a dryer storage box (19) by a buckle. A storage drawer (20) is slidably connected in the horizontal direction inside the dryer storage box (19). A desiccant pack or a small dehumidifier can be placed inside the storage drawer (20), and a sealing strip is provided on the contact surface between the storage drawer (20) and the dryer storage box (19).

7. The mechanically flip-top storage media protection box with humidity sensing according to claim 1, characterized in that, The front of the housing (1) is fixed with a mounting frame (21) by screws. A transparent viewing window (22) is embedded in the mounting frame (21). The viewing window (22) is made of acrylic sheet material, and a waterproof gasket is provided between its edge and the mounting frame (21).

8. The mechanically flip-top storage medium protection box with humidity sensing according to claim 2, characterized in that, The box body (1) has four support feet (23) welded to its bottom corners. The bottom of the support feet (23) is fixed with anti-slip pads (24) by adhesive. The anti-slip pads (24) are made of rubber and have anti-slip textures on the bottom surface.