Lifesaving equipment storage and management device
By using a partitioned storage management device and an air purification system, the problems of mold growth and inconvenient storage of lifesaving equipment due to dampness have been solved, enabling rapid retrieval and safe storage, ensuring the lifespan of the equipment and unobstructed access.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGDAO HANGRONG AVIATION MAINTENANCE EQUIP CO LTD
- Filing Date
- 2025-07-03
- Publication Date
- 2026-07-03
AI Technical Summary
In the high-intensity combat environment of fighter pilots, life-saving equipment is prone to mold growth due to moisture and improper storage, which affects the lifespan of the equipment and its safety. At the same time, traditional storage devices can obstruct access in emergency situations, affecting rapid action.
The design incorporates a partitioned storage management system, featuring roller shutters and air purifiers. Life-saving equipment is stored in partitions, with the roller shutters sliding back and forth via rails. The air purifiers provide specialized purification for different areas, while LED strips offer soft lighting. Anti-mildew coatings and honeycomb vents ensure even airflow.
It enables rapid positioning and retrieval of equipment, reduces cross-contamination, extends equipment life, ensures unobstructed passage in emergencies, and avoids visual fatigue and mold growth.
Smart Images

Figure CN224440735U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of equipment storage technology, and more specifically, relates to a life-saving equipment storage management device. Background Technology
[0002] In the high-intensity combat environment of fighter pilots, survival equipment is crucial for ensuring their survival and combat readiness in emergencies. The flight suit is the core of this survival equipment, and other gear such as helmets, oxygen masks, and life vests must be compatible to form a complete survival system. During missions, pilots experience extreme physical exertion and increased metabolic heat, leading to profuse sweating. This causes flight suits and boots to become damp. While flight suits use protective materials to protect against high-altitude low temperatures, radiation, and chemical contamination, they also hinder sweat evaporation, resulting in sweat buildup. Flight boots need to be waterproof and slip-resistant, but their sealed structure prevents sweat evaporation, leading to dampness inside the boots after prolonged flights. Furthermore, flight suits use high-performance composite materials, and frequent washing can degrade material performance, affecting protective capabilities. Improper storage can also lead to mold growth on these survival devices, impacting equipment lifespan and operational safety. Additionally, the limited space in fighter pilots' preparation areas means that traditional storage devices can obstruct access in emergencies, hindering rapid action. Utility Model Content
[0003] In view of this, the present invention provides a life-saving equipment storage and management device, which can solve the problem that improper storage of existing life-saving equipment can easily lead to mold growth and odor.
[0004] This utility model is implemented as follows:
[0005] This utility model provides a lifesaving equipment storage and management device, including two symmetrically arranged cuboid storage units. A longitudinal partition is fixedly connected to the axis of symmetry inside the storage unit. Multiple transverse partitions are fixed between the side walls of the longitudinal partitions and the side walls of the storage units. A partition plate is provided below the lowest transverse partition. The partition plate is fixedly connected to the longitudinal partition and the inner wall of the storage unit. A hanging area is formed between the longitudinal partition and the storage unit. A stacking area is formed between the transverse partition, the storage unit, and the longitudinal partition. A shoe storage area is formed between the partition plate, the storage unit, and the longitudinal partition. A roller shutter door is slidably connected to the storage unit via a slide rail. The roller shutter door is used to cover the various partitions inside the storage unit. An air purifier is installed inside the storage unit to purify the air inside the storage unit.
[0006] Based on the above technical solution, the lifesaving equipment storage and management device of this utility model can be further improved as follows:
[0007] The roller shutter door includes a first curtain, a second curtain, and a third curtain. The first curtain covers the front of the hanging area, the second curtain covers the front of the stacking area, and the third curtain covers the front of the shoe storage area. The first, second, and third curtains are all slidably connected by sliding rails on both sides, and each is equipped with a roller shutter shaft for rewinding.
[0008] The advantages of adopting the above-mentioned improvement scheme are as follows: pilots only need to open the curtain of the corresponding area, without having to open the entire storage device, reducing unnecessary exposure and improving retrieval speed. Equipment in different areas may be cross-contaminated due to sweat, dust, or chemical residues; independent opening and closing of zones reduces the spread of contamination. The curtain slides via a rail and rolls into a roller, completely retracting into the storage device without occupying external space or obstructing passage. The absence of outward-folding door panels prevents accidental injury or equipment damage to the pilot due to door panel collisions in confined spaces.
[0009] Furthermore, LED strips are fixed on both sides of the hanging area, stacking area, and shoe storage area. The light source of the LED strip faces the inside of the storage device, and the angle of inward tilt of the light source is 45°.
[0010] The advantages of adopting the above-mentioned improvement scheme are as follows: the light source is oriented inward and tilted at 45°, which avoids glare from direct light, while uniformly illuminating the equipment in the storage area, reducing shadow areas, and improving the pilot's identification speed in low-light environments. Compared with direct light, the tilted light source is softer and will not irritate the eyes during prolonged use, making it suitable for pilots to quickly retrieve equipment in emergency situations.
[0011] Furthermore, there are two air purifiers: one fixed above the hanging area and the other fixed on the top surface of the shoe storage area. The air purifier fixed inside the hanging area is connected to the interior of the storage unit through hollow vertical and horizontal partitions. Both the vertical and horizontal partitions are equipped with air outlets to evenly diffuse the purified air to different compartments of the storage unit. The air purifier fixed on the top surface of the shoe storage area is used to purify the air in the shoe storage area separately.
[0012] The benefits of adopting the above-mentioned improvement scheme are as follows: it specifically purifies flight boots or rescue boots, reduces moisture and odor in the shoe area, and avoids contamination of other equipment. The air outlets on the longitudinal and transverse partitions ensure that purified air is evenly distributed to different compartments of the storage unit, avoiding insufficient localized purification.
[0013] Furthermore, the light source surface of the light strip is provided with a microlens array, and the focal length f of each microlens satisfies f=R / 2, where R is the distance from the light strip to the memory backplane. Through optical focusing, the illuminance uniformity is made ≥85%.
[0014] The beneficial effects of adopting the above-mentioned improvement scheme are: by focusing light onto the memory backplane through a microlens array, the illumination of each area is ensured to be uniform, avoiding local over-brightness or under-brightness.
[0015] By using a microlens array to diffuse light softly, glare from direct light is avoided, reducing visual fatigue for pilots in low-light environments.
[0016] Furthermore, the air purifier's vent has a honeycomb structure, with each honeycomb cell measuring 10mm × 10mm, and the Reynolds number Re at the vent outlet is ≤ 2000.
[0017] The beneficial effects of adopting the above-mentioned improvement scheme are: Reynolds number Re≤2000, and the airflow remains in a laminar state.
[0018] Furthermore, the inner wall of the memory is coated with a nanoscale anti-mildew coating with a thickness of 5μm.
[0019] The beneficial effects of adopting the above-mentioned improvement scheme are as follows: it can inhibit microbial attachment by generating Brownian motion principle, reducing the mold growth rate to 10% of the original value. Nanoparticles (such as SiO2, TiO2) form irregular surfaces in the coating, making it difficult for microorganisms to attach stably. Similar to "random vibration", it prevents microorganisms from settling, resulting in uneven van der Waals forces when microorganisms attach, making it difficult for them to form a stable biofilm.
[0020] Furthermore, the partition is an isosceles trapezoidal structure with a ratio of 1:1.2 between the lower base and the upper base, and an angle of 15° between the hypotenuse and the horizontal plane.
[0021] The beneficial effects of adopting the above-mentioned improvement scheme are: the inclined surface design makes the airflow velocity in the shoe storage area uniformly distributed, with a velocity difference ≤0.1m / s.
[0022] Furthermore, an indicator is installed on the top of the storage device, with built-in color-changing LED lights to display the user's name and the device's serial number.
[0023] Furthermore, the bottom of the roller shutter door is provided with an isosceles trapezoidal groove, inside which are provided multiple evenly distributed protrusions, and the edges of the isosceles trapezoid are rounded arc structures.
[0024] The beneficial effects of adopting the above-mentioned improvement scheme are: the rounded arc edges avoid sharp corners, reduce the risk of personnel being injured by collisions in emergency situations, and comply with the safety design principles of life-saving equipment.
[0025] Compared with the prior art, the beneficial effects of the lifesaving equipment storage and management device provided by this utility model are:
[0026] 1. Compared with traditional outward-opening doors, roller shutters completely avoid the door opening outward and occupying passage space by sliding up and down, making them especially suitable for small preparation rooms and ensuring unobstructed passage in emergencies.
[0027] 2. The roller shutter door has good sealing performance, which can reduce the entry of external dust and moisture into the storage device and extend the service life of the equipment.
[0028] 3. Zoned storage allows pilots to quickly locate the equipment they need, reducing search time, which is especially crucial in emergencies. Different areas can store different types of equipment separately, avoiding cross-contamination.
[0029] 4. Pilots sweat profusely after high-intensity flights, and their flight suits are prone to odors and bacteria. Air purifiers continuously circulate and purify the air within their storage compartments, reducing odors and germ growth. Attached Figure Description
[0030] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the description of the embodiments of this utility model 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.
[0031] Figure 1 A front view of a life-saving equipment storage and management device;
[0032] Figure 2 A schematic diagram of the internal structure of the memory in a life-saving equipment storage management device;
[0033] Figure 3 A partial cross-sectional view of the internal structure of the memory in a life-saving equipment storage management device;
[0034] The attached diagram lists the components represented by each number as follows:
[0035] 10. Storage unit; 11. Vertical partition; 12. Horizontal partition; 13. Divider; 20. Hanging area; 30. Stacking area; 40. Shoe storage area; 50. Roller shutter; 51. First curtain; 52. Second curtain; 53. Third curtain; 60. Air purifier; 70. LED strip; 80. Signage. Detailed Implementation
[0036] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings.
[0037] like Figure 1-3The diagram shows an embodiment of the lifesaving equipment storage and management device provided by this utility model. In this embodiment, it includes two symmetrically arranged cuboid storage units 10. A longitudinal partition 11 is fixedly connected to the axis of symmetry inside the storage unit 10. Multiple transverse partitions 12 are fixed between the sidewall of the longitudinal partition 11 and the sidewall of the storage unit 10. A partition 13 is provided below the lowest transverse partition 12. The partition 13 is fixedly connected to the longitudinal partition 11 and the inner wall of the storage unit 10. A hanging area 20 is formed between the longitudinal partition 11 and the storage unit 10. A stacking area 30 is formed between the transverse partitions 12, the storage unit 10, and the longitudinal partition 11. A shoe storage area 40 is formed between the partition 13, the storage unit 10, and the longitudinal partition 11. A roller shutter door 50 is slidably connected to the storage unit 10 via a slide rail. The roller shutter door 50 is used to cover the various partitions inside the storage unit 10. An air purifier 60 is provided inside the storage unit 10 to purify the air inside the storage unit 10.
[0038] The roller shutter door can be made of lightweight composite materials to reduce overall weight and meet the portability requirements of military equipment. The roller and air purifier 60 are concealed by the frame of the memory 10 and the partition 13.
[0039] In the above technical solution, the roller shutter door 50 includes a first curtain 51, a second curtain 52 and a third curtain 53. The first curtain 51 covers the front of the hanging area 20, the second curtain 52 covers the front of the stacking area 30, and the third curtain 53 covers the front of the shoe storage area 40. The first curtain 51, the second curtain 52 and the third curtain 53 are all slidably connected by slide rails on both sides, and each is provided with a roller shutter shaft for rewinding.
[0040] Furthermore, in the above technical solution, light strips 70 are fixed on both sides of the hanging area 20, the stacking area 30 and the shoe storage area 40. The light source surface of the light strip 70 faces the inside of the memory 10, and the included angle of the light source surface tilting inward is 45°.
[0041] LED strip 70 is a self-sensing LED strip with a built-in infrared sensor.
[0042] Furthermore, in the above technical solution, there are two air purifiers 60, one fixed above the hanging area 20 and the other fixed on the top surface of the shoe storage area 40. The air purifier 60 fixed inside the hanging area 20 is connected to the interior of the storage unit 10 through a hollow longitudinal partition 11 and a transverse partition 12. Both the longitudinal partition 11 and the transverse partition 12 are provided with air outlets to evenly diffuse the purified air to different compartments of the storage unit 10. The air purifier 60 fixed on the top surface of the shoe storage area 40 is used to purify the air in the shoe storage area 40 separately.
[0043] Furthermore, in the above technical solution, the light source surface of the light strip 70 is provided with a microlens array, and the focal length f of each microlens satisfies f=R / 2, where R is the distance from the light strip 70 to the back plate of the memory 10, and the illuminance uniformity is ≥85% through optical focusing.
[0044] Furthermore, in the above technical solution, the air vent of the air purifier 60 has a honeycomb structure, with a unit honeycomb cell size of 10mm×10mm and a Reynolds number Re≤2000 at the air vent outlet.
[0045] Furthermore, in the above technical solution, the inner wall of the memory 10 is coated with a nano-level anti-mildew coating with a thickness of 5μm.
[0046] Furthermore, in the above technical solution, the partition plate 13 is an isosceles trapezoidal structure with a ratio of the lower base to the upper base of 1:1.2 and an angle of 15° between the hypotenuse and the horizontal plane.
[0047] Furthermore, in the above technical solution, an indicator 80 is provided on the top of the memory 10. The indicator 80 has built-in color-changing LED tubes for displaying the user's name and the number of the management device.
[0048] Furthermore, in the above technical solution, the bottom of the roller shutter door 50 is provided with an isosceles trapezoidal groove, and the inside of the groove is provided with multiple uniform protrusions, and the edge of the isosceles trapezoid is a rounded arc structure.
[0049] Example 1
[0050] Manual roller shutters can be replaced with electric roller shutters, which can be opened via buttons or remote control, further enhancing convenience.
[0051] The sign 80 is connected to an external control system. It uses a touchscreen with a built-in Raspberry Pi, serving both as a display and input tool. The sign 80 displays internally stored air quality data and the control interface. Users can select operations via the sign 80's touchscreen interface, such as turning on all air purifiers with one button or turning on a single purifier, or controlling the electric roller shutter door with one button.
[0052] The control host, electrically connected to the display panel 80, receives commands from the indicator panel. The sensor monitors air quality in real time, and the data is transmitted back to the display panel via the control host. The control host issues commands to the corresponding structures to execute relevant operations. The control host can be an STM32 microcontroller.
[0053] After completing their mission, fighter pilots return to base and need to quickly change into their flight suits and prepare for the next mission. Upon disembarking, their sweat-soaked flight suits and boots need to be stored. They locate their storage unit using the display panel and store their life-saving equipment.
[0054] First, open the roller shutter door upwards. The indicator light on the side will illuminate automatically as it opens. Hang the flight suit on the hooks in the hanging area, ensuring the garment hangs naturally to avoid wrinkles. Place the boots in the shoe storage area, and stack other equipment (such as the helmet) on the designated shelves in the stacking area. Close the roller shutter door; the air purifier will automatically activate to ventilate and dry the damp flight suit and boots.
[0055] When a pilot needs to quickly access equipment: Open the first curtain in the suspension area to retrieve the flight suit. Open the third curtain in the shoe storage area to retrieve the boots. Open the second curtain in the stacking area to put on the helmet, gloves, and other life-saving equipment. Pulling the curtains upwards requires minimal space and does not obstruct the passage of other personnel behind the pilot.
[0056] Specifically, the principle of this utility model is as follows:
[0057] This life-saving equipment storage and management system is specifically designed for fighter pilots, solving problems related to flight suit storage, ventilation, mold prevention, and space utilization. It employs inward-rolling shutters, avoiding the need for outward-opening doors that obstruct passageway space, making it suitable for confined preparation room environments. Each shutter is independently controlled, allowing for individual opening and closing for quick access to equipment in specific areas. Air purifiers are responsible for purifying the air in the hanging area and shoe storage area, distributing air evenly through honeycomb vents to prevent flight suits and boots from becoming damp and moldy. The air purifier ducts weave through the partitions, ensuring that purified air covers all zones.
[0058] The above description is merely a specific embodiment of this utility model, but the protection scope of this utility model is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope disclosed in this utility model should be included within the protection scope of this utility model. Therefore, the protection scope of this utility model should be determined by the scope of the claims.
Claims
1. A lifesaving equipment storage and management device, comprising two symmetrically arranged cuboid storage units, a longitudinal partition fixedly connected at the axis of symmetry inside the storage units, multiple transverse partitions fixed between the sidewalls of the longitudinal partitions and the sidewalls of the storage units, a dividing plate disposed below the lowest transverse partition, the dividing plate being fixedly connected to the longitudinal partitions and the inner wall of the storage units, a hanging area forming between the longitudinal partitions and the storage units, a stacking area forming between the transverse partitions and the storage units and the longitudinal partitions, and a shoe storage area forming between the dividing plate and the storage units and the longitudinal partitions, characterized in that... A roller shutter door is slidably connected to the memory via a slide rail. The roller shutter door is used to shield the various partitions inside the memory. An air purifier is installed inside the memory to purify the air inside the memory.
2. The survival equipment storage management device of claim 1, wherein, The roller shutter door includes a first curtain, a second curtain, and a third curtain. The first curtain covers the front of the hanging area, the second curtain covers the front of the stacking area, and the third curtain covers the front of the shoe storage area. The first, second, and third curtains are all slidably connected by sliding rails on both sides, and each is equipped with a roller shutter shaft at the top for retraction.
3. The survival equipment storage management apparatus of claim 2, wherein, LED strips are fixed on both sides of the hanging area, stacking area, and shoe storage area. The light source of the LED strip faces the inside of the storage device, and the angle of inward tilt of the light source is 45°.
4. The lifesaving equipment storage and management device according to claim 3, characterized in that, There are two air purifiers, one fixed above the hanging area and the other fixed on the top surface of the shoe storage area. The air purifier fixed inside the hanging area is connected to the interior of the storage unit through hollow vertical and horizontal partitions. Air outlets are provided on both the vertical and horizontal partitions to evenly diffuse the purified air to different compartments of the storage unit. The air purifier fixed on the top surface of the shoe storage area is used to purify the air in the shoe storage area separately.
5. The survival equipment storage management apparatus of claim 4, wherein, The light source surface of the light strip is equipped with a microlens array, and the focal length f of each microlens satisfies f=R / 2, where R is the distance from the light strip to the memory backplane. The illuminance uniformity is ≥85% through optical focusing.
6. The survival equipment storage management apparatus of claim 5, wherein, The air purifier's air outlet has a honeycomb structure, with each honeycomb cell measuring 10mm × 10mm, and the Reynolds number Re at the air outlet is ≤ 2000.
7. The survival equipment storage management apparatus of claim 6, wherein, The inner wall of the memory is coated with a nano-scale anti-mildew coating with a thickness of 5μm.
8. The survival equipment storage management apparatus of claim 7, wherein, The partition is an isosceles trapezoid with a bottom-to-top ratio of 1:1.2 and a hypotenuse at an angle of 15° to the horizontal plane.
9. The survival equipment storage management apparatus of claim 8, wherein, A sign is installed on the top of the storage device, which has built-in color-changing LED lights to display the user's name and the device's serial number.
10. The survival equipment storage management apparatus of claim 9, wherein, The bottom of the roller shutter door is provided with an isosceles trapezoidal groove, and the inside of the groove is provided with multiple evenly distributed protrusions. The edges of the isosceles trapezoid are rounded arc structures.