A cultural relic storage dense box with micro-environment purification function

By absorbing kinetic energy through a counterweight ball and a buffer airbag system, the impact of the artifacts shaking is offset, and dust is removed using a flip-up plate and airbags. This solves the problems of shaking and ventilation dead spots in the artifact storage box, achieving safe storage and full-area purification of the artifacts.

CN122379971APending Publication Date: 2026-07-14SHANXI ARCHAEOLOGY RESEARCH INSTITUTE (SHANXI ARCHAEOLOGY MUSEUM) +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
SHANXI ARCHAEOLOGY RESEARCH INSTITUTE (SHANXI ARCHAEOLOGY MUSEUM)
Filing Date
2026-06-12
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing artifact storage boxes are prone to causing artifacts to shake and collide when the drawers are pulled out. Dust easily accumulates at the top four corners of the drawers, making ventilation difficult and creating dead corners that affect the safety and lifespan of the artifacts.

Method used

The system employs a counterweight ball and a buffer airbag system. The counterweight ball's swing absorbs kinetic energy and converts it into gravitational potential energy, thus counteracting the impact of shaking. The flipping plate compresses the buffer airbag to generate an air vortex, removing dust and treating it through an air purification device.

Benefits of technology

It effectively prevents cultural relics from shaking and colliding when the drawers are pulled out, ensuring the safety of the relics. At the same time, it removes dust from the top of the drawers, achieves air purification in the entire area, and protects the relics from wear and corrosion.

✦ Generated by Eureka AI based on patent content.

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Abstract

The present application relates to the technical field of cultural relic storage box, especially relates to a cultural relic storage dense box with micro-environment purification function, which comprises at least one dense cabinet body, the top of the dense cabinet body is provided with an air purification device, the bottom of the dense cabinet body is provided with a movable base, and the dense cabinet body is provided with a dust absorption partition box for partitioning the inside of the dense cabinet body in the horizontal direction, and the inside of the dense cabinet body is provided with a bearing plate for partitioning the inside of the dense cabinet body in the vertical direction. According to the present application, the phase lag swing of the counterweight ball is utilized when the drawer and the bearing plate are pulled out, the partial kinetic energy of the drawer movement is absorbed and converted into gravitational potential energy, when the swing is returned, the potential energy is converted into reverse momentum, the positive momentum formed by the external thrust is mutually offset, the forward inertia and the backward impact force of the cultural relics are reduced, and the inclination and the collision of the cultural relics during taking and placing are fundamentally prevented.
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Description

Technical Field

[0001] This invention relates to the field of cultural relic storage boxes, and in particular to a high-density cultural relic storage box with microenvironment purification function. Background Technology

[0002] The high-density intelligent storage box for cultural relics is a system designed specifically for museum warehouses. It uses a track-type dense arrangement structure to compress aisle space to the extreme. Combined with built-in constant temperature and humidity control, UV-resistant lighting, and dust and insect prevention devices, it provides a "tailor-made" micro-protection environment for cultural relics of different materials such as paintings, calligraphy and bronzes. It also relies on Internet of Things technology to realize the full-process digital management of storage, inventory and retrieval. It is a modern cultural relics protection infrastructure that integrates space expansion, environmental stability and intelligent security.

[0003] In practical use, there are still many technical defects that make it difficult to meet the security requirements of high-precision cultural relic storage, as follows:

[0004] Existing artifact storage boxes often use sliding rails to connect drawers and cabinets. During operation, the drawers tend to wobble due to inertia and friction from the rails. Since artifacts (especially fragile items like ceramics, bronzes, or fossils) are usually placed directly on the drawer shelf, this wobbling force is directly transmitted to the artifacts, causing them to tilt, shift, or even collide with the cabinet walls or adjacent items. For heavier artifacts or those with a high center of gravity (such as large pottery or freestanding sculptures), the wobbling is amplified, easily leading to surface abrasion, structural breakage, and other serious damage. Existing equipment lacks a dynamic buffering mechanism to address the momentum of the drawer's movement, failing to effectively suppress the transmission of wobbling. To maintain a stable storage environment, existing storage boxes often include temperature and humidity control and air purification devices. However, the corners between the top of the drawers and the cabinet are often obstructed by the structure, creating ventilation dead zones. Over time, dust accumulates in these areas, and dust, being hygroscopic, absorbs moisture and acidic or alkaline substances from the environment, creating a localized, highly humid, and corrosive microenvironment. When dust comes into direct contact with cultural relics, moisture and acidic or alkaline substances gradually seep into the materials (such as the fibers of paper relics or the surface coating of metal relics), causing mold, corrosion, or acidification, severely affecting the lifespan of the relics. Existing ventilation systems are unable to cover these dead corners and cannot achieve uniform purification throughout the entire area. To maintain a stable storage environment, existing storage boxes are often equipped with temperature and humidity control and air purification devices. However, the corners between the top four corners of the drawers and the cabinet body are easily blocked by the structure, forming ventilation dead corners. After long-term use, dust easily accumulates in these areas. Dust has hygroscopic properties and will absorb moisture and acidic or alkaline substances from the environment, forming a localized high-humidity, high-corrosion microenvironment. When dust comes into direct contact with cultural relics, moisture and acidic or alkaline substances gradually seep into the materials (such as the fibers of paper relics or the surface coating of metal relics), causing mold, corrosion, or acidification, severely affecting the lifespan of the relics. Existing ventilation systems are unable to cover these dead corners and cannot achieve uniform purification throughout the entire area.

[0005] Therefore, how to provide a high-density storage box for cultural relics with microenvironment purification function is a problem that urgently needs to be solved by those skilled in the art. Summary of the Invention

[0006] The purpose of this invention is to provide a dense storage box for cultural relics with microenvironment purification function, so as to solve the problems mentioned in the background art.

[0007] To solve the above-mentioned technical problems, the present invention provides the following technical solution: a high-density storage box for cultural relics with microenvironment purification function, comprising at least one high-density cabinet body, wherein an air purification device is provided on the top of the high-density cabinet body, and a movable base is provided on the bottom of the high-density cabinet body, and further comprising:

[0008] The dust collection partition box is set inside the mobile shelving unit and is used to divide the interior of the mobile shelving unit horizontally.

[0009] Load-bearing plates are installed inside the mobile shelving unit to divide the interior vertically.

[0010] The counterweight ball is rotatably mounted on the underside of the load-bearing plate and can move back and forth synchronously when the load-bearing plate moves back and forth.

[0011] One-way valves are installed at the four corners of the load-bearing plate. The bottom of the one-way valve is connected to a buffer airbag. When the counterweight ball rotates, it can contact and squeeze the buffer airbag.

[0012] Furthermore, a movable handle is provided on the outside of the mobile shelving body, and a control panel is provided on the top of the movable handle on the outside of the mobile shelving body. A drive device is provided on the movable base, and the mobile shelving body can be moved on the top of the movable base by the movable handle or the drive device on the movable base.

[0013] Furthermore, the dust collection partition box is connected to the air purification device on the top of the mobile shelving unit. The dust collection partition box draws in the air inside the mobile shelving unit and delivers it to the air purification device. The drawer body is slidably disposed inside the mobile shelving unit.

[0014] Furthermore, a connecting track is provided on the top of the mobile shelving unit, and multiple mobile shelving units are connected by the connecting track. A temperature and humidity sensor is provided inside the mobile shelving unit.

[0015] Furthermore, the top of the fixed base is connected to the bottom of the load-bearing plate, and the front and back of the fixed base are provided with limiting grooves to accommodate the rotation of the counterweight ball, which can rotate back and forth within the limiting grooves.

[0016] Furthermore, a rotating connecting block is provided on the side of the flipping plate near the rotating frame, and the flipping plate is rotatably connected to the middle of the rotating frame through the rotating connecting block.

[0017] Furthermore, the bottom of the flipping plate is provided with a rotating groove, the positioning shaft is disposed inside the rotating groove, and the driven frame extends into the rotating groove and is rotatably connected to the positioning shaft.

[0018] Furthermore, the buffer airbag is provided with an inlet on the side near the fixed base, the one-way valve tube and the buffer airbag are connected by a jet pipe, and a fixing block is provided on the outside of the jet pipe, with the top of the fixing block fixedly connected to the bottom of the load-bearing plate.

[0019] Furthermore, the drawer body is composed of a pull plate, a load-bearing plate, a fixed base, a rotating ball, a counterweight ball, an extension block, a fixed plate, a rotating frame, a flip plate, a positioning shaft, a spring, and a driven frame;

[0020] The load-bearing plate is slidably connected to the inside of the mobile shelving unit. The load-bearing plate is fixedly connected to the front side of the bottom of the pull plate. The fixed base is fixedly connected to the middle of the left and right sides of the bottom of the load-bearing plate. The rotating ball is rotatably connected to the bottom of the fixed base. The counterweight ball is fixedly connected to the bottom of the rotating ball. The extension block is fixedly connected to the front and rear sides of the counterweight ball. The fixed plate is fixedly connected to the outside of the counterweight ball and is located near the fixed base. The rotating frame is fixedly connected to the front and back of the fixed plate. The flipping plate is rotatably connected to the middle of the rotating frame. The positioning shaft is located in the middle of the bottom of the flipping plate. The spring is fixedly connected to the side of the extension block away from the counterweight ball. The driven frame is fixedly connected to the other end of the spring. The side of the driven frame away from the spring is rotatably connected to the positioning shaft.

[0021] Furthermore, the auxiliary components consist of a buffer airbag, a jet pipe, and a one-way valve pipe;

[0022] The buffer airbag is fixedly connected to the bottom of the load-bearing plate and located on the front and rear sides of the fixed base. The jet pipe is fixedly connected to the side of the buffer airbag away from the fixed base. The one-way valve pipe is fixedly connected to the end of the jet pipe away from the buffer airbag. The one-way valve pipe passes through the four corners of the top of the load-bearing plate and is embedded in the load-bearing plate.

[0023] Furthermore, each of the mobile shelving units can move and fit together, and the fitting joints of the mobile shelving units are all sealed with special anti-aging rubber magnetic sealing strips.

[0024] Furthermore, the front of the mobile shelving unit is equipped with a door and a door lock. An LED light strip is installed on the top of the mobile shelving unit. The interior of the mobile shelving unit is divided into four layers. The main structure consists of load-bearing columns, load-bearing plates, dust collection partition boxes, crossbeams, diagonal braces, door panels, etc. The load-bearing plates are frame bases. The outer edge of the plate is on the same horizontal plane as the outer side of the load-bearing column and the same layer of the plate. The contact surfaces between the load-bearing plates and the inner wall of the mobile shelving unit are equipped with buffer and sealing devices.

[0025] Furthermore, multiple sets of mobile shelving units can be locked together with a master lock after being closed, forming a closed unit, and each column can be individually braked after being moved.

[0026] The beneficial effects of this invention are:

[0027] 1. This invention utilizes the phase lag swing generated by the counterweight ball when the drawer and load-bearing plate are pulled out to absorb part of the kinetic energy of the drawer movement and convert it into gravitational potential energy. When swinging back, this potential energy is converted into reverse momentum, which cancels out the positive momentum formed by the external thrust. This reduces the forward inertia and backward impact force on the cultural relic, and fundamentally prevents the cultural relic from tilting and bumping when it is taken out and put in.

[0028] 2. In this invention, when the cabinet is subjected to an external impact and shakes violently, the swing amplitude of the counterweight ball is amplified, which in turn triggers the unfolding of the flip panel. This not only increases the volume of the counterweight, but more importantly, lowers the center of gravity of the entire drawer unit. Combined with the damping effect of the spring, this enhances the stability of the drawer under extreme conditions and prevents artifacts from having a hard collision with the inner wall of the cabinet.

[0029] 3. This invention addresses the persistent problem of dust accumulation and poor ventilation at the four corners of the top of drawers by intermittently squeezing the buffer airbags with a flip-up plate, which pulses out a large amount of air through a one-way valve tube, forming an upward micro-cyclone in the dead corners. This instantly lifts up the deposited dust particles, which are then captured by the dust collection partition box and filtered by the air purification device, preventing dust from falling into the gaps of the artifacts above and causing wear or contamination.

[0030] 4. In the event of violent shaking, when the flipping plate strikes the ground, it will directly contact and compress the buffer airbag. The airbag not only absorbs the kinetic energy of the flipping plate, preventing it from rigidly impacting the bottom of the load-bearing plate and damaging the structure, but also avoids damage to cultural relics due to violent vibration, thus achieving dual protection for both the equipment and the cultural relics. Attached Figure Description

[0031] The accompanying drawings are provided to further illustrate the invention and form part of the specification. They are used in conjunction with embodiments of the invention to explain the invention and do not constitute a limitation thereof. In the drawings:

[0032] Figure 1 This is a schematic diagram of the overall structure of a dense storage box for cultural relics with microenvironment purification function proposed in this invention;

[0033] Figure 2 This is a schematic diagram of the moving handle of a dense storage box for cultural relics with microenvironment purification function proposed in this invention.

[0034] Figure 3 This is a schematic diagram of the internal structure of a mobile cabinet body for storing cultural relics with microenvironment purification function, as proposed in this invention.

[0035] Figure 4 This is a schematic diagram of the bottom structure of the load-bearing plate of a dense storage box for cultural relics with microenvironment purification function proposed in this invention;

[0036] Figure 5 This is a schematic diagram of the buffer airbag structure of a dense storage box for cultural relics with microenvironment purification function proposed in this invention.

[0037] Figure 6 This is a schematic diagram of the exploded structure at the rotating ball of a dense storage box for cultural relics with microenvironment purification function proposed in this invention.

[0038] Figure 7 This is a schematic diagram of the exploded structure at the flip-up plate of a dense storage box for cultural relics with microenvironment purification function proposed in this invention.

[0039] Figure 8 This is a schematic diagram of the exploded structure at the positioning axis of a dense storage box for cultural relics with microenvironment purification function proposed in this invention.

[0040] Figure 9 for Figure 8 Enlarged structural diagram at point A in the middle.

[0041] In the diagram: 1. Mobile shelving unit; 2. Movable base; 3. Movable handle; 4. Control panel; 5. Connecting track; 6. Air purification device; 7. Drawer body; 701. Pull-out plate; 702. Load-bearing plate; 703. Fixed base; 704. Rotating ball; 705. Counterweight ball; 706. Extension block; 707. Fixed plate; 708. Rotating frame; 709. Flip-up plate; 710. Positioning shaft; 711. Spring; 712. Driven frame; 8. Dust collection partition box; 9. Auxiliary components; 901. Buffer airbag; 902. Jet pipe; 903. One-way valve pipe. Detailed Implementation

[0042] The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic diagrams, illustrating only the basic structure of the invention, and therefore only show the components relevant to the invention.

[0043] The existing artifact storage boxes have at least the following problems when in use:

[0044] First, when the drawer of the layer where the cultural relics are stored is pulled out, the inertia and friction between the drawer and the cabinet will cause the cultural relics on the drawer to sway back and forth. When they sway, the cultural relics on the drawer will tilt. If the swaying amplitude is large, they will collide with the cabinet and be damaged.

[0045] Secondly, although existing artifact storage boxes are equipped with various air handling devices, such as dust collection devices and temperature and humidity control devices, the corners between the top four corners of the inner drawers and the cabinet body are difficult to ventilate effectively. Over time, dust will accumulate at the top four corners of the drawers, and dust has the property of absorbing moisture. When it comes into contact with artifacts, it will directly soak the artifacts with moisture and acidic or alkaline substances.

[0046] Furthermore, although existing storage cabinets have a certain anti-tipping function, when the cabinet is hit from the outside, the inside is difficult to provide targeted auxiliary buffering and clamping to the shape of the surface of the cultural relics or fossils, causing them to move inside the cabinet and collide with the cabinet structure, resulting in damage.

[0047] Example 1: Reference Figure 1-9The present invention provides a technical solution: a high-density storage box for cultural relics with microenvironment purification function, comprising at least one high-density cabinet body 1, an air purification device 6 installed on the top of the high-density cabinet body 1, a movable base 2 installed at the bottom of the high-density cabinet body 1, and further comprising:

[0048] The dust collection partition box 8 is set inside the mobile shelving body 1 and is used to divide the interior of the mobile shelving body 1 into horizontal partitions.

[0049] The load-bearing plate 702 is installed inside the mobile shelving body 1 and is used to divide the interior vertically of the mobile shelving body 1.

[0050] The counterweight ball 705 is rotatably mounted on the underside of the load-bearing plate 702 and can move back and forth synchronously when the load-bearing plate 702 moves back and forth.

[0051] One-way valve tubes 903 are located at the four corners of the load-bearing plate 702. The bottom of the one-way valve tubes 903 is connected to a buffer airbag 901. When the counterweight ball 705 rotates, it can contact and squeeze the buffer airbag 901.

[0052] A movable handle 3 is provided on the outside of the mobile shelving body 1. A control panel 4 is provided on the top of the movable handle 3 on the outside of the mobile shelving body 1. A drive device is provided on the movable base 2. The mobile shelving body 1 can be moved on the top of the movable base 2 by the movable handle 3 or the drive device on the movable base 2.

[0053] The dust collection partition box 8 is connected to the air purification device 6 on the top of the mobile shelving body 1. The dust collection partition box 8 draws in the air inside the mobile shelving body 1 and delivers it to the air purification device 6. The drawer body 7 is slidably installed inside the mobile shelving body 1.

[0054] The top of the mobile shelving unit 1 is equipped with a connecting conveyor belt 5, and multiple mobile shelving units 1 are connected by the connecting conveyor belt 5. Temperature and humidity sensors are installed inside the mobile shelving unit 1.

[0055] Example 2: Reference Figure 4-9 Based on Embodiment 1, the present invention provides a technical solution: the top of the fixed base 703 is connected to the bottom of the load-bearing plate 702, and the front and back of the fixed base 703 are provided with limiting grooves to accommodate the rotation of the counterweight ball 705, and the counterweight ball 705 can rotate back and forth in the limiting grooves.

[0056] A rotating connecting block is provided on the side of the flip plate 709 near the rotating frame 708, and the flip plate 709 is rotatably connected to the middle of the rotating frame 708 through the rotating connecting block.

[0057] The bottom of the flip plate 709 has a rotating groove, and the positioning shaft 710 is located inside the rotating groove. The driven frame 712 extends into the rotating groove and is rotatably connected to the positioning shaft 710.

[0058] The buffer airbag 901 has an inlet on the side near the fixed base 703. The one-way valve pipe 903 and the buffer airbag 901 are connected by a jet pipe 902. A fixing block is provided on the outside of the jet pipe 902. The top of the fixing block is fixedly connected to the bottom of the load-bearing plate 702.

[0059] The drawer body 7 is composed of a pull plate 701, a load-bearing plate 702, a fixed base 703, a rotating ball 704, a counterweight ball 705, an extension block 706, a fixed plate 707, a rotating frame 708, a flip plate 709, a positioning shaft 710, a spring 711, and a driven frame 712.

[0060] The load-bearing plate 702 is slidably connected to the inside of the mobile shelving body 1. The load-bearing plate 702 is fixedly connected to the bottom front side of the pull plate 701. The fixed seat 703 is fixedly connected to the middle of the left and right sides of the bottom of the load-bearing plate 702. The rotating ball 704 is rotatably connected to the bottom of the fixed seat 703. The counterweight ball 705 is fixedly connected to the bottom of the rotating ball 704. The extension block 706 is fixedly connected to the front and rear sides of the counterweight ball 705. The fixed plate 707 is fixedly connected to the outside of the counterweight ball 705 and is located near the fixed seat 703. The rotating frame 708 is fixedly connected to the front and back of the fixed plate 707. The flipping plate 709 is rotatably connected to the middle of the rotating frame 708. The positioning shaft 710 is set in the middle of the bottom of the flipping plate 709. The spring 711 is fixedly connected to the side of the extension block 706 away from the counterweight ball 705. The driven frame 712 is fixedly connected to the other end of the spring 711. The side of the driven frame 712 away from the spring 711 is rotatably connected to the positioning shaft 710.

[0061] Auxiliary component 9 consists of a buffer airbag 901, a jet pipe 902, and a one-way valve pipe 903;

[0062] The buffer airbag 901 is fixedly connected to the bottom of the load-bearing plate 702 and located on the front and rear sides of the fixed base 703. The jet pipe 902 is fixedly connected to the side of the buffer airbag 901 away from the fixed base 703. The one-way valve pipe 903 is fixedly connected to the end of the jet pipe 902 away from the buffer airbag 901. The one-way valve pipe 903 passes through the four corners of the top of the load-bearing plate 702 and is embedded in the load-bearing plate 702.

[0063] Each mobile shelving unit 1 can move and fit together, and the joints of the mobile shelving units 1 are all sealed with special anti-aging rubber magnetic sealing strips.

[0064] The front of the mobile shelving unit 1 is equipped with a door and a door lock. An LED light strip is installed on the top inside the mobile shelving unit 1. The interior of the mobile shelving unit 1 is divided into four layers. The main structure consists of load-bearing columns, load-bearing plates 702, dust collection partition boxes 8, crossbeams, diagonal braces, door panels, etc. The load-bearing plate 702 is a frame base. The outer edge of the placement plate is on the same horizontal plane as the outer side of the load-bearing column and the same layer of the plate. The contact surfaces between the load-bearing plate 702 and the inner wall of the mobile shelving unit 1 are equipped with buffer and sealing devices.

[0065] After the multiple sets of mobile shelving units 1 are closed, they can be locked with a master lock to form a closed whole. Each column can be individually braked after it is moved away.

[0066] Working principle: When storing and retrieving cultural relics on the mobile shelving unit 1, the main lock is controlled to decouple the mobile shelving unit 1 that needs to be moved from other mobile shelving units 1. Then, the drive device or moving handle 3 is used to move the mobile shelving unit 1. At this time, multiple mobile shelving units 1 are separated, and the door lock is controlled to open the mobile shelving unit 1. The load-bearing plate 702 is pulled outward from the lower side of the pull plate 701. Then, the cultural relics or fossils are placed on the top of the load-bearing plate 702, and the pull plate 701 is pushed to move the load-bearing plate 702 into the mobile shelving unit 1. When the rear side of the load-bearing plate 702 contacts the inner wall of the mobile shelving unit 1, the door and door lock are closed again.

[0067] During this process, when the load-bearing plate 702 moves, the artifacts and fossils on its top sway due to inertia and vibration caused by the movement of the load-bearing plate 702 on the main body 1 of the mobile shelving. The counterweight ball 705, which is set under the fixed seat 703 and can swing back and forth, sways relative due to inertia. During this process, the fixed seat 703 absorbs part of the kinetic energy at the bottom of the load-bearing plate 702 and converts it into gravitational potential energy by raising its own center of gravity. When swinging back, the gravitational potential energy is converted into kinetic energy and acts in the opposite direction on the load-bearing plate 702. The reverse momentum generated by the swing is superimposed and canceled by the positive momentum formed by the external thrust. This can cancel and reduce the impact force transmitted from the load-bearing plate 702 to the artifacts on the upper side, avoid large swaying when loading artifacts, and ensure the safety of artifacts during loading.

[0068] When the main body of the mobile shelving unit 1 is impacted, causing significant shaking, the counterweight ball 705 shakes more violently. At the same time, the rotation of the rotating ball 704 within the fixed base 703 increases synchronously, increasing the amplitude of the counterweight ball 705 when it is lifted. This causes the counterweight ball 705 to compress the spring 711 and the driven frame 712, causing the driven frame 712 to rotate on the positioning shaft 710 on the flip plate 709. Simultaneously, this pushes the flip plate 709 to rotate on the rotating frame 708 outside the rotating ball 704, increasing the volume of the counterweight ball 705 when it shakes. This also lowers the center of gravity of the load-bearing plate 702, making the load-bearing plate 702 more stable. This provides protection for the load-bearing plate 702, preventing the large shaking caused by the impact from causing the upper artifacts to come into contact with and impact the inner wall of the mobile shelving unit 1, resulting in damage.

[0069] By setting up a buffer airbag 901, when the counterweight ball 705 shakes significantly, it can come into contact with the buffer airbag 901 and be cushioned by the buffer airbag 901, preventing the large shaking amplitude of the flipping plate 709 from hitting the bottom of the load-bearing plate 702. At the same time, when the flipping plate 709 comes into contact with the buffer airbag 901, it can impact and squeeze the buffer airbag 901, and instantly spray air at the four corners of the top of the load-bearing plate 702. This causes a large amount of air in the buffer airbag 901 to be ejected from the one-way valve pipe 903, and the dust at the four corners of the top of the load-bearing plate 702 is instantly thrown upwards. The dust is then sucked out and treated by the air purification device 6 on the main body of the mobile shelving unit 1, preventing the dust particles inside the load-bearing plate 702 from being shaken up during extreme shaking and falling into the gaps of the artifacts above, causing wear or pollution.

[0070] By using the spring 711 on the outer extension block 706 of the counterweight ball 705, the sensitivity of the counterweight ball 705 when it shakes can be increased according to its characteristics. When the load-bearing plate 702 on which the mobile cabinet body 1 is located is pulled out, the other load-bearing plates 702 can receive vibration and shake. During the shaking, the flip plate 709 on the outer side of the counterweight ball 705 can intermittently contact and squeeze the buffer airbag 901 according to the different forces during the shaking, so that the air in the buffer airbag 901 can be intermittently squeezed and sprayed out through the jet pipe 902 and the one-way valve pipe 903, which plays the role of pulse jet, and disturbs the air at the top four corners of the load-bearing plate 702 upward. This works in conjunction with the air purification device 6 in the mobile cabinet body 1, so that the blown air enters the air purification device 6 through the dust suction partition box 8 for treatment.

[0071] The above description is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in the present invention, based on the technical solution and inventive concept of the present invention, should be covered within the scope of protection of the present invention.

Claims

1. A high-density storage box for cultural relics with microenvironment purification function, comprising at least one high-density cabinet body (1), characterized in that: The top of the mobile shelving unit (1) is equipped with an air purification device (6), and the bottom of the mobile shelving unit (1) is equipped with a movable base (2). It also includes: A dust collection partition box (8) is installed inside the mobile shelving unit (1) to divide the interior of the mobile shelving unit (1) into horizontal sections. The load-bearing plate (702) is set inside the mobile shelving body (1) and is used to divide the interior of the mobile shelving body (1) into vertical sections. The counterweight ball (705) is rotatably mounted on the underside of the load-bearing plate (702) and can move back and forth synchronously when the load-bearing plate (702) moves back and forth. One-way valve tube (903) is set at the four corners of the load-bearing plate (702). The bottom of the one-way valve tube (903) is connected to a buffer airbag (901). When the counterweight ball (705) rotates, it can contact and squeeze the buffer airbag (901).

2. The high-density storage box for cultural relics with microenvironment purification function according to claim 1, characterized in that: A movable handle (3) is provided on the outside of the mobile shelving body (1). A control panel (4) is provided on the top of the movable handle (3) on the outside of the mobile shelving body (1). A driving device is provided on the movable base (2). The mobile shelving body (1) can be moved on the top of the movable base (2) by the movable handle (3) or the driving device on the movable base (2).

3. The high-density storage box for cultural relics with microenvironment purification function according to claim 2, characterized in that: The dust collection partition box (8) is connected to the air purification device (6) on the top of the mobile cabinet body (1). The dust collection partition box (8) draws in the air inside the mobile cabinet body (1) and delivers it to the air purification device (6). The drawer body (7) is slidably disposed inside the mobile cabinet body (1).

4. The high-density storage box for cultural relics with microenvironment purification function according to claim 3, characterized in that: The top of the mobile shelving unit (1) is provided with a connecting track (5), and multiple mobile shelving units (1) are connected by the connecting track (5). A temperature and humidity sensor is provided inside the mobile shelving unit (1).

5. The high-density storage box for cultural relics with microenvironment purification function according to claim 4, characterized in that: The top of the fixed seat (703) is connected to the bottom of the load-bearing plate (702). The fixed seat (703) has limiting grooves on the front and back to accommodate the rotation of the counterweight ball (705). The counterweight ball (705) can rotate back and forth in the limiting groove.

6. The high-density storage box for cultural relics with microenvironment purification function according to claim 5, characterized in that: The flip plate (709) is provided with a rotating connecting block on the side near the rotating frame (708), and the flip plate (709) is rotatably connected to the middle of the rotating frame (708) through the rotating connecting block.

7. A high-density storage box for cultural relics with microenvironment purification function according to claim 6, characterized in that: The bottom of the flip plate (709) is provided with a rotating groove, the positioning shaft (710) is located inside the rotating groove, and the driven frame (712) extends into the rotating groove and is rotatably connected to the positioning shaft (710).

8. A high-density storage box for cultural relics with microenvironment purification function according to claim 7, characterized in that: The buffer airbag (901) has an inlet on the side near the fixed base (703). The one-way valve pipe (903) and the buffer airbag (901) are connected by a jet pipe (902). A fixing block is provided on the outside of the jet pipe (902). The top of the fixing block is fixedly connected to the bottom of the load-bearing plate (702).