A cypress wood carving material anti-cracking treatment and storage integrated device

By using a multi-layered composite structure for crack prevention and a humidity control module, uniform humidity control of boxwood carving materials is achieved, solving the problems of deformation and cracking caused by uneven humidity, and improving preservation safety and finished product quality.

CN224348007UActive Publication Date: 2026-06-12郑松强

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
郑松强
Filing Date
2025-04-01
Publication Date
2026-06-12

AI Technical Summary

Technical Problem

The existing boxwood carving materials have the risk of uneven moisture distribution during processing and storage, which can lead to deformation or cracking and affect the processing effect.

Method used

The anti-crack treatment chamber adopts a multi-layer composite structure, combined with a humidity control module, a circulating fan, a storage tray, and a sealed door. Through components such as air holes, moisture guide pipes, and moisture-absorbing coatings, uniform humidity regulation and control are achieved.

Benefits of technology

It effectively solves the cracking problem caused by uneven humidity, and improves the preservation safety of boxwood carving materials and the quality of finished products.

✦ Generated by Eureka AI based on patent content.

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Abstract

The embodiment of the present disclosure provides a boxwood carving material anti-cracking treatment and storage integrated device, which comprises: an anti-cracking treatment cavity for accommodating boxwood carving materials and providing a uniform humidity treatment environment, wherein the anti-cracking treatment cavity has an inner wall with a multilayer composite structure, a plurality of uniformly distributed air holes are arranged on the side of the anti-cracking treatment cavity as humidity inlets, and a moisture absorption coating is arranged on the inner surface of the inner wall; a humidity adjusting module is arranged on one side of the anti-cracking treatment cavity and is used for generating or absorbing humidity to adjust the humidity in the anti-cracking treatment cavity and is connected with the anti-cracking treatment cavity through a pipeline; and a storage tray is arranged in the anti-cracking treatment cavity, and the surface of the storage tray is composed of a breathable hole grid structure so that the boxwood is in full contact with the surrounding humidity air. Through the scheme of the embodiment of the present disclosure, more uniform material humidity adjustment can be realized.
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Description

Technical Field

[0001] This application relates to the field of wood processing technology, specifically to an integrated device for anti-cracking treatment and storage of boxwood carving materials. Background Technology

[0002] The integrated anti-cracking treatment and storage device for boxwood carving materials aims to effectively reduce cracking problems in boxwood during processing and storage by integrating anti-cracking treatment and storage functions. This device typically includes core modules such as humidity control, temperature regulation, and physical protection to simulate a suitable natural environment for boxwood storage, thereby protecting the wood's quality. However, this technical solution faces the challenge of achieving more uniform humidity control, primarily due to the potential for uneven humidity distribution within the device. This means that some areas of boxwood may still be susceptible to deformation or cracking caused by humidity fluctuations, affecting the overall treatment effect. Summary of the Invention

[0003] In view of this, the present disclosure provides an integrated device for anti-cracking treatment and storage of boxwood carving materials, which at least partially solves the problems existing in the prior art.

[0004] This application discloses an integrated device for crack prevention treatment and storage of boxwood carving materials, comprising:

[0005] A crack-resistant treatment chamber is used to contain boxwood carving materials and provide a uniform humidity treatment environment. The crack-resistant treatment chamber has a multi-layer composite inner wall, and the side of the crack-resistant treatment chamber is provided with multiple evenly distributed air holes as moisture inlets. The inner surface of the inner wall is provided with a moisture-absorbing coating.

[0006] A humidity control module is located on one side of the crack prevention treatment cavity, used to generate or absorb moisture to regulate the humidity inside the crack prevention treatment cavity, and is connected to the crack prevention treatment cavity through a pipe;

[0007] A storage tray is placed inside the crack-resistant cavity. The surface of the storage tray is made of a perforated grid structure to ensure that the boxwood is in full contact with the surrounding humid air.

[0008] A circulating fan is installed above the inside of the crack prevention treatment chamber to accelerate the circulation of moisture within the crack prevention treatment chamber.

[0009] The sealing door is hinged to the front side of the crack-resistant cavity.

[0010] According to one embodiment, at least one layer of the multilayer composite structure of the inner wall is a breathable layer that allows moisture to pass through, so as to improve the uniformity of moisture penetration.

[0011] According to one embodiment, the crack-resistant treatment cavity is provided with multiple sets of longitudinal partitions to form independent small humidity zones.

[0012] According to one embodiment, the vent is connected to a moisture guide tube. One end of the moisture guide tube is distributed inside the side wall of the crack prevention treatment cavity and guides moisture toward the center. The other end is connected to the humidity adjustment module, thereby optimizing the humidity dispersion effect.

[0013] According to one embodiment, the moisture-absorbing coating comprises humidity-sensing microparticles.

[0014] According to one embodiment, the humidity control module is equipped with a humidity sensor and a controller for monitoring and adjusting the output humidity.

[0015] According to one embodiment, the storage tray is provided with an adjustable height bracket at the bottom for changing the placement position of the storage tray.

[0016] According to one embodiment, an airtight rubber ring is embedded on the inner side of the sealing door edge.

[0017] According to one embodiment, the bottom of the anti-crack treatment cavity is provided with a moisture homogenization box, and the moisture homogenization box is provided with a porous diffuser plate so that the descending moisture can be dispersed evenly and redistributed throughout the cavity.

[0018] This disclosure provides an integrated device for crack prevention treatment and storage of boxwood carving materials, comprising: a crack prevention treatment cavity for containing boxwood carving materials and providing a uniform humidity treatment environment, wherein the crack prevention treatment cavity has a multi-layer composite inner wall, and the side of the crack prevention treatment cavity is provided with multiple evenly distributed air holes as moisture inlets, and the inner surface of the inner wall is provided with a moisture-absorbing coating; a humidity regulating module, disposed on one side of the crack prevention treatment cavity, for generating or absorbing moisture to regulate the humidity inside the crack prevention treatment cavity, and connected to the crack prevention treatment cavity through a pipe; a storage tray, placed inside the crack prevention treatment cavity, the surface of the storage tray being composed of a perforated grid structure to ensure that the boxwood is in complete contact with the surrounding humid air; a circulating fan, installed above the inside of the crack prevention treatment cavity, for accelerating the circulation of moisture inside the crack prevention treatment cavity; and a sealing door, hinged to the front side of the crack prevention treatment cavity. The solution of this disclosure can solve the problem of how to achieve more uniform material humidity regulation. Attached Figure Description

[0019] To more clearly illustrate the technical solutions of the exemplary embodiments of this disclosure, the accompanying drawings used in the embodiments will be briefly described below. It should be understood that the following drawings only show some embodiments of this disclosure and should not be regarded as a limitation of the scope. For those skilled in the art, other related drawings can be obtained based on these drawings without creative effort.

[0020] Figure 1 This is a schematic diagram of the integrated device for anti-cracking treatment and storage of boxwood carving materials according to the present invention;

[0021] Figure 2 This is a perspective view of the humidity control module in the integrated device for anti-cracking treatment and storage of boxwood carving materials described in this utility model;

[0022] Figure 3 This is a perspective view of the storage tray in the integrated device for anti-cracking treatment and storage of boxwood carving materials described in this utility model;

[0023] Figure 4 yes Figure 1 An enlarged view of point A;

[0024] Figure 5 This is a cross-sectional view of the inner wall of the integrated device for anti-cracking treatment and storage of boxwood carving materials described in this utility model;

[0025] Figure 6 This is a perspective view of the moisture homogenization box in the integrated device for anti-cracking treatment and storage of boxwood carving materials described in this utility model.

[0026] In the diagram: 1. Crack-resistant chamber; 2. Humidity control module; 3. Storage tray; 4. Circulating fan; 5. Sealed door; 6. Breathable layer; 7. Longitudinal partition plate; 8. Moisture guide pipe; 9. Humidity-sensing microparticles; 10. Humidity sensor; 13. Controller; 15. Ventilation perforated grid structure; 16. Adjustable height bracket; 18. Airtight rubber ring; 19. Humidity homogenization box; 20. Porous diffuser plate; 11. Inner wall; 12. Air pores; 23. Moisture-absorbing coating Detailed Implementation

[0027] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.

[0028] like Figure 1 As shown, this application discloses an integrated device for crack prevention treatment and storage of boxwood carving materials, comprising: a crack prevention treatment chamber 1, a humidity control module 2, a storage tray 3, a circulating fan 4, and a sealing door 5. These components work together to provide stable crack prevention treatment and efficient storage conditions for the boxwood carving materials.

[0029] The crack-resistant treatment chamber 1 is the core component of this device. Its function is to contain the boxwood carving material and provide it with a uniformly humidified treatment environment. The crack-resistant treatment chamber 1 employs a multi-layered composite inner wall 11 to isolate it from external environmental temperature and humidity interference, maintaining stability within the chamber. Multiple evenly arranged vents 12 are distributed on its sides as moisture inlets, guiding external moisture to be evenly injected into the internal environment, ensuring a more balanced humidity within the chamber. To further improve humidity control, the surface of the inner wall 11 of the crack-resistant treatment chamber 1 is coated with a moisture-absorbing coating 23 (see details). Figure 5 This coating has reversible moisture absorption and release properties, which can absorb excess moisture in high humidity and release a certain amount of moisture in low humidity, thereby further balancing the humidity distribution inside the cavity.

[0030] The humidity control module 2 is used to generate or absorb moisture to precisely regulate the humidity inside the crack-resistant treatment chamber 1. It achieves bidirectional humidity adjustment through integrated humidification and dehumidification components. For example, when the humidity inside the chamber is too low, the ultrasonic atomizer in the humidification component converts liquid water into nano-sized water mist and introduces it into the chamber through a pipe; conversely, when the humidity inside the chamber is too high, the humidity control module 2 uses heat exchange technology for physical adsorption or condensation dehumidification. Simultaneously, this module is connected to the crack-resistant treatment chamber 1 through a dedicated pipe, forming a moisture circulation path.

[0031] Storage tray 3 is an auxiliary structure placed inside the crack-resistant treatment chamber 1. Its design aims to allow the boxwood carving material to be exposed more evenly to a specific humidity environment. Storage tray 3 is typically made of porous or mesh material, allowing moisture to enter the material from below and then come into contact with the circulating airflow at the top of the tray, creating all-around humidity penetration. Depending on specific process requirements, the tray height can be adjusted or partitioned areas can be added to accommodate carving materials of different shapes or volumes.

[0032] A circulating fan 4 is used to accelerate the uniform circulation of moisture within the crack-resistant chamber 1. It is installed in the upper part of the chamber and is stabilized by mechanical fixation on the top wall. Through high-speed rotation, the circulating fan 4 drives the physical airflow along a set direction, ensuring that the moisture is thoroughly mixed and evenly distributed throughout the chamber. This step plays a crucial role in resolving localized humidity differences, ensuring that the boxwood carving material receives consistent humidity conditions regardless of where it is placed.

[0033] The sealing door 5 is located on the front side of the crack-resistant chamber 1 and is hinged for opening and closing. Its presence effectively seals the entire working system, preventing external interference from disrupting the internal humidity level, while also allowing workers to easily access and remove carving materials. To enhance the sealing effect, silicone strips or other high-performance elastic materials can be installed around the sealing door 5, utilizing compression principles to reduce gaps.

[0034] To address the technical challenge of achieving more uniform material humidity control, this application proposes a comprehensive solution. Firstly, the design of the anti-crack treatment chamber 1 itself, combined with details such as the multi-layered composite inner wall 11, side vents 12, and the moisture-absorbing coating 23 on the inner wall 11, optimizes the moisture entry path and distribution. Secondly, intelligent dynamic control is achieved through the humidity control module 2, ensuring that humidity parameters remain within the target range in real time. Then, a circulating fan 4 drives airflow, promoting rapid diffusion and equalization of humidity within the internal space. Furthermore, the storage tray 3 plays a crucial role, facilitating more thorough interaction between the wood and airflow. These measures collectively overcome the uneven moisture content inherent in traditional methods, significantly improving the preservation safety and finished product quality of boxwood carving materials.

[0035] like Figure 5As shown, in one embodiment, the inner wall 11 of the integrated anti-cracking treatment and storage device for boxwood carving materials of this application adopts a multi-layer composite structure design. This multi-layer composite structure includes at least one breathable layer 6 of a special material. This breathable layer 6 has moisture-permeable properties, ensuring that moisture penetrates more evenly to the surface of the boxwood. The breathable layer 6 is located on the side of the inner wall 11 closer to the interior of the cavity, and its function is to regulate the distribution characteristics of moisture entering through the pores 12 within the cavity. This design not only enhances the interaction between moisture and boxwood but also improves the overall environmental control capability of the device. The remaining parts of the inner wall 11 can be combined with other functional layers as needed, without affecting the main function of the breathable layer 6.

[0036] Specifically, during the manufacturing process of the multi-layer composite structure, the breathable layer 6 can be embedded into the inner wall 11 material through bonding, pressing, or other fixing methods. To ensure good compatibility and stability, the breathable layer 6 material can be selected from synthetic fiber fabrics or non-woven fabrics with high strength and suitable moisture permeability. It must also be tightly connected to the surrounding structure to form a complete crack-resistant cavity 1 internal environment. Furthermore, to enhance the moisture balance effect, the breathable layer 6 should be positioned as close as possible to the area of ​​the pores 12 and the plane where the moisture-absorbing coating 23 is located.

[0037] like Figure 1 As shown in one embodiment, the crack-prevention treatment cavity 1 of the integrated anti-cracking treatment and storage device for boxwood carving materials of this application is provided with multiple sets of longitudinal partition plates 7. These partition plates are fixed inside the cavity by welding or snap-fitting and are tightly fitted to the inner wall 11 of the cavity. The partition plates are evenly arranged along the left and right sides of the cavity and extend perpendicular to the bottom and top surfaces, thereby dividing the entire cavity into multiple independent small humidity zones. Each zone can individually receive moisture replenishment or absorption from the humidity adjustment module 2, so that the moisture effect in different areas is more in line with specific requirements. In addition, in order to facilitate uniform moisture distribution, the spacing between adjacent partition plates should be consistent, and the specific distance is determined according to the required coverage area.

[0038] Specifically, by installing concealed wind deflectors between each vertical partition, combined with an overhead circulating fan 4 to accelerate moisture exchange, the relative humidity in each zone can be precisely controlled to the target value. The storage tray 3 is placed in the designated space between the partitions and is designed to slide to optimize the material placement process, further enhancing the precision of humidity control.

[0039] like Figure 1 and Figure 2As shown, in one embodiment, the vent 12 of the integrated anti-cracking treatment and storage device for boxwood carving materials of this application is connected to the moisture guide pipe 8. One end of the moisture guide pipe 8 is distributed inside the side wall of the anti-cracking treatment cavity 1 and guides moisture towards the center of the cavity. The other end is connected to the humidity regulation module 2, forming a complete moisture transmission path to further optimize the dispersion effect of humidity within the cavity. The arrangement of the moisture guide pipe 8 inside the side wall reduces the impact on the internal space of the anti-cracking treatment cavity 1, while ensuring that moisture is more evenly distributed from the side wall of the cavity towards the center.

[0040] Specifically, the moisture guide pipe 8 is processed and installed using flexible materials or pipes with appropriate bending angles, and is fixed in an embedded design within the inner wall structure of the crack-resistant chamber 1, thus not occupying extra external space. For example, during assembly, the moisture guide pipe 8 can be installed along a pre-set guide groove or reserved channel on the inner wall 11 of the chamber, and then connected to the standard interface located at the humidity control module 2. This method not only ensures reliable connection of components, but also ensures that moisture can be effectively guided along a predetermined path, meeting the overall technical requirements of the device. In addition, the design of the moisture guide pipe 8, combined with the multi-layer composite structure of the inner wall 11, can maximize the use of the space advantage of the crack-resistant chamber 1 to achieve the functional goal of uniform humidification.

[0041] like Figure 5 As shown in one embodiment, the moisture-absorbing coating 23 of the integrated anti-cracking treatment and storage device for boxwood carving materials of this application employs an advanced material structure design, which includes special humidity-sensing microparticles 9. These microparticles are uniformly distributed inside the moisture-absorbing coating 23 and interact with moisture in the surrounding environment through their unique microscopic chemical structure. Because the humidity-sensing microparticles 9 have dynamic response performance, they can actively sense changes in ambient humidity within a specific range and adjust the moisture absorption rate, thereby further stabilizing the humidity environment inside the cavity.

[0042] Specifically, this moisture-absorbing coating 23 covers the surface of the inner wall 11 of the crack-resistant cavity 1, directly facing the internal space of the cavity, allowing it to come into efficient contact with moisture. At the same time, humidity-sensing particles 9 are embedded into the coating substrate through a special dispersion process, forming a stable bonding structure to ensure that the coating maintains good functionality during long-term use.

[0043] For example, a polymer can be used as the substrate for the moisture-absorbing coating 23, and polymer particles with humidity-responsive properties can be mixed into the substrate as humidity-sensing microparticles 9. During the manufacturing process, this mixture is sprayed or coated onto the inner wall 11 and then cured to make it tightly bonded into a whole, ultimately forming a moisture-absorbing coating 23 that is sensitive to humidity and has self-regulating properties.

[0044] like Figure 2 As shown, in one embodiment, the humidity control module 2 of the integrated anti-cracking treatment and storage device for boxwood carving materials of this application mainly includes a humidity sensor 10 and a controller 13, used to realize real-time monitoring and precise adjustment of the humidity inside the anti-cracking treatment chamber 1. Specifically, the humidity sensor 10 is arranged inside the anti-cracking treatment chamber 1 or near the moisture flow path, and can quickly sense the current humidity level inside the chamber and transmit a signal to the controller 13. After receiving the data from the humidity sensor 10, the controller 13 analyzes and calculates it, and adjusts the amount of moisture delivered to the anti-cracking treatment chamber 1 by adjusting the working parameters of the humidifier or dehumidifier on the connecting pipe, thereby ensuring that the humidity conditions within the chamber are maintained within the set range. The design of the above module can adapt to the different humidity sensitivity requirements of different types of boxwood carving materials.

[0045] In addition, technically, the humidity control module 2 can be implemented in the following ways: for example, the humidity sensor 10 is fixed in a position adjacent to but not in contact with the inner wall 11 of the crack prevention chamber 1 to avoid direct exposure to moisture condensation that may occur during humidification. At the same time, its signal cable passes through a concealed area on the side of the sealed door 5 to keep the appearance clean. The controller 13 is installed in a separate small chamber on the side of the crack prevention chamber 1, electrically connected to the humidity sensor 10, and controls the operation of the humidifier and dehumidification equipment through a relay to achieve the linkage and coordination of the entire system.

[0046] like Figure 3 As shown, in one embodiment, the storage tray 3 of the integrated anti-cracking treatment and storage device for boxwood carving materials of this application is covered by a perforated grid structure 15. This structure is designed to ensure that moisture is evenly distributed around the boxwood, thereby avoiding dead zones in moisture flow. By adding the perforated grid structure 15 to the storage tray 3, its installation position covers the entire tray surface, ensuring that the boxwood placed on the tray can be in full contact with the moisture provided by the humidity control module 2. The perforated grid structure 15 is composed of a mesh-like array of small holes, which allow moisture to pass through smoothly without obstructing airflow. In addition, the perforated grid structure 15 itself is made of corrosion-resistant and easy-to-clean materials to match the working environment of the entire device.

[0047] Specifically, the vent grille structure 15 can be composed of a set of crisscrossing fine metal strips, with uniform spacing between each strip, and the size of the pores formed between the strips is customized according to the required moisture flow rate. For example, in terms of technical implementation, the vent grille 12 can be directly snapped onto the frame of the storage tray 3, forming a seamless integral structure with the surface of the storage tray 3, while facilitating disassembly, cleaning, and maintenance. This connection method ensures structural stability and the continuity and uniformity of moisture circulation.

[0048] like Figure 3 As shown, in one embodiment, the storage tray 3 of the integrated anti-cracking treatment and storage device for boxwood carving materials of this application has an adjustable height bracket 16. This bracket is designed to provide users with the ability to flexibly adjust the tray height, thereby changing the interaction between the boxwood material and the humid environment within the cavity. Through height adjustment, it can accommodate the storage needs of boxwood materials of different sizes or volumes, while also allowing users to precisely control the time and intensity of the boxwood material's exposure to the humid environment. This structural design enhances the applicability of the device to different usage scenarios and further improves the functional integrity of the device in the humidity treatment and storage stages.

[0049] The adjustable height bracket 16 of the storage tray 3 is a modular structure, secured by installation at appropriate locations inside the crack-resistant cavity 1. Specifically, one end of the bracket is fixed to a guide rail device on the inner wall of the cavity, and the other end is connected to the bottom of the storage tray 3. This combination ensures that the storage tray 3 can move vertically within a set height range. Furthermore, the bracket itself consists of multiple stacked structures and includes a locking mechanism for fixing the storage tray at a preset height. For example, the height adjustment function of the bracket can be achieved technically through a screw lift or other mechanical linkage device, which forms a robust and convenient connection with the storage tray 3, thereby ensuring the stability and reliability of the overall device.

[0050] like Figure 4 As shown, in one embodiment, the sealing door 5 of the integrated device for crack prevention treatment and storage of boxwood carving materials of this application is provided with an airtight rubber ring 18 embedded in its inner edge. This design enhances the sealing performance of the cavity, ensuring that moisture does not leak and further improving the consistency and stability of the humidity environment throughout the crack prevention treatment process. The airtight rubber ring 18 is installed in the edge area of ​​the sealing door 5, tightly fitting the opening end of the crack prevention treatment cavity 1. In the closed state, the airtight rubber ring 18 achieves pressure contact with the cavity surface through elastic deformation, thereby effectively blocking the influence of the external environment. In addition, this structure ensures the airtightness requirements during the crack prevention treatment process while avoiding internal humidity fluctuations caused by frequent opening and closing.

[0051] Specifically, a flexible and corrosion-resistant rubber material is selected as the airtight rubber ring 18, and it is fixed to the edge of the sealing door 5 by bonding or embedding. For example, an annular groove is pre-drilled during the door manufacturing process to ensure that the airtight rubber ring 18 can be firmly embedded and maintain a stable shape and position. At the same time, the connection method of the hinge point needs to consider ease of operation and durability so as to maintain good sealing performance and opening function under long-term use conditions.

[0052] like Figure 6 As shown, in one embodiment, the bottom of the crack-prevention treatment chamber 1 of the integrated anti-cracking treatment and storage device for boxwood carving materials of this application is provided with a new structure to optimize the moisture distribution characteristics. This new structure is called a moisture homogenization box 19, which is installed at the bottom of the crack-prevention treatment chamber 1 and communicates with the entire interior of the chamber. The function of the moisture homogenization box 19 is to first guide the moisture entering the chamber through the air holes 12 into it for preliminary uniform diffusion treatment, so that the moisture is more evenly distributed to other areas of the chamber later. The moisture homogenization box 19 is composed of a shell with good sealing performance, and a porous diffuser plate 20 is arranged inside it as a core component. The porous diffuser plate 20 has regularly arranged micropores, which can restrict the flow path of moisture and guide it to form a uniform distribution effect.

[0053] In practice, for example, the moisture homogenization box 19 is fixed to the bottom of the crack-resistant treatment chamber 1 by welding or bolting, ensuring stable installation while maintaining good sealing to prevent moisture leakage. The porous diffuser plate 20 is directly embedded inside the moisture homogenization box 19 and is fixed to the box body by a clamping mechanism or snap-fit, ensuring structural stability and reliability during actual operation. When moisture is introduced from the vents 12 on the side of the crack-resistant treatment chamber 1, it first enters the moisture homogenization box 19, and after being blocked and redirected by the porous diffuser plate 20, it is transformed into a more uniform state before overflowing from the upper opening of the moisture homogenization box 19 into the entire internal environment of the chamber.

[0054] In actual operation, when using this device, the boxwood carving material can be placed on the storage tray 3 by opening the sealing door 5, and then the sealing door 5 can be closed to ensure the airtightness of the cavity. Next, the humidity regulation module 2 starts working, generating or absorbing moisture, and transmitting it through pipes to the crack-resistant treatment cavity 1 to regulate the humidity environment inside the cavity. The moisture-absorbing coating 23 on the inner wall 11 of the cavity helps balance the moisture and prevents excessive humidity fluctuations. Simultaneously, the circulating fan 4 accelerates the uniform circulation of moisture within the cavity, ensuring consistent humidity distribution on the surface of the boxwood carving material, thus effectively preventing cracking. After the entire crack-resistant treatment is completed, the treated boxwood carving material can be removed by reopening the sealing door 5 and stored in the same cavity to maintain a stable storage environment.

[0055] The above description is the preferred embodiment of this application. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of this invention, and these improvements and modifications should also be considered within the scope of protection of this application.

Claims

1. An integrated device for crack prevention treatment and storage of boxwood carving materials, characterized in that, include: The anti-crack treatment cavity (1) is used to contain boxwood carving materials and provide a uniform humidity treatment environment. The anti-crack treatment cavity (1) has an inner wall (11) with a multi-layer composite structure. The side of the anti-crack treatment cavity (1) is provided with a plurality of evenly distributed air holes (12) as moisture inlets. The inner surface of the inner wall (11) is provided with a moisture-absorbing coating (23). A humidity control module (2) is located on one side of the anti-crack treatment cavity (1) and is used to generate or absorb moisture to regulate the humidity inside the anti-crack treatment cavity (1). It is connected to the anti-crack treatment cavity (1) through a pipe. The storage tray (3) is placed inside the anti-crack treatment cavity (1). The surface of the storage tray (3) is composed of a permeable grid structure (15) to allow the boxwood to be in complete contact with the surrounding humid air. A circulating fan (4) is installed above the inside of the crack prevention treatment chamber (1) to accelerate the circulation of moisture in the crack prevention treatment chamber (1); The sealing door (5) is hinged to the front side of the anti-crack treatment cavity (1).

2. The integrated device for anti-cracking treatment and storage of boxwood carving materials according to claim 1, characterized in that: At least one layer of the multi-layer composite structure of the inner wall (11) is a breathable layer (6) that is permeable to moisture, so as to improve the uniformity of moisture penetration.

3. The integrated device for anti-cracking treatment and storage of boxwood carving materials according to claim 1, characterized in that: The crack-resistant treatment cavity (1) is equipped with multiple sets of longitudinal partition plates (7) to form independent small humidity zones.

4. The integrated device for anti-cracking treatment and storage of boxwood carving materials according to claim 1, characterized in that: The vent (12) is connected to a moisture guide tube (8). One end of the moisture guide tube (8) is distributed inside the side wall of the anti-crack treatment cavity (1) and guides moisture toward the center. The other end is connected to the humidity adjustment module (2) to optimize the humidity dispersion effect.

5. The integrated device for anti-cracking treatment and storage of boxwood carving materials according to claim 1, characterized in that: The moisture-absorbing coating (23) contains humidity-sensing microparticles (9).

6. The integrated device for anti-cracking treatment and storage of boxwood carving materials according to claim 1, characterized in that: The humidity control module (2) is equipped with a humidity sensor (10) and a controller (13) for monitoring and adjusting the output humidity.

7. The integrated device for anti-cracking treatment and storage of boxwood carving materials according to claim 1, characterized in that: The storage tray (3) is provided with an adjustable height bracket (16) at the bottom, which is used to change the placement position of the storage tray (3).

8. The integrated device for anti-cracking treatment and storage of boxwood carving materials according to claim 1, characterized in that: An airtight rubber ring (18) is embedded on the inner side of the edge of the sealing door (5).

9. The integrated device for anti-cracking treatment and storage of boxwood carving materials according to claim 1, characterized in that: The bottom of the anti-crack treatment cavity (1) is provided with a moisture homogenization box (19), and the moisture homogenization box (19) is provided with a porous diffuser plate (20) so that the descending moisture can be dispersed evenly and redistributed to the entire cavity.