A kind of immortal flower adsorption treatment rack
By using a dynamic rotation system driven by the Geneva mechanism and a spotlight temperature controller in conjunction with a light-transmitting refractive placement tray, the problems of poor coordination between temperature and humidity control and adsorption treatment and insufficient flower material adaptability in preserved flower storage equipment have been solved. This has enabled efficient preservation and display, while simplifying the maintenance process and extending the service life of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG BRUNO CRAFTS CO LTD
- Filing Date
- 2025-08-05
- Publication Date
- 2026-06-05
AI Technical Summary
Existing preserved flower storage equipment suffers from poor coordination between temperature and humidity control and adsorption treatment, insufficient adaptability to flower materials, and inconvenient maintenance.
It employs an intermittent rotation system driven by a Geneva mechanism, combined with a spotlight temperature controller and a light-transmitting refractive placement plate to achieve dynamic temperature control and adsorption treatment. It is equipped with adjustable hanging components and a layered placement structure, and features mechanical and electrical access doors for easy maintenance.
It achieves integrated dynamic adsorption and stable temperature control of preserved flowers, adapts to different sizes of flowers, extends the preservation period, enhances the display effect, simplifies the maintenance process, and extends the service life of the equipment.
Smart Images

Figure CN224324344U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of adsorption treatment and placement technology, and in particular to a preserved flower adsorption treatment and placement rack. Background Technology
[0002] Preserved flowers, as dried flower products processed through dehydration, decolorization, and dyeing, have been widely used in gifts, home decoration, and commercial displays due to their characteristics of "long-lasting freshness" and "beautiful appearance." With the upgrading of consumption and the improvement of aesthetic demands, the global market size of preserved flowers continues to expand. Consumers have put forward higher requirements for the preservation time, shape stability, and display effect of preserved flowers. At the same time, the sensitivity of preserved flowers to environmental temperature and humidity and odor control during production and storage has driven the research and development demand for specialized storage and processing equipment. Related equipment is gradually upgrading from simple "storage function" to integrated "maintenance + display".
[0003] The core characteristic of preserved flowers is that they remove moisture from the flowers through processing while retaining their shape. However, they are still susceptible to environmental influences during storage: Temperature and humidity sensitivity: High temperatures can cause petals to fade and become brittle; high humidity may cause mold growth, while low humidity can cause petals to crack. Residual substances: Chemical reagents (such as preservatives) and odors left over from the production process, if not effectively removed, will accelerate the deterioration of the flowers and affect the viewing experience. Shape protection requirements: Flower branches are fragile and petals are easily damaged. They need to be protected from squeezing, collisions, or localized deformation caused by long-term static placement. Therefore, specialized storage equipment must simultaneously meet four core requirements: "temperature and humidity control", "residual substance adsorption", "shape protection", and "display function".
[0004] Shortcomings of existing technology:
[0005] 1) Limited functionality and poor coordination: Traditional racks often only have storage functions or integrate a single temperature control / adsorption module, failing to achieve coordination of "temperature control - adsorption - dynamic processing". For example, although some devices have built-in activated carbon, static placement leads to uneven adsorption; some temperature control devices cannot be linked with adsorption materials, making it difficult to maintain a stable microenvironment.
[0006] 2) Insufficient adaptability and maintainability: The existing equipment has a fixed placement structure, which cannot be adapted to preserved flowers of different sizes (such as large bouquets and small flowers), which can easily lead to compression and deformation; and there is a lack of targeted maintenance design, mechanical parts are prone to dust accumulation, electrical components are cumbersome to replace, and stability decreases after long-term use. Utility Model Content
[0007] The purpose of this invention is to solve the problems of poor coordination between temperature and humidity control and adsorption treatment, insufficient flower material adaptability, and inconvenient maintenance in the existing technology of preserved flower storage, and to propose a preserved flower adsorption treatment rack.
[0008] To achieve the above objectives, the present invention adopts the following technical solution: a preserved flower adsorption treatment rack, comprising: a placement cabinet, wherein a partition is fixedly connected to the inside of the placement cabinet by screws, a motor mounting part is fixedly installed at the bottom of the partition, an active dial is fixedly connected to the output end of the motor, a toggle rod is fixedly connected to the top of the active dial, a Geneva wheel is drivenly connected to the outer wall of the toggle rod, a rotating shaft is rotatably connected to the inner wall of the Geneva wheel, and the bottom of the rotating shaft is fixedly installed to the top of the partition by screws.
[0009] Preferably, a connector is fixedly installed on the top of the Geneva wheel with screws, a mounting plate is fixedly installed on the top of a set of connectors, a set of connecting components is fixedly installed on the bottom of the mounting plate, and a spotlight temperature controller is fixedly installed on the top of each connecting component.
[0010] Preferably, a refractive placement disk is fixedly installed on the top of the rotating shaft column. The refractive placement disk is made of a light-transmitting material and can hold adsorbent materials such as activated carbon.
[0011] Preferably, the internal screws of the placement cabinet are drilled through a set of mounting plates, and each mounting plate has a second sliding groove on its top.
[0012] Preferably, each of the second sliding grooves has a hanging component slidably disposed inside, and each hanging component can be inserted into different second sliding grooves to adjust its height, and a set of placement plates is fixedly installed on the opposite side of each hanging component.
[0013] Preferably, each of the placement plates has a set of placement holes, and the interior of the placement cabinet has a set of first sliding grooves.
[0014] Preferably, a dust baffle is movably inserted inside a set of the first sliding grooves, and a rotating slot is provided through the top of the dust baffle for placing a refraction placement disk.
[0015] Preferably, a mechanical inspection door is fixedly installed on the outer wall of the dust baffle, which facilitates the inspection and maintenance of the mechanical structure.
[0016] Preferably, the outer wall of the cabinet is hinged to an electrical maintenance door, which is used for maintaining the motor.
[0017] Preferably, the outer wall of the placement cabinet is hinged to a placement door for placing preserved flowers. Each placement cabinet is screwed to the top of the opposite side and a set of art spotlights are fixedly installed. Each art spotlight is used to illuminate the preserved flowers placed inside the placement holes.
[0018] Compared with the prior art, the advantages and positive effects of this utility model are as follows:
[0019] 1. This utility model integrates dynamic processing and precise control functions, significantly improving the preservation effect of preserved flowers. Through an intermittent rotation system driven by a Geneva mechanism, the spotlight temperature controller and the refraction placement plate work together: the spotlight temperature controller rotates with the installation plate to achieve dynamic monitoring and adjustment of the temperature inside the cabinet, maintaining a stable storage environment; the light-transmitting refraction placement plate, combined with adsorption materials such as activated carbon, enhances adsorption activity through light excitation during rotation, uniformly removing moisture and odors. This dynamic processing mechanism solves the problems of uneven temperature and humidity and low adsorption efficiency in traditional static placement, effectively extending the preservation period of preserved flowers, while also taking into account the display function of artistic spotlights, realizing the integration of "maintenance + display".
[0020] 2. In this utility model, the structural design is flexible, adaptable, and easy to maintain, improving the practicality and durability of the equipment. The adjustable hanging components and placement plate height can accommodate preserved flowers of different sizes, avoiding compression and deformation. The placement holes are designed to fix the flower branches, ensuring the stability of the flowers during equipment operation. In addition, the separate design of the mechanical maintenance door and the electrical maintenance door, along with the dustproof structure of the dust baffle, facilitates targeted maintenance of transmission components and electrical components, reduces dust damage to the equipment, lowers maintenance costs, extends the service life of the equipment, and enhances the practicality and reliability of the overall structure. Attached Figure Description
[0021] Figure 1 This utility model provides a front perspective view of a preserved flower adsorption treatment and placement rack;
[0022] Figure 2 A front-view split plan view of a preserved flower adsorption treatment and placement rack is provided for this utility model;
[0023] Figure 3 This utility model provides a three-dimensional cross-sectional view of a preserved flower adsorption treatment rack.
[0024] Figure 4 A three-dimensional mechanical structure of a preserved flower adsorption and treatment rack is presented in this utility model.
[0025] Figure 5 This utility model provides a perspective view of the placement plate of a preserved flower adsorption treatment rack.
[0026] Legend:
[0027] 1. Storage cabinet; 11. Electrical maintenance door; 12. Mechanical maintenance door; 121. Dust baffle; 122. Rotating slot; 123. First sliding slot; 13. Storage door;
[0028] 2. Artistic spotlights;
[0029] 3. Install the mounting plate; 31. Second sliding groove; 32. Hang the components; 33. Place the plate; 34. Place the holes;
[0030] 4. Partition;
[0031] 5. Motor; 51. Active dial; 52. Actuating lever; 53. Geneva wheel; 531. Rotating shaft; 54. Connecting component; 55. Mounting plate; 56. Connecting assembly; 57. Spotlight thermostat; 58. Refraction placement plate. Detailed Implementation
[0032] To better understand the above-mentioned objectives, features, and advantages of this utility model, the present utility model will be further described below with reference to the accompanying drawings and embodiments. It should be noted that, unless otherwise specified, the embodiments and features described in these embodiments can be combined with each other.
[0033] Many specific details are set forth in the following description in order to provide a full understanding of the present invention. However, the present invention may also be implemented in other ways different from those described herein. Therefore, the present invention is not limited to the specific embodiments disclosed in the following specification.
[0034] Example 1: Please refer to the attached document. Figure 1 - Appendix Figure 5 As shown: This utility model provides as follows Figure 1 As shown, the preserved flower adsorption treatment rack of this embodiment includes: a placement cabinet 1, a partition 4 is fixedly connected to the inside of the placement cabinet 1 with screws, a motor 5 is fixedly installed at the bottom of the partition 4, an active dial 51 is fixedly connected to the output end of the motor 5, a toggle rod 52 is fixedly connected to the top of the active dial 51, a Geneva wheel 53 is drivenly connected to the outer wall of the toggle rod 52, a rotating shaft 531 is rotatably connected to the inner wall of the Geneva wheel 53, and the bottom of the rotating shaft 531 is fixedly installed at the top of the partition 4 with screws.
[0035] The effect achieved by the entire embodiment 1 is that the motor 5 drives the active dial 51 to rotate, and the lever 52 on the active dial 51 periodically moves the Geneva wheel 53, causing the Geneva wheel 53 to rotate intermittently along the rotating shaft column 531. This structure realizes the periodic rotation function of the internal components of the placement rack, providing a power basis for the uniform treatment of the preserved flowers (such as adsorption and light exposure) and avoiding the problem of uneven local treatment caused by traditional static placement.
[0036] Example 2: Please refer to the attached document. Figure 1 - Appendix Figure 5As shown: A connector 54 is fixedly installed on the top of the Geneva wheel 53 by screws. A mounting plate 55 is fixedly installed on the top of a set of connectors 54. A set of connecting components 56 is fixedly installed on the bottom of the mounting plate 55. A spotlight thermostat 57 is fixedly installed on the top of each connecting component 56.
[0037] The effect achieved by the entire embodiment 2 is that the Geneva wheel 53 drives the mounting plate 55 to rotate intermittently through the connector 54, so that the spotlight temperature controller 57 at the bottom of the mounting plate 55 rotates periodically with the mounting plate 55. This design allows the spotlight temperature controller 57 to dynamically monitor and control the temperature of the preserved flowers in different areas of the placement rack. Combined with the intermittent rotation characteristics, it ensures that the ambient temperature of the preserved flowers in each position is uniform and stable, avoiding local overheating or overcooling that affects the quality of the flowers.
[0038] Example 3: Please refer to the attached document. Figure 1 - Appendix Figure 5 As shown: A refraction placement disk 58 is fixedly installed on the top of the rotating shaft column 531. The refraction placement disk 58 is made of light-transmitting material and can hold adsorbent materials such as activated carbon.
[0039] The effect achieved by the entire embodiment 3 is that the refraction placement plate 58 at the top of the rotating shaft column 531 rotates intermittently in sync with the Geneva wheel 53. Its light-transmitting material can be used in conjunction with the spotlight temperature controller 57 to achieve light refraction, so that the activated carbon and other adsorbent materials placed in the plate can fully contact the light and air, thereby enhancing the activity of the adsorbent materials. At the same time, the intermittent rotation allows the adsorbent materials to act evenly on the surrounding preserved flowers, improving the adsorption efficiency of moisture and odors and extending the preservation time of the preserved flowers.
[0040] Example 4: Please refer to the attached document. Figure 1 - Appendix Figure 5 As shown: The internal screws of the cabinet 1 are drilled through a set of mounting plates 3, and each mounting plate 3 has a second sliding groove 31 on its top.
[0041] The overall effect of embodiment 4 is that the mounting plate 3 and the second sliding groove 31 inside the placement cabinet 1 provide an adjustable mounting base for the hanging component 32. By pre-setting multiple sets of second sliding grooves 31, the position of the hanging component 32 in the vertical direction can be flexibly adjusted to meet the placement needs of preserved flowers of different heights, thus enhancing the versatility of the placement rack.
[0042] Example 5: Please refer to the attached document. Figure 1 - Appendix Figure 5 As shown: Each second sliding groove 31 has a hanging component 32 slidably installed inside it, and each hanging component 32 can be inserted into different second sliding grooves 31 to adjust its height. A set of placement plates 33 are fixedly installed on the opposite side of each hanging component 32.
[0043] The overall effect of embodiment 5 is that the hanging component 32 can be inserted into different second sliding grooves 31 to adjust the height, and drive the placement plate 33 to rise and fall synchronously, so as to meet the layered placement requirements of preserved flowers of different sizes. At the same time, the fixed installation method of the placement plate 33 ensures the stability of the preserved flowers when they are placed, and avoids the flowers from tipping over or deforming due to equipment rotation or vibration.
[0044] Example 6: Please refer to the attached document. Figure 1 - Appendix Figure 5 As shown: Each placement plate 33 has a set of placement holes 34, and the interior of the placement cabinet 1 has a set of first sliding grooves 123.
[0045] The overall effect of embodiment 6 is that the placement holes 34 on the placement plate 33 can position and fix the preserved flowers (especially the flowers with branches), preventing the flowers from shaking or colliding during the intermittent rotation of the equipment, and protecting the integrity of the petals; the first sliding groove 123 inside the placement cabinet 1 provides an installation and sliding track for the dust baffle 121, which facilitates the subsequent disassembly and maintenance of the dust baffle.
[0046] Example 7: Please refer to the attached document. Figure 1 - Appendix Figure 5 As shown: A dust baffle 121 is movably inserted inside a first sliding groove 123. A rotating slot 122 is opened through the top of the dust baffle 121. The rotating slot 122 is used to place the refraction placement disk 58.
[0047] The overall effect of embodiment 7 is that the dust baffle 121 is installed inside the placement cabinet 1 through the first sliding groove 123, which can effectively block external dust from entering the equipment and prevent dust from adhering to the mechanical structure and affecting operation; the opening of the rotating slot 122 provides rotation space for the refraction placement disk 58, ensuring that the refraction placement disk does not interfere with the dust baffle when rotating intermittently, and ensuring smooth operation of the equipment.
[0048] Example 8: Please refer to the attached document. Figure 1 - Appendix Figure 5 As shown: A mechanical inspection door 12 is fixedly installed on the outer wall of the dust baffle 121, which facilitates the inspection and maintenance of the mechanical structure.
[0049] The overall effect of embodiment 8 is that the mechanical maintenance door 12 facilitates operators to regularly inspect, lubricate or repair the mechanical structure (such as Geneva wheel, active dial, rotating shaft column, etc.) inside the cabinet 1, reducing equipment failures caused by wear of mechanical parts and extending the overall service life.
[0050] Example 9: Please refer to the attached document. Figure 1 - Appendix Figure 5 As shown: The outer wall of the cabinet 1 is hinged to an electrical maintenance door 11, which is used for maintenance of the motor 5.
[0051] The overall effect of embodiment 9 is that the electrical maintenance door 11 is specifically used for the maintenance of electrical components such as motor 5. It can be opened separately to check the motor's operating status, wiring connections, etc., avoiding the need to disassemble the entire equipment casing when repairing electrical components, improving maintenance efficiency, and reducing the safety risks caused by the exposure of electrical components.
[0052] Example 10: Please refer to the attached document. Figure 1 - Appendix Figure 5 As shown: The outer wall of the cabinet 1 is hinged to a door 13 for placing preserved flowers. Each cabinet 1 is screwed to the top of the opposite side and a set of art spotlights 2 are fixed to the preserved flowers placed inside the placement hole 34.
[0053] The overall effect of embodiment 10 is that the art spotlight 2 on the top of the cabinet 1 can illuminate the preserved flowers placed in the hole 34, highlighting the color and shape of the flowers and serving as a display function; the design of the placement door 13 makes it easy for operators to take and put in the preserved flowers, and when closed, it can form a relatively enclosed space. With the help of absorbent materials and temperature controllers, it maintains a stable internal temperature and humidity environment, further protecting the quality of the preserved flowers.
[0054] Working Principle: Power Transmission System: Intermittent motion conversion of the Geneva mechanism to motor drive: Motor 5 serves as the power source, driving the active dial 51 to rotate continuously. The actuating lever 52 on the active dial rotates synchronously and periodically engages with the slot of the Geneva wheel 53. Intermittent motion conversion: Utilizing the mechanical characteristics of the Geneva mechanism, the continuous rotation of the active dial is converted into the "rotation-pause" intermittent motion of the Geneva wheel (each complete cycle achieves a rotation at a specific angle and a pause of a fixed duration). Multi-component linkage: The Geneva wheel 53 drives the top mounting plate 55 to perform intermittent motion synchronously through the connecting piece 54. At the same time, the rotating shaft 531 directly drives the top refraction placement plate 58 to rotate intermittently synchronously with the Geneva wheel, providing basic power for subsequent dynamic processing functions. Core coordinating system: The spotlight temperature controller and the refraction placement plate work together to control the temperature. The spotlight temperature controller 57, in precise coordination with the illumination, moves synchronously with the intermittent rotation of the mounting plate 55. During the rotation, it monitors the temperature changes inside the cabinet in real time and maintains the temperature inside the cabinet within a stable range suitable for the storage of preserved flowers by adjusting the power of its own spotlight (such as reducing power to reduce heat generation and increasing power to supplement heat generation). The light source output of the spotlight temperature controller 57 works in conjunction with the refraction placement plate 58: the light emitted by it is conducted and diffused through the refraction placement plate 58 (transparent material), allowing the activated carbon and other adsorbent materials inside the plate to fully receive light, stimulating the activity of the materials (some adsorbent materials are more likely to capture moisture and odor molecules under light conditions), and dynamically improving the adsorption efficiency. The refraction placement plate 58 rotates intermittently with the Geneva wheel 53, on the one hand, allowing the adsorbent materials inside the plate to fully contact the air during rotation, avoiding the adsorption saturation of local materials due to long-term stillness;On the other hand, the rotation drives the airflow around the adsorption material to circulate, allowing the adsorption effect to evenly cover the preserved flowers on each layer of the cabinet, solving the problem of "insufficient local adsorption" when traditional fixed placement is used. The flower placement and protection system features a flexible and stable storage structure with adjustable layers. The second sliding groove 31 on the mounting plate 3 provides an adjustable mounting track for the hanging components 32. By inserting the hanging components into grooves of different heights, the vertical height of the placement plate 33 can be flexibly adjusted to accommodate preserved flowers of different sizes (such as long and short flower branches, large and small bouquets). The layered design of the placement plate 33 enables the classified placement of preserved flowers, avoiding deformation caused by mutual compression of the flowers. The placement holes 34 on the stable placement plate 33 can position the preserved flower stems, preventing the flowers from tipping over or colliding when the equipment rotates intermittently or vibrates slightly, thus protecting the integrity of the petals and flower shape. The lighting and display system combines function and aesthetics. The light emitted by the artistic spotlights 2 not only displays the shape and color of the preserved flowers but also, through the light-reflecting properties of the placement plate 58, helps activate the adsorption material, enhancing the adsorption effect. As the equipment rotates intermittently, the light can periodically illuminate the flowers in different areas, improving the dynamic feel and visual appeal of the display. The enclosed environment protection: when the placement door 13 is closed, it forms a relatively enclosed space. To reduce the impact of external environmental factors (such as dust and humidity fluctuations) on preserved flowers, and in conjunction with adsorption materials and a temperature control system, a stable microenvironment is maintained inside the cabinet. The equipment maintenance and protection system ensures long-term stable operation. The dustproof and protective baffle 121, installed inside the cabinet via the first sliding groove 123, prevents external dust from entering the equipment's transmission components, reducing dust damage to the machinery. The rotating slot 122 provides space for the rotation of the refraction placement plate 58 while reducing dust intrusion through its edge sealing structure. The convenient maintenance design allows direct access to transmission components such as the Geneva mechanism after the mechanical maintenance door 12 is opened, facilitating regular cleaning and lubrication. The extension section... The electrical inspection door 11 provides a passage for the maintenance and replacement of electrical components such as motor 5, simplifying the inspection process and reducing maintenance difficulty. The overall workflow is as follows: Start-up phase: Motor 5 starts, and through the cooperation of active dial 51 and Geneva wheel 53, it drives the mounting plate 55 and the refraction placement plate 58 to start intermittent rotation. The spotlight temperature controller 57 starts temperature monitoring and control at the same time. Operation phase: The preserved flower is fixed through the placement hole 34 of the placement plate 33 and is stably placed with the layered structure. The spotlight temperature controller 57 dynamically adjusts the temperature inside the cabinet during rotation. Its light stimulates the activity of the adsorption material through the refraction placement plate 58, and uniform adsorption is achieved in conjunction with the intermittent rotation of the placement plate.Artistic spotlights 2 provide auxiliary lighting, enhancing the display effect of the flowers and further activating the adsorption materials. During maintenance: the equipment is regularly cleaned, lubricated, and components replaced through the mechanical inspection door 12 and electrical inspection door 11 to ensure long-term stable operation. Through the coordinated operation of the above systems, this display rack achieves integrated processing of "dynamic adsorption + stable temperature control + flexible storage + display protection" for preserved flowers, providing reliable protection for their long-term preservation and appreciation.
[0055] The wiring diagrams for the artistic spotlight 2, motor 5, spotlight temperature controller 57, and refraction placement plate 58 in this utility model are common knowledge in the field. Their working principles are known technologies. The appropriate model is selected according to actual use. Therefore, the control methods and wiring layouts of the artistic spotlight 2, motor 5, spotlight temperature controller 57, and refraction placement plate 58 will not be explained in detail.
[0056] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the present utility model.
Claims
1. A shelf for placing preserved flowers for adsorption treatment, characterized in that, include: The cabinet (1) is screwed to the inside of which a partition (4) is fixedly connected. The bottom of the partition (4) is fixedly installed with the mounting part of a motor (5). The output end of the motor (5) is fixedly connected with an active dial (51). The top of the active dial (51) is fixedly connected with a lever (52). The outer wall of the lever (52) is connected to a Geneva wheel (53). The inner wall of the Geneva wheel (53) is rotatably connected with a rotating shaft (531). The bottom screw of the rotating shaft (531) is fixedly installed on the top of the partition (4).
2. The preserved flower adsorption treatment rack according to claim 1, characterized in that: The Geneva wheel (53) is screwed on top and a connector (54) is fixedly installed. A mounting plate (55) is fixedly installed on the top of a set of connectors (54). A set of connecting components (56) is fixedly installed on the bottom of the mounting plate (55). A spotlight thermostat (57) is fixedly installed on the top of each connecting component (56).
3. The preserved flower adsorption treatment rack according to claim 1, characterized in that: A refractive placement disk (58) is fixedly installed on the top of the rotating shaft (531). The refractive placement disk (58) is made of a light-transmitting material and can hold adsorbent materials such as activated carbon.
4. The preserved flower adsorption treatment rack according to claim 1, characterized in that: The internal screws of the placement cabinet (1) are drilled through a set of mounting plates (3), and each mounting plate (3) has a second sliding groove (31) on its top.
5. The preserved flower adsorption treatment rack according to claim 4, characterized in that: Each of the second sliding grooves (31) is slidably provided with a hanging component (32), and each hanging component (32) can be inserted into different second sliding grooves (31) to adjust the height. A set of placement plates (33) is fixedly installed on the opposite side of each hanging component (32).
6. The preserved flower adsorption treatment rack according to claim 5, characterized in that: Each of the placement plates (33) is provided with a set of placement holes (34), and the interior of the placement cabinet (1) is provided with a set of first sliding grooves (123).
7. The preserved flower adsorption treatment rack according to claim 6, characterized in that: A dust baffle (121) is movably inserted inside a set of the first sliding grooves (123). A rotating slot (122) is opened through the top of the dust baffle (121) and is used to place the refraction placement disk (58).
8. The preserved flower adsorption treatment rack according to claim 7, characterized in that: The outer wall of the dust baffle (121) is fixedly installed with a mechanical maintenance door (12), which facilitates the maintenance of the mechanical structure.
9. The preserved flower adsorption treatment rack according to claim 4, characterized in that: The outer wall of the cabinet (1) is hinged to an electrical maintenance door (11), which is used to maintain the motor (5).
10. A preserved flower adsorption treatment rack according to claim 9, characterized in that: The outer wall of the placement cabinet (1) is hinged to a placement door (13), which is used to place preserved flowers. Each placement cabinet (1) is screwed to the top of the opposite side and a set of art spotlights (2) are fixedly installed. Each art spotlight (2) is used to illuminate the preserved flowers placed inside the placement hole (34).