Atomizing machine used in denim garment atomization processing

Through the synergistic effect of ultrasonic atomization and ventilation mechanism, uniform color fading of denim garments is achieved, solving the problems of environmental pollution and uneven quality caused by manual spraying, improving work efficiency and quality consistency, and possessing green and environmentally friendly characteristics.

CN224494595UActive Publication Date: 2026-07-14ZHONGSHAN YIDA CLOTHING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN YIDA CLOTHING CO LTD
Filing Date
2025-07-08
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

In existing technologies, the manual spraying of chemical agents for fading denim clothing has problems such as environmental pollution, poor quality consistency, and low work efficiency.

Method used

An ultrasonic atomizing mechanism is used to atomize the liquid into a mist, which is then reacted with the clothes inside the drum by a ventilation mechanism. This achieves dynamic and uniform distribution of the mist within the drum. Combined with a drive mechanism, the clothes are turned over, ensuring uniform contact and reaction of the chemical agents.

Benefits of technology

It significantly improves the quality consistency and work efficiency of denim fading treatment, while avoiding chemical leakage and volatilization, and has the advantages of green environmental protection and industrialized production.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This utility model relates to the field of denim garment processing, specifically to an atomizing machine used in the atomization treatment of denim garments. It utilizes an ultrasonic atomization mechanism to atomize a liquid into an aerosol, which is then drawn into a drum by a ventilation mechanism. This aerosol comes into full contact with the garments inside the processing chamber, undergoes a chemical reaction, and is then discharged. The ultrasonic atomization and ventilation mechanism work together to achieve a dynamic and uniform distribution of the aerosol within the drum, solving the problem of difficulty in precisely controlling the uniformity of chemical distribution during manual spraying, which affects the consistency of fading quality and reduces work efficiency. This atomizing machine enables batch processing of garments for uniform fading, significantly improving work efficiency and quality consistency, while preventing chemical leakage or volatilization into the environment, thus combining the advantages of green environmental protection and industrialized production.
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Description

Technical Field

[0001] This utility model relates to the field of denim garment processing, specifically to an atomizing machine used in the atomization processing of denim garments. Background Technology

[0002] Due to the functional properties of dyeing processes and the demands of fashion design, denim clothing typically undergoes a fading process during its finishing stages.

[0003] Currently, in order to avoid generating a large amount of wastewater during the fading process, the denim clothing is usually faded by manually spraying chemical agents, such as potassium permanganate, onto the denim clothing using a spray gun. The chemicals decompose the fiber structure or pigments through an oxidation reaction.

[0004] Because potassium permanganate is a strong oxidizing agent, long-term exposure may cause respiratory discomfort, allergic reactions and other health problems for operators. Secondly, the spray gun operation process is prone to splashing, and inadequate protective measures will exacerbate environmental pollution. In addition, manual spraying makes it difficult to accurately control the uniformity of chemical distribution, which can easily lead to uneven fading effects on denim clothing, thereby affecting the consistency of fading quality. It also has the disadvantage of low work efficiency.

[0005] In view of the above-mentioned technical problems, this utility model is proposed in this study. Utility Model Content

[0006] The technical problem this invention aims to solve is the shortcomings of existing technologies that involve manually spraying chemical agents to fade denim garments, such as poor operating environment, inconsistent quality, and low work efficiency. This invention provides an atomizing machine for denim garment fading. An ultrasonic atomizing mechanism atomizes a liquid into an aerosol, which is then drawn into a drum by a ventilation mechanism to react chemically with the garments inside the treatment chamber before being discharged. The synergistic effect of ultrasonic atomization and the ventilation mechanism ensures a dynamic and uniform distribution of the aerosol within the drum, solving the problem of difficulty in precisely controlling the uniformity of chemical agent distribution during manual spraying, which affects the consistency of fading quality and reduces work efficiency. This atomizing machine enables batch and uniform fading of garments, significantly improving work efficiency and quality consistency, while preventing chemical leakage or volatilization into the environment, thus combining the advantages of green environmental protection and industrialized production.

[0007] To solve the above-mentioned technical problems, this utility model proposes an atomizing machine for atomizing denim garments, comprising an atomizing machine body, a roller that rotates and cooperates with the atomizing machine body, a processing chamber for accommodating the garment formed inside the roller, a plurality of through holes on the roller, and a door on the atomizing machine body that can be opened and closed and communicates with the processing chamber.

[0008] The drive mechanism, located on the atomizer body, is used to drive the roller to rotate forward or backward, thereby causing the clothes inside the processing chamber to tumble.

[0009] An ultrasonic atomizing mechanism is used to atomize a liquid to form a mist, and the ultrasonic atomizing mechanism is located on one side of the atomizer body and communicates with the processing chamber.

[0010] The exhaust mechanism is located on the atomizer body and is connected to the processing chamber through a through hole. The exhaust mechanism is used to form atomized liquid into a mist through an ultrasonic atomizing mechanism, and then draw it into the roller to react chemically with the clothes inside the processing chamber before expelling it from the processing chamber.

[0011] As described above, an atomizing machine used in denim garment atomization processing includes an ultrasonic atomizing mechanism comprising an ultrasonic generating chamber for containing atomized liquid and a feeding section located above the ultrasonic generating chamber for replenishing the atomized liquid to the ultrasonic generating chamber. The ultrasonic atomizing mechanism also includes an ultrasonic generator placed in the ultrasonic generating chamber for atomizing the atomized liquid to form a mist, and a conveying pipe located on the ultrasonic atomizing mechanism for connecting the ultrasonic generating chamber and the processing chamber.

[0012] As described above, in a vaporizer used for atomizing denim garments, the machine door extends outward to form a clearance space to prevent clothing from clogging the garment.

[0013] As described above, an atomizing machine used in the atomization process of denim clothing has an air inlet on its door for replenishing air into the processing chamber during operation of the atomizing machine to promote the flow of atomized mist.

[0014] As described above, in an atomizing machine used for atomizing denim garments, a one-way valve is provided between the feeding section and the ultrasonic generating chamber.

[0015] As described above, in an atomizing machine used for atomizing denim garments, the end of the roller furthest from the machine door is connected to a rotating shaft for driving the roller to rotate, and the rotating shaft is rotatably connected to the atomizing machine body. The driving mechanism includes a speed regulating component connected to the rotating shaft for speed adjustment, and a drive motor located on one side of the atomizing machine body for connecting to the input end of the speed regulating component to control the operation of the speed regulating component.

[0016] As described above, in an atomizing machine used for atomizing denim garments, the ultrasonic atomizing mechanism further includes a fan assembly for accelerating the flow rate of the atomized gas into the processing chamber, and the fan assembly is connected to the ultrasonic generating chamber via a pipeline.

[0017] As described above, an atomizing machine used in the atomization process of denim clothing also includes a control component disposed on the atomizing machine body for controlling the operation of the atomizing machine.

[0018] As described above, in an atomizing machine used for atomizing denim garments, the ultrasonic generating chamber is made of a corrosion-resistant material.

[0019] As described above, an atomizing machine used in the atomization treatment of denim clothing also includes a dust collection box located below the roller, which is used to collect impurities generated during the tumbling process of the clothing.

[0020] Compared with existing technologies, the atomizing machine of this utility model, applied to the atomization treatment of denim garments, has the following advantages:

[0021] 1. In this application, the ultrasonic atomizing mechanism and the exhaust mechanism work together to atomize the liquid into a mist, which fully contacts and reacts with the clothing in the treatment chamber to complete the fading treatment of the clothing. This application can use this atomizing machine to perform uniform fading treatment on clothing in batches, which significantly improves the work efficiency and quality consistency, while avoiding the leakage or volatilization of chemical agents into the environment, thus combining the advantages of green environmental protection and industrial production.

[0022] 2. In this application, the door extends outward to form a clearance space, which can prevent clothing from falling into the clearance space and prevent clothing from blocking the opening of the door, thereby ensuring that the mist can smoothly enter the processing chamber.

[0023] 3. By incorporating a dust collection box, this application effectively prevents impurities from remaining in the roller. With no residue inside the roller, the dust collection box typically only needs to be cleaned periodically, effectively reducing the complicated procedures of cleaning the atomizer. Attached Figure Description

[0024] The specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings, wherein:

[0025] Figure 1 This is one of the structural schematic diagrams of the atomizer in this utility model;

[0026] Figure 2 This is the second structural schematic diagram of the atomizer in this utility model;

[0027] Figure 3 This is the third schematic diagram of the atomizer in this utility model;

[0028] Figure 4 This is one of the cross-sectional structural schematic diagrams of the atomizer in this utility model;

[0029] Figure 5 This is the second cross-sectional structural schematic diagram of the atomizer in this utility model;

[0030] Figure 6 This is a schematic diagram of the internal structure of the ultrasonic atomizing mechanism in this utility model;

[0031] Figure 7 This is a schematic diagram of the structure of the machine door in this utility model;

[0032] Figure 8 This is a cross-sectional structural diagram of the machine door in this utility model;

[0033] Figure 9 This is a schematic diagram of the connection between the roller and the drive mechanism in this utility model;

[0034] Figure 10 This is a schematic diagram of the drive mechanism in this utility model.

[0035] In the picture:

[0036] 1. Atomizer body; 12. Door; 121. Opening; 122. Air intake; 123. Clearance space; 13. Observation window; 14. Lighting;

[0037] 2. Drum; 21. Processing chamber; 22. Through hole; 23. Rotating shaft; 24. Lifting rib; 25. Bearing;

[0038] 3. Drive mechanism; 30. Speed ​​regulating component; 31. Coupling; 321. First gear; 322. Second gear; 323. Third gear; 33. Drive motor; 331. Transmission wheel; 341. First transmission belt; 342. Second transmission belt;

[0039] 4. Ultrasonic atomizing mechanism; 41. Ultrasonic generator; 411. Ultrasonic generating chamber; 412. Feeding section; 413. One-way valve; 42. Conveying pipeline; 43. Fan assembly;

[0040] 5. Ventilation mechanism; 51. Ventilation fan; 52. Air outlet;

[0041] 6. Dust collection box; 7. Guide section; 8. Control components. Detailed Implementation

[0042] The embodiments of this utility model will now be described in detail with reference to the accompanying drawings.

[0043] like Figure 1-10As shown, this utility model includes an atomizing machine for atomizing denim garments, comprising an atomizing machine body 1, a roller 2 rotatably cooperating with the atomizing machine body 1, a processing chamber 21 for accommodating clothing formed inside the roller 2, a plurality of through holes 22 on the roller 2, and a door 12 on the atomizing machine body 1 that can be opened and closed and communicates with the processing chamber 21; a driving mechanism 3, disposed on the atomizing machine body 1, for driving the roller 2 to rotate forward or backward, thereby causing the clothing in the processing chamber 21 to tumble; an ultrasonic atomizing mechanism 4, for atomizing liquid to form a mist, and the ultrasonic atomizing mechanism 4 is disposed on one side of the atomizing machine body 1 and communicates with the processing chamber 21; and a ventilation mechanism 5, disposed on the atomizing machine body 1 and communicates with the processing chamber 21 through the through holes 22, for drawing the atomized liquid into the roller 2 to form a mist, and then drawing it into the roller 2 to react chemically with the clothing inside the processing chamber 21 before discharging it from the processing chamber 21.

[0044] The atomizer body 1 has an internal cavity, and the roller 2 is placed in the cavity. The roller 2 has several through holes 22. The substances produced after the atomized mist reacts with the clothing are discharged from the roller 2 as incompletely reacted atomized mist through the through holes 22. The atomized mist is then transported out of the atomizer by the exhaust mechanism 3. In addition, the ultrasonic atomization mechanism 4 uses electrical energy to convert into ultrasonic energy. At room temperature, the ultrasonic energy can atomize the liquid into tiny mist particles of 1µm to 5µm, which is the aforementioned atomized mist. In this application, the atomized mist formed by the ultrasonic atomization mechanism 4 is evenly distributed in the processing cavity 21, effectively contacting and reacting with the clothing, which helps to improve the efficiency of chemical agent usage and avoids the generation of large amounts of wastewater.

[0045] Compared to the traditional manual spraying of chemical agents, this application utilizes an ultrasonic atomizing mechanism 4 and a ventilation mechanism 5. The atomized liquid is processed by the ultrasonic atomizing mechanism 4, and the ultrasonic atomization and ventilation mechanism 5 work together to achieve dynamic and uniform distribution of the mist within the roller 2. This solves the problem of uneven fading effects on denim clothing, which affects the consistency of fading quality and also results in low work efficiency. This atomizing machine can process clothing in batches simultaneously for uniform fading, significantly improving work efficiency and ensuring consistent quality. Since the chemical agents flow within the atomizing machine itself, leakage or volatilization into the environment is avoided, combining the advantages of green environmental protection and industrialized production.

[0046] Specifically, the aforementioned atomizing liquid refers to a liquid preparation containing chemical agents that can be used for atomizing garments. When an atomizing machine is used to fade denim garments, the atomizing liquid is typically potassium permanganate, a strong oxidizing agent. Since potassium permanganate is a blackish-purple crystal at room temperature, its easy solubility in water can be utilized to prepare a potassium permanganate solution as the atomizing liquid. Similarly, the atomizing liquid can also be a reactive dye, also known as a reactive dye, which can chemically react with the garment to achieve a dyeing effect. During the dyeing process, it reacts chemically with the fibers. The atomizing machine described in this application can also be used for dyeing garments.

[0047] This application describes the process of fading clothing using an atomizing machine. The atomized liquid is atomized by an ultrasonic atomizing mechanism 4 to form a fine mist of particles. This mist is then drawn into the processing chamber 21 inside the roller 2 by a suction mechanism 5. The mist comes into contact with the clothing inside the processing chamber 21 and undergoes an oxidation reaction. At this time, the drive mechanism 3 is activated to drive the roller 2, causing the clothing inside to tumble as the roller 2 rotates. As the roller 2 rotates, the clothing experiences centripetal force and friction against the inner wall of the roller 2. When the clothing rises to a certain height, it falls back to the lowest point of the roller 2 due to gravity, repeatedly tumbling and ensuring continuous contact and oxidation between the clothing and the mist. Furthermore, because the roller 2 can be controlled to rotate forward and backward, it ensures sufficient contact and oxidation between the clothing and the mist, guaranteeing uniform fading.

[0048] like Figure 4 As shown, furthermore, to accelerate the efficiency of the contact and reaction between the clothing and the aerosol, the inner wall of the roller 2 is also provided with lifting ribs 24 for lifting the clothing and reducing tangling between the clothing. The lifting ribs 24 consist of several raised sections, which help to lift the clothing. Compared to a design without lifting ribs 24, in this application, the height difference of the falling clothing is increased due to the lifting ribs 24, making the clothing loose and less prone to tangling during the fall, allowing the aerosol to easily pass between the clothing and increase the contact area between the clothing and the aerosol. In addition, the design of the lifting ribs 24 helps to push the clothing continuously towards the rear of the roller 2 during the tumbling process, thereby reducing tangling between the clothing.

[0049] like Figure 2 , Figure 5As shown in the figure, the structural elements of the cover of the ultrasonic atomizing mechanism 4 and the end cap of the ultrasonic generating chamber 411 are omitted to facilitate observation of their interior. As a further technical solution of this application, the ultrasonic atomizing mechanism 4 includes an ultrasonic generating chamber 411 for containing atomized liquid and a feed section 412 located above the ultrasonic generating chamber 411 for replenishing the ultrasonic generating chamber 411 with atomized liquid. The ultrasonic atomizing mechanism 4 also includes an ultrasonic generator 41 placed in the ultrasonic generating chamber 411 for atomizing the atomized liquid to form a mist, and a conveying pipe 42 located on the ultrasonic atomizing mechanism 4 for connecting the ultrasonic generating chamber 411 and the processing chamber 21. One end of the conveying pipe 42 is connected to the machine door 12, and the other end is connected to the outlet of the ultrasonic generator 41. The feeding section 412 is connected to the ultrasonic generating chamber 411 through a pipeline, thereby delivering external air into the ultrasonic generating chamber 411. This accelerates the delivery of the atomized liquid in the ultrasonic generating chamber 411 to the processing chamber 21, allowing the chemical agent to come into contact with the clothing and produce a chemical reaction, so that the clothing can achieve a full and uniform fading effect and ensure the consistency of the quality of the treated clothing.

[0050] The ultrasonic generating chamber 411 is made of a corrosion-resistant material, such as polyethylene.

[0051] like Figure 1 , Figure 3 , Figure 6 , Figure 7 As shown, further as a further technical solution of this application, the door 12 is disposed on the atomizer body 1 and communicates with the processing chamber 21. The door 12 extends outward to form a clearance space 123 for preventing clothing from clogging the atomizer. The extension area of ​​the door 12 has an inclination, and the door 12 is a convex structure. During operation, when clothing falls into the clearance space 123, it can slide back into the processing chamber 21. Since the door 12 has an opening 121 corresponding to the conveying pipe 42 and communicates with the conveying pipe 42, it prevents clothing from clogging the opening 121 of the door 12, so that the atomized mist can enter the processing chamber 21 through the door 12 along the conveying pipe 42. In this application, the door 12 is a convex structure, which can effectively prevent clothing from falling into the clearance space 123 and at the same time prevent clothing from clogging the opening 121 of the door 12, thereby ensuring that the atomized mist enters the processing chamber 21 smoothly.

[0052] Furthermore, when the door 12 is located in the direction of the central axis extension of the roller 2, the mist delivered from the conveying pipe 42 diffuses along the direction of the central axis of the roller 2, ensuring uniform distribution in the processing chamber 21, which helps to ensure uniform contact and reaction between the clothing and the mist.

[0053] like Figure 1 , Figure 3 , Figure 6 , Figure 7 As shown, further as a further technical solution of this application, the door 12 is provided with an air supply port 122 for supplementing air into the processing chamber 21 during the operation of the atomizer to promote the flow of mist. When the atomizer is working, as the exhaust mechanism 5 exhausts to the outside, air is introduced through the air supply port 122, which helps to accelerate the flow of mist in the processing chamber 21 and speed up the reaction time in the processing chamber 21.

[0054] like Figure 2 As shown, the ultrasonic atomizing mechanism 4 further includes a fan assembly 43 for accelerating the flow rate of the aerosol to the processing chamber 21. The fan assembly 43 is connected to the ultrasonic generating chamber 411 via a pipeline. The fan assembly 43 is a common type of fan in the prior art. The fan is used to supply air to the ultrasonic generating chamber 411, thereby pushing the aerosol generated by the ultrasonic generator 41 along the delivery pipeline 42 to the processing chamber 21, effectively preventing the aerosol from accumulating in the ultrasonic generating chamber 411.

[0055] like Figure 5 As shown, further as a further technical solution of this application, a one-way valve 413 is provided between the feeding section 412 and the ultrasonic generating chamber 411. The one-way valve 413 is used to prevent the backflow of atomized liquid and the reverse flow of mist, thereby causing the mist to gush out from one end of the opening of the feeding section 412. Furthermore, the ultrasonic atomizing mechanism 4 is also provided with an indicator light for indicating that the ultrasonic generating chamber 411 needs to be replenished with atomized liquid. It should be noted that the one-way valve 413 is a conventional means in the prior art.

[0056] like Figure 9 , Figure 10As shown, specifically, the end of the roller 2 furthest from the door 12 is connected to a rotating shaft 23 for driving the roller 2 to rotate, and the rotating shaft 23 is rotatably connected to the atomizer body 1. The drive mechanism 3 includes a speed regulating component 30 connected to the rotating shaft 23 for speed adjustment, and a drive motor 33 located on one side of the atomizer body 1 for connecting to the input end of the speed regulating component 30 to control the operation of the speed regulating component 30. The rotating shaft 23 extends out of the atomizer body 1 and is rotatably connected to the output end of the speed regulating component 30, thereby driving the roller 2 to rotate forward or backward. In this application, the speed regulating component 30 is a reduction gear structure, which reduces the speed of the drive motor 33. The reduction structure includes a coupling shaft 31 that rotatably engages with the atomizer body 1. A first gear 321 and a second gear 322 are respectively located at both ends of the coupling shaft 31, and a third gear 323 is mounted on the atomizer body 1 and rotatably engages with the bearing 25. It also includes a first transmission belt 341 and a second transmission belt 342 for transmission. A transmission wheel 331 is mounted on the output shaft of the drive motor 33. The first transmission belt 341 is wound between the transmission wheel 331 and the first gear 321, and the second transmission belt 342 is wound between the second gear 322 and the third gear 323. The drive motor 33 provides power to drive the transmission wheel 331 and the first gear 321 through the first transmission belt 341, and then the second gear 322 and the third gear 323 through the second transmission belt 342, thereby rotating the roller 2 and tumbling the clothes inside. This application uses a reduction structure to increase torque and work in conjunction with the drive motor 33 to achieve stable rotation of the roller 2, resulting in a simple and reliable structure.

[0057] like Figure 1 , Figure 2 , Figure 4 As shown, specifically, the exhaust mechanism 5 includes an exhaust fan 51 for promoting the flow rate of the mist inside the processing chamber 21. The atomizer body 1 has an air outlet 52 that is connected to the air inlet of the exhaust fan 51. The exhaust fan 51 and the air outlet 52 cooperate to promote the airflow inside the processing chamber 21 so that the mist reacts fully with the clothing.

[0058] like Figure 1 , Figure 3As shown, as a further technical solution of this application, the atomizer also includes a dust collection box 6 located below the roller 2. The dust collection box 6 is used to collect impurities generated during the tumbling process of clothing. The impurities fall into the dust collection box 6 through the through hole 22 of the roller 2. Specifically, the impurities include substances generated after the aerosol reaction and fibers generated during the clothing tumbling process. In addition, a guide section 7 is provided between the dust collection box 6 and the roller 2. The guide section 7 is located in the atomizer body 1 and can be configured with an opening structure to connect the internal space of the dust collection box 6 with the chamber space of the atomizer body 1. The guide section 7 narrows from top to bottom to form a funnel structure. When the atomizer is working, the impurities fall into the dust collection box 6 through the guide section 7. By setting up the dust collection box 6 in this application, impurities can be effectively prevented from remaining in the roller 2. There are no residues in the roller 2. In conjunction with the guide section 7, the impurities can be collected in the dust collection box 6 along the guide section 7. Usually, only the dust collection box 6 needs to be cleaned periodically, effectively reducing the complicated process of cleaning the atomizer.

[0059] like Figure 1 , Figure 3 As shown, the machine door 12 is further provided with an observation window 13 for the operator to observe the internal condition of the processing chamber 21; specifically, the machine door 12 also includes a lighting lamp 14 provided on the observation window 13 to illuminate the inside of the processing chamber 21, thereby facilitating the operator to observe the processing of clothing inside the processing chamber 21 through the observation window 13, and to manually control any abnormal conditions that occur during the operation of the atomizer, and then to take timely action to handle the abnormalities.

[0060] like Figure 1 , Figure 2 As shown, the atomizer further includes a control component 8 mounted on the atomizer body 1 for controlling the operation of the atomizer. The drive mechanism 3, the ultrasonic atomizing mechanism 4, and the exhaust mechanism 5 are all electrically connected to the control component 8. The control component 8 is used to control the start and stop of the drive mechanism 3, the forward or reverse rotation mode and speed of the roller 2, and the start and stop of the ultrasonic generator 41 in the ultrasonic atomizing mechanism 4. The control component 8 can also be used to control the speed setting of the exhaust mechanism 5. The control component 8 can coordinate the operation of the drive mechanism 3, the ultrasonic atomizing mechanism 4, and the exhaust mechanism 5 by setting and switching the various parts.

[0061] The atomizing machine is operated by the operator according to the work requirements and the ratio of atomized liquid to clothing, etc. The control component 8 controls the coordinated work of each part to make the fading or dyeing treatment of denim clothing meet the expected effect. This application helps to reduce the skill requirements of the operator, thereby meeting the requirements of denim spraying and significantly improving work efficiency.

Claims

1. An atomizing machine used in the atomization treatment of denim garments, characterized in that... include: The atomizer body (1) has a roller (2) inside which it rotates and cooperates. A processing chamber (21) for accommodating clothing is formed inside the roller (2). The roller (2) has several through holes (22). The atomizer body (1) has a door (12) that can be opened and closed and communicates with the processing chamber (21). The drive mechanism (3), located on the atomizer body (1), is used to drive the roller (2) to rotate forward or backward, thereby causing the clothes in the processing chamber (21) to tumble. An ultrasonic atomizing mechanism (4) is used to atomize the liquid to form a mist, and the ultrasonic atomizing mechanism (4) is located on one side of the atomizer body (1) and communicates with the processing chamber (21). The exhaust mechanism (5) is located on the atomizer body (1) and is connected to the processing chamber (21) through the through hole (22). The exhaust mechanism (5) is used to form atomized liquid into aerosol through the ultrasonic atomizing mechanism (4), and then draw it into the roller (2) to react chemically with the clothes inside the processing chamber (21) before being discharged from the processing chamber (21).

2. The atomizing machine for atomizing denim garments according to claim 1, characterized in that... The ultrasonic atomizing mechanism (4) includes an ultrasonic generating chamber (411) for containing atomized liquid and a feeding part (412) located above the ultrasonic generating chamber (411) for replenishing the atomized liquid to the ultrasonic generating chamber (411). The ultrasonic atomizing mechanism (4) also includes an ultrasonic generator (41) placed in the ultrasonic generating chamber (411) for atomizing the atomized liquid to form a mist, and a conveying pipe (42) located on the ultrasonic atomizing mechanism (4) for connecting the ultrasonic generating chamber (411) and the processing chamber (21).

3. The atomizing machine for atomizing denim garments according to claim 1, characterized in that... The door (12) extends outward to form a clearance space (123) to prevent clothing from getting stuck.

4. The atomizing machine for atomizing denim garments according to claim 3, characterized in that... The machine door (12) is provided with an air supply port (122) for supplementing air into the processing chamber (21) during the operation of the atomizer to promote the flow of aerosol.

5. The atomizing machine for atomizing denim garments according to claim 2, characterized in that... A one-way valve (413) is provided between the feeding section (412) and the ultrasonic generating chamber (411).

6. The atomizing machine for atomizing denim garments according to claim 1, characterized in that... The end of the roller (2) away from the machine door (12) is connected to a rotating shaft (23) for driving the roller (2) to rotate, and the rotating shaft (23) is rotatably connected to the atomizer body (1). The drive mechanism (3) includes a speed regulating component (30) connected to the rotating shaft (23) for speed regulation, and a drive motor (33) located on one side of the atomizer body (1) for connecting to the input end of the speed regulating component (30) to control the operation of the speed regulating component (30).

7. The atomizing machine for atomizing denim garments according to claim 2, characterized in that... The ultrasonic atomizing mechanism (4) further includes a fan assembly (43) for accelerating the flow rate of the aerosol to the processing chamber (21), and the fan assembly (43) is connected to the ultrasonic generating chamber (411) through a pipeline.

8. The atomizing machine for atomizing denim garments according to claim 1, characterized in that... The atomizer also includes a control component (8) disposed on the atomizer body (1) for controlling the operation of the atomizer.

9. The atomizing machine for atomizing denim garments according to claim 5, characterized in that... The ultrasonic generating chamber (411) is made of a corrosion-resistant material.

10. The atomizing machine for atomizing denim garments according to any one of claims 1 or 2, characterized in that... The atomizer also includes a dust collection box (6) located below the roller (2), which is used to collect impurities generated by the clothing during the tumbling process.