Elastic clamping type wearing moxa cautery device

By employing a flexible circumferential snap-fit ​​structure and an aluminum foil layer for thermal conductivity and insulation, the problem of unstable connection and high-temperature failure in wearable moxibustion devices has been solved. This achieves the effects of quick assembly and disassembly, secure fixation, and cost reduction, while also improving service life and safety.

CN122376447APending Publication Date: 2026-07-14NANYANG AILIAN PACKAGING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
NANYANG AILIAN PACKAGING CO LTD
Filing Date
2026-06-04
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing wearable moxibustion devices suffer from problems such as inconvenient assembly and disassembly, poor stability, easy loosening, insufficient high-temperature resistance, and high production costs.

Method used

It adopts a flexible circumferential snap-fit ​​structure, combined with aluminum foil layer for heat conduction and insulation and double-layer smoke filtration design, to replace the traditional threaded, single-point snap-fit ​​and magnetic connection methods, so as to achieve quick disassembly and assembly, firm fixation, high temperature resistance and cost reduction.

Benefits of technology

It improves product lifespan and stability, enhances safety and environmental friendliness, reduces production costs, and is highly adaptable and comfortable to wear.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application discloses an elastic clamping type wearing moxa cautery, and relates to the technical field of moxa cautery instruments. The elastic clamping type wearing moxa cautery comprises a moxa cautery cylinder main body, a smoke filtering assembly, an elastic clamping assembly and a wearing assembly, wherein the moxa cautery cylinder main body comprises a skin-adhesive ring cylinder, an ash blocking wire mesh, a small-hole smoke outlet sheet, a moxa column cover cylinder, a moxa column inner cylinder, a moxa column outer cylinder and a moxa column socket; the elastic clamping assembly is composed of a stainless steel elastic sheet ring and a top pressing piece, and realizes elastic clamping assembly of the moxa column cover cylinder and the inner cylinder; the wearing assembly is composed of a wearing sheet and an elastic band, and can realize overall wearing fixation; the smoke filtering assembly adopts double-layer smoke filtering cloth matched with a separation ring to form a smoke filtering cavity. The application improves the problems of poor stability, easy falling, high-temperature failure and high cost of the thread, buckle and magnetic attraction connection structures of the existing wearing moxa cautery, and has the characteristics of convenient disassembly and assembly, firm connection, high-temperature resistance, long service life and low production cost, and is suitable for human body multi-site acupoint moxa cautery physiotherapy.
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Description

Technical Field

[0001] This invention relates to the field of moxibustion device technology, and in particular to a flexible snap-fit ​​wearable moxibustion device. Background Technology

[0002] Moxibustion is a traditional Chinese medicine therapy that relies on the warm smoke produced by burning moxa sticks to act on acupoints on the human body, so as to warm and unblock the meridians and dispel cold and dampness. Currently, wearable moxibustion devices are widely used because they are convenient to use and can free up the hands.

[0003] Currently, wearable moxibustion devices on the market mainly use three types of connection methods for the body: threaded connection, single-point snap-fit, and magnetic connection. Threaded connections are time-consuming to assemble and disassemble, and frequent twisting can easily lead to stripping and loosening. Ordinary single-point snap-fit ​​devices rely on localized locking for positioning, and are prone to loosening under shaking or pulling forces, resulting in poor stability. While magnetic connections are easy to assemble and disassemble, the magnetic attraction is limited, making them prone to separation and detachment under external forces. Furthermore, the magnets demagnetize over time in the high-temperature environment of moxibustion, significantly shortening the product's lifespan. Magnetic components also increase overall production costs. Given these drawbacks of existing connection structures, there is an urgent need to design a wearable moxibustion device that is reliably connected, easy to assemble and disassemble, heat-resistant, has a long lifespan, and is cost-effective. Summary of the Invention

[0004] The purpose of this invention is to provide a flexible snap-fit ​​wearable moxibustion device to solve the technical problems of inconvenient assembly and disassembly, poor connection stability, easy loosening and detachment, easy failure in high-temperature environments, short service life, and high production costs associated with existing wearable moxibustion devices that commonly use threaded connections, single-point snap-fit ​​connections, and magnetic connections. This invention aims to replace traditional connection methods with a novel flexible circumferential snap-fit ​​structure, achieving quick assembly and disassembly of the device body, secure locking, resistance to external interference, and high-temperature resistance, while simplifying the structure, reducing costs, and improving the overall practicality and durability of the product.

[0005] The technical solution adopted by the present invention to achieve the purpose is: an elastic snap-fit ​​wearable moxibustion device, including a moxibustion cylinder body, a smoke filtering component, an elastic snap-fit ​​component, and a wearable assembly component.

[0006] The main body of the moxibustion cylinder includes a skin-fitting ring cylinder, an ash-catching wire mesh, a small-hole smoke-emitting plate, a moxa cone cover cylinder, an inner moxa cone cylinder, an outer moxa cone cylinder, and a moxa cone socket. The inner moxa cone cylinder is coaxially and fixedly fitted inside the outer moxa cone cylinder, forming an integrated cylindrical structure. The moxa cone cover cylinder is placed on the outside of the outer moxa cone cylinder and aligns with the end of the outer moxa cone cylinder. The entire inner wall of the moxa cone cover cylinder is covered with an aluminum foil layer, utilizing the heat conduction and heat retention properties of aluminum foil to enhance the moxibustion effect and isolate high temperatures. The skin-fitting ring cylinder is fixedly set at the lower end of the moxa cone cover cylinder, forming a ring structure that conforms to human skin. The ash-catching wire mesh and the small-hole smoke-emitting plate are sequentially assembled inside the moxa cone cover cylinder and adjacent to the skin-fitting ring cylinder. The ash-catching wire mesh can catch the ash after burning, preventing it from falling and causing burns. The small-hole smoke-emitting plate has evenly distributed small smoke-emitting holes to ensure that the smoke is discharged at a uniform speed and dispersedly.

[0007] The moxa stick socket is assembled inside the inner cylinder of the moxa stick. The pin on the moxa stick socket is used to insert and fix the moxa stick, and the through hole on the moxa stick socket is used for air and smoke circulation to ensure that the moxa stick burns completely.

[0008] The smoke filter assembly is horizontally arranged inside the outer cylinder of the moxa stick and located at the bottom of the inner cylinder of the moxa stick, so as to filter and purify the smoke generated by the burning of the moxa stick.

[0009] The inner cylinder of the moxa stick has several through holes circumferentially formed on its wall. The elastic snap-fit ​​assembly includes an open stainless steel spring ring and a top pressing component. The stainless steel spring ring is placed inside the inner cylinder of the moxa stick. The top pressing component is integrally formed by an arc plate and a protrusion on the outer side of the arc plate. There are at least two top pressing components. Each top pressing component is evenly spaced along the circumference of the stainless steel spring ring. The protrusions are inserted into each through hole, and the arc plates are all located on the outer side of the stainless steel spring ring. The stainless steel spring ring pushes each top pressing component outward with its own elasticity, so that the protrusions extend out of the through holes and elastically abut against the inner wall of the moxa stick cover, forming a detachable elastic snap-fit ​​assembly structure between the moxa stick cover and the inner cylinder of the moxa stick. The assembly is firm, and the cylinder can be disassembled by manually pulling to overcome the snap-fit ​​resistance.

[0010] The wearable assembly consists of a moxibustion tube wearable piece and an elastic band. The moxibustion tube wearable piece has a moxibustion tube assembly hole, the diameter of which is adapted to the diameter of the moxibustion tube cover, allowing the moxibustion tube cover to pass smoothly through the moxibustion tube assembly hole. The outer diameter of the skin-adhesive ring is larger than the diameter of the moxibustion tube assembly hole, so that the skin-adhesive ring is stopped and stopped inside the moxibustion tube wearable piece, achieving axial positioning. Under the tightening action of the elastic band, the moxibustion tube wearable piece presses the skin-adhesive ring tightly against the surface of the human skin, completing the overall wear and fixation.

[0011] Furthermore, the smoke filtration assembly includes an inner smoke filtration cloth, an outer smoke filtration cloth, and a spacer ring. The spacer ring is sandwiched between the inner and outer smoke filtration cloths, separating the two layers of smoke filtration cloth from each other. A smoke filtration cavity is formed between the two layers of smoke filtration cloth, which effectively prolongs the residence and filtration time of the smoke, while also ensuring the ventilation between the inside and outside.

[0012] Furthermore, a cross-shaped spacer is integrally formed on the spacer ring. The cross-shaped spacer is evenly distributed on the end face of the spacer ring and supported between the inner and outer filter cloths. It is used to help to evenly separate and spread the two filter cloths, prevent the filter cloths from sticking together and collapsing, and ensure that the airflow passage is unobstructed.

[0013] The beneficial effects of this invention are:

[0014] 1. This invention adopts an elastic circumferential snap-fit ​​structure, which, compared with traditional threaded, single-point snap-fit, and magnetic connection structures, makes disassembly and assembly simple. Relying on the elastic circumferential snap-fit ​​method, it has strong anti-shaking and anti-tension capabilities and will not loosen or fall off during use. It completely eliminates magnetic accessories, avoids the problem of high-temperature demagnetization failure, greatly improves the product's high-temperature resistance and service life, and saves the cost of magnetic accessories, reducing the overall cost of the product.

[0015] 2. An aluminum foil layer is installed on the inner wall of the moxa cone to achieve heat retention and insulation. Combined with the ash-blocking mesh and the small-hole smoke outlet plate, it can effectively prevent the occurrence of burns from falling moxa ash and local overheating, significantly improving the safety of use and the uniformity of moxibustion heat. At the same time, the double-layer smoke filter structure effectively filters and purifies the smoke from the burning moxa cone while ensuring ventilation, reducing the emission of oily smoke particles, making it more environmentally friendly, and ensuring a healthy and comfortable therapeutic experience.

[0016] 3. The product has a compact and lightweight overall structure. With the elastic band, it can be flexibly adapted to different physiotherapy areas such as the shoulders, neck, waist, and limbs. It is convenient, comfortable to wear, and highly adaptable. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the axial cross-sectional structure of the moxibustion cylinder body in this invention;

[0018] Figure 2 This is a schematic diagram of the structure of the moxa cone cover and the inner cylinder of the moxa cone body in this invention when they are separated and assembled (the axial cross-sectional view is still maintained, and the arrow lines indicate the assembly direction).

[0019] Figure 3 This is a top view of the smoke outlet plate in the present invention.

[0020] Figure 4 This is a top view of the spacer ring structure in this invention;

[0021] Figure 5This is a top view of the structure of the moxibustion socket in this invention;

[0022] Figure 6 , Figure 7 These are front and top views of the top pressing component in this invention.

[0023] Figure 8 This is a side view of the moxibustion tube body after it has been assembled onto the moxibustion tube wear piece of the present invention.

[0024] Figure 9 This is a schematic diagram of the main structure of the moxibustion tube after it has been assembled onto the wearable assembly.

[0025] In the diagram: 1. Skin-adhering ring cylinder; 2. Ash-catching wire mesh; 3. Small-hole smoke outlet plate; 4. Moxa cone cover cylinder; 5. Inner cylinder of moxa cone; 5-1. Through hole; 6. Outer cylinder of moxa cone; 7. Inner layer smoke filter cloth; 8. Outer layer smoke filter cloth; 9. Spacer ring; 10. Smoke filter cavity; 11. Moxa cone socket; 11-1. Insertion pin; 11-2. Through hole; 12. Stainless steel spring ring; 13. Top pressure component; 13-1. Arc plate; 13-2. Protrusion; 14. Moxibustion tube wearing plate; 15. Elastic band; 16. Moxa cone. Detailed Implementation

[0026] The present invention will now be described in further detail with reference to the accompanying drawings and embodiments.

[0027] This embodiment discloses a flexible snap-fit ​​wearable moxibustion device, such as... Figures 1 to 9 As shown, the whole is assembled from the moxibustion cylinder body, smoke filter component, elastic snap-fit ​​component and wearable assembly component. The various structures work together to achieve the complete functions of quick disassembly and assembly, reliable fixation, safe moxibustion and smoke filtration.

[0028] like Figure 1 , Figure 2 As shown, the moxibustion cylinder body includes a skin-adhering ring cylinder 1, a dust-catching wire mesh 2, a small-hole smoke-emitting plate 3, a moxa cone cover cylinder 4, an inner moxa cone cylinder 5, an outer moxa cone cylinder 6, and a moxa cone socket 11. The inner moxa cone cylinder 5 is fixedly fitted inside the outer moxa cone cylinder 6, and the two are tightly combined to form an integrated cylindrical load-bearing structure with strong structural stability and resistance to deformation. The moxa cone cover cylinder 4 covers the outside of the outer moxa cone cylinder 6 and aligns with the end of the outer moxa cone cylinder 6. The entire inner wall of the moxa cone cover cylinder 4 is covered with an aluminum foil layer, which can effectively concentrate the heat energy generated by the burning moxa cone, reduce heat loss, improve the heat therapy effect of moxibustion, and at the same time insulate against high temperature to prevent the cylinder from overheating. The skin-adhering ring cylinder 1 is fixedly set at the other end of the moxa cone cover cylinder 4, which can closely fit the human skin and ensure the fit of moxibustion. The dust-catching wire mesh 2 and the small-hole smoke-emitting plate 3 are sequentially assembled inside the moxa cone cover cylinder 4 and adjacent to the skin-adhering ring cylinder 1. Figure 3As shown, the smoke outlet plate 3 is evenly distributed with small smoke outlet holes, which can evenly and disperse the internal smoke and prevent the smoke from directly hitting the skin, ensuring that the moxibustion temperature is uniform and gentle; the ash-catching wire mesh 2 can catch the ash that falls off the burning moxa stick 16, preventing the moxa ash from directly contacting the skin and causing burns, thus improving the safety of use.

[0029] The moxa stick socket 11 is assembled inside the moxa stick inner cylinder 5, such as Figure 5 As shown, the moxa stick socket 11 is provided with a pin 11-1 and a through hole 11-2. The pin 11-1 is used to insert and fix the moxa stick 16, and to position and fix the moxa stick; the through hole 11-2 is used for air and smoke circulation to ensure that the moxa stick burns completely.

[0030] The smoke filter assembly is located inside the outer cylinder 6 of the moxa stick and at the bottom of the inner cylinder 5, and can uniformly filter and purify the downward smoke generated by the burning moxa stick. The smoke filter assembly includes an inner layer of smoke filter cloth 7, an outer layer of smoke filter cloth 8, and a spacer ring 9. The spacer ring 9 is sandwiched between the inner layer of smoke filter cloth 7 and the outer layer of smoke filter cloth 8, separating the two layers of smoke filter cloth. The smoke filter cavity 10 formed between the two layers of smoke filter cloth can effectively extend the smoke flow path and residence time, allowing particulate matter and tar in the smoke to be fully adsorbed and filtered by the filter material, greatly reducing smoke pollution and achieving environmentally friendly smoke exhaust effect, while also ensuring ventilation inside and outside. Both the inner layer of smoke filter cloth 7 and the outer layer of smoke filter cloth 8 are made of activated carbon non-woven fabric, which has excellent adsorption effect on smoke dust and tar.

[0031] like Figure 4 As shown, a cross-shaped spacer is integrally formed on the partition ring 9. The cross-shaped spacer is evenly distributed on the end face of the partition ring and supported between the inner layer of filter cloth 7 and the outer layer of filter cloth 8. It can help to evenly separate and spread the two layers of filter cloth, effectively preventing the filter cloth from being squeezed and collapsed by the smoke airflow, or from sticking and blocking the air duct, ensuring smooth internal airflow and stable filtration effect.

[0032] The inner cylinder 5 of the moxa stick has several through holes 5-1 circumferentially opened on its cylinder wall; the elastic snap-fit ​​assembly includes an open stainless steel spring ring 12 and a top pressing member 13, with the stainless steel spring ring 12 placed inside the inner cylinder 5 of the moxa stick; Figure 6 , Figure 7 As shown, the pressing member 13 is integrally formed by the arc plate 13-1 and the protrusion 13-2 provided on the outer side of the arc plate 13-1, and the overall structure has high strength. There are at least two pressing members 13, and each pressing member 13 is evenly spaced along the circumference of the stainless steel spring ring 12. Its protrusion 13-2 is inserted into each through hole 5-1 in a corresponding manner, and its arc plate 13-1 is located on the outside of the stainless steel spring ring 12.

[0033] The stainless steel spring ring 12, relying on its own elasticity, pushes outward against each pressing component 13, causing the protrusion 13-2 of each pressing component 13 to extend out of the through hole 5-1 and elastically abut against the inner wall of the moxibustion column cover 4, forming a tight limit and constituting an elastic snap-fit ​​assembly structure between the moxibustion column cover 4 and the moxibustion column inner cylinder 5. In the natural assembly state, the circumferential multi-point elastic snap-fit ​​force is uniform and the stability is extremely strong. It is not easy to loosen when the equipment is worn and shaken or when the body pulls, effectively avoiding the defects of traditional magnetic attraction structure high temperature demagnetization and thread structure slippage failure. When it is necessary to disassemble, clean, or replace the moxibustion column, the moxibustion column cover 4 and the moxibustion column inner cylinder 5 can be separated by manually pulling to overcome the elastic friction resistance, making disassembly and assembly convenient and labor-saving.

[0034] like Figure 8 , Figure 9 As shown, the wearable assembly consists of a moxibustion tube wearable piece 14 and an elastic band 15. The moxibustion tube wearable piece 14 has a moxibustion tube assembly hole, the diameter of which is compatible with the diameter of the moxa cone cover 4, allowing the moxa cone cover 4 to pass through the moxibustion tube assembly hole. The outer diameter of the skin-adhering ring 1 is larger than the diameter of the moxibustion tube assembly hole, so that the skin-adhering ring 1 is limited and stopped inside the moxibustion tube wearable piece 14, achieving axial positioning. Under the tightening action of the elastic band 15, the moxibustion tube wearable piece 14 stably presses and adheres the skin-adhering ring 1 to the skin surface of acupoints on various parts of the human body, adapting to different circumferences of the neck, shoulders, waist, limbs, etc., without the need for hand-held fixation, enabling moxibustion therapy anytime and anywhere.

[0035] The overall usage process of this invention is simple and convenient: First, insert and fix the moxa stick 16 to be used into the pin 11-1 of the moxa stick socket 11 and ignite it. Then, align and close the moxa stick cover 4 and the inner tube 5 of the moxa stick to complete the quick snap-fit ​​assembly of the moxibustion tube. Next, pass the assembled moxibustion tube through the assembly hole of the moxibustion tube wearing piece 14 so that the skin-adhesive ring tube 1 fits the acupoint to be treated on the human body. Finally, adjust the elastic bands 15 on both sides to complete the wearing and fixation, and then you can continue to perform moxibustion therapy.

[0036] The above embodiments are only used to explain the present invention and are not intended to limit the protection of the present invention. Any non-substantial modifications made based on the essential solution of the present invention should fall within the protection scope of the present invention.

Claims

1. A flexible snap-fit ​​wearable moxibustion device, characterized in that: Includes the moxibustion tube body, smoke filter assembly, flexible snap-fit ​​assembly, and wearable assembly assembly; The main body of the moxibustion tube includes a skin-adhering ring tube (1), a dust-blocking wire mesh (2), a small-hole smoke-emitting plate (3), a moxa stick cover tube (4), an inner moxa stick tube (5), an outer moxa stick tube (6), and a moxa stick socket (11). The inner tube (5) of the moxa stick is coaxially fixedly fitted inside the outer tube (6) of the moxa stick. The moxa stick cover tube (4) is placed on the outside of the outer tube (6) of the moxa stick and is aligned with the outer tube (6). The inner wall of the moxa stick cover tube (4) is lined with an aluminum foil layer. The skin-adhering ring tube (1) is fixedly set at the other end of the moxa stick cover tube (4). The ash-blocking wire mesh (2) and the small-hole smoke-emitting plate (3) are sequentially assembled inside the moxa stick cover tube (4) and adjacent to the skin-adhering ring tube (1). The small-hole smoke-emitting plate (3) is evenly provided with small smoke-emitting holes. The moxa stick socket (11) is assembled inside the inner cylinder (5) of the moxa stick. The moxa stick socket (11) is provided with a pin (11-1) and a through hole (11-2). The pin (11-1) is used to insert and fix the moxa stick (16). The smoke filter assembly is located inside the outer cylinder (6) of the moxa stick and at the bottom of the inner cylinder (5) of the moxa stick; The inner cylinder (5) of the moxa stick has several through holes (5-1) on its wall; the elastic snap-fit ​​assembly includes an open stainless steel spring ring (12) and a pressing member (13); the stainless steel spring ring (12) is placed inside the inner cylinder (5) of the moxa stick; the pressing member (13) is integrally formed by an arc plate (13-1) and a protrusion (13-2) on the outer side of the arc plate (13-1), and at least two pressing members (13) are provided, each pressing member (13) along the stainless steel spring ring. (12) The protrusions (13-2) are evenly spaced around the perimeter and are inserted into each through hole (5-1) in a corresponding manner. The arc plates (13-1) are all located outside the stainless steel spring ring (12). The stainless steel spring ring (12) supports each pressing component (13) outward by its own elasticity, so that the protrusions (13-2) extend out of the through hole (5-1) and elastically abut against the inner wall of the moxibustion column cover (4), forming a detachable elastic snap-fit ​​assembly structure between the moxibustion column cover (4) and the moxibustion column inner cylinder (5). The wearable assembly consists of a moxibustion tube wearable piece (14) and an elastic band (15); the moxibustion tube wearable piece (14) has a moxibustion tube assembly hole, the diameter of which is compatible with the diameter of the moxa cone cover (4), and the moxa cone cover (4) can pass through the moxibustion tube assembly hole; the outer diameter of the skin-adhesive ring (1) is larger than the diameter of the moxibustion tube assembly hole, and the skin-adhesive ring (1) is limited and stopped inside the moxibustion tube wearable piece (14); under the tightening action of the elastic band (15), the moxibustion tube wearable piece (14) presses the skin-adhesive ring (1) tightly against the surface of the human skin to achieve fixation.

2. The elastic snap-fit ​​wearable moxibustion device according to claim 1, characterized in that: The smoke filtration assembly includes an inner smoke filter cloth (7), an outer smoke filter cloth (8), and a partition ring (9). The partition ring (9) is sandwiched between the inner smoke filter cloth (7) and the outer smoke filter cloth (8), and a smoke filtration cavity (10) is formed between the two smoke filter cloths.

3. The elastic snap-fit ​​wearable moxibustion device according to claim 2, characterized in that: A cross-shaped partition is integrally formed on the partition ring (9). The cross-shaped partition is supported between the inner layer of filter cloth (7) and the outer layer of filter cloth (8) to help separate the two layers of filter cloth.

4. The elastic snap-fit ​​wearable moxibustion device according to claim 1, characterized in that: The stainless steel spring ring (12) is an open elastic metal ring. The top pressing member (13) is integrally formed by an arc plate (13-1) and a protrusion (13-2) provided on the outer side of the arc plate (13-1). At least two top pressing members (13) are evenly spaced along the circumference of the stainless steel spring ring (12). The number of through holes (5-1) on the inner cylinder (5) of the moxibustion column corresponds to the number of top pressing members (13).