A needle warming moxibustion device

By incorporating a multi-functional push rod, a multi-angle adjustable support system, and an airflow control design, the shortcomings of warm acupuncture instruments in terms of temperature control, multi-angle adjustment, support stability, and safety have been resolved, resulting in more efficient, safer, and more comfortable treatment effects.

CN224357811UActive Publication Date: 2026-06-16高震

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
高震
Filing Date
2024-12-30
Publication Date
2026-06-16

AI Technical Summary

Technical Problem

Existing warm acupuncture devices have shortcomings in terms of inflexible temperature control, insufficient multi-angle adjustment, unstable support structure, low combustion efficiency, and insufficient safety, making it difficult to meet the diverse needs of patients.

Method used

It adopts a multi-functional push rod design, a multi-angle adjustable support system, a multi-hole and vent design for airflow control, and modular collaborative innovation to achieve precise temperature control, stable support, uniform combustion, and safety assurance.

Benefits of technology

It improves the temperature control flexibility, multi-angle adjustment capability, support stability and safety of warm acupuncture instruments, providing more precise, safe and comfortable treatment results.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN224357811U_ABST
    Figure CN224357811U_ABST
Patent Text Reader

Abstract

The utility model discloses a kind of needle warming apparatus, and flexible adjustment is realized by modular design, accurate temperature control, convenient and safe and reliable operation, meet the treatment needs of different patients.The apparatus includes inner and outer cylinder, push rod, mesh plate, clamping plate, clamping block, top cover, air hole, through hole and multi-angle adjustment support system and other key components.Push rod module supports multiple operation modes: clamping plate occlusal adjustment inner cylinder height, accurate temperature control and airflow;Mesh plate pushes reed ball, ensure sufficient combustion.Multi-angle adjustment support system can adjust height and angle, adapt to a variety of needle application scene and complex skin surface, optimize temperature control effect.Air hole and through hole cooperate to regulate airflow, improve combustion intensity, ensure temperature uniform and stable.Apparatus multi-module synergistic effect, solve the problem of traditional needle warming apparatus temperature control single, set multi-angle support, multidimensional temperature control and individualized treatment in one, with high adaptability, high flexibility and safe and reliable advantage.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of acupuncture instrument technology, and in particular to a warm acupuncture instrument. Background Technology

[0002] Warm acupuncture is a traditional Chinese medicine treatment method that combines acupuncture with heat therapy. It involves stimulating specific acupoints with external heat to promote blood circulation, regulate qi and blood, and alleviate symptoms and treat diseases. However, existing warm acupuncture devices have the following technical shortcomings in functional design and practical application:

[0003] 1. Inflexible temperature control: Existing devices generally use a single temperature control method, which cannot accurately adjust the temperature according to different patients' physical conditions, symptoms, or treatment sites. This can easily lead to excessively high temperatures causing burns or excessively low temperatures affecting the therapeutic effect. In addition, the temperature control and support adjustment functions are not effectively coordinated, making it difficult to meet the diverse needs of patients at the same time.

[0004] 2. Lack of multi-angle adjustment: The existing instruments are designed in a single way, making it difficult to achieve multi-angle adjustment, which limits the coverage of different body positions and treatment sites, resulting in insufficient treatment effect.

[0005] 3. Unstable support structure: On uneven surfaces or at specific needle insertion angles, existing instruments are prone to tilting or inaccurate positioning, which seriously affects the smooth progress and precision of the treatment process.

[0006] 4. Low combustion efficiency: The moxa wool balls in the existing instruments burn unevenly, resulting in low combustion efficiency and producing a lot of smoke and dust. This not only affects the therapeutic effect but may also make patients feel uncomfortable and reduce their comfort.

[0007] 5. Safety hazards exist: The temperature of the heat source in the existing equipment fluctuates greatly, and high-temperature components can easily cause burns to operators or patients. In addition, the design of the fume extraction system is inadequate, which may exacerbate patient discomfort and further affect the efficacy and safety of use. Utility Model Content

[0008] To overcome the aforementioned technical problems, this utility model proposes a multifunctional adjustable temperature acupuncture device, which addresses the shortcomings of existing devices through the following innovative design:

[0009] 1. Multifunctional Push Rod with Precise Temperature Control: This utility model push rod integrates multiple functions, significantly improving the practicality and innovation of the instrument. The push rod supports multiple switching modes: Mesh Plate Mode, where a rotating shaft connects the mesh plate at the bottom of the push rod, allowing manual or self-weight pressure on the moxa wool to ensure complete and even combustion, reducing insufficient heat and smoke accumulation; Clamping Plate Mode, where the clamping plate on the outer wall of the push rod precisely engages with the clamping block in the inner cylinder, allowing adjustment of the inner cylinder height by rotation or pushing / pulling, flexibly controlling the distance between the moxa wool and the skin, achieving multi-level temperature control to meet the needs of different patients. Simultaneously, changing the opening degree of the through holes on the outer walls of the inner and outer cylinders optimizes airflow control, further improving the combustion rate. The push rod's precise adjustment capability not only enhances combustion efficiency but also optimizes temperature control performance, significantly improving operational convenience and therapeutic effects, providing patients with a safer and more precise warm acupuncture experience, effectively overcoming the shortcomings of traditional instruments with only single temperature control.

[0010] 2. Multi-Angle Adjustable Support System and Collaborative Control Design: This invention employs a multi-angle adjustable support system composed of a high-temperature resistant universal damper and multiple support rods. This design allows for flexible adjustment of the support angle and height, adapting to different needle insertion angles and uneven surfaces, effectively improving the stability of the instrument and the treatment coverage. The support system works in conjunction with the temperature control function, precisely controlling the distance between the moxa wool and the skin by adjusting the height of the support rods, further enhancing the accuracy of temperature regulation, meeting diverse treatment needs, and ensuring safety and high efficiency.

[0011] 3. Airflow Control Design with Multiple Through-holes and Ventilation Holes: This invention features ventilation holes with filters on the top cover, along with a sliding sealing cover. Operators can optimize temperature control and smoke emission by adjusting the opening degree of the ventilation holes. Multiple through-holes are provided on the outer walls of both the inner and outer cylinders. By stretching the inner cylinder, the opening and closing degree of these through-holes can be flexibly adjusted to control airflow and heat distribution in the combustion environment. This combination of through-holes and ventilation holes significantly improves the combustion efficiency and temperature stability of the moxa wool, prevents smoke accumulation, ensures a clean combustion environment, effectively improves patient comfort during treatment, and enhances the effects of warm acupuncture therapy.

[0012] 4. Multi-module collaborative innovation: This utility model constructs a highly efficient integrated control system through the synergistic effect of a multi-functional push rod, a multi-angle adjustable support system, an inner and outer cylinder combination design, an airflow control design, and a clamping mechanism. Each module can operate independently or collaboratively, flexibly adjusting the distance between the moxa wool ball and the skin and needle, heat conduction, and combustion efficiency, thereby improving the temperature control accuracy and overall stability of the equipment.

[0013] 5. Safety Assurance and Efficient Combustion Design: This invention utilizes highly efficient heat-resistant and heat-insulating materials to prevent direct harm to operators or patients from high-temperature components. A rationally designed ventilation and heat dissipation system optimizes the combustion environment, ensuring complete combustion of the moxa wool and preventing incomplete combustion or localized overheating. Adjustable through-holes and vents further enhance combustion efficiency and smoke emission, reducing patient discomfort and ensuring the safety and comfort of treatment.

[0014] Through the above-mentioned technological innovations, this utility model has achieved comprehensive improvements in temperature control flexibility, multi-angle adjustment, support stability, applicability and safety, solved the technical problems of existing instruments, further optimized the treatment effect and patient experience, and adapted to modern clinical needs.

[0015] The beneficial effects of this utility model are as follows:

[0016] 1. Precise Temperature Control and Multifunctional Integration: This utility model achieves multifunctional integration through a push rod, supporting mode switching, inner cylinder height adjustment, and coordinated control of the moxa wool ball position and combustion conditions, allowing for flexible temperature adjustment. The perforated plate at the bottom of the push rod can be pressed down by its own weight or manually to ensure complete combustion of the moxa wool ball and stable heat. When the push rod extends the inner cylinder, it dynamically adjusts the opening and closing of the through holes on the outer walls of the inner and outer cylinders, optimizing airflow and heat distribution and improving temperature control. The locking plate and block design ensures precise adjustment of the inner cylinder height, multiple temperature settings, prevents loosening, enhances operational stability and therapeutic effect, reduces interference and discomfort during treatment, and meets personalized treatment needs.

[0017] 2. Multi-angle adjustable support system integrated with temperature control: This invention connects a multi-angle adjustable support system via a high-temperature resistant universal damper, ensuring stable use of the instrument in various angles and complex environments, and adapting to a variety of acupuncture techniques. A heat-resistant rubber friction disc enhances support, adapts to uneven surfaces, and broadens the application scenarios. The height adjustment and temperature control functions of the support system work in tandem to achieve precise control of the distance between the moxa cone and the skin, improving treatment safety and comfort.

[0018] 3. Optimized High-Efficiency Combustion and Smoke Exhaust: The adjustable multi-hole and ventilated sealing design optimizes airflow, ensuring complete combustion of the moxa wool while effectively reducing smoke emissions. The built-in filter and sealed cover further enhance environmental cleanliness, optimizing the treatment environment and providing patients with a more comfortable treatment experience.

[0019] 4. Material and structural safety: The use of heat-insulating coatings, high-strength heat-resistant composite materials, silicone coatings, and anti-slip textures on the surface significantly improves the high-temperature safety and service life of the device, prevents heat conduction injuries, and ensures the safety of patients and operators.

[0020] 5. Modular Design and Functional Synergy Optimization: The functional modules of this invention can operate independently or work together in coordination. For example, the push rod adjustment, support system, inner and outer cylinders, through holes, ventilation holes, mesh plate, and locking plate / block interlocking mechanism work together to significantly improve overall controllability. The modular design allows the device to flexibly adapt to different clinical scenarios, providing patients with efficient and safe treatment options. Attached Figure Description

[0021] Figure 1 This is a schematic diagram of the main structure of a warm needle acupuncture device proposed in this utility model;

[0022] Figure 2 This is an exploded view of the structure of a warm needle acupuncture device proposed in this utility model;

[0023] Figure 3 This is a schematic diagram of the internal structure of the inner cylinder of a warm needle acupuncture device proposed in this utility model;

[0024] Figure 4 This is a schematic diagram of the locking block structure of a warm needle acupuncture device proposed in this utility model;

[0025] Figure 5 This is a schematic diagram of the top cover structure of a warm needle acupuncture device proposed in this utility model;

[0026] Figure 6 This is a bottom view of the structure of a warm acupuncture device proposed in this utility model.

[0027] In the diagram: 1-Outer cylinder, 2-Ear handle, 3-Through hole, 4-Top cover, 5-Push rod, 6-First support rod, 7-Second support rod, 8-Rubber friction disc, 9-Needle body, 10-Mesh plate, 11-Inner cylinder, 12-Mugwort ball, 13-Ventilation hole, 14-Filter screen, 15-Clamping plate, 16-Clamping block, 17-Inner core, 18-Needle handle, 19-Guide frame, 20-Sealing cover plate. Detailed Implementation

[0028] The specific embodiments of this patent are described in detail below, examples of which are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The specific embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain this patent, and should not be construed as limiting this patent.

[0029] This invention addresses the problems of traditional warm acupuncture instruments, such as limited temperature control methods, unstable combustion efficiency, limited support, and insufficient safety. It presents an innovative instrument with a multi-angle adjustable support system, a modular collaborative structure, and a multi-dimensional temperature control mechanism. By precisely controlling the combustion of moxa wool and temperature output, the flexible multi-angle adjustable support significantly improves treatment efficiency and adapts to diverse treatment scenarios. The following is a detailed description of each component and its function:

[0030] Structural composition: This utility model includes an outer cylinder 1, an inner cylinder 11, a push rod 5, a perforated plate 10, a clamping plate 15, a clamping block 16, a top cover 4, a sealing cover 20, a vent hole 13, a through hole 3, an ear handle 2, a multi-angle adjustment support system, and other components, forming six modules. Through reasonable combination, the completeness of the equipment's functions and the stability of its structure are ensured.

[0031] The outer cylinder 1 serves as the main supporting shell of the warm acupuncture instrument, housing and protecting the internal structure while providing ventilation and heat dissipation. Multiple through-holes 3 are provided on the outer wall of the outer cylinder 1 to facilitate air circulation, allowing for adjustment of the burning rate of the moxa wool bundle 12 and dissipation of excess heat. A set of ear handles 2 is fixed to the upper middle part of the outer cylinder 1, facilitating lifting or adjustment of the instrument during use, avoiding direct contact with the high-temperature parts of the outer cylinder 1, and improving operational safety and convenience. An inner core 17 is installed on the inner wall of the bottom of the outer cylinder 1. The inner core 17 plays a crucial connecting and guiding role, accurately inserting the needle handle 18, allowing the needle handle 18 to penetrate the outer cylinder 1 and inner cylinder 11 and be positioned within the inner cylinder 11. The needle handle 18 is surrounded by the moxa wool bundle 12, and the heat generated by its combustion is directed to the patient's acupoints through the needle body 9, achieving precise warm acupuncture therapeutic effects.

[0032] The inner cylinder 11 is the core component for loading the moxa wool bundle 12. It is inserted into the outer cylinder 1, and both the inner and outer cylinders have through holes 3 on their outer walls. When the inner cylinder 11 slides axially along the outer cylinder 1, the opening and closing degree of the through holes 3 can be adjusted, thereby regulating the airflow and the burning speed of the moxa wool bundle 12, thus precisely controlling the treatment temperature. The inner wall of the inner cylinder 11 is provided with multiple locking blocks 16, which cooperate with the locking plate 15 on the push rod 5, allowing the operator to adjust the distance between the moxa wool bundle 12 and the needle body 9 and the patient's skin to meet different treatment needs.

[0033] In addition, the top of the inner cylinder 11 is equipped with a top cover 4 to cover the moxa wool ball 12. The top cover 4 is designed with a round hole and a push rod 5 is slidably connected to it. The bottom of the push rod 5 is connected to a perforated plate 10 by a rotary pull, which can both compress the moxa wool ball 12 by its own weight and manually adjust its position to optimize the burning effect of the moxa wool ball 12. The top cover 4 is also provided with a vent hole 13, which can be opened and closed by the guide frame 19 and the sealing cover plate 20 to adjust the ventilation area, further precisely controlling the burning rate of the moxa wool and the temperature of the needle body 9. The outer wall of the top cover 4 is provided with a high-temperature resistant silicone ring.

[0034] The push rod module 5 is the core design of this utility model, integrating efficient combustion control, precise temperature control, airflow regulation, and multi-functional operation, comprehensively improving the performance and applicability of the warm acupuncture device, specifically in the following aspects:

[0035] Mesh plate mode: The bottom of the push rod 5 is connected to the mesh plate 10 by a rotating shaft. The diameter of the mesh plate 10 is slightly smaller than the inner diameter of the inner cylinder 11 to ensure the accuracy of pushing the moxa wool ball 12.

[0036] Precise pushing: The push rod 5 is linked with the mesh plate 10, and the moxa wool ball 12 is pushed by its own weight or manually to ensure complete and even combustion.

[0037] Improved combustion efficiency: Concentrated and stable firepower effectively avoids incomplete combustion and enhances treatment efficacy.

[0038] Stable heat output: The perforated plate 10 blocks external interference, ensuring uniform heat output and providing reliable protection for treatment.

[0039] Clamping mode: The clamping plate 15 fixed on the outer wall of the push rod 5 engages with the clamping block 16 on the inner wall of the inner cylinder 11, and the distance between the moxa wool ball 12, the needle body 9 and the skin can be flexibly controlled by adjusting the height.

[0040] Temperature control: By combining the opening and closing of the top vent 13 and the outer wall through hole 3, multiple temperature settings can be adjusted to achieve precise temperature control.

[0041] Easy to operate: The distance can be adjusted by pushing up or down or pulling the push rod 5, which can flexibly adapt to high temperature treatment (closer to the skin) or low temperature treatment (increased distance) to meet diverse needs.

[0042] Safety Guarantee: Effectively avoids the treatment risks of excessively high or low temperatures, providing patients with a safe moxibustion experience.

[0043] In the clamping mode, the push rod 5 changes the opening degree of the through hole 3 on the outer wall of the inner and outer cylinders by stretching the height of the inner cylinder 11, and combines with the top vent hole 13 to achieve precise airflow control.

[0044] Improved combustion efficiency: Airflow regulation can optimize the combustion rate of the moxa wool ball 12;

[0045] Uniform heat distribution: reduces smoke and dust accumulation, and improves treatment comfort.

[0046] The push rod 5 supports multiple operating modes, including pushing, pulling, rotating and twisting, to flexibly adapt to different moxibustion scenarios.

[0047] Manual operation: Suitable for personalized treatment, allowing for precise adjustment of combustion position, temperature control, and airflow control.

[0048] Self-weight pressing: Switch to self-weight mode by twisting, which can be used to apply moxibustion efficiently, especially when applying moxibustion to a large area, and significantly reduce the burden on the operator.

[0049] Synergistic effect: Manual mode and gravity mode can be used together to meet complex treatment needs and improve ease of operation.

[0050] Through comprehensive optimization of the multi-functional design of the push rod 5, this invention achieves technological breakthroughs in efficient, flexible, and precise control of moxa burning, airflow regulation, and temperature adjustment. The push rod 5 module not only enhances the clinical adaptability of warm acupuncture instruments but also significantly improves ease of use, becoming a key technological module for meeting the needs of different patients and optimizing treatment outcomes.

[0051] This utility model's multi-angle adjustable support system module consists of a first support rod 6, a second support rod 7, a heat-resistant rubber friction disc 8, and support components, providing technical support for the stability, flexibility, and multifunctionality of the equipment. This system not only ensures the stability of the instrument during treatment but also achieves more precise heat control through angle and height adjustments.

[0052] The support system adopts a three-leg design, each leg including a first support rod 6, a second support rod 7, and a heat-resistant rubber friction disc 8. The first support rod 6 is connected to the outer cylinder 1, the first support rod 6 and the second support rod 7, and the second support rod 7 and the heat-resistant rubber friction disc 8 by a high-temperature resistant universal damper, which has the characteristics of free adjustment of height and angle.

[0053] Multi-angle bending: The support system can flexibly adjust the tilt angle of the instrument according to different patient positions and treatment sites, adapting to various acupuncture techniques and patient positions.

[0054] Height adjustment: The first support rod 6 and the second support rod 7 can be bent and adjusted at multiple angles, making the distance between the device and the skin flexible and variable, thereby precisely controlling the concentration and intensity of heat.

[0055] Multi-angle adjustable support systems play an important role in temperature regulation:

[0056] High-temperature therapy: The first support rod 6 and the second support rod 7 are adjusted to be close to the skin to concentrate the heat, which is suitable for deep acupoint treatment.

[0057] Low temperature therapy: By adjusting the first support rod 6 and the second support rod 7 to keep the instrument away from the skin, heat is evenly distributed, which is suitable for gentle treatment or conditioning of sensitive areas.

[0058] Dynamic adjustment: By combining the opening and closing of the through holes 3 on the outer walls of the inner and outer cylinders and the vent holes 13 on the top cover, the support system provides multi-level temperature management to achieve precise and real-time heat output.

[0059] Heat-resistant rubber friction disc 8: The surface is set with anti-slip texture to increase friction, ensure the stability of the equipment during operation, and prevent slippage.

[0060] Heat-resistant coating and heat-resistant materials: The support rod is made of heat-resistant coating and heat-resistant composite material, which effectively resists high temperature environment and ensures stability and safety for long-term use.

[0061] The multi-angle adjustable support system achieves multiple technological benefits through optimized structure and materials:

[0062] Highly adaptable: It can meet the needs of different body positions, acupuncture angles and treatment environments, and fully realize personalized treatment.

[0063] Precise temperature control: Working in conjunction with the adjustment functions of push rod 5, vent hole 13, and through hole 3, it provides a comprehensive temperature regulation solution.

[0064] Safe and reliable: Multiple design features ensure the stability and safety of the equipment in high-temperature environments, reducing the risk of accidents.

[0065] The airflow control system module of this utility model provides a guarantee for temperature regulation and environmental cleanliness through the coordinated design of the through holes 3 on the outer walls of the inner and outer cylinders, the vent holes 13 on the top cover, the filter screen 14, the guide frame 19, and the sealing cover plate 20.

[0066] The overlapping area of ​​the through holes 3 on the outer walls of the inner and outer cylinders can be changed by adjusting the height of the inner cylinder 11, thereby controlling the air flow and precisely managing the oxygen supply and heat dissipation of the burning moxa bundle 12.

[0067] Increased overlap area: enhances air circulation, making it suitable for low-temperature treatment.

[0068] Reduced overlap area: maintains concentrated heat, suitable for high-temperature treatment.

[0069] The vent 13 on the top cover, combined with the filter screen 14, ensures clean airflow while adjusting the size of the vent 13 through the guide frame 19 and the sealing cover plate 20, further optimizing the internal airflow and adapting to different temperature requirements.

[0070] Small opening: concentrates heat;

[0071] Large opening: for heat dissipation and cooling.

[0072] The airflow control system provides a stable oxygen supply for the combustion of the moxa wool ball 12, and ensures the stability, efficiency and environmental friendliness of the warm acupuncture device by precisely controlling the combustion rate and heat distribution.

[0073] The mugwort combustion system module is the core heat source module of this utility model. Through high-efficiency combustion technology and multi-module collaborative design, it achieves precise unity of combustion efficiency and temperature control.

[0074] Optimized perforated plate: The perforated plate 10 is made of high-temperature resistant material and has a precision aperture design. It can be pushed by its own weight or manually to optimize oxygen supply, improve the combustion efficiency of the moxa wool ball 12, prevent the splashing of combustion residue and reduce the diffusion of smoke and dust, and improve the safety of the equipment and the cleanliness of the environment.

[0075] Airflow control: By adjusting the opening and overlapping area of ​​the vent 13 and the through holes 3 on the outer walls of the inner and outer cylinders, the oxygen supply and heat distribution are precisely controlled, thereby enhancing the combustion effect.

[0076] Sealing design: The sealing cover plate 20 works in conjunction with the guide frame 19 to dynamically adjust the opening and closing of the vent 13, ensuring a stable combustion environment, preventing heat and oxygen loss, and ensuring efficient combustion.

[0077] The wormwood combustion system, through its coordinated operation with push rod 5, airflow control system, and multi-angle adjustment support system, forms a closed-loop control mechanism, ensuring precise temperature control and efficient combustion.

[0078] Push lever adjustment: Adjust the position of the moxa wool ball 12 by moving it up and down to precisely control the concentration or dispersion of heat.

[0079] Airflow regulation: The regulation of vent 13 and through hole 3 further optimizes oxygen supply and heat output, ensuring temperature stability.

[0080] Multi-angle adjustable support system: By adjusting the height and angle, it can flexibly adapt to different treatment needs and further enhance temperature control capabilities.

[0081] The synergistic effect of the moxa burning system with other components not only improves combustion efficiency but also optimizes temperature control accuracy and safety, providing patients with personalized and safe treatment options.

[0082] All key components of this invention are designed using safe, durable, and environmentally friendly materials to ensure safe use and stable function in high-temperature environments. The materials selected for each component are as follows:

[0083] Inner core 17: Made of flexible, high-temperature resistant material, it fits tightly with the needle handle 18 to ensure that it does not deform or age during long-term use.

[0084] Vent hole 13 and sealing cover plate 20: Made of high temperature resistant silicone material, it has excellent sealing performance, effectively preventing heat and dust leakage and ensuring a clean treatment environment.

[0085] Top cover 4 sealing rings: made of high temperature resistant silicone material to ensure excellent sealing performance and prevent heat loss.

[0086] Mesh plate 10: Made of high-strength heat-resistant material to ensure sufficient strength and durability during the pressing of the moxa wool ball 12, while also being resistant to high temperatures and not easily oxidized or deformed.

[0087] Ear handle 2: Covered with a high-temperature resistant silicone anti-slip coating to ensure that it will not deform during high-temperature operation, making it convenient for operators to hold and operate, while improving the overall durability of the instrument.

[0088] Multi-angle adjustable support system: The first support rod 6 and the second support rod 7 are made of heat-resistant composite materials and heat-insulating coating design. The surface of the heat-resistant rubber friction disc 8 is set with anti-slip texture to ensure safety and stability at high temperatures.

[0089] These materials are carefully selected and rationally distributed, which not only ensures the long-term safe use of this device in various treatment scenarios, but also improves its overall functionality and durability, ensuring its efficient operation under high temperature and high load conditions.

[0090] The modular design of this invention not only emphasizes the independence of each component's function but also focuses on the synergistic cooperation between modules. Through the organic integration of modules such as the inner and outer cylinder combination, push rod 5, airflow control system, multi-angle adjustable support system, moxa burning system, and material and safety features, a complete and flexible treatment system is formed. The close linkage between these modules ensures the device's high efficiency and adaptability under various treatment conditions.

[0091] The structural adjustment function of the inner and outer cylinders, together with the precise control mechanism of the push rod 5, enables dynamic adjustment of the position, burning rate, and airflow control of the moxa wool ball 12, providing a foundation for temperature control. The airflow control system adjusts the combustion environment and heat distribution through the precise opening and closing of the through hole 3 and the ventilation hole 13, making temperature adjustment more flexible. The combination of the multi-angle adjustment support system and the main body of the equipment not only ensures the stability of the equipment but also enables it to adapt to various needle angles and treatment sites, and synergistically optimizes temperature control. The moxa wool combustion system ensures stable heat output through optimized ventilation structure and combustion conditions, further improving the treatment effect.

[0092] This modular and collaborative design allows the device to be quickly adjusted according to the individual needs of patients, providing them with precise, safe, and efficient treatment options while adapting to diverse clinical application requirements.

[0093] Detailed operating procedures:

[0094] During treatment, the operator can flexibly adjust the instrument settings according to the patient's actual needs through the following steps to ensure treatment effectiveness and safety:

[0095] Pulley Operation Modes: Pulley 5 is designed with multiple operation modes, which can be flexibly adjusted according to needs:

[0096] (1) Carding mode: Rotate the push rod 5 until the carding plate 15 is engaged with the carding block 16 on the inner wall of the inner cylinder 11. Adjust the height of the inner cylinder 11 by pulling the push rod 5 up and down, change the distance between the moxa wool ball 12 and the patient's skin, and achieve temperature control.

[0097] When the push rod 5 is pulled upward, the moxa ball 12 moves away from the skin, which is suitable for gentle treatment; when it is pushed downward, the moxa ball 12 moves closer to the skin, which is suitable for concentrated heat treatment.

[0098] (2) Mesh plate mode: Rotate the push rod 5 to connect the mesh plate 10, manually or by its own weight push the mesh plate 10 to adjust the position of the moxa wool ball 12 to ensure complete and stable combustion.

[0099] When the locking plate 15 and the locking block 16 are locked, the height remains stable; if the locking plate 15 and the locking block 16 are separated, the push rod will push the moxa wool ball 12 to burn under its own weight under the action of gravity, so as to meet the needs of continuous treatment.

[0100] 2. Regulating airflow balance (the vents and through holes work together):

[0101] Operating method: Slide the sealing cover plate 20 to adjust the opening area of ​​the vent hole 13 on the top cover 4, and at the same time optimize the airflow distribution through the through holes 3 on the outer walls of the inner and outer cylinders to achieve precise temperature control.

[0102] (1) Vent hole 13: Adjusts the flow rate of external air into the combustion chamber, which directly affects the combustion intensity;

[0103] (2) Through hole 3: balances air flow, promotes uniform heat distribution, and improves heat dissipation efficiency.

[0104] High-temperature treatment: reduce the opening of the vent 13 to increase the concentration of combustion; the inner cylinder 11 overlaps with the through hole 3 of the outer cylinder 1 to improve heat conduction.

[0105] Gentle diffusion: Enlarge the opening of the vent 13 and the through hole 3 to assist in heat dissipation, so that the heat is evenly distributed.

[0106] Operating method: By adjusting the height and angle of the first support rod 6, the second support rod 7, and the heat-resistant rubber friction disc 8, it can flexibly adapt to different needling requirements and patient surface characteristics.

[0107] (1) Multi-angle support: Through the universal joint adjustment support system, the device can stably fit the patient's skin at different angles and heights, adapt to complex human body surfaces, and expand the scope of application.

[0108] (2) Stable support: The damper ensures that the instrument does not slip during treatment. The heat-resistant rubber friction disc 8 has anti-slip texture on the surface, providing reliable support and ensuring the stability of the instrument.

[0109] (3) Temperature regulation synergistic effect: By adjusting the support height, combined with the push rod 5 and the airflow control system, the distance between the moxa ball 12 and the skin is further optimized to achieve precise temperature control and adapt to a variety of treatment scenarios.

[0110] Comprehensive adjustment method: Operators can use push rod 5, vent 13, through hole 3 and multi-angle adjustment support system in combination to ensure uniform treatment temperature, complete combustion and stable operation of the device through multi-level dynamic adjustment, providing patients with a more personalized and flexible treatment experience.

[0111] To provide a more intuitive understanding of the application of this patented technology, the following is a specific operational demonstration of this utility model in treatment:

[0112] Before using this appliance, the operator must complete the following steps:

[0113] Insert an appropriate amount of high-quality moxa wool 12 into the inner cylinder 11, and confirm that the moxa wool 12 is centered and the push rod 5 moves smoothly.

[0114] Securely attach the inner and outer cylinders of the instrument to the needle handle 18 after acupuncture.

[0115] Technical advantages: Through precise structural design, it is easy to operate and securely fixed, avoiding the problem of loosening caused by traditional manual fixing methods.

[0116] Adjust the multi-angle support system according to the patient's acupuncture site, angle, body shape, and symptom requirements:

[0117] Adjust the support angle and height to maintain an appropriate distance between the instrument and the needle body 9 and the skin surface to achieve stable support.

[0118] Technical advantages: It can flexibly adapt to complex human body surfaces and different needle insertion angles, optimize the contact state between the instrument and the patient's body surface, and enhance treatment adaptability.

[0119] After lighting the moxa ball, cover it with the top cover 4 and adjust the temperature initially using the following method:

[0120] (1) Card plate engagement mode: Rotate the push rod 5 until the card plate 15 is tightly engaged with the card block 16 on the inner wall of the inner cylinder 11. Adjust the distance between the moxa wool ball 12 and the skin by manually stretching or compressing the push rod 5 to complete the initial temperature adjustment.

[0121] (2) Mesh plate mode: Rotate the push rod 5 to the position of the mesh plate 10, and manually or by its own weight push the mesh plate 10 to adjust the moxa ball 12 to the best position for burning, so as to ensure complete combustion.

[0122] Airflow regulation: The sliding sealing cover 20 adjusts the opening area of ​​the vent 13, and combined with the through holes 3 on the outer walls of the inner and outer cylinders, optimizes airflow control to achieve precise temperature regulation.

[0123] During adjustment, the ear stem 2 provides an auxiliary grip function, which facilitates stable operation and prevents burns.

[0124] Technical advantages: The dual adjustment of the push rod and airflow makes temperature regulation more flexible and precise, adapting to personalized treatment needs.

[0125] During the treatment, the operator makes adjustments in real time based on the patient's feedback:

[0126] If a higher temperature is required, push rod 5 downwards to bring the moxa wool ball 12 closer to the skin, or reduce the opening area of ​​the vent hole 13.

[0127] To lower the temperature: stretch the push rod 5 away from the skin surface, or increase the opening area of ​​the vent 13.

[0128] Support system adjustment: Adjust the angle and height of the support system when necessary to keep the equipment in optimal condition.

[0129] Technical advantages: Multi-level adjustment ensures stable operation of the device, uniform temperature, and continuous and stable treatment effect.

[0130] After completion, the operator can safely retrieve the instrument using the handle 2, avoiding direct contact with high-temperature components to prevent burns. The detachable design also facilitates the removal of burnt moxa residue, allowing for cleaning of the inner and outer cylinders and push rod 5, ensuring safety and hygiene for the next use.

[0131] Technical advantages: The handle improves ease of operation and prevents burns; the appliance is easy to clean and has a longer service life.

[0132] The above treatment demonstrations showcase the technical advantages of this invention in terms of adjustment flexibility, temperature precision, and ease of operation. The innovative support system and airflow regulation design, combined with the practical push rod function, significantly improve the efficiency and therapeutic effect of clinical operations, providing a safer and more reliable modern solution for traditional warm acupuncture therapy.

[0133] This utility model of a warm acupuncture device, through innovative design, organically combines traditional acupuncture therapy with modern warm moxibustion technology, achieving safe, convenient, and precise treatment results. Its working principle is as follows:

[0134] The inner cylinder 11 of the device contains a high-quality moxa wool ball 12, which generates stable heat when lit.

[0135] Heat is transferred directly from the moxa wool ball 12 to the needle handle 18 of the inner cylinder 11, and then the needle body 9 is heated evenly through the heat conduction of the needle handle 18.

[0136] The needle body 9 delivers heat deep into the acupoints of the human body, activating the meridians, promoting blood circulation, and achieving therapeutic effects.

[0137] Principle and advantages: High heat transfer efficiency, deep action, and enhanced effects of acupuncture therapy.

[0138] The appliance achieves precise temperature control through the coordinated action of push rod 5, airflow regulation, and support system.

[0139] Push rod adjustment: Push rod 5 can switch between the clamping mode of plate 15 and the mesh plate mode of plate 10. In the clamping mode of plate 15, the heat intensity can be controlled by adjusting the distance between the moxa wool ball 12 and the patient's skin; in the mesh plate mode, the moxa wool ball 12 can be manually or by its own weight pushed to ensure that it burns completely.

[0140] Airflow optimization: The combination of the vent 13 with the through holes 3 on the outer walls of the inner and outer cylinders and the sealing cover 20 regulates the airflow, changes the airflow speed and distribution, and achieves precise control over the burning intensity of the moxa wool.

[0141] Support system assistance: The multi-angle adjustable support system changes the relative position of the moxa wool ball 12 and the human body surface by adjusting the height and angle, further optimizing the heat transfer effect.

[0142] Principle and advantages: The multi-dimensional temperature control mechanism meets the needs of different patients and treatment scenarios, ensuring uniform heat and stable temperature, which is the core innovation of this utility model.

[0143] The multi-angle adjustable support system consists of a first support rod 6, a second support rod 7, a heat-resistant rubber friction disc 8, and a high-temperature resistant universal damper. Its main functions are support and auxiliary temperature control.

[0144] The system adjusts the opening and closing angle of the support rod through a high-temperature resistant universal damper, and provides reliable support in combination with a heat-resistant rubber friction disc 8, ensuring that the appliance is stable and does not slip during use.

[0145] The multi-angle support structure adapts to different areas of the patient's body surface.

[0146] The height adjustment function of the support system, by adjusting the relative distance between the moxa wool ball 12 and the skin, works in conjunction with the push rod 5 and the airflow regulation system composed of through holes 3, vents 13 and sealing cover 20 to precisely control heat distribution and temperature. This function provides personalized treatment according to the different comfort needs of patients.

[0147] Advantages of the principle: The multi-angle adjustable support system not only plays an important role in supporting stability, but also improves temperature control accuracy and adaptability by flexibly adjusting the height and angle, which is the core innovation of this utility model.

[0148] This appliance enhances safety and ease of use through several design improvements:

[0149] Ear handle design: When adjusting the push rod 5 and picking up the tool, the ear handle 2 provides the operator with a stable grip and avoids burns caused by high temperature.

[0150] Heat-insulating materials and sealing structure: The top cover 4 and push rod 5 are made of heat-insulating and heat-resistant materials to prevent heat leakage; the sealing cover plate 20 slides to adjust the opening area of ​​the vent hole 13, effectively controlling heat dissipation and ensuring temperature stability.

[0151] Stable support: The damper design and surface anti-slip texture provide stable support, prevent the appliance from slipping, ensure close contact with the human body surface, and improve safety during use.

[0152] Advantages: The humanized design enhances safety and efficiency, providing a comfortable experience for operators and patients.

[0153] When the moxa wool ball 12 burns in the inner cylinder 11, the appliance is designed to ensure combustion efficiency through the following means:

[0154] Overlapping and closable through-hole design: The through-holes 3 of the inner and outer cylinders can be adjusted in height to change their opening and closing, precisely controlling airflow and combustion environment, and supporting the complete combustion of the moxa wool ball;

[0155] Push rod pressing: Push rod 5 presses the moxa wool ball 12 manually or by its own weight to ensure that it is always in the best burning state;

[0156] Top cover, vents and sealing plate: The top cover 4, vents 13 and sealing plate 20 work together to flexibly adjust the airflow and heat output, optimize the combustion rate, and at the same time avoid the accumulation of smoke and dust, thereby improving the safety and comfort of treatment.

[0157] Principle and advantages: Multi-level airflow management ensures complete combustion and generates stable heat, avoiding the problems of uneven heat and incomplete combustion in traditional moxibustion, and improving combustion efficiency and temperature control accuracy.

[0158] In summary, this patented warm acupuncture device, through its ingenious design and multi-functional adjustment system, combines traditional therapies with modern technology to create a treatment platform that is precise, flexible, and safe. Its innovation lies in overcoming the limitations of traditional warm moxibustion therapy, providing a more efficient and humane treatment solution, and possessing broad application prospects.

[0159] The above description is only a preferred embodiment of the present utility model, but the protection scope of the present utility model is not limited thereto. Any equivalent substitutions or changes made by those skilled in the art within the technical scope disclosed in the present utility model, based on the technical solution and the inventive concept of the present utility model, should be included within the protection scope of the present utility model.

Claims

1. A warm needle acupuncture device, comprising an outer cylinder (1), characterized in that: The bottom outer wall of the outer cylinder (1) is connected to a multi-angle adjustable support system. The multi-angle adjustable support system includes a first support rod (6), a second support rod (7), a heat-resistant rubber friction disc (8), and a support assembly disposed between the first support rod (6) and the outer cylinder (1), between the first support rod (6) and the second support rod (7), and between the second support rod (7) and the heat-resistant rubber friction disc (8). The support assembly consists of a high-temperature resistant universal damper; The inner wall of the bottom of the outer cylinder (1) is provided with an inner core (17), the inner cylinder (11) is inserted into the inner wall of the outer cylinder (1), the top cover (4) is inserted into the top of the inner cylinder (11), the inner core (17) is sleeved with the needle handle (18) after the needle is applied, so that the needle handle (18) enters the inner cylinder (11) through the inner core (17) and is wrapped by the moxa wool ball (12) inside the inner cylinder (11); The top cover (4) has a round hole at the top, and a push rod (5) is slidably connected inside the round hole. The bottom of the push rod (5) is connected to the mesh plate (10) by a rotating shaft. A card plate (15) is fixed on the outer wall of the push rod (5), and multiple card blocks (16) are fixed on the inner wall of the inner cylinder (11).

2. The warm needling acupuncture device according to claim 1, characterized in that: The first support rod (6) and the second support rod (7) are made of high-strength heat-resistant composite material and have a heat-insulating coating on their outer surface.

3. The warm needling acupuncture device according to claim 1, characterized in that: The surface of the heat-resistant rubber friction disc (8) is provided with anti-slip texture.

4. The warm needling acupuncture device according to claim 1, characterized in that: The perforated plate (10) is connected to the push rod (5) by a rotating shaft. The diameter of the perforated plate is smaller than the inner diameter of the inner cylinder (11). The perforated plate (10) is made of high-strength heat-resistant material.

5. A warm needling acupuncture device according to claim 1, characterized in that: The inner core (17) is made of a high-temperature resistant flexible material.

6. The warm needling acupuncture device according to claim 1, characterized in that: The top cover (4) is provided with a vent hole (13) and a filter screen (14) is fixed inside the vent hole (13).

7. A warm needling acupuncture device according to claim 6, characterized in that: The top cover (4) is slidably connected to a sealing cover plate (20) via a guide frame (19), and the sealing cover plate (20) is made of high-temperature resistant silicone material.

8. A warm needling acupuncture device according to claim 6, characterized in that: The outer walls of the inner cylinder (11) and the outer cylinder (1) are respectively provided with multiple through holes (3).

9. A warm needling acupuncture device according to claim 8, characterized in that: The outer cylinder (1) is fixed with an ear handle (2) at the upper part of the middle, and the outer wall of the ear handle (2) is covered with a high-temperature resistant silicone anti-slip coating.

10. A warm needling acupuncture device according to claim 7, characterized in that: The outer wall of the top cover (4) is provided with a high-temperature resistant silicone ring.