A fire pot device
The design of the detachable connection between the jar body and the jar opening component solves the efficiency problem of changing treatment sites and techniques in the fire dragon cupping device. It achieves the effects of quick replacement and preventing the spillage of moxa ash and slippage, thereby improving the working efficiency of fire dragon cupping therapy.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 长沙市中医医院(长沙市第八医院)
- Filing Date
- 2025-04-18
- Publication Date
- 2026-07-10
Smart Images

Figure CN224474589U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of traditional Chinese medicine physiotherapy equipment technology, specifically to a fire dragon cupping device. Background Technology
[0002] The Fire Dragon Cupping Jar is an innovative TCM therapeutic instrument that integrates the advantages of various TCM therapies such as moxibustion, scraping, and massage. It mainly consists of a jar body and a jar opening. The jar body is generally a hollow sphere with an opening on the side, and the jar opening is located at the opening of the jar body. When using the Fire Dragon Cupping Jar, moxa sticks burn inside the jar, and the heat and smoke generated act on the skin through the opening, achieving the warm stimulation effect of moxibustion. The special structural design of the jar opening allows for better control of heat release and makes the jar slide more smoothly on the skin. Simultaneously, medical personnel can use the jar opening to perform massage techniques such as pressing, rolling, pushing, kneading, shaking, flashing, vibrating, tapping, and scalding to achieve therapeutic effects. Furthermore, the Fire Dragon Cupping Jars can be distinguished by different jar opening structures (such as petal-shaped, Buddha's hand-shaped, claw-shaped, etc.), with different opening structures corresponding to different treatment areas and / or enabling different treatment techniques.
[0003] During a complete cupping therapy session, different areas and / or different techniques often need to be treated, requiring the use of cups with different structures. However, currently commonly used cupping jars have a non-removable, one-piece structure for both the jar body and the cup opening. This necessitates replacing the entire jar body and opening, and then reinserting and igniting the moxa stick before continuing the treatment. This increases the number of steps and workload for medical staff, prolongs treatment time, and reduces work efficiency. Utility Model Content
[0004] The purpose of this invention is to solve the problems mentioned above and to provide a fire dragon cupping device with a detachable connection between the cupping body and the cupping opening. It is equipped with multiple cupping openings for different parts of the body and / or for different treatment methods. Medical staff can select the corresponding cupping opening for treatment according to different parts of the body and / or different treatment purposes.
[0005] The technical solution of this utility model is as follows: A fire dragon cupping device includes a cupping body assembly and multiple cupping mouth assemblies; the cupping body assembly is a hollow structure and has an opening on its side, and a cupping connecting cylinder is fixedly provided at the edge of the opening; the cupping mouth assembly includes a cupping mouth connecting cylinder and a push-pressing component fixedly installed at the bottom of the cupping mouth connecting cylinder, each of the cupping mouth assemblies has a push-pressing component with a different structure, and the push-pressing component acts on a target area on the patient's body surface.
[0006] An external thread is provided on the outer side of the tank body connecting cylinder, and an internal thread is provided on the inner side of the tank opening connecting cylinder. The tank body assembly and multiple tank opening assemblies can be detachably threadedly connected to the tank opening connecting cylinder via the tank body connecting cylinder and the tank opening connecting cylinder.
[0007] Furthermore, the can opening assembly includes a first can opening assembly, which includes a first can opening connecting cylinder and a first push ring fixedly installed at the bottom of the first can opening connecting cylinder. The first can opening connecting cylinder is a cylindrical structure, and a first internal thread capable of being threaded with an external thread is provided on the inner side of the first can opening connecting cylinder. The first push ring is a cylindrical structure with a tapered shape, and the diameter of its bottom is larger than the diameter of its top. Multiple first arc-shaped grooves are arrayed on the bottom edge of the first push ring, and a first protrusion is formed between two adjacent first arc-shaped grooves. The first arc-shaped grooves and the first protrusions are smoothly transitioned.
[0008] Furthermore, the can opening assembly includes a second can opening assembly, which includes a second can opening connecting cylinder and a second push ring fixedly installed at the bottom of the second can opening connecting cylinder. The second can opening connecting cylinder is a cylindrical structure, and a second internal thread capable of being threaded with an external thread is provided on the inner side of the second can opening connecting cylinder. The second push ring is a cylindrical structure with a tapered shape, and the diameter of its bottom is larger than the diameter of its top. Multiple second arc-shaped grooves are arrayed on the bottom edge of the second push ring, and a second protrusion is formed between two adjacent second arc-shaped grooves. The second arc-shaped grooves and the second protrusions are smoothly transitioned.
[0009] The degree of concavity and convexity between the first arc-shaped groove and the first protrusion is greater than that between the second arc-shaped groove and the second protrusion.
[0010] Furthermore, the can opening assembly includes a third can opening assembly, which includes a third can opening connecting cylinder and a push claw fixedly installed at the bottom of the third can opening connecting cylinder. The third can opening connecting cylinder is a cylindrical structure, and its bottom surface is closed by a bottom plate. A third internal thread capable of being threaded with an external thread is provided on the inner side of the third can opening connecting cylinder.
[0011] The push-press claw includes massage fingers and acupressure fingers. Multiple massage fingers are fixedly arranged in an array on the bottom surface of the base plate. The outer end of the massage fingers is a rounded end. At least one acupressure finger is provided. One end of the acupressure finger is fixedly connected to the massage finger, and the other end extends horizontally. Multiple ventilation holes are provided on the base plate.
[0012] Furthermore, both the massage finger and the acupressure finger are hollow structures, with an opening on the base plate that communicates with the inner cavity of the massage finger, and the inner cavity of the acupressure finger is connected to the inner cavity of the massage finger connected to the acupressure finger; ventilation holes are provided on the side of the massage finger and / or the acupressure finger.
[0013] Furthermore, the tank assembly includes a spherical tank, a tank connecting cylinder, and a heat insulation layer. The spherical tank has a hollow spherical structure, the opening is opened on the side of the spherical tank, the tank connecting cylinder is fixedly installed on the edge of the opening on the spherical tank, the heat insulation layer covers the outside of the spherical tank, and multiple anti-slip textures are provided on the outside of the heat insulation layer.
[0014] At least one pin is fixed inside the spherical container, with the tip of the pin facing the opening, and the pin is used to fix the moxa stick.
[0015] Furthermore, the fire dragon can device also includes a dust-blocking assembly, which includes an installation ring, a dust-blocking mesh, and a snap-fit plate. The dust-blocking mesh is fixedly installed on the top surface of the installation ring, and a plurality of snap-fit plates are fixedly installed in an array on the top surface of the installation ring. The snap-fit plate is elastic and includes an extended straight plate portion fixedly connected to the installation ring and a bent portion fixedly connected to the top end of the extended straight plate portion. The bent portion bends away from the dust-blocking mesh.
[0016] A first snap-fit ring is fixedly provided at the bottom of the first can opening connecting cylinder, and a second snap-fit ring is fixedly provided at the bottom of the second can opening connecting cylinder. The bent part of the snap-fit plate can be matched and snapped with the first snap-fit ring and the second snap-fit ring.
[0017] Furthermore, the dust-blocking net includes a side net and a top net. The bottom end of the side net is fixedly connected to the top surface of the mounting ring and extends in a direction away from the mounting ring. The edge of the top net is fixedly connected to the top end of the side net.
[0018] Furthermore, the fire dragon can device also includes an anti-drop component, which includes a first collar, a connecting strap, and a second collar. The two ends of the connecting strap are respectively fixedly connected to the first collar and the second collar. The first collar is sleeved on the outside of the can body connecting cylinder or the can mouth connecting cylinder and can rotate around the can body connecting cylinder or the can mouth connecting cylinder. The second collar is used to be sleeved on the arm of medical personnel.
[0019] The fire dragon cupping device of this utility model, through a detachably connected cupping body assembly and multiple cupping opening assemblies, allows for quick replacement of the corresponding cupping opening assembly during a complete fire dragon cupping therapy session, based on different body parts and / or different treatment objectives. This enables a single fire dragon cupping device to treat multiple body parts and / or achieve multiple treatment objectives, thus reducing the operational steps and workload for medical staff, shortening treatment time, and improving work efficiency. An ash-blocking component prevents moxa ash from spilling or burning the patient. An anti-drop component prevents the fire dragon cupping device from being dropped by medical staff during the therapy. Attached Figure Description
[0020] Appendix Figure 1 This is a three-dimensional structural diagram of the fire dragon can device in Embodiment 1 of this patent.
[0021] Appendix Figure 2 This is a three-dimensional structural diagram of the fire dragon can device in Embodiment 2 of this patent.
[0022] Appendix Figure 3 This is a three-dimensional structural diagram of the fire dragon can device in Embodiment 3 of this patent.
[0023] Appendix Figure 4 This is a three-dimensional structural diagram of the tank component 1 in this patent.
[0024] Appendix Figure 5 This is a three-dimensional structural diagram of the first can opening component 2 in this patent.
[0025] Appendix Figure 6 This is a three-dimensional structural diagram of the second can opening component 5 in this patent.
[0026] Appendix Figure 7 This is a three-dimensional structural diagram of the third can opening component 6 in this patent.
[0027] Appendix Figure 8 This is a three-dimensional structural diagram of the dust-blocking component 3 in this patent.
[0028] Appendix Figure 9 This is a three-dimensional structural diagram of the anti-fall component 4 in this patent.
[0029] The reference numerals in the attached drawings are explained as follows: Tank assembly 1, spherical tank 11, tank connecting cylinder 12, external thread 121, heat insulation layer 13, pin 14, first tank opening assembly 2, first tank opening connecting cylinder 21, first internal thread 211, first push ring 22, first arc-shaped groove 221, first protrusion 222, first snap ring 23, dust blocking assembly 3, mounting ring 31, dust blocking mesh 32, snap plate 33, anti-fall assembly 4, first collar 41, connecting belt 42, second collar 43, second tank opening assembly 5, second tank opening connecting cylinder 51, second internal thread 511, second push ring 52, second arc-shaped groove 521, second protrusion 522, second snap ring 53, third tank opening assembly 6, third tank opening connecting cylinder 61, third internal thread 611, push claw 62, massage finger 621, acupressure finger 622, vent hole 623. Detailed Implementation
[0030] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort. The content of the utility model will be further explained below in conjunction with the drawings:
[0031] Example 1
[0032] See attached document Figure 1 A fire dragon can device includes a can body assembly 1, a first can opening assembly 2, a dust blocking assembly 3, and an anti-falling assembly 4.
[0033] See attached document Figure 4 The tank assembly 1 includes a spherical tank 11, a tank connecting cylinder 12, and a heat insulation layer 13. The spherical tank 11 has a hollow spherical structure with an opening on its side. The tank connecting cylinder 12 is fixedly installed on the edge of the opening on the spherical tank 11. An external thread 121 is provided on the outer side of the tank connecting cylinder 12. The heat insulation layer 13 covers the outside of the spherical tank 11. Since the opening needs to be exposed, the heat insulation layer 13 is not provided. Multiple anti-slip textures are provided on the outside of the heat insulation layer 13. The heat insulation layer 13 serves two purposes: firstly, it isolates part of the heat from the spherical tank 11 to prevent burns to medical personnel; secondly, it increases the friction for medical personnel to hold the device, which can prevent the device from falling to some extent.
[0034] Three pins 14 arranged in a circular array are fixed inside the spherical canister 11. The tips of the pins 14 face the openings on the side of the spherical canister 11. The pins 14 are used to fix the moxa stick so that the lit end of the moxa stick faces the openings.
[0035] See attached document Figure 5 The first can opening assembly 2 includes a first can opening connecting cylinder 21 and a first push ring 22 fixedly installed at the bottom of the first can opening connecting cylinder 21. The first can opening connecting cylinder 21 is a cylindrical structure and can be sleeved on the outside of the can body connecting cylinder 12. The inner side of the first can opening connecting cylinder 21 is provided with a first internal thread 211 that can be threadedly connected to the external thread 121. The can body assembly 1 and the first can opening assembly 2 are detachably threadedly connected through the external thread 121 and the first internal thread 211.
[0036] The first pressing ring 22 is a tapered cylindrical structure (or conical structure) with a larger diameter at the bottom than at the top. Multiple first arc-shaped grooves 221 are arranged in a circular array around the bottom edge of the first pressing ring 22. A first protrusion 222 is formed between two adjacent first arc-shaped grooves 221, and the transition between the first arc-shaped grooves 221 and the first protrusion 222 is smooth. During the fire dragon cupping therapy, the multiple first protrusions 222 contact the skin of the target area on the patient's body and can slide on the skin, enabling massage techniques such as pressing, rolling, pushing, kneading, shaking, flashing, vibrating, and tapping.
[0037] During the fire dragon cupping therapy, medical staff found that because the fire dragon cups need to be moved constantly for massage, the ash produced after the moxa sticks burn will fall from the opening on the side of the spherical cup 11. On the one hand, this will soil clothes or the patient's skin and leave stains. On the other hand, the unburned ash may cause burns to the patient's skin. Therefore, it is necessary to block the ash. In this embodiment, an ash blocking component 3 is provided.
[0038] See attached document Figure 1 , 8 The dust-blocking assembly 3 includes a mounting ring 31, a dust-blocking mesh 32, and a snap-fit plate 33. The dust-blocking mesh 32 is fixedly installed on the top surface of the mounting ring 31. The four snap-fit plates 33 are fixedly installed on the top surface of the mounting ring 31 in a circumferential array. The snap-fit plate 33 is elastic and includes an extended straight plate portion fixedly connected to the mounting ring 31 and a bent portion fixedly connected to the top of the extended straight plate portion. The bent portion bends away from the dust-blocking mesh 32.
[0039] If the ash-blocking net 32 is designed as a flat net structure, then as the ash falls onto the ash-blocking net 32, the gradually increasing amount of ash will cover the ash-blocking net 32, affecting the transmission of the heat from the moxa.
[0040] To reduce the impact of moxa ash on the heat transfer of moxa to some extent, please refer to the appendix. Figure 8 The ash-blocking net 32 includes side nets and a top net. The side nets have a certain height, and their bottom ends are fixedly connected to the top surface of the mounting ring 31 and extend away from the mounting ring 31. The edge of the top net is fixedly connected to the top of the side nets, increasing the area for heat transfer. When moxa ash falls onto the top net and gradually covers the ash-blocking net 32, the heat can be transferred from the side nets to enhance the therapeutic effect.
[0041] A first snap-fit ring 23 is fixedly provided at the bottom of the first can opening connecting cylinder 21, and the outer diameter of the side mesh is smaller than the outer diameter of the first snap-fit ring 23. When installing the dust blocking component 3, the top surface of the dust blocking component 3 is placed upwards from the bottom of the first push ring 22. At this time, the inner side of the first snap-fit ring 23 first contacts the outer side of the top of the snap-fit plate 33. When the dust blocking component 3 is pushed upwards, the inner side of the first snap-fit ring 23 squeezes the bent part and moves the bent part toward the dust blocking mesh 32. When the inner side of the first snap-fit ring 23 moves to the connection between the extended straight plate and the bent part, the bent part is no longer squeezed and returns to its original position under the action of the elasticity of the snap-fit plate 33. The first snap-fit ring 23 is snapped into the connection between the extended straight plate and the bent part, so that the dust blocking component 3 is fixedly installed on the first can opening component 2.
[0042] When it is necessary to remove the dust blocking component 3, pull the entire dust blocking component 3 toward the bottom of the first push ring 22. The first locking ring 23 will squeeze the bent part and move the bent part toward the dust blocking net 32 until the first locking ring 23 disengages from the bent part, and then the dust blocking component 3 can be removed.
[0043] During physiotherapy using the Fire Dragon Cupping Therapy, medical staff have found that due to the cupping jar's weight and spherical structure, and the need to rotate it or apply massage techniques such as pressing, grinding, pushing, kneading, shaking, flashing, vibrating, tapping, and scalding, the cupping jar can easily slip from the hands of medical staff, potentially injuring the patient or staff, or even deforming or breaking the jar. Therefore, to address these issues, this embodiment includes an anti-drop component 4.
[0044] See attached document Figure 1 , 9 The anti-fall component 4 includes a first collar 41, a connecting belt 42, and a second collar 43. The two ends of the connecting belt 42 are respectively fixedly connected to the first collar 41 and the second collar 43. The inner diameter of the first collar 41 is larger than the outer diameter of the first can opening connecting cylinder 21 and smaller than the outer diameter of the bottom of the first push ring 22.
[0045] The first ring 41 is fitted onto the outside of the first can opening connecting cylinder 21 and can rotate around the first can opening connecting cylinder 21. Both the first ring 41 and the connecting strap 42 are made of high-temperature resistant material. The second ring 43 is used to fit around the wrist of the medical staff's arm. The second ring 43 can be an elastic ring to fit medical staff with different wrist sizes. The second ring 43 is fastened around the wrist of the medical staff's arm. When the fire dragon cupping canister slips off the medical staff's hand, the connecting strap 42 can prevent the fire dragon cupping canister from falling off.
[0046] Example 2
[0047] See attached document Figure 2 A fire dragon can device includes a can body assembly 1, a second can opening assembly 5, a dust blocking assembly 3, and an anti-falling assembly 4.
[0048] The only difference between the fire dragon can device in Example 2 and Example 1 is that the second can opening component 5 and the first can opening component 2 have different structures. The other components and functions are the same. Therefore, this Example 2 focuses on the second can opening component 5, and the other components will not be described again.
[0049] See attached document Figure 6 The second can opening assembly 5 includes a second can opening connecting cylinder 51 and a second push ring 52 fixedly installed at the bottom of the second can opening connecting cylinder 51. The second can opening connecting cylinder 51 is a cylindrical structure and can be sleeved on the outside of the can body connecting cylinder 12. A second internal thread 511 is provided on the inner side of the second can opening connecting cylinder 51, which can be threadedly connected to the external thread 121. The can body assembly 1 and the second can opening assembly 5 are detachably threadedly connected through the external thread 121 and the second internal thread 511.
[0050] The second pressing ring 52 is a tapered cylindrical structure with a larger diameter at the bottom than at the top. Multiple second arc-shaped grooves 521 are arrayed along the bottom edge of the second pressing ring 52, and a second protrusion 522 is formed between two adjacent second arc-shaped grooves 521. The transition between the second arc-shaped grooves 521 and the second protrusions 522 is smooth. During cupping therapy, the multiple second protrusions 522 contact the skin of the target area on the patient's body and can slide on the skin, enabling massage techniques such as pressing, rolling, pushing, kneading, shaking, flashing, vibrating, and tapping.
[0051] The specific difference between Embodiment 1 and Embodiment 2 is that the degree of concavity and convexity of the first arc-shaped groove 221 and the first protrusion 222 is greater than that of the second arc-shaped groove 521 and the second protrusion 522.
[0052] Specifically,
[0053] The second arc-shaped groove 521 is deeper than the first arc-shaped groove 221. The first protrusion 222 is sharper and longer than the second protrusion 522, while the second protrusion 522 is more rounded.
[0054] A second snap ring 53 is fixed at the bottom of the second can opening connecting cylinder 51, and the dust-blocking net 32 is matched and snapped onto the second snap ring 53 by the same method as in embodiment 1.
[0055] The first ring 41 is fitted onto the outside of the second can opening connecting cylinder 51 and can rotate around the second can opening connecting cylinder 51. Both the first ring 41 and the connecting belt 42 are made of high temperature resistant material.
[0056] The fire dragon cupping device in Example 1, due to its relatively deep and pointed first protrusion 222, provides powerful, intense, and penetrating massage. It is primarily used on areas with abundant, smooth muscles, such as the lower back, arms, armpits, knees, and joint hollows, and can also be used for muscle manipulation.
[0057] The fire dragon cupping device in Example 2, due to the relatively blunt first protrusion 222, provides a gentle yet firm massage, making it both effective and comfortable, with wide applicability. It is primarily used on the face, abdomen, chest, limbs, torso, or the whole body. Especially when applied to the face, it is effective in removing blemishes, wrinkles, and brightening the complexion, achieving the effect of promoting blood circulation and removing blood stasis in skin beauty applications.
[0058] Example 3
[0059] See attached document Figure 3 A fire dragon can device includes a can body assembly 1, a third can opening assembly 6, and an anti-drop assembly 4.
[0060] The only difference between the fire dragon can device in Example 3 and Examples 1 and 2 is that it does not have the ash-blocking component 3. Also, the third can opening component 6 has a different structure from the first can opening component 2 and the second can opening component 5. The other components and functions are the same. Therefore, this Example 2 focuses on the third can opening component 6, and the other components will not be described again.
[0061] See attached document Figure 7 The third can opening assembly 6 includes a third can opening connecting cylinder 61 and a push claw 62 fixedly installed at the bottom of the third can opening connecting cylinder 61. The third can opening connecting cylinder 61 is a cylindrical structure, and its bottom surface is closed by a bottom plate. The third can opening connecting cylinder 61 can be sleeved on the outside of the can body connecting cylinder 12. A third internal thread 611 that can be threadedly connected to the external thread 121 is provided on the inner side of the third can opening connecting cylinder 61. The can body assembly 1 and the third can opening assembly 6 are detachably threadedly connected by the external thread 121 and the third internal thread 611.
[0062] The push-press claw 62 includes massage fingers 621 and acupressure fingers 622. Multiple massage fingers 621 are fixedly arranged in a circular array on the bottom surface of the base plate. The outer end of the massage fingers 621 is a rounded end. There are two acupressure fingers 622. One end of the acupressure fingers 622 is fixedly connected to the massage fingers 621, and the other end extends horizontally. Multiple ventilation holes 623 are opened in the middle of the base plate to provide air for the combustion of the moxa stick and ensure the normal combustion of the moxa stick.
[0063] Both the massage finger 621 and the acupoint finger 622 are hollow structures. An opening communicating with the inner cavity of the massage finger 621 is provided on the base plate. The inner cavity of the acupoint finger 622 is connected to the inner cavity of the massage finger 621, allowing heat to enter and heat the massage finger 621 and acupoint finger 622 through the opening, achieving the effect of moxibustion. Ventilation holes 623 are provided on the sides of the massage finger 621 and / or acupoint finger 622 to further provide air for the combustion of the moxa stick, ensuring its proper combustion.
[0064] The first ring 41 is fitted onto the outside of the third can opening connecting cylinder 61 and can rotate around the third can opening connecting cylinder 61. Both the first ring 41 and the connecting belt 42 are made of high temperature resistant material.
[0065] The fire dragon cupping device in this embodiment 3 primarily acts on the head. Multiple smooth massage fingers 621 slide along the scalp, directly stimulating it without causing irritation, thus providing a massage and manipulation effect. This effectively relieves head discomfort, dispels wind and dampness, warms the meridians and dispels cold, thereby enhancing immunity. Acupressure fingers 622 apply pressure to specific acupoints on the head, such as the Baihui, Fengchi, Fengfu, and Fengchi points, effectively dispelling wind and cold and relieving discomfort symptoms like tightness, swelling, and stiffness in the head caused by poor blood circulation.
[0066] The method of using the fire dragon cupping device in this patent is as follows: Insert the moxa stick into the side opening of the cupping body component 1 and fix it to the insertion needle 14, then ignite the moxa stick. Select the corresponding cupping mouth component according to the patient's desired treatment area or purpose. Fit the first ring 41 onto the outside of the cupping mouth connecting cylinder, and connect it to the cupping mouth connecting cylinder via a threaded connection through the cupping body connecting cylinder 12, thus fixing the cupping mouth component onto the cupping body component 1. When the first cupping mouth component 2 or the second cupping mouth component 5 is selected, insert the ash-blocking component 3 with its top surface facing upwards from the bottom of the first push-button ring 22 or the second push-button ring 52, so that the first locking ring 23 or the second locking ring 53 engages at the connection between the extended straight plate and the bent section, thus fixing the ash-blocking component 3 onto the first cupping mouth component 2 or the second cupping mouth component 5. When the third cupping mouth component 6 is selected, the ash-blocking component 3 does not need to be installed.
[0067] Before treatment, the patient should prepare by assuming a comfortable position, exposing the target area, and keeping it warm. Massage cream or appropriate essential oil should be applied locally. The medical staff will attach the second set of rings (43 rings) to their wrist and then place the moxibustion cupping jar on the target area. Using techniques such as pressing, rolling, pushing, kneading, shaking, flashing, vibrating, tapping, and scalding, the jars will be applied to the skin and muscles in a clockwise and counter-clockwise motion, followed by shaking and vibrating. Each area will be treated for approximately 20-30 minutes, until the skin becomes slightly red and warm.
[0068] When it is necessary to change the treatment site or the purpose of treatment, the corresponding cupping device needs to be replaced. At this time, the medical staff rotates and removes the cupping device installed on the cupping device 1, and connects the new cupping device to the cupping device connecting cylinder 12 through the threaded connection. The new cupping device is then fixed on the cupping device 1, and the fire dragon cupping therapy for different sites or different treatment purposes can continue.
[0069] It is obvious that modifications and / or additions can be made to the above-mentioned fire dragon can device and corresponding methods without departing from the field and scope of this utility model.
[0070] It is equally clear that, although the present invention has described the fire dragon can device in detail, those skilled in the art will certainly be able to obtain many other equivalent forms of fire dragon can devices and corresponding methods that have the features described in the claims and are therefore within the scope of protection defined herein.
Claims
1. A fire dragon pot device, characterized in that: It includes a canister assembly (1) and multiple canister opening assemblies; the canister assembly (1) is a hollow structure with an opening on its side, and a canister connecting cylinder (12) is fixedly provided at the edge of the opening; the canister opening assembly includes a canister connecting cylinder and a push-pressing component fixedly installed at the bottom of the canister connecting cylinder, each of the canister opening assemblies having a push-pressing component with a different structure, and the push-pressing component acts on a target area on the patient's body surface; An external thread (121) is provided on the outer side of the tank body connecting cylinder (12), and an internal thread is provided on the inner side of the tank opening connecting cylinder. The tank body assembly (1) and multiple tank opening assemblies can be detachably threadedly connected to the tank opening connecting cylinder through the tank body connecting cylinder (12).
2. The fire dragon pot device according to claim 1, characterized in that: The can opening assembly includes a first can opening assembly (2), which includes a first can opening connecting cylinder (21) and a first push ring (22) fixedly installed at the bottom of the first can opening connecting cylinder (21). The first can opening connecting cylinder (21) is a cylindrical structure, and a first internal thread (211) capable of being threadedly connected to the external thread (121) is provided on the inner side of the first can opening connecting cylinder (21). The first push ring (22) is a cylindrical structure with a tapered shape, and the diameter of its bottom is larger than the diameter of its top. Multiple first arc-shaped grooves (221) are arrayed on the bottom edge of the first push ring (22), and a first protrusion (222) is formed between two adjacent first arc-shaped grooves (221). The first arc-shaped groove (221) and the first protrusion (222) are smoothly transitioned.
3. The fire dragon pot device according to claim 2, characterized in that: The can opening assembly includes a second can opening assembly (5), which includes a second can opening connecting cylinder (51) and a second push ring (52) fixedly installed at the bottom of the second can opening connecting cylinder (51). The second can opening connecting cylinder (51) is a cylindrical structure, and a second internal thread (511) that can be threadedly connected to the external thread (121) is provided on the inner side of the second can opening connecting cylinder (51). The second push ring (52) is a cylindrical structure with a tapered shape, and the diameter of its bottom is larger than the diameter of its top. Multiple second arc-shaped grooves (521) are arrayed on the bottom edge of the second push ring (52), and a second protrusion (522) is formed between two adjacent second arc-shaped grooves (521). The second arc-shaped grooves (521) and the second protrusion (522) are smoothly transitioned. The degree of concavity and convexity of the first arc-shaped groove (221) and the first protrusion (222) is greater than that of the second arc-shaped groove (521) and the second protrusion (522).
4. The fire dragon pot device according to claim 1, characterized in that: The can opening assembly includes a third can opening assembly (6), which includes a third can opening connecting cylinder (61) and a push claw (62) fixedly installed at the bottom of the third can opening connecting cylinder (61). The third can opening connecting cylinder (61) is a cylindrical structure with its bottom surface closed by a bottom plate. A third internal thread (611) capable of being threadedly connected to the external thread (121) is provided on the inner side of the third can opening connecting cylinder (61). The push-press claw (62) includes a massage finger (621) and an acupressure finger (622). Multiple massage fingers (621) are fixedly arranged in an array on the bottom surface of the base plate. The outer end of the massage finger (621) is a rounded end. At least one acupressure finger (622) is provided. One end of the acupressure finger (622) is fixedly connected to the massage finger (621), and the other end extends horizontally. Multiple ventilation holes (623) are provided on the base plate.
5. The fire dragon pot device according to claim 4, characterized in that: Both the massage finger (621) and the acupoint finger (622) are hollow structures. An opening is provided on the base plate that communicates with the inner cavity of the massage finger (621). The inner cavity of the acupoint finger (622) is connected to the inner cavity of the massage finger (621) connected to the acupoint finger (622). Ventilation holes (623) are provided on the side of the massage finger (621) and / or the acupoint finger (622).
6. The fire dragon pot device according to claim 1, characterized in that: The tank assembly (1) includes a spherical tank (11), a tank connecting cylinder (12), and a heat insulation layer (13). The spherical tank (11) has a hollow spherical structure. The opening is located on the side of the spherical tank (11). The tank connecting cylinder (12) is fixedly installed on the edge of the opening on the spherical tank (11). The heat insulation layer (13) covers the outside of the spherical tank (11). Multiple anti-slip textures are provided on the outside of the heat insulation layer (13). At least one pin (14) is fixed inside the spherical container (11), with the tip of the pin (14) facing the opening, and the pin (14) is used to fix the moxa stick.
7. The fire dragon pot device according to claim 3, characterized in that: The fire dragon can device also includes a dust-blocking component (3), which includes an installation ring (31), a dust-blocking net (32), and a snap-fit plate (33). The dust-blocking net (32) is fixedly installed on the top surface of the installation ring (31), and a plurality of snap-fit plates (33) are fixedly installed in an array on the top surface of the installation ring (31). The snap-fit plate (33) is elastic and includes an extended straight plate portion fixedly connected to the installation ring (31) and a bent portion fixedly connected to the top end of the extended straight plate portion. The bent portion bends away from the dust-blocking net (32). A first snap ring (23) is fixed at the bottom of the first can opening connecting cylinder (21), and a second snap ring (53) is fixed at the bottom of the second can opening connecting cylinder (51). The bent part of the snap plate (33) can be matched and snapped with the first snap ring (23) and the second snap ring (53).
8. The fire dragon pot device according to claim 7, characterized in that: The dust-blocking net (32) includes a side net and a top net. The bottom end of the side net is fixedly connected to the top surface of the mounting ring (31) and extends in a direction away from the mounting ring (31). The edge of the top net is fixedly connected to the top of the side net.
9. The fire dragon pot device according to claim 1, characterized in that: The fire dragon can device also includes an anti-drop component (4), which includes a first collar (41), a connecting strap (42) and a second collar (43). The two ends of the connecting strap (42) are fixedly connected to the first collar (41) and the second collar (43) respectively. The first collar (41) is sleeved on the outside of the can body connecting cylinder (12) or the can mouth connecting cylinder and can rotate around the can body connecting cylinder (12) or the can mouth connecting cylinder. The second collar (43) is used to be sleeved on the arm of medical personnel.