Vaginal physiotherapy suppository
By improving the structure of the vaginal therapeutic suppository, adopting a thin-walled sac-like design and an excitation mechanism, the problem of difficulty in binding crystal particles with the heat-generating fluid in existing technologies has been solved, achieving a longer heat release effect and simpler operation, making it suitable for the treatment of gynecological diseases in remote areas.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Filing Date
- 2025-04-22
- Publication Date
- 2026-07-14
AI Technical Summary
When the button is pressed, the pin of the existing vaginal thrombus is difficult to pierce the inner capsule, which prevents the crystal particles from effectively combining with the heat-generating fluid, thus affecting the heat release effect. In addition, the existing equipment is complicated to operate and has high maintenance costs, making it difficult to popularize in remote areas.
A vaginal physiotherapy plug was designed, which adopts a thin-walled sac-like structure with a tail hole and traction rope at the tail end. It contains a heating liquid and a plug head connected to the opening. The plug head contains a crystal chamber and an activation mechanism. The activation mechanism punctures the diaphragm to allow the crystal particles to come into contact with the heating liquid and carry out an exothermic reaction. The inner sac structure is eliminated, the heating liquid capacity is increased, and the operation is simplified.
It improves the success rate of excitation, extends the heat release time, simplifies the operation process, reduces equipment complexity and maintenance costs, and is suitable for widespread use in remote areas.
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Figure CN224484303U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of medical device technology, and in particular to a vaginal physiotherapy suppository. Background Technology
[0002] Currently, for common gynecological diseases such as vaginitis and cervicitis, most treatments involve physical therapy, drug therapy, or a combination of both. Physical therapy includes electrocautery, cryotherapy, and infrared therapy. Physical therapy is a long-term process. However, most of the instruments used for physical therapy are complex to operate and have high maintenance costs, making them unavailable in many remote areas. Based on this, physiotherapy suppositories have emerged. Existing patent CN205964689U describes a multifunctional vaginal physiotherapy suppository with a capsule structure. When used, pressing a button causes a pin to puncture the capsule, allowing the crystal particles to react with the heat-generating liquid and produce heat for therapeutic purposes. However, in actual use, due to the inner capsule structure, pressing the button often results in the pin failing to puncture the inner capsule, thus preventing the crystal particles from combining with the heat-generating liquid and releasing heat. Summary of the Invention
[0003] To address the above problems, this utility model provides a vaginal thrombus.
[0004] This utility model provides a vaginal therapy plug, including a plug body, which is a thin-walled sac-like structure with one open end. The tail end of the plug body is provided with a tail hole that is isolated from the interior of the plug body, and a traction rope is provided in the tail hole. Heating liquid is injected into the plug body. A plug head is connected to the opening of the plug body. A crystal chamber is provided in the plug head, which connects the interior of the plug body with the outside. Crystal particles are placed in the crystal chamber. A diaphragm is sealed on the port of the crystal chamber near the plug body, and an excitation mechanism is provided on the port near the outside. The excitation mechanism is used to puncture the diaphragm, so that the crystal particles come into contact with the heating liquid and undergo an exothermic reaction.
[0005] Compared with the prior art, the beneficial effects of this utility model are as follows: When in use, pressing the activation mechanism breaks the diaphragm, and the crystal particles can fall into the plug body and come into contact with the heating liquid, thereby carrying out a thermal reaction. Since the existing inner capsule structure is eliminated, more heating liquid can be injected into the plug body of the same size, the heat release time is longer, and only the sealing membrane needs to be broken, which greatly improves the activation success rate.
[0006] Optionally, the excitation mechanism includes a top plug that connects the crystal chamber to the outside. A button is slidably sealed in the top plug, and the button can pass through the top plug, the crystal chamber and puncture the diaphragm in sequence.
[0007] Optionally, the tail end of the plug body is provided with an injection hole on one side of the tail hole, which communicates with the interior of the plug body, and a tail plug is sealed in the injection hole.
[0008] Optionally, the tail plug includes a tail plug wasp waist placed inside the injection hole, with a tail plug inner mound placed inside the plug body and a tail plug outer mound placed outside the plug body at both ends of the tail plug wasp waist.
[0009] Optionally, the crystal chamber is cylindrical and has a retaining ring at the port near the outside. The retaining ring is used to engage with the top plug, and the outer side of the retaining ring has a plug head recess that matches the outer end of the top plug.
[0010] Optionally, the top plug is cylindrical with an internal top plug channel, and the outer port is provided with a button head recess that matches the button head.
[0011] Optionally, the button includes a button lever, with a button head at the head and a spike at the tail end.
[0012] Optionally, when not in use, a pin hole is provided on the outer part of the button lever located on the top plug, and a pin is inserted into the pin hole.
[0013] Optionally, when not in use, a retaining clip is clamped on the outer part of the button lever located on the top plug. The retaining clip is shaped like a "Z" and includes a clip head, clip waist, clip legs, clip feet, and clip channels. Attached Figure Description
[0014] The accompanying drawings, which are included to provide a further understanding of the present invention and form part of this application, do not constitute a limitation thereof. In the drawings:
[0015] Figure 1 A schematic diagram of the structure of a vaginal thrombus provided in an embodiment of this utility model;
[0016] Figure 2 A schematic diagram of the thrombus structure of a vaginal thrombus provided in an embodiment of this utility model;
[0017] Figure 3 for Figure 2 Enlarged view of the portion marked 14 in the attached figure;
[0018] Figure 4 A schematic diagram of the plug head structure of a vaginal thrombus provided in an embodiment of this utility model;
[0019] Figure 5 A schematic diagram of the top plug structure of a vaginal physiotherapy plug provided in an embodiment of this utility model;
[0020] Figure 6 A schematic diagram of the button structure of a vaginal physiotherapy suppository provided for an embodiment of this utility model;
[0021] Figure 7 A schematic diagram of the pin structure of a vaginal thimble provided in an embodiment of this utility model;
[0022] Figure 8 A schematic diagram of the tail plug structure of a vaginal thrombus provided in an embodiment of this utility model;
[0023] Figure 9 This is a schematic diagram of a fixation clip structure for a vaginal thimble provided in an embodiment of the present invention.
[0024] The components include: 1. Plug body; 2. Plug head; 3. Top plug; 4. Button; 5. Pin; 6. Crystal particles; 7. Heating fluid; 8. Traction rope; 9. Tail plug; 10. Plug body interface; 11. Plug body tail end; 12. Injection hole; 13. Tail hole; 15. Ultrasonic cable; 16. Plug head interface; 17. Diaphragm; 18. Plug head recess; 19. Clamping ring; 20. Crystal chamber; 21. Top plug waistline; 22. Button head recess; 23. Top plug channel; 24. Button head; 25. Button rod; 26. Pin hole; 27. Cone; 28. Pin head; 29. Tail plug outer mound; 30. Tail plug inner mound; 31. Tail plug wasp waist; 32. Fixing clip; 33. Clip head; 34. Clip waist; 35. Clip leg; 36. Clip foot; 37. Clip channel; 38. Detailed Implementation
[0025] To make the objectives, technical solutions, and advantages of this utility model clearer, the present utility model will be further described in detail below with reference to the embodiments and accompanying drawings. Here, the illustrative embodiments and descriptions of this utility model are used to explain the present utility model, but are not intended to limit the present utility model.
[0026] See Figures 1-9 This utility model provides a guided physiotherapy plug, including a plug body 1, which is a thin-walled sac-like structure with one open end. The tail end 11 of the plug body is provided with a tail hole 13 that is isolated from the interior of the plug body 1. A traction rope 8 is provided in the tail hole 13. A heating liquid 7 is injected into the plug body 1. A plug head 2 is connected to the opening of the plug body 1. A crystal chamber 20 is provided in the plug head 2, which connects the interior of the plug body 1 with the outside. Crystal particles 6 are placed in the crystal chamber 20. A diaphragm 17 is sealed on the port of the crystal chamber 20 near the plug body 1, and an excitation mechanism is provided on the port near the outside. The excitation mechanism is used to puncture the diaphragm 17 so that the crystal particles 6 come into contact with the heating liquid 7 to carry out an exothermic reaction.
[0027] In practice, the thrombus 1 and the thrombus head 2 can be made of medical rigid materials. The thrombus 1 and the thrombus head 2 can be connected by ultrasonic welding, plug-in, spiral connection or other methods. The open side of the thrombus 1 serves as the thrombus interface 10 that is connected to the thrombus 2. An ultrasonic beam 15 can be set at the thrombus head interface 10. A matching thrombus head interface 16 is set at one end of the thrombus head 2 to achieve ultrasonic welding connection.
[0028] The diaphragm 17 can be made of materials such as aluminum foil or plastic film and is thermally integrated with the plug head 2. Under normal conditions, it serves to isolate the crystal chamber 20 from the interior of the plug body 1. Under the action of the excitation mechanism, the diaphragm 17 can be punctured, thereby connecting the plug body 1 and the crystal chamber 20, allowing the crystal particles 6 to come into contact with the heating liquid 7 to carry out an exothermic reaction.
[0029] The traction rope 8 can be made using surgical sutures or other biocompatible threads.
[0030] The crystal particles 6 can be made from sodium acetate or sodium acetate trihydrate crystals; the heating liquid 7 can be a sodium acetate or sodium acetate trihydrate solution.
[0031] The excitation mechanism includes a top plug 3, which connects the crystal chamber 20 to the outside. A button 4 is provided in the top plug 3 in a sliding seal. The button 4 can pass through the top plug 3 and the crystal chamber 20 in sequence and puncture the diaphragm 17.
[0032] The tail end 11 of the plug body is provided with an injection hole 12 on one side of the tail hole 13, which is connected to the interior of the plug body 1. A tail plug 9 is sealed in the injection hole 12, and the heating fluid 7 can be replaced through the injection hole 12.
[0033] The tail plug 9 includes a tail plug waist 32 placed inside the injection hole 12. The two ends of the tail plug waist 32 are respectively provided with a tail plug inner mound 31 placed inside the plug body 1 and a tail plug outer mound 30 placed outside the plug body 1.
[0034] The crystal chamber 20 is cylindrical and has a retaining ring 19 at the port near the outside. The retaining ring 19 is used to engage with the top plug 3. The outer side of the retaining ring 19 has a plug head recess 18 that is adapted to the outer end of the top plug 3.
[0035] The top plug 3 is cylindrical with an internal top plug channel 23, and has a button head recess 22 at the outer port that matches the button head. The middle part has a top plug waistline 21 that matches the retaining ring 19.
[0036] Button 4 includes a button lever 25, with a button head 24 at the head and a spike 27 at the tail end; button 4 can be made of a rigid material.
[0037] When not in use, the button lever 25 has a pin hole 26 on the outer part of the top plug 3, and a pin 5 is inserted in the pin hole 26; the pin 5 is provided to prevent the button 4 from being punctured by the diaphragm 17 by external force during storage. When in use, the pin 5 needs to be pulled out before the button 4 can be pressed.
[0038] When not in use, the button lever 25 is clamped on the outer part of the top plug 3 with a retaining clip 33. The retaining clip 33 is used to replace the pin 5 and the pin hole 26. The retaining clip 33 is shaped like a "Z" and includes a clip head 34, a clip waist 35, a clip leg 36, a clip foot 37 and a clip channel 38. The clip waist clamps the button lever to prevent accidental activation.
[0039] In practice, the top plug 3 and the tail plug 9 can be made of relatively hard but soft materials, such as rubber, to provide a sealing and leak-proof function.
[0040] When in use, remove the pin or fixing clip, press the button, puncture the diaphragm, and the crystal particles can fall into the plug body and come into contact with the heating liquid to carry out a thermal reaction. Since the existing inner capsule structure has been eliminated, more heating liquid can be injected into the plug body of the same size, the heat release time is longer, and only the sealing membrane needs to be punctured, which greatly improves the success rate of excitation.
[0041] The above description is merely a preferred embodiment of this utility model and is not intended to limit the scope of protection of this utility model. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model are included within the scope of protection of this utility model.
Claims
1. A vaginal physiotherapy plug, comprising a plug body, the plug body being a thin-walled sac-like structure open at one end, a tail hole isolated from the interior of the plug body at the tail end, a traction rope disposed within the tail hole, and a heating liquid injected into the plug body; characterized in that, The opening of the plug body is connected to a plug head; the plug head is provided with a crystal chamber that connects the inside of the plug body to the outside. Crystal particles are placed in the crystal chamber. The port of the crystal chamber near the plug body is sealed with a diaphragm, and the port near the outside is provided with an excitation mechanism. The excitation mechanism is used to puncture the diaphragm so that the crystal particles come into contact with the heating liquid to carry out an exothermic reaction.
2. The vaginal therapeutic suppository as described in claim 1, characterized in that, The excitation mechanism includes a top plug, which connects the crystal chamber to the outside. A button is slidably sealed in the top plug, and the button can pass through the top plug, the crystal chamber and puncture the diaphragm in sequence.
3. The vaginal therapeutic suppository as described in claim 1, characterized in that, The tail end of the plug is provided with an injection hole on one side of the tail hole, which connects to the inside of the plug body, and a tail plug is sealed in the injection hole.
4. The vaginal therapeutic suppository as described in claim 3, characterized in that, The tail plug includes a tail plug wasp waist placed inside the injection hole, and the two ends of the tail plug wasp waist are respectively provided with a tail plug inner mound placed inside the plug body and a tail plug outer mound placed outside the plug body.
5. The vaginal therapeutic suppository as described in claim 2, characterized in that, The crystal chamber is cylindrical and has a retaining ring at the port near the outside. The retaining ring is used to engage with the top plug, and the outer side of the retaining ring has a plug head recess that matches the outer end of the top plug.
6. The vaginal therapeutic suppository as described in claim 5, characterized in that, The top plug is cylindrical with an internal channel, and the outer port has a button head recess that matches the button head.
7. The vaginal therapeutic suppository as described in claim 6, characterized in that, The button includes a button lever, with a button head at the head and a spike at the tail end.
8. The vaginal therapeutic suppository as described in claim 7, characterized in that, When not in use, the button lever has a pin hole on the outer part of the top plug, and a pin passes through the pin hole.
9. The vaginal therapeutic suppository as described in claim 7, characterized in that, When not in use, the button lever has a retaining clip on the outer part of the top plug. The retaining clip is shaped like a "Z" and includes a clip head, a clip waist, a clip foot, and a clip channel.