A hot compress bead patch

The structural design of the heat-compressing bead patch solves the problems of inconvenient operation, skin burns, and rapid loss of drug concentration associated with existing moxibustion materials. It achieves uniform absorption of essential oils and heat compress effects, prolongs the treatment time, and improves safety and comfort.

CN224387619UActive Publication Date: 2026-06-23AIRUIPU BIOTECHNOLOGY (SHENZHEN) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
AIRUIPU BIOTECHNOLOGY (SHENZHEN) CO LTD
Filing Date
2025-04-16
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Existing moxibustion materials and self-heating popping bead moxibustion patches have problems such as inconvenience in operation, risk of skin burns, smoke pollution, and rapid loss of drug concentration during use.

Method used

A heat-compressing bead patch was designed. Through the structural coordination of a breathable membrane, a fixation component, a heating component, a liquid barrier component, a permeation component, and an absorbent component, the absorbent component's adsorption capacity is used to extend the physiotherapy time, and the liquid barrier component prevents liquid from penetrating in the opposite direction, ensuring the stability of the heating effect.

Benefits of technology

It achieves uniform absorption of essential oils and heat therapy during physiotherapy, prolongs the treatment time, improves the duration of drug effects, avoids skin burns and smoke pollution, and ensures the stability and comfort of heating.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a hot compress burst bead pastes, including burst bead pastes body, burst bead pastes body includes breathable film, fixed part, heating element, liquid barrier piece, permeation piece and absorption piece from top to bottom are stacked and set gradually, the fixed part is concave and is provided with the accommodation cavity, the heating element is installed and is positioned in the accommodation cavity, the permeation piece is equipped with burst bead in, the liquid barrier piece includes the barrier cavity, the permeation piece sets up in the barrier cavity, the absorption piece abuts in the downside of permeation piece, the lower end of absorption piece is provided with the portable adhesive layer of convenient bonding, when it is pasted in the human body required physiotherapy position, utilizes the adsorption capacity of absorption piece, makes burst bead liquid can soak the absorption piece, can avoid the rapid flow of essential oil physiotherapy area, prolongs physiotherapy time, and liquid barrier piece can block liquid reverse direction permeation, lets burst bead liquid not enter heating bag, can ensure heating stability, prevents heating anomaly.
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Description

Technical Field

[0001] This utility model relates to the field of physiotherapy products, and in particular to a hot compress bead patch. Background Technology

[0002] The existing moxibustion materials are generally moxa rolls, which are made by taking pure and soft moxa wool, spreading it flat on fine straw paper, rolling it into a cylindrical shape, wrapping it with soft and loose yet tough mulberry paper, and sealing it with glue or paste.

[0003] However, there are the following disadvantages when using moxa rolls to fumigate the parts of the body that need moxibustion: 1. Users need to hold the moxa roll in their hands to fumigate the parts of the body that need moxibustion, which is very tiring during the moxibustion process. In addition, some parts of the body cannot be fumigate by the user and require the help of others to hold the moxa roll; 2. Careless operation during the moxibustion process can cause skin burns; 3. The burning of moxa rolls produces a lot of smoke, which pollutes the environment.

[0004] Later, a moxibustion patch with self-heating popping beads appeared on the market. It includes a patch body and an application portion on the patch body. The application portion includes an impermeable body attached to the patch body and self-heating popping beads on the impermeable body. A receiving cavity is formed on the side of the impermeable body away from the patch body. The receiving cavity has an opening for the self-heating popping beads to be inserted. The self-heating popping beads are engaged in the receiving cavity through the opening. The self-heating popping beads contain a moxa leaf material therapeutic solution. Through the above method, the application portion... The patch is aligned with the acupoint, but this type of moxibustion patch with self-heating popping beads has the following defects: for example, when the self-heating popping beads are broken by pressing the patch, the mugwort material therapy liquid flows out and fills the cavity of the impermeable body. The mugwort material therapy liquid comes into contact with the acupoint through the opening. Due to its own structure, the mugwort material therapy liquid will quickly overflow the therapy area, resulting in a reduction in the amount of drug or effective ingredients acting on the target site. It is impossible to maintain an effective drug concentration or physical effect, thereby reducing the therapeutic effect and making it difficult to achieve the expected therapeutic purpose.

[0005] Therefore, it is necessary to research a new technical solution to address the above problems. Utility Model Content

[0006] In view of this, the present invention addresses the deficiencies of the existing technology, and its main objective is to provide a heat-compressing bead patch. Through the structural design and coordination of a breathable membrane, a fixing component, a heating component, a liquid barrier component, a permeating component, and an absorbent component, when applied to the desired therapeutic area, the absorbent component's adsorption capacity allows the liquid from the bead to permeate the absorbent component, preventing the essential oil from rapidly flowing out of the therapeutic area and prolonging the therapeutic time. Furthermore, the liquid barrier component prevents reverse liquid permeation, ensuring that the bead liquid does not enter the heating pack, thus guaranteeing heating stability and preventing abnormal heating.

[0007] To achieve the above objectives, the present invention adopts the following technical solution:

[0008] A heat-compressing bead patch includes a bead patch body, wherein the bead patch body comprises, from top to bottom, a breathable membrane, a fixing member, a heating member, a liquid barrier member, a permeating member, and an absorbent member, which are stacked sequentially; the breathable membrane is peelably connected to the upper end of the fixing member.

[0009] The fixing member has a recessed cavity, and the heating element is installed and positioned inside the cavity; the permeating element contains easily ruptureable popping beads; the liquid barrier includes an annular portion and a recessed portion, the recessed portion being connected to one side of the annular portion to form a barrier cavity; the permeating element is disposed inside the barrier cavity, wherein at least a portion of the permeating element is exposed outside the recessed portion; the absorbent element abuts against the lower side of the permeating element; the lower end of the absorbent element is provided with a removable adhesive layer for easy bonding.

[0010] As a preferred embodiment, the penetrating element is provided with several through holes, and the bursting beads are disposed in the through holes. When the bursting beads are broken, the physiotherapy liquid inside the bursting beads can be better spread on the penetrating element, so that the skin in contact with the penetrating element can absorb the physiotherapy liquid.

[0011] As a preferred embodiment, the bursting bead includes a ruptureable membrane and an essential oil encapsulated within the ruptureable membrane, wherein the essential oil in the bursting bead evaporates and diffuses before being absorbed by the absorbent element;

[0012] As a preferred embodiment, the lower end face of the removable adhesive layer is peelably connected to a release paper.

[0013] As a preferred embodiment, the permeation element is a permeation cotton element, which results in better adsorption effect.

[0014] As a preferred embodiment, the absorbent element is absorbent cotton, which enhances its adsorption effect.

[0015] As a preferred embodiment, both the fixing element and the liquid barrier element are made of PET film, OPP film, PE film, PVC film, or aluminum film.

[0016] Compared with the prior art, this utility model has significant advantages and beneficial effects. Specifically, as can be seen from the above technical solution, it mainly relies on the structural design and cooperation between the breathable membrane, fixing component, heating component, liquid barrier component, permeating component, and absorbent component. The permeating component contains easily breakable popping beads; the liquid barrier component includes an annular portion and a recessed portion, with the recessed portion connected to one side of the annular portion to form a barrier cavity. The permeating component is disposed within the barrier cavity, and the absorbent component abuts against the lower side of the permeating component. The lower end of the absorbent component is provided with a removable adhesive layer for easy adhesion. Thus, when the breathable membrane is torn open, air enters the heating pack. After the heating pack heats up, it applies pressure to the fixing component to break the popping beads, allowing the liquid from the popping beads to be absorbed by the absorbent component. The absorbent component is then attached to the desired part of the body through the removable adhesive layer. Simultaneously, the heating component generates heat after air enters and transfers it to the absorbent component, causing the liquid from the popping beads to evaporate and penetrate into the desired part of the body, thereby achieving health care and therapeutic effects.

[0017] Secondly, there is the design of the absorbent. When it is attached to the area of ​​the body that needs treatment, the absorbent has an adsorption capacity due to its material design, which allows the liquid from the capsule to permeate the absorbent, preventing the essential oil from flowing out of the treatment area quickly and prolonging the treatment time.

[0018] Next is the design of the heating element, which gives it a heat therapy effect. The heating and evaporation of essential oils penetrate into the body, and the heat therapy makes the body more comfortable.

[0019] Finally, the design of the liquid barrier component prevents liquid from seeping in the opposite direction, preventing the bursting liquid from entering the heating element. This ensures heating stability, prevents abnormal heating, and also provides a certain degree of heat insulation, avoiding discomfort to the skin when the heating element emits too much heat.

[0020] To more clearly illustrate the structural features and effects of this utility model, the following detailed description of this utility model is provided in conjunction with the accompanying drawings and specific embodiments. Attached Figure Description

[0021] Figure 1 This is a perspective view of an embodiment of the present utility model;

[0022] Figure 2 This is a cross-sectional view of an embodiment of the present utility model;

[0023] Figure 3 This is an exploded view of an embodiment of the present utility model;

[0024] Figure 4 yes Figure 2 A magnified view of a portion of point A in the middle.

[0025] Explanation of reference numerals in the attached diagram:

[0026] 10. Bursting beads body 11. Breathable membrane

[0027] 12. Fasteners 13. Heating elements

[0028] 121. Receptacle

[0029] 14. Liquid barrier components 15. Permeable components

[0030] 141. Annular portion; 142. Recessed portion

[0031] 151. Through hole

[0032] 16. Absorbent component 17. Release paper

[0033] 18. Bursting beads 19. Removable adhesive layer. Detailed Implementation

[0034] Please refer to Figures 1 to 4 As shown, it illustrates the specific structure of an embodiment of the present invention.

[0035] In the description of this utility model, it should be noted that the directional terms such as "up", "down", "front", "back", "left", and "right" indicate the orientation and positional relationship based on the accompanying drawings or the orientation or positional relationship shown when wearing and using the device normally. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. They should not be construed as limiting the specific protection scope of this utility model.

[0036] A heat therapy popping bead patch includes a popping bead patch body 10.

[0037] The burst bead patch body 10 includes, from top to bottom, a breathable membrane 11, a fixing member 12, a heating element 13, a liquid barrier member 14, a permeating member 15, and an absorbent member 16, stacked sequentially. The breathable membrane 11 is peelably connected to the upper end of the fixing member 12. To prevent the heating element 13 from heating when not in use, thus avoiding heat loss, the design of the heating element 13 provides a heat therapy effect. The heated and volatile essential oils penetrate the body, and the heat therapy enhances comfort.

[0038] Secondly, the warmth of a hot compress dilates skin pores, making it easier for the essential oil molecules released from the bursting oil beads to be absorbed by the skin and better exert their nerve-soothing effects. For example, lavender essential oil has a calming and sleep-inducing effect; when used in conjunction with a hot compress, it can help people enter a relaxed state more quickly, relieve physical and mental fatigue, reduce anxiety, and improve problems such as insomnia and headaches caused by mental stress.

[0039] Alternatively, rosemary essential oil, when used in conjunction with a hot compress, can help. The heat dilates blood vessels, providing more favorable conditions for the essential oil molecules to enter the bloodstream. The synergistic effect of the two can more effectively promote local blood circulation and accelerate metabolism, resulting in better relief of cold hands and feet and improvement of local microcirculation disorders.

[0040] Alternatively, peppermint essential oil has a cooling and analgesic effect, while eucalyptus essential oil has anti-inflammatory and swelling-reducing properties. Applying heat raises the temperature of the local tissues and accelerates blood circulation, allowing the active ingredients of the essential oils to be transported to the painful area more quickly, enhancing the analgesic effect and more effectively relieving symptoms such as muscle pain and joint pain.

[0041] Finally, the aromatic scents released by the essential oil capsules can stimulate the olfactory nerves, which are then transmitted to the limbic system of the brain, affecting emotions and psychological state. Different essential oil scents can bring different effects. For example, the refreshing scent of lemon essential oil can refresh the mind and improve concentration; the romantic scent of rose essential oil can stimulate a sense of pleasure and improve mood, thus playing a role in regulating psychology and soothing emotions to a certain extent.

[0042] In this embodiment, the fixing member 12, heating member 13, liquid barrier member 14, penetrating member 15 and absorbing member 16 can be connected by adhesive, which is formed by heat-resistant adhesive; or they can be integrally molded by hot pressing or ultrasonic molding, and the appropriate molding method can be selected according to actual needs.

[0043] The fixing member 12 has a recessed cavity 121, and the heating element 13 is installed and positioned in the cavity 121. The heating element 13 is composed of iron powder, salt and activated carbon. When the outer breathable membrane 11 is torn open, air enters the heating pack. The moisture in the air is the reaction medium and plays a role in catalyzing the heat (heating pack heats up).

[0044] The permeation element 15 contains easily breakable burst beads 18; preferably, the burst beads 18 include an easily breakable membrane and essential oil wrapped in the easily breakable membrane, and the essential oil in the burst beads evaporates and diffuses through the absorption element 16; in this embodiment, the essential oil burst beads with corresponding effects can be selected according to actual needs.

[0045] The liquid barrier 14 includes an annular portion 141 and a recessed portion 142. The recessed portion 142 is connected to one side of the annular portion 141 to form a barrier cavity. The permeating element 15 is disposed in the barrier cavity. Preferably, the permeating element 15 is a permeating cotton element, which makes its adsorption effect better.

[0046] Preferably, the penetrating element 15 is provided with a plurality of through holes 151, and the bursting beads are disposed in the through holes 151. When the bursting beads are broken, the physiotherapy liquid inside the bursting beads can be better spread on the penetrating element 15, so that the skin in contact with the penetrating element 15 can absorb the physiotherapy liquid.

[0047] At least a portion of the permeating element 15 is exposed outside the recess 142; the absorbent element 16 abuts against the lower side of the permeating element 15; preferably, the absorbent element 16 is absorbent cotton, so that its adsorption effect is better.

[0048] Preferably, the fixing member 12 and the liquid barrier member 14 are both made of PET film, OPP film, PE film, PVC film or aluminum film.

[0049] The lower end of the absorbent 16 is provided with a removable adhesive layer 19 for easy bonding. Preferably, the lower end face of the removable adhesive layer 19 is peelably connected to a release paper 17. In actual use, the paper body of the release paper is removed so that the two ends of the absorbent 16 can be bonded to the human skin through the removable adhesive layer 19.

[0050] The general usage method of this embodiment is described in detail below:

[0051] In use, tear open the breathable membrane 11 to allow the heating element 13 to come into contact with oxygen and generate heat. Then, apply pressure to the fixing element 12 to break the bursting bead, allowing the liquid in the bursting bead to be absorbed by the absorbent element 16. Next, tear open the release paper and attach the absorbent element 16 to the desired part of the body through the removable adhesive layer 19. At this time, the heating element 13 will generate heat (40-60 degrees Celsius) after entering the air and will be transferred to the absorbent element 16, causing the liquid in the bursting bead to evaporate and penetrate into the desired part of the body. This will stimulate the activity of Qi and adjust the disordered physiological and biochemical functions of the human body, thereby achieving the effects of health care and treatment.

[0052] The key design feature of this invention lies in the structural design and coordination between the breathable membrane, fixing component, heating component, liquid barrier component, permeating component, and absorbent component. The permeating component contains easily breakable burst beads. The liquid barrier component includes an annular portion and a recessed portion, with the recessed portion connected to one side of the annular portion to form a barrier cavity. The permeating component is disposed within the barrier cavity, and the absorbent component abuts against the lower side of the permeating component. The lower end of the absorbent component has a removable adhesive layer for easy bonding. Thus, when the breathable membrane is torn open, air enters the heating pack. After the heating pack heats up, it applies pressure to the fixing component to break the burst beads, allowing the liquid from the burst beads to be absorbed by the absorbent component. The removable adhesive layer then adheres the absorbent component to the desired part of the body. Simultaneously, the heating component, upon entering the air, generates heat which is transferred to the absorbent component, causing the liquid from the burst beads to evaporate and penetrate into the desired part of the body, thereby achieving health and therapeutic effects.

[0053] Secondly, there is the design of the absorbent. When it is attached to the area of ​​the body that needs treatment, the absorbent has an adsorption capacity due to its material design, which allows the liquid from the capsule to permeate the absorbent, preventing the essential oil from flowing out of the treatment area quickly and prolonging the treatment time.

[0054] Next is the design of the heating element, which gives it a heat therapy effect. The heating and evaporation of essential oils penetrate into the body, and the heat therapy makes the body more comfortable.

[0055] Finally, the design of the liquid barrier component prevents liquid from seeping in the opposite direction, preventing the bursting liquid from entering the heating element. This ensures heating stability, prevents abnormal heating, and also provides a certain degree of heat insulation, avoiding discomfort to the skin when the heating element emits too much heat.

[0056] The above description is merely a preferred embodiment of the present utility model and does not constitute any limitation on the technical scope of the present utility model. Therefore, any minor modifications, equivalent changes and alterations made to the above embodiments based on the technical essence of the present utility model shall still fall within the scope of the technical solution of the present utility model.

Claims

1. A heat-compressing beaded patch, characterized in that: The device includes a bursting bead patch body, which comprises, from top to bottom, a breathable membrane, a fixing element, a heating element, a liquid barrier element, a permeating element, and an absorbent element stacked on top of each other; the breathable membrane is peelably connected to the upper end of the fixing element. The fixing member has a recessed cavity, and the heating element is installed and positioned inside the cavity; the permeating element contains easily ruptureable popping beads; the liquid barrier includes an annular portion and a recessed portion, the recessed portion being connected to one side of the annular portion to form a barrier cavity; the permeating element is disposed inside the barrier cavity, wherein at least a portion of the permeating element is exposed outside the recessed portion; the absorbent element abuts against the lower side of the permeating element; the lower end of the absorbent element is provided with a removable adhesive layer for easy bonding.

2. The heat-compressing beaded patch according to claim 1, characterized in that: The permeation element is provided with several through holes, and the bursting beads are disposed in the through holes.

3. The heat-compressing beaded patch according to claim 1, characterized in that: The bursting bead includes a ruptured membrane and essential oil encapsulated within the ruptured membrane. After the essential oil in the bursting bead evaporates and diffuses, it evaporates through the absorbent.

4. The heat-compressing beaded patch according to claim 1, characterized in that: Release paper is peelably attached to the lower end face of the removable adhesive layer.

5. The heat-compressing beaded patch according to claim 1, characterized in that: The permeation element is a permeation cotton element.

6. The heat-compressing beaded patch according to claim 1, characterized in that: The absorbent element is absorbent cotton.

7. The heat-compressing beaded patch according to claim 1, characterized in that: The fixing components and liquid barrier components are all made of PET film, OPP film, PE film, PVC film, or aluminum film.