CN220070306U - Cupping device - Google Patents

Abstract

The utility model discloses a cupping device, which belongs to the technical field of traditional Chinese medicine and medical appliances, and comprises a main body and an atomization assembly, wherein the main body is internally provided with a containing groove and a cavity, the atomization assembly is provided with an adsorption cotton core and an atomization piece, the adsorption cotton core is at least partially movably arranged in the containing groove, and the atomization piece is movably arranged on the main body and is positioned in the cavity; the atomization piece is provided with a first moving position and a second moving position, and the adsorption cotton core is at least partially exposed relative to the atomization piece in the first moving position; in the second moving position, an atomization chamber is formed between the atomization piece and the accommodating groove, and the adsorption cotton core is positioned in the atomization chamber; the atomizing piece is provided with an atomizing hole, and the atomizing chamber is communicated with the cavity through the atomizing hole; when the atomizing piece is at the first moving position, the adsorption cotton core can be taken out, so that the used adsorption cotton core can be replaced, and when the adsorption cotton core is replaced, the atomizing piece only needs to be moved, so that the operation is convenient in the use process.

Description

Cupping device

Technical Field

The utility model belongs to the technical field of traditional Chinese medicine and medical appliances, and particularly relates to a cupping device.

Background

Cupping in traditional Chinese medicine is a simple and effective treatment means, and various medical and health institutions ranging from hospitals to sanitariums, clinics and the like, even many families are provided with cupping devices for treating diseases or removing pain, relieving fatigue and the like. The cupping can dispel cold and dampness, dredge channels and collaterals, remove stasis, promote qi and blood circulation, detumescence and analgesia, remove toxic substances and purge heat, and has the functions of regulating yin-yang balance of human body, relieving fatigue and strengthening physique.

However, the function of the cupping device on the market is single, and the cupping is generally carried out after alcohol is burnt in the cupping body in an original mode, which is commonly called cupping. Although the patent numbers are: 202211133620.3 it discloses a multifunctional cupping device, which combines an exhaust tank body with two independent liquid spraying components by adopting a compression component, so as to realize the integrated design of an embedded liquid spraying component of the rotary cupping device. However, the medicine stored in the inner cavity of the cupping device can not be cleaned, different medicines can not be replaced, and the adaptability is poor; moreover, the medicinal preparation is liable to change in quality in the cupping device for a long period of time.

Disclosure of Invention

The utility model aims to provide a cupping device which can change different medicaments at any time, has wide application range and is convenient to operate.

The technical scheme is as follows:

the cupping device comprises a main body and an atomization assembly, wherein a containing groove and a cavity are formed in the main body, the atomization assembly is provided with an adsorption cotton core and an atomization piece, the adsorption cotton core is at least partially movably arranged in the containing groove, and the atomization piece is movably arranged on the main body and is positioned in the cavity;

the atomizing member has a first moving position in which the absorbent cotton core is at least partially exposed with respect to the atomizing member and a second moving position; in a second moving position, an atomization chamber is formed between the atomization piece and the accommodating groove, and the adsorption cotton core is positioned in the atomization chamber; the atomizing piece is provided with an atomizing hole, and the atomizing chamber is communicated with the chamber through the atomizing hole.

In one embodiment, the atomization piece comprises an atomization piece, a connecting seat, a fixing seat and a waterproof cover, wherein the connecting seat is provided with a first through hole for the adsorption cotton core to pass through, the connecting seat is arranged on the main body, a first end of the fixing seat is hinged with a first end of the connecting seat, and a second end of the fixing seat is buckled with a second end of the connecting seat; the waterproof cover is arranged on the outer side of the fixed seat, an installation cavity is formed between the waterproof cover and the inner side of the fixed seat, and the atomizing sheet is arranged in the installation cavity; the fixed seat is provided with a second through hole, and the atomization hole is positioned on the waterproof cover;

wherein, the atomizing chamber, the first through hole, the second through hole, the installation cavity, the atomizing Kong Yici UNICOM.

In one embodiment, the main body includes a first housing, a second housing, and a tank, the accommodating groove is located in the first housing, the chamber is formed in the tank, the second housing is mounted at a first end of the first housing, and a second end of the first housing is detachably connected with the tank; the second shell is internally provided with a driving assembly, at least one part of the driving assembly is arranged on the outer surface of the second shell, and the driving assembly is electrically connected with the atomizing piece.

In one embodiment, the cupping device further comprises an air pump, an induction piece and an air pipe, wherein the air pump is installed in the second shell, the air pipe is installed on the first shell, a first end of the air pipe stretches into the cavity, and a second end of the air pipe is installed on an air suction end of the air pump; the sensing piece is arranged on the first shell, at least one part of the sensing piece is positioned in the cavity, and the sensing piece and the air pump are respectively and electrically connected with the driving assembly.

In one embodiment, the atomizing assembly further comprises an illuminating lamp mounted on the first housing and located in the chamber, and an illuminating area of the illuminating lamp covers the bottom of the tank.

In one embodiment, the top of the first housing is provided with a base and a fastener, the accommodating groove is located in the base, the connecting base is provided with a mounting hole for the fastener to pass through, the connecting base is mounted on the base through the fastener, a first end of the fastener is electrically connected with the driving assembly, and a second end of the fastener is used for contacting with the atomizing sheet.

In one embodiment, the first housing has a columnar structure, the inner wall of the first housing has a first clamping groove and a second clamping groove, the second clamping groove extends along the circumferential direction of the first housing, the length direction of the second clamping groove intersects with the height direction of the first clamping groove, and the first clamping groove is communicated with the second clamping groove;

the tank body comprises a third shell, a fourth shell and a clamping column, the third shell is mounted at the top of the fourth shell, the outer diameter of the third shell is smaller than that of the fourth shell, and the clamping column is mounted on the outer wall of the third shell; the clamping column enters the second clamping groove through the first clamping groove, and is clamped with the second clamping groove in the first direction.

In one embodiment, the pressure release assembly is further arranged in the main body, and comprises a mounting shell, a pressure spring, a sealing element and a pushing element, wherein the mounting shell is mounted on the first shell, one end of the pressure spring is mounted on the inner wall of the mounting shell, the first end of the sealing element is mounted on the second end of the pressure spring, the pressure spring and the sealing element are both positioned in the mounting shell, and the sealing element is abutted with the inner wall of the mounting shell;

the first shell is provided with an air hole communicated with the cavity, the second end of the sealing piece is used for abutting against the air hole, and the pushing piece penetrates through the first shell and is in sliding fit with the first shell; the first end of the pushing piece stretches into the first shell and is used for abutting against the sealing piece, and the moving direction of the pushing piece is intersected with the extrusion direction of the pressure spring; the second end of the pushing piece is positioned on the outer wall of the first shell;

at least a portion of the seal is made of an elastomeric material.

In one embodiment, the outer wall of the main body is provided with a notch, and the depth direction of the notch is intersected with the height direction of the main body.

The technical scheme provided by the utility model has the following advantages and effects:

1. placing the absorbent cotton core into a containing groove of the main body, wherein the atomization piece is provided with a first moving position and a second moving position, and the absorbent cotton core is at least partially exposed relative to the atomization piece in the first moving position; in a second moving position, an atomization chamber is formed between the atomization piece and the accommodating groove, and the adsorption cotton core is positioned in the atomization chamber; when the atomization piece is at the first moving position, the adsorption cotton core can be taken out, so that the used adsorption cotton core is replaced, and the adsorption cotton core is used for sucking the liquid medicine; when the cupping device needs to use different medicines, the suction cotton cores filled with different liquid medicines can be adopted, and when the suction cotton cores are replaced, only the atomizing piece needs to be moved, so that the operation is convenient in the use process; when the accommodating groove needs to be cleaned, the atomization piece can be moved to clean. When the atomizing piece is at the second moving position, an atomizing chamber for sealing or fixedly adsorbing the cotton core is formed between the atomizing piece and the accommodating groove, the atomizing piece breaks up a liquid water molecule structure by high-frequency vibration to generate natural and elegant water mist, the natural and elegant water mist flows into the chamber through the atomizing holes, the atomizing holes are used for enabling the mist of the atomizing chamber to flow out, and the atomizing holes limit the liquid medicine to flow out; the cavity of the main body is used for directly contacting with the skin surface, so that atomized liquid medicine is uniformly distributed on the skin surface. Therefore, the atomization piece is movably arranged on the main body, so that different medicaments can be replaced at any time, and the application range is wide.

2. The connecting seat is arranged on the main body, the connecting seat is provided with a first through hole for the cotton core to pass through, the first end of the fixing seat is hinged with the connecting seat, the second end of the fixing seat is fastened with the connecting seat, and the atomizing chamber is conveniently opened or closed by the fixing seat, so that the cotton core can be replaced and adsorbed more conveniently. Moreover, the waterproof cover is installed in the outside of fixing base to form the installation cavity with the inboard of fixing base between, the fixing base has the second through-hole, makes the atomizing piece when the operation, and the liquid medicine is primarily atomized by the tiny ultrasonic vibration that the atomizing piece produced, then the liquid medicine extrudes through reticular atomizing hole, forms secondary atomization, and forms the aerosol granule that the diameter is littleer. Wherein, waterproof lid seals the atomizer chamber, avoids the liquid medicine drip of atomizer chamber to the cavity in, makes after the atomizing liquid medicine follow atomizer chamber, first through-hole, second through-hole, installation cavity and atomizing hole flow out to the cavity in proper order in, further improves the atomization effect of cup.

3. The second shell is arranged at the first end of the first shell, the second end of the first shell is detachably connected with the tank body, the tank bodies with different sizes can be replaced by the cupping device under the condition that the size of the connecting part of the tank body is unchanged, the bottom contact surfaces of the tank bodies with different sizes are different, and therefore the cupping device can adapt to different parts on a human body by adopting the tank bodies with different sizes, and the adaptability of the cupping device is improved; and have drive assembly in the second casing, drive assembly at least a portion sets up the surface at the second casing, drive assembly and atomizing piece electric connection can operate drive assembly at the surface of second casing to start the atomizing piece, improve the convenience of cupping device operation.

4. An air pump is arranged in the second shell and is communicated with the cavity through an air pipe; meanwhile, the sensing piece is also arranged on the first shell, at least one part of the sensing piece is positioned in the cavity and used for sensing the air pressure in the cavity, when the driving component drives the sensing piece to operate, the sensing piece senses the air pressure in the cavity, when the air pressure value sensed by the sensing piece is lower than a preset value, the sensing piece generates an electric signal and feeds the electric signal back to the driving component, and the driving component drives the air pump to inhale according to the feedback signal of the sensing piece; under the condition that the bottom of the tank body is tightly attached to the surface of the skin, the air pump sucks air, the cavity is gradually in a negative pressure state, the surface of the skin is tightened, and the inner wall of the bottom of the tank body is extruded by the skin when the skin is reset due to strong restorability, so that the bonding degree of the tank body and the surface of the skin is further improved. When the sensing piece senses that the air pressure in the cavity reaches a preset value, the sensing piece sends an electric signal to the driving assembly, and therefore the driving assembly drives the air pump to stop working. The air pump is matched with the sensing piece, so that a negative pressure state is formed in the cavity of the cupping device quickly, and the function of adsorbing the cupping device on the surface of skin is met; when the cupping device is used, the driving assembly is operated by one key, so that the cupping device automatically senses and performs cupping. Moreover, with respect to the burning of alcohol in the tank, the incorrect operation may burn the skin; therefore, the cupping device adopts the air pump to suck air for cupping, thereby greatly improving the use safety.

5. The irradiation lamp is arranged on the first shell and is positioned in the cavity, and the irradiation area of the irradiation lamp covers the bottom of the tank body; after the atomizing piece carries out atomizing operation, the liquid medicine can be attached to the skin surface, the liquid medicine on the skin surface can be heated by adopting the irradiation lamp, the irradiation lamp can be an infrared lamp, the infrared lamp emits infrared rays, the effect of promoting vasodilation and improving local temperature is achieved, and therefore the traditional cupping cup mode is simulated, and the performance of the cupping cup is improved.

6. In order to facilitate the installation of the connecting seat, a seat body is arranged at the top of the first shell, the connecting seat is installed on the seat body through a fastener, and the connecting seat is electrically connected with the driving assembly through the fastener; under the condition that the connecting seat is fixed, the fastener further has a conductive function, the first end of the fastener is electrically connected with the driving component, the second end of the fastener is used for being in contact with the atomizing sheet, and when the fixing seat is fastened with the connecting seat, the atomizing piece is in contact with the fastener, so that the driving component is electrically connected with the atomizing sheet, and the atomizing sheet is driven to operate.

7. The inner wall of the first shell is provided with a first clamping groove and a second clamping groove, the second clamping groove extends along the circumferential direction of the first shell, the length direction of the second clamping groove is intersected with the height direction of the first clamping groove, and the first clamping groove is communicated with the second clamping groove; when the tank is installed, the clamping column of the third shell enters the first clamping groove of the first shell and pushes the third shell to move upwards to enable the clamping column to slide into the second clamping groove, the tank body is rotated to enable the clamping column of the third shell to move along the second clamping groove, so that the tank body is clamped with the first shell, the second clamping groove limits the tank body to move in the height direction, and the tank body can be installed or detached by rotating the tank body clockwise or anticlockwise. Secondly, the external diameter of third casing is less than the external diameter of fourth casing, so set up, can make the surface of fourth casing and the surface of first casing lie in the coplanar after the joint is accomplished to third casing and first casing to improve the compact structure degree and the outward appearance effect of cup.

8. After the cupping operation is finished, in order to enable the cupping device to be rapidly decompressed and separated, the pushing piece is arranged on the outer wall of the first shell, the pushing piece is used for extruding the sealing piece by pressing the pushing piece, and at least part of the sealing piece is made of elastic materials. When the cupping device needs to perform cupping operation, under the condition that the pushing piece is extruded by no external force, the sealing piece is extruded by the pressure spring, so that the sealing piece seals the air hole, external air is prevented from entering the cavity through the air hole, and the cavity is in a negative pressure state during operation; therefore, the pushing piece, the sealing piece and the pressure spring are adopted, so that the cupping device has a one-key pressure relief function, and the operation convenience of the cupping device is further improved.

9. In order to facilitate the cupping operation of the cupping device, a notch is arranged on the outer wall of the main body, the depth direction of the notch is intersected with the height direction of the main body, so that when the cupping device is held by hand, a finger can extend into the notch, the finger can act on the cupping device conveniently, the cupping device can be taken down easily, and the convenience of operating the cupping device is further improved.

Drawings

Fig. 1 is a schematic view showing the structure of a cupping device according to an embodiment of the present utility model.

Figure 2 is an exploded view of the construction of a cupping device according to an embodiment of the present utility model.

Figure 3 is a cross-sectional view of the construction of the cupping device according to one embodiment of the present utility model.

Figure 4 is a cross-sectional view of a second embodiment of the present utility model.

Fig. 5 is a schematic diagram illustrating a positional relationship between the first housing and the atomizing assembly according to an embodiment of the present utility model.

Fig. 6 is a schematic diagram showing a second positional relationship between the first housing and the atomizing assembly according to an embodiment of the present utility model.

Fig. 7 is a schematic view of a tank according to an embodiment of the present utility model.

Reference numerals illustrate:

100. a cupping device; 1. a main body; 11. an air pump; 12. an air pipe; 13. a first housing; 131. a receiving groove; 132. a first clamping groove; 133. a second clamping groove; 134. air holes; 135. a base; 14. a seal ring; 15. a second housing; 2. a tank body; 21. a chamber; 22. a third housing; 23. a clamping column; 24. a hemming section; 25. a fourth housing; 3. a notch; 4. a drive assembly; 41. a charging socket; 42. an operation panel; 43. a circuit board; 5. a pressure relief assembly; 51. a mounting shell; 52. a pressure spring; 53. a seal; 54. a pushing member; 6. an atomizing assembly; 60. an atomizing member; 61. adsorbing cotton cores; 62. a radiation lamp; 63. an induction member; 64. an atomizing sheet; 65. a connecting seat; 651. a first through hole; 66. a fixing seat; 67. a fastener; 68. a waterproof cover; 681. an atomization hole; 69. an atomizing chamber.

Detailed Description

In order that the utility model may be readily understood, a more particular description of specific embodiments thereof will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

As used herein, the terms "first and second …" are used merely to distinguish between names and not to represent a particular number or order unless otherwise specified or defined.

The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items, unless specifically stated or otherwise defined.

The term "fixed" or "connected" as used herein may be directly fixed or connected to an element, or indirectly fixed or connected to an element.

As shown in fig. 1 to 7, a cupping device 100 comprises a main body 1 and an atomization assembly 6, wherein the main body 1 is internally provided with a containing groove 131 and a cavity 21, the atomization assembly 6 is provided with an adsorption cotton core 61 and an atomization piece 60, the adsorption cotton core 61 is at least partially movably arranged in the containing groove 131, and the atomization piece 60 is movably arranged on the main body 1 and is positioned in the cavity 21; the atomizing member 60 has a first moving position in which the absorbent core 61 is at least partially exposed with respect to the atomizing member 60, and a second moving position; in the second moving position, an atomizing chamber 69 is formed between the atomizing member 60 and the accommodating groove 131, and the absorbent cotton core 61 is located in the atomizing chamber 69; the atomizer 60 has an atomization orifice 681, and the atomization chamber 69 communicates with the chamber 21 through the atomization orifice 681. When the atomizing member 60 is at the first moving position, the absorbent core 61 may be taken out so that the absorbent core 61 that has been used up is replaced, the absorbent core 61 being used to suck up the liquid medicine; when the cupping device 100 needs to use different medicines, the adsorption cotton core 61 filled with different medicine liquids can be adopted, and when the adsorption cotton core 61 is replaced, the atomization piece 60 only needs to be moved, so that the operation is convenient in the use process; when the accommodating groove 131 needs to be cleaned, the atomizing member 60 can be moved for cleaning. When the atomizer 60 is at the second moving position, an atomizer chamber 69 for sealing or fixing the absorbent cotton core 61 is formed between the atomizer 60 and the accommodating groove 131, the atomizer 60 breaks up the liquid water molecule structure by high-frequency oscillation to generate natural and elegant water mist, the natural and elegant water mist flows into the chamber 21 through the atomizer holes 681, the mist of the atomizer chamber 69 flows out through the atomizer holes 681, and meanwhile, the atomizer holes 681 limit the outflow of liquid medicine; the chamber 21 of the body 1 is adapted to be in direct contact with the skin surface so that the atomized liquid medicine is uniformly distributed on the skin surface. Therefore, the atomizing member 60 is movably provided on the main body 1, so that different medicaments can be replaced at any time, and the application range is wide.

As shown in fig. 2 to 4, the atomizing member 60 includes an atomizing sheet 64, a connection base 65, a fixing base 66 and a waterproof cover 68, the connection base 65 has a first through hole 651 for passing through the absorbent cotton core 61, the connection base 65 is mounted on the main body 1, a first end of the fixing base 66 is hinged with a first end of the connection base 65, and a second end of the fixing base 66 is fastened with a second end of the connection base 65; the waterproof cover 68 is installed on the outer side of the fixed seat 66, and forms an installation cavity with the inner side of the fixed seat 66, and the atomization sheet 64 is arranged in the installation cavity; the fixing base 66 has a second through hole, and the atomization hole 681 is located on the waterproof cover 68; wherein, the atomizing chamber 69, the first through hole 651, the second through hole, the mounting cavity, and the atomizing hole 681 are sequentially communicated. The connecting seat 65 is adopted to be mounted on the main body 1, the connecting seat 65 is provided with a first through hole 651 for the adsorption cotton core 61 to pass through, the first end of the fixing seat 66 is hinged with the connecting seat 65, the second end of the fixing seat 66 is fastened with the connecting seat 65, and the atomizing chamber 69 is conveniently opened or closed by the fixing seat 66, so that the adsorption cotton core 61 can be replaced more conveniently. Moreover, the waterproof cover 68 is installed at the outer side of the fixing base 66 and forms an installation cavity with the inner side of the fixing base 66, and the fixing base 66 has a second through hole, so that the medicine liquid is primarily atomized by the tiny ultrasonic vibration generated by the atomizing sheet 64 when the atomizing sheet 64 is operated, and then the medicine liquid is extruded through the net-shaped atomizing hole 681 to form secondary atomization and form aerosol particles with smaller diameters. Wherein, waterproof lid 68 seals atomizer chamber 69, avoids the liquid medicine drip of atomizer chamber 69 to in the cavity 21, makes the liquid medicine follow atomizer chamber 69, first through-hole 651, second through-hole, installation cavity and atomizing hole 681 flow out to in proper order in cavity 21 after atomizing, further improves the atomization effect of cupping device 100.

As shown in fig. 1 to 4, the main body 1 includes a first housing 13, a second housing 15, and a can body 2, the receiving groove 131 is located in the first housing 13, a chamber 21 is formed in the can body 2, the second housing 15 is mounted at a first end of the first housing 13, and a second end of the first housing 13 is detachably connected to the can body 2; because the second end of the first shell 13 is detachably connected with the cup body 2, under the condition that the size of the connecting part of the cup body 2 is unchanged, the cup 100 can be replaced by the cup body 2 with different sizes, and the bottom contact surfaces of the cup bodies 2 with different sizes are different, so that the cup bodies 2 with different sizes can be adopted to adapt to different parts on a human body, and the adaptability of the cup 100 is improved. The second shell 15 is internally provided with a driving component 4, at least one part of the driving component 4 is arranged on the outer surface of the second shell 15, and the driving component 4 is electrically connected with the atomizing piece 60; the driving assembly 4 can be operated at the outer surface of the second housing 15 to activate the atomizing member 60, improving the convenience of operation of the cupping device 100.

As shown in fig. 1 and 2, in the present embodiment, the driving assembly 4 includes an operation panel 42, a driving circuit, a charging socket 41 and a battery (not shown in the drawings), the operation panel 42 is disposed on top of the second housing 15, the driving circuit is disposed in the second housing 15 through a circuit board 43, and the charging socket 41 and the battery are electrically connected with the driving circuit; the battery is charged through the charging socket 41, and provides electric power to the air pump 11, the atomizing sheet 64, and the illumination lamp 62.

As shown in fig. 4 to 6, the cupping device 100 further comprises an air pump 11, a sensing member 63 and an air tube 12, wherein the air pump 11 is installed in the second housing 15, the air tube 12 is installed on the first housing 13, a first end of the air tube 12 extends into the cavity 21, and a second end of the air tube 12 is installed on an air suction end of the air pump 11; the sensing element 63 is mounted on the first housing 13, and at least a portion of the sensing element 63 is located in the chamber 21, and the sensing element 63 and the air pump 11 are electrically connected to the driving assembly 4 respectively. An air pump 11 is arranged in the second shell 15 and is communicated with the cavity 21 through an air pipe 12; meanwhile, the sensing piece 63 is also arranged on the first shell 13, at least one part of the sensing piece 63 is positioned in the cavity 21 and is used for sensing the air pressure in the cavity 21, when the driving component 4 drives the sensing piece 63 to operate, the sensing piece 63 senses the air pressure in the cavity 21, when the air pressure value sensed by the sensing piece 63 is lower than a preset value, the sensing piece 63 generates an electric signal and feeds the electric signal back to the driving component 4, and the driving component 4 drives the air pump 11 to suck air according to the feedback signal of the sensing piece 63; under the condition that the bottom of the tank body 2 is tightly adhered to the surface of the skin, the air pump 11 sucks air, the cavity 21 is gradually in a negative pressure state, the surface of the skin is tightened, and the skin presses the inner wall of the bottom of the tank body 2 during resetting due to strong restorability of the skin, so that the adhesion degree between the tank body 2 and the surface of the skin is further improved. When the sensing member 63 senses that the air pressure in the chamber 21 reaches a preset value, the sensing member 63 transmits an electric signal to the driving assembly 4, thereby driving the air pump 11 to stop operation through the driving assembly 4.

The air pump 11 is matched with the sensing piece 63, so that a negative pressure state is formed in the cavity 21 of the cupping device 100 quickly, and the function of adsorbing the cupping device 100 on the surface of skin is achieved; when the cupping device 100 is used, the driving assembly 4 is operated by one key, so that the cupping device 100 automatically senses and performs cupping. Moreover, with respect to the combustion of the alcohol in the tank 2, it is possible that the skin is burned by improper operation; therefore, the cupping device 100 adopts the air pump 11 to suck air for cupping, thereby greatly improving the use safety.

As shown in fig. 2 and 6, the atomizing assembly 6 further has an irradiation lamp 62, and the irradiation lamp 62 is mounted on the first housing 13 and is located in the chamber 21, and an irradiation area of the irradiation lamp 62 covers the bottom of the can 2. After the atomization operation is performed by the atomization piece 60, the liquid medicine can be adhered to the skin surface, the irradiation lamp 62 is adopted to heat the liquid medicine on the skin surface, the irradiation lamp 62 can be an infrared lamp, the infrared lamp emits infrared rays, the effect of promoting vasodilatation and improving local temperature is achieved, and therefore the traditional cupping mode is simulated, and the performance of the cupping device 100 is improved.

As shown in fig. 2, the top of the first housing 13 is provided with a base 135 and a fastener 67, the accommodating groove 131 is located in the base 135, the connection base 65 is provided with a mounting hole through which the fastener 67 passes, the connection base 65 is mounted on the base 135 through the fastener 67, a first end of the fastener 67 is electrically connected with the driving assembly 4, and a second end of the fastener 67 is used for contacting with the atomizing sheet 64. In order to facilitate the installation of the connecting seat 65, a seat body 135 is arranged at the top of the first shell 13, the connecting seat 65 is installed on the seat body 135 through a fastener 67, and the connecting seat 65 is electrically connected with the driving component 4 through the fastener 67; under the condition that the fixing seat 65 is fixed, the fixing member 67 further has a conductive function, a first end of the fixing member 67 is electrically connected with the driving component 4, a second end of the fixing member 67 is used for contacting with the atomizing sheet 64, and when the fixing seat 66 is fastened with the fixing seat 65, the atomizing sheet 64 contacts with the fixing member 67, so that the driving component 4 is electrically connected with the atomizing sheet 64, and the atomizing sheet 64 is driven to operate.

As shown in fig. 6 and 7, the first housing 13 has a columnar structure, the inner wall of the first housing 13 has a first clamping groove 132 and a second clamping groove 133, the second clamping groove 133 extends along the circumferential direction of the first housing 13, the length direction of the second clamping groove 133 intersects the height direction of the first clamping groove 132, and the first clamping groove 132 communicates with the second clamping groove 133; the tank body 2 comprises a third shell 22, a fourth shell 25 and a clamping column 23, wherein the third shell 22 is arranged at the top of the fourth shell 25, the outer diameter of the third shell 22 is smaller than that of the fourth shell 25, and the clamping column 23 is arranged on the outer wall of the third shell 22; the clamping column 23 enters the second clamping groove 133 through the first clamping groove 132, and the clamping column 23 is clamped with the second clamping groove 133 in the first direction. During installation, the clamping column 23 of the third shell 22 enters the first clamping groove 132 of the first shell 13, and pushes the third shell 22 to move upwards to enable the clamping column 23 to slide into the second clamping groove 133, the tank body 2 is rotated, the clamping column 23 of the third shell 22 moves along the second clamping groove 133, the tank body 2 is clamped with the first shell 13, the second clamping groove 133 limits the tank body 2 to move in the height direction, and the tank body 2 can be installed or detached by rotating the tank body 2 clockwise or anticlockwise. Secondly, the outer diameter of the third casing 22 is smaller than the outer diameter of the fourth casing 25, so that after the third casing 22 is clamped with the first casing 13, the outer surface of the fourth casing 25 and the outer surface of the first casing 13 are located on the same plane, and the structural compactness and the appearance effect of the cupping device 100 are improved.

As shown in fig. 2, 6 and 7, in the present embodiment, in order to improve the tightness between the first housing 13 and the can 2, since the outer diameter of the third housing 22 is smaller than the outer diameter of the fourth housing 25, the sealing ring 14 may be sleeved outside the third housing 22, and the width of the sealing ring 14 is smaller than or equal to the difference between the outer diameters of the third housing 22 and the fourth housing 25. When the third housing 22 moves upward, the clamping column 23 of the third housing 22 moves in the height direction of the first clamping groove 132, and the sealing ring 14 is made of elastic material, when the clamping column 23 moves upward, the sealing ring 14 is pressed, and when the clamping column 23 enters the second clamping groove 133 from the first clamping groove 132, the sealing ring 14 is pressed and deformed, and the pressed part of the sealing ring 14 is filled in the gap between the first housing 13 and the third housing 22, so that the sealing effect of sealing the first housing 13 and the can 2 is achieved. After the seal ring 14 is pressed, the gap between the first housing 13 and the third housing 22 is filled, the seal ring 14 generates a reset phenomenon due to self elasticity, a reverse acting force is applied to the first housing 13 and the third housing 22, the possibility that the first housing 13 shakes relative to the third housing 22 is reduced under the action of no external force, and the stability of the first housing 13 passing through the gap between the seal ring 14 and the third housing 22 is improved. Therefore, the sealing ring 14 can seal the cupping device 100 and improve the stability of the cupping device 100 when the first shell 13 is connected with the cup body 2.

As shown in fig. 7, in this embodiment, the bottom of the can 2 further has a flange portion 24, the flange portion 24 may be made of a silicone material, and the flange portion 24 is slightly wider than the thickness of the wall portion of the can 2, so as to increase the contact area between the bottom of the can 2 and the skin surface, and the tightness between the can 2 and the skin can be improved in the negative pressure state in the chamber 21.

As shown in fig. 1 to 3, a pressure release assembly 5 is further arranged in the main body 1, the pressure release assembly 5 comprises a mounting shell 51, a pressure spring 52, a sealing element 53 and a pushing element 54, the mounting shell 51 is mounted on the first shell 13, one end of the pressure spring 52 is mounted on the inner wall of the mounting shell 51, the first end of the sealing element 53 is mounted on the second end of the pressure spring 52, the pressure spring 52 and the sealing element 53 are both positioned in the mounting shell 51, and the sealing element 53 is abutted with the inner wall of the mounting shell 51; the first housing 13 has an air hole 134 communicating with the chamber 21, the second end of the sealing member 53 is used for abutting against the air hole 134, and the pushing member 54 penetrates the first housing 13 and is in sliding fit with the first housing 13; the first end of the pushing piece 54 extends into the first shell 13 and is used for abutting against the sealing piece 53, and the moving direction of the pushing piece 54 is intersected with the extrusion direction of the pressure spring 52; the second end of the pusher 54 is located on the outer wall of the first housing 13; at least a portion of the seal 53 is made of an elastic material; the seal 53 has a protrusion that mates with the air hole 134, the shape of the protrusion mating with the shape of the air hole 134.

After the cupping operation is completed, in order to enable the cupping device 100 to be rapidly decompressed and separated, the pushing piece 54 is arranged on the outer wall of the first shell 13, the pushing piece 54 is pressed to enable the sealing piece 53 to be extruded by pressing the pushing piece 54, and at least part of the sealing piece 53 is made of elastic materials, after the sealing piece 53 is extruded, at least part of the air holes 134 are opened by the protrusions of the sealing piece 53, so that air outside the cavity 21 flows into the cavity 21, after the air in the cavity 21 reaches a certain value, the cavity 21 is decompressed, and when the air pressure in the cavity 21 is consistent with the air pressure outside the cavity 21, the cupping device 100 can be easily removed from the skin surface. When the cupping operation of the cupping device 100 is needed, the pressure spring 52 presses the sealing piece 53 under the condition that the pushing piece 54 is pressed by no external force, so that the bulge of the sealing piece 53 seals the air hole 134, external air is prevented from entering the cavity 21 through the air hole 134, and the cavity 21 is in a negative pressure state during the operation; therefore, the push member 54, the seal member 53 and the compression spring 52 provide the cupping device 100 with a one-touch pressure release function, thereby further improving the operation convenience of the cupping device 100.

As shown in fig. 1 to 3, the outer wall of the main body 1 has a notch 3, and the depth direction of the notch 3 intersects with the height direction of the main body 1. In order to facilitate the cupping operation of the cupping device 100, a notch 3 is provided on the outer wall of the main body 1, and the depth direction of the notch 3 intersects with the height direction of the main body 1, so that when the cupping device 100 is held by hand, a finger can extend into the notch 3, thereby facilitating the finger to act on the cupping device 100 and easily take down the cupping device 100, so as to further improve the convenience of operating the cupping device 100.

The present embodiment also proposes an operation method of the cupping device 100, including the steps of:

firstly, placing the cupping device 100 on the skin surface, controlling the driving component 4 to start the sensing piece 63 and the air pump 11, and extracting the air in the cavity 21 to enable the cavity 21 to be in a negative pressure state;

step two, controlling the driving assembly 4 to start the atomizing piece 60 and the irradiation lamp 62, wherein the atomizing piece 60 atomizes and adsorbs the liquid medicine of the cotton core 61, and the liquid medicine is converted into mist and is diffused in the cavity 21;

step three, the pushing member 54 is pressed, and air outside the chamber 21 enters the chamber 21 through the air holes 134, so that the air pressure inside and outside the chamber 21 is consistent, and the cupping device 100 is detached.

With this operation method of the cupping device 100, cupping operation can be performed rapidly; in the cupping operation, a plurality of cupping devices 100 are simultaneously attached to the skin surface to perform the operation, and it is necessary to simultaneously operate the plurality of cupping devices 100; therefore, the convenience of operation belongs to an important performance index of the cupping device 100, and the experience of the user can be improved; and the operation method is convenient for popularization and study.

The above examples are also not an exhaustive list based on the utility model, and there may be a number of other embodiments not listed. Any substitutions and modifications made without departing from the spirit of the utility model are within the scope of the utility model.

Claims (9)

1. The cupping device is characterized by comprising a main body and an atomization assembly, wherein a containing groove and a cavity are formed in the main body, the atomization assembly is provided with an adsorption cotton core and an atomization piece, the adsorption cotton core is at least partially movably arranged in the containing groove, and the atomization piece is movably arranged on the main body and is positioned in the cavity;

the atomizing member has a first moving position in which the absorbent cotton core is at least partially exposed with respect to the atomizing member and a second moving position; in a second moving position, an atomization chamber is formed between the atomization piece and the accommodating groove, and the adsorption cotton core is positioned in the atomization chamber; the atomizing piece is provided with an atomizing hole, and the atomizing chamber is communicated with the chamber through the atomizing hole.

2. The cupping device according to claim 1, wherein the atomizing member comprises an atomizing sheet, a connecting seat, a fixing seat and a waterproof cover, the connecting seat is provided with a first through hole for the adsorption cotton core to pass through, the connecting seat is arranged on the main body, a first end of the fixing seat is hinged with a first end of the connecting seat, and a second end of the fixing seat is buckled with a second end of the connecting seat; the waterproof cover is arranged on the outer side of the fixed seat, an installation cavity is formed between the waterproof cover and the inner side of the fixed seat, and the atomizing sheet is arranged in the installation cavity; the fixed seat is provided with a second through hole, and the atomization hole is positioned on the waterproof cover;

wherein, the atomizing chamber, the first through hole, the second through hole, the installation cavity, the atomizing Kong Yici UNICOM.

3. The cupping device according to claim 2, wherein the main body includes a first housing, a second housing, and a can body, the receiving slot being located in the first housing, the chamber being formed in the can body, the second housing being mounted to a first end of the first housing, a second end of the first housing being detachably connected to the can body; the second shell is internally provided with a driving assembly, at least one part of the driving assembly is arranged on the outer surface of the second shell, and the driving assembly is electrically connected with the atomizing piece.

4. The cupping device according to claim 3, further comprising an air pump, a sensing member and an air tube, the air pump being mounted in the second housing, the air tube being mounted on the first housing with a first end of the air tube extending into the chamber, a second end of the air tube being mounted on an air suction end of the air pump; the sensing piece is arranged on the first shell, at least one part of the sensing piece is positioned in the cavity, and the sensing piece and the air pump are respectively and electrically connected with the driving assembly.

5. The cupping device according to claim 3, wherein the atomizing assembly further has an irradiation lamp mounted on the first housing and located in the chamber, and an irradiation area of the irradiation lamp covers a bottom of the can body.

6. The cupping device according to claim 3, wherein the top of the first shell is provided with a base body and a fastener, the accommodating groove is positioned in the base body, the connecting seat is provided with a mounting hole for the fastener to pass through, the connecting seat is mounted on the base body through the fastener, a first end of the fastener is electrically connected with the driving assembly, and a second end of the fastener is used for being contacted with the atomizing sheet.

7. The cupping device according to claim 3, wherein the first shell is in a columnar structure, the inner wall of the first shell is provided with a first clamping groove and a second clamping groove, the second clamping groove extends along the circumferential direction of the first shell, the length direction of the second clamping groove is intersected with the height direction of the first clamping groove, and the first clamping groove is communicated with the second clamping groove;

the tank body comprises a third shell, a fourth shell and a clamping column, the third shell is mounted at the top of the fourth shell, the outer diameter of the third shell is smaller than that of the fourth shell, and the clamping column is mounted on the outer wall of the third shell; the clamping column enters the second clamping groove through the first clamping groove, and is clamped with the second clamping groove in the first direction.

8. The cupping device according to any one of claims 3 to 7, characterized in that a pressure relief assembly is further arranged in the main body, the pressure relief assembly comprises a mounting shell, a pressure spring, a sealing element and a pushing element, the mounting shell is mounted on the first shell, one end of the pressure spring is mounted on the inner wall of the mounting shell, the first end of the sealing element is mounted on the second end of the pressure spring, the pressure spring and the sealing element are both positioned in the mounting shell, and the sealing element is abutted with the inner wall of the mounting shell;

the first shell is provided with an air hole communicated with the cavity, the second end of the sealing piece is used for abutting against the air hole, and the pushing piece penetrates through the first shell and is in sliding fit with the first shell; the first end of the pushing piece stretches into the first shell and is used for abutting against the sealing piece, and the moving direction of the pushing piece is intersected with the extrusion direction of the pressure spring; the second end of the pushing piece is positioned on the outer wall of the first shell;

at least a portion of the seal is made of an elastomeric material.

9. The cupping device according to any one of claims 1 to 7, characterized in that the outer wall of the main body has a notch, the depth direction of which intersects the height direction of the main body.