CN111643342A

CN111643342A - Aerodynamic beating massage equipment

Info

Publication number: CN111643342A
Application number: CN202010598061.8A
Authority: CN
Inventors: 王志宇; 熊博
Original assignee: Guangzhou Substanbo Technology Co ltd
Current assignee: Guangzhou Substanbo Technology Co ltd
Priority date: 2020-06-28
Filing date: 2020-06-28
Publication date: 2020-09-11

Abstract

The invention provides an aerodynamic rapping massage device comprising: the device comprises a shell, wherein an accommodating cavity is formed in the shell; the pneumatic vibrator is arranged in the accommodating cavity and comprises an air inlet, an air outlet and a vibration output end, when compressed air is input into the air inlet, the vibration output end reciprocates, and the air outlet is used for discharging the compressed air input from the air inlet when the pneumatic vibrator reciprocates; the massage head is detachably mounted at the vibration output end and is arranged on the outer side of the shell, and when the pneumatic vibrator works, the massage head moves back and forth along with the vibration output end to realize beating massage on a massage part. The invention realizes that compressed gas is used as power, is convenient for reducing the weight and the volume of the beating massage equipment and is convenient for use.

Description

Aerodynamic beating massage equipment

Technical Field

The invention belongs to the technical field of massage equipment, and particularly relates to aerodynamic beating massage equipment.

Background

The massage equipment is beaten to transmit force and vibration to the fascia of a human body through high-frequency vibration (2000-3200 times/min), so that the effects of increasing tissue blood flow and relaxing muscles are achieved, the tissues of the human body can generate relative displacement through resonance, tissue adhesion is relieved, the elasticity of the muscles and the fascia is restored, the tense and stiff fascia is relaxed, and some uncomfortable symptoms of the human body can be relieved. In the exercise, the application of the exercise tapping massage device can be divided into three parts, namely warming up before exercise, activation in exercise and recovery after exercise. Before exercise, the beating massage equipment is used for quickly impacting the muscle group to be exercised, so that the temperature and the blood flow of the muscle group are increased, and the effect of quickly warming up is achieved. The tapping massage device is used to allow the tired muscles to be activated again during the interval between the two sets of exercises, ready for the next set of exercises. After the exercise, the beating massage equipment is used, and the muscle groups which are exercised for a long time are impacted according to the principle of the pain point, so that the aims of assisting the metabolism of lactic acid and reducing the muscle tension are fulfilled.

Currently, all of the rapping massage devices on the market are electromechanical rapping massage devices comprising an electric motor coupled to drive a piston reciprocating in a cylinder, to which a variety of massage heads are attached for rapping massage in different areas of the human body. Some of the existing beating massage devices are connected to a power supply through a power line to provide power, and users are limited by the power line when using the beating massage device, cannot walk freely and are very inconvenient. Some beating massage equipment use rechargeable battery power supply, though convenient to use, but, increased beating massage equipment's weight, moreover, rechargeable battery live time is limited, need use after recharging, charges and needs longer latency, and user experience is not good.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides the aerodynamic beating massage equipment, compressed air is used as power, the weight and the volume of the beating massage equipment are reduced conveniently, and the use is convenient.

The invention provides an aerodynamic rapping massage device, comprising:

the device comprises a shell, wherein an accommodating cavity is formed in the shell;

the pneumatic vibrator is arranged in the accommodating cavity and comprises an air inlet, an air outlet and a vibration output end, when compressed air is input into the air inlet, the vibration output end reciprocates, and the air outlet is used for discharging the compressed air input from the air inlet when the pneumatic vibrator reciprocates;

the massage head is detachably mounted at the vibration output end and is arranged on the outer side of the shell, and when the pneumatic vibrator works, the massage head moves back and forth along with the vibration output end to realize beating massage on a massage part.

Further, the pneumatic beating massage equipment further comprises a gas storage tank, the gas storage tank is arranged in the containing cavity of the shell, a tank opening of the gas storage tank is connected with a gas inlet of the pneumatic vibrator through a gas pipe, and the gas storage tank is used for storing compressed gas.

Furthermore, an adjusting valve is arranged between the gas storage tank and the gas inlet and used for adjusting the flow of the compressed gas entering the gas inlet.

Illustratively, the regulating valve is arranged at the air inlet end of the pneumatic vibrator, and the tank opening of the air storage tank is connected with the air inlet of the regulating valve through an air pipe.

Furthermore, the pneumatic beating massage equipment also comprises a silencing device, wherein the silencing device is arranged at the exhaust port of the pneumatic vibrator and is used for reducing noise generated by the exhaust of the pneumatic vibrator.

Illustratively, the sound-deadening device is a sound-deadening sponge.

Furthermore, the pneumatic beating massage equipment also comprises a bidirectional air valve, one end of the bidirectional air valve is fixed at the tank opening of the air storage tank, and the other end of the bidirectional air valve is detachably connected with the air pipe;

when the gas storage tank is installed in the shell, the bidirectional gas valve is opened, and compressed gas in the gas storage tank enters the gas pipe; when the air storage tank is detached from the shell, the two-way air valve is closed.

Illustratively, the bidirectional gas valve is a first pneumatic connector, a second pneumatic connector matched with the first pneumatic connector is arranged at the end part of the gas pipe, when the first pneumatic connector is connected with the second pneumatic connector, the first pneumatic connector is opened, and compressed gas in the gas storage tank enters the gas pipe; and when the first pneumatic connector is separated from the second pneumatic connector, the first pneumatic connector is closed.

Furthermore, the vibration output end of the pneumatic vibrator is provided with an output connecting part, and the massage head is detachably connected with the output connecting part.

Further, the pneumatic vibrator also comprises an adjusting terminal, and the adjusting terminal is used for adjusting the amplitude of the pneumatic vibrator.

The pneumatic beating massage equipment provided by the invention inputs compressed gas into the pneumatic vibrator, the vibration output end of the pneumatic vibrator starts reciprocating under the power of the compressed gas, and at the moment, the vibration output end drives the massage head to do reciprocating motion, so that the specific part of a user is massaged. The pneumatic vibrator is powered by compressed gas, so that the pneumatic vibrator is energy-saving and environment-friendly, the weight and the volume of beating massage equipment are reduced conveniently, the structure is simple, the research and development difficulty is reduced, and the pneumatic vibrator is convenient to use.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a block diagram schematically illustrating the structure of an aerodynamic rapping massage device as provided in a first embodiment.

Fig. 2 is a schematic half-sectional structure diagram of a regulating valve and a pneumatic vibrator provided in the first embodiment.

Fig. 3 is a block diagram of the structure of an aerodynamic rapping massage device as provided by the second embodiment.

Fig. 4 is a schematic diagram of a half-section structure of a pneumatic vibrator provided in a second embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It should be further noted that, in the embodiment of the present invention, the XYZ rectangular coordinate system established in fig. 1 is defined as follows: one side in the positive direction of the X axis is defined as the right side, and one side in the negative direction of the X axis is defined as the left side; one side in the positive direction of the Y axis is defined as the front, and one side in the negative direction of the Y axis is defined as the back; the side in the positive direction of the Z axis is defined as the upper side, and the side in the negative direction of the Z axis is defined as the lower side.

It should be noted that the terms of orientation such as left, right, up and down in the embodiments of the present invention are only relative to each other or are referred to the normal use state of the product, and should not be considered as limiting.

Fig. 1 is a block diagram schematically illustrating the structure of an aerodynamic rapping massage device as provided in a first embodiment. Fig. 2 is a schematic half-sectional structure diagram of a regulating valve and a pneumatic vibrator provided in the first embodiment. Referring to fig. 1 and 2, the aerodynamic rapping massage device provided by the present embodiment includes a housing 10, an aerodynamic vibrator 20, and a massage head 30, wherein a housing cavity 100 is provided in the housing, the aerodynamic vibrator 20 is disposed in the housing cavity 100, the aerodynamic vibrator 20 includes an air inlet 200, an air outlet 201, and a vibration output 202, when compressed air is input to the air inlet 200, the vibration output 202 reciprocates, and the air outlet 201 is used for discharging the compressed air input from the air inlet 201 when the aerodynamic vibrator 20 reciprocates; the massage head 30 is detachably mounted on the vibration output end 202 and is arranged outside the shell 10, and when the pneumatic vibrator 20 works, the massage head 30 reciprocates along with the vibration output end 202 to realize beating massage on a massage part. The pneumatic vibrator 20 of the present embodiment may be a piston type pneumatic vibrator on the market, and the air source may be an air pump, and the air pump inputs compressed air to the air inlet 200 of the pneumatic vibrator 20, so that the vibration output end 202 of the pneumatic vibrator 20 drives the massage head 30 to reciprocate, and the user can beat and massage the part that the user wants to massage. In this embodiment, the housing 10 has a cylindrical structure and is simple in structure.

The pneumatic beating massage equipment provided by the embodiment inputs compressed gas into the pneumatic vibrator, the vibration output end of the pneumatic vibrator starts reciprocating under the power of the compressed gas, and at the moment, the vibration output end drives the massage head to do reciprocating motion, so that beating massage on a specific part of a user is realized, lactic acid metabolism is assisted, and muscle tension is reduced. This beat massage equipment uses compressed gas to provide power to pneumatic vibrator, compares with the traditional beat massage equipment that uses the power, and energy-concerving and environment-protective more, and be convenient for reduce the weight and the volume of beating massage equipment, simple structure, reduced the research and development degree of difficulty, convenient to use.

Referring to fig. 1, in the present embodiment, the pneumatic tapping massage device further comprises an air tank 40, the air tank 40 is disposed in the receiving cavity 100 of the housing 10, the air tank 40 is used for storing compressed air, which may be compressed air, to power the pneumatic vibrator 20. Through set up gas holder 40 in casing 10, provide air supply power with gas holder 40 to pneumatic vibrator 20, can massage anytime and anywhere, it is more convenient to carry and use. Every beats massage equipment and can dispose two gas holders 40, after the gas of a gas holder 40 used up, directly change another gas holder 40 and continue the massage, need not to charge the back and just can reuse unlike the battery and beat massage equipment, the massage equipment of beating that this embodiment provided lasts the live time longer, and user experience is better, and the gas holder 40 of using up realizes aerifing through the air pump short time in, and is shorter than battery charge time, has shortened the time that the user waited for.

Referring to fig. 1, in the present embodiment, a regulating valve 60 is provided between the air tank 40 and the air inlet 200, and the regulating valve 60 is used to regulate the flow rate of the compressed air entering the air inlet 200. The vibration frequency of the pneumatic vibrator 20 is adjusted by adjusting the flow rate of the compressed gas. In this embodiment, the regulating valve 60 may be disposed at the end of the air inlet 200 of the pneumatic vibrator 20, as shown in fig. 2. The mouth of the air storage tank 40 is connected with the air inlet 601 of the adjusting valve 60 through the air pipe 50, the air pipe 50 of the embodiment can be a soft air pipe, and the soft air pipe is more conveniently arranged and fixed in the shell 10.

In this embodiment, referring to fig. 2, the tapping massage device further includes a noise reduction device 70, the noise reduction device 70 is disposed at the air outlet 201 of the pneumatic vibrator 20, and the noise reduction device 70 is used for reducing noise generated by the air outlet of the pneumatic vibrator 20. The sound attenuating device 70 may be an attenuating sponge.

In this embodiment, referring to fig. 1, the pneumatic tapping massage device further comprises a two-way air valve 80, one end of the two-way air valve 80 is fixed to the mouth of the air storage tank 40, and the other end is detachably connected to the air pipe 50; when the gas storage tank 40 is installed in the shell 10, the bidirectional gas valve 80 is opened, and compressed gas in the gas storage tank 40 enters the gas pipe 50; when the air reservoir 40 is removed from the housing 10, the two-way air valve 80 is closed. In some embodiments, the two-way gas valve 80 may be a first pneumatic connector, and the end of the gas pipe 50 is provided with a second pneumatic connector matching with the first pneumatic connector, when the first pneumatic connector is connected with the second pneumatic connector, the first pneumatic connector is opened, and the compressed gas in the gas storage tank 40 enters the gas pipe 50; and when the first pneumatic connector is separated from the second pneumatic connector, the first pneumatic connector is closed. The pneumatic connector is a self-locking pneumatic connector, is a common device in the field of air valves, and the specific structure and the using method are not detailed here, so that the pneumatic connector can be used by a person skilled in the art without creative labor.

In this embodiment, referring to fig. 2, the vibration output end 202 of the pneumatic vibrator 20 is provided with an output connection portion 210, and the massage head 30 is detachably connected to the output connection portion 210. The massage head 30 is mounted to the output connection portion 210 to reciprocate along with the vibration output end 202, and performs a beating massage on the muscles of the user.

In some embodiments, the pneumatic vibrator 20 further includes an adjustment terminal (not shown) for adjusting the amplitude of the pneumatic vibrator 20. The pneumatic vibrator 20 with amplitude adjustment can be selected, so that the requirements of users on different massage amplitudes can be met, the application range is wider, and the user satisfaction is higher.

Referring to fig. 1 and 2, the pneumatic vibrator 20 provided in this embodiment includes an air inlet 200, an air outlet 201, a vibration output end 202, a cylindrical housing 207 and a piston 203, the piston 203 is movably installed in the cylindrical housing 207, the air inlet 200 is disposed on a side wall of the cylindrical housing 207 and extends from an end surface of the side wall of the cylindrical housing 207 along a length direction of the cylindrical housing 207, the air outlet 201 is disposed on the side wall of the cylindrical housing 207 and is spaced from the air inlet 200 by a certain distance in the length direction of the cylindrical housing 207, the air outlet 201 communicates the inside and the outside of the cylindrical housing 207, the air outlet 201 may be a through hole spaced from the side wall of the cylindrical housing 207, and an annular groove (not shown in the drawings) is disposed on an inner side wall of the cylindrical housing 207 corresponding to the through hole, so as to facilitate. A silencer 70 is disposed around the exhaust port 201, and the silencer 70 may be a silencing sponge and is sleeved outside the sidewall of the cylindrical housing 207 corresponding to the exhaust port 201. The vibration output end 202 is arranged at one end part of the piston 203, the mounting hole 2020 is formed in the center of the vibration output end 202, the output connecting portion 210 is mounted in the mounting hole 2020, threads can be arranged on the inner side wall of the mounting hole 2020, the corresponding connecting position of the output connecting portion 210 is provided with matched threads, and the two connecting portions are fixed as long as the two connecting portions are matched with each other, so that all implementation modes are not listed one by one. The central point of the other end of the piston 203 is provided with a blind hole 205 along the length direction of the piston 203, the bottom end of the blind hole 205 is provided with a first vent hole 204 corresponding to the side wall of the piston 203, the side wall of the bottom end of the air inlet 200 on the cylindrical shell 207 is provided with an annular strip hole 206, so that the air inlet 200 is communicated with the inside of the cylindrical shell 207, the piston 203 is in a T shape and comprises a head part (not marked in the figure) and a main body part (not marked in the figure), the head part of the piston 203 is provided with the blind hole 205, the side wall of the head part of the piston 203 is fixed with the inner side wall of the cylindrical shell 207 in a sliding manner. The inner side wall of the middle part of the cylindrical shell 207 is provided with a boss part 209, the diameter of the inner side wall of the boss part 209 is slightly larger than the diameter of the outer side wall of the main body part of the piston 203, and when the piston 203 moves downwards, the boss part 209 limits the head part of the piston 203, so that the piston 203 is prevented from sliding out of the cylindrical shell 207.

In this embodiment, the adjusting valve 60 includes a cover 600, an air inlet 601, an adjusting handle 602, a pressing rod 603, a spring 604, an air outlet 605, an annular channel 606 and a plug 607, the air inlet 600 is disposed on an end surface of the cover 600, the pressing rod 603 and one end of the cover 600 are fixed by pivoting, the pressing rod 603 is inserted from a side wall of the cover 600, one end of the pressing rod 600 inserted into the cover 600 is connected with the spring 604, the other end of the spring 604 is fixed to the cover 600, and the other end of the pressing rod 603 presses against the adjusting handle 602. An air outlet 605 is formed in the cover body 600 at the lower end of the pressing rod 603, an annular channel 606 is formed by connecting the air outlet 605, a plug body 607 is arranged in the annular channel 606, and the plug body 607 is used for closing the port of the pneumatic vibrator 20 when the regulating valve 60 is fixed to the pneumatic vibrator 20. The compression bar 603 is cylindrical, and the diameter of the middle section is smaller than that of the two ends. The regulator valve 60 is normally closed and will only open when the regulator handle 602 is compressed.

When in normal use, the adjusting valve 60 is fixed on the pneumatic vibrator 20, compressed gas enters from the air inlet hole 601 of the adjusting valve 60, the adjusting handle 602 is pressed with force, the adjusting handle 602 transmits pressure to the pressing rod 603, so that the pressing rod 603 compresses the spring 604 and moves towards the inside of the cover body 600, because the diameter of the middle section of the pressing rod 603 is small, at this time, the compressed gas entering from the air inlet hole 601 enters the air outlet hole 605 from the gap between the side wall of the middle section of the pressing rod 603 and the cover body 600, and further enters the air inlet 200 of the pneumatic vibrator 20 from the communicated annular channel 606, the compressed gas enters the gap between the cylindrical shell 207 and the main body part of the piston 203 from the air inlet 200 of the pneumatic vibrator 20 through the annular bar hole 206, under the pressure action of the compressed gas, the piston 203 moves upwards, when the compressed gas moves to the first vent hole 204 and the annular bar hole 206, the compressed gas enters the cavity between, the air pressure between the piston 203 and the plug body 607 is gradually increased along with the continuous entering of the compressed air, the compression piston 203 moves downwards, when the compression piston moves to the first vent hole 204 to be communicated with the exhaust port 201, the compressed air between the piston 203 and the plug body 607 is exhausted from the exhaust port 201, at the moment, the air pressure of the cavity between the piston 203 and the plug body 607 is consistent with the atmospheric pressure, then the next cycle is carried out, the compressed air enters the gap between the cylindrical shell 207 and the main body part of the piston 203 from the air inlet 200 of the pneumatic vibrator 20 through the annular strip hole 206, and the piston 203 moves upwards under the pressure action of the compressed air to realize the repeated motion of the piston 203, so that the massage head 30 fixedly connected with the piston 203 is driven to reciprocate. The flow rate of the compressed gas can be adjusted by adjusting the pressing force applied to the adjustment handle 602, thereby adjusting the frequency of the pneumatic vibrator 20.

Fig. 3 is a block diagram of the structure of an aerodynamic rapping massage device as provided by the second embodiment. Fig. 4 is a schematic half-sectional structure of a regulating valve and a pneumatic vibrator provided in the second embodiment. Referring to fig. 3 and 4, the present embodiment is different from the first embodiment in that the housing 10 is in a pistol shape, which is more convenient for a user to hold. The air storage tank 40 is arranged in the accommodating cavity 100 of the handheld part of the shell 10, the mouth of the air storage tank 40 is connected with the air inlet 200 of the pneumatic vibrator 20 through the air pipe 50, and the regulating valve 60 is arranged on the air pipe 50 between the air storage tank 40 and the air inlet 200. Specifically, one end of the first air pipe 50 is connected with the air storage tank 40, and the other end is connected with the air inlet end of the regulating valve 60; and one end of the other section of the air pipe 50 is connected with the air outlet end of the regulating valve 60, and the other end is connected with the air inlet 200 of the pneumatic vibrator 20. In this embodiment, the adjusting valve 60 may be a knob adjusting valve, and the flow rate of the compressed gas is adjusted by rotating the adjusting valve 60.

Referring to fig. 3 and 4, the pneumatic vibrator 20 provided in this embodiment includes an air inlet 200, an air outlet 201, a vibration output end 202, a cylindrical housing 205, and a piston 203, the piston 203 is movably installed in the cylindrical housing 205, the air inlet 200 is disposed in the middle of a sidewall of the cylindrical housing 1, the air outlet 201 is disposed at one end of the cylindrical housing 205, a muffler 70 is installed at an upper end of the air outlet 201, the vibration output end 202 is disposed at the other end of the cylindrical housing 205, a mounting hole 2020 is disposed at a center position of the vibration output end 202, a thread may be disposed on a sidewall of the mounting hole 2020, or a snap-fit structure may be disposed, and the output shaft 203 is installed in the. The outer side wall of the piston 203 is provided with a first air channel 2031 and a second air channel 2032 from top to bottom, the interior of the piston 203 is vertically provided with a first air channel 2030 with one end leading to the upper end surface of the piston 203 and the other end leading to the second air channel 2032, the interior of the piston is also provided with a second air channel 2033 with one end leading to the lower end surface of the piston 203 and the other end leading to the first air channel 2031, and the lower end of the piston 203 is connected with the vibration output end 202 through a spring 204.

Under normal conditions, due to the gravity of the piston 203, the compression spring 204 is located at a position on the upper middle part of the cylindrical shell 205, at this time, the second air groove 2032 is opposite to the air inlet 200, compressed air enters the air inlet 200, and enters a space between the upper end of the piston 203 and the upper end face of the cylindrical shell 205 along the first air passage 2030, the function of the silencer 70 cannot be pushed open, so that the piston 203 is pushed to move downwards, until the air pressure rises to push the silencer 70 open to realize exhaust, at this time, the air inlet 200 is opposite to the first air groove 2031, compressed air enters a space at the lower end of the piston 203 through the second air passage 2033, the piston 203 is pushed upwards together with the effect of the exhaust by the spring 204, the silencer 70 resets to block the exhaust port 201 under the condition of the reduced air pressure, and thus, a cycle is realized, and high-frequency reciprocating vibration is realized.

The aerodynamic beating massage equipment provided by the embodiment is simple in structure, low in research and development difficulty, beneficial to reducing research and development cost, capable of improving research and development efficiency, capable of beating and massaging muscles of a user, and good in user experience.

The principle and specific structure of the regulating valve 60 and the pneumatic vibrator 20 of the present embodiment are only used as a specific embodiment, and are not intended to limit the present technical solution. The existing regulating valve and pneumatic vibrator are various in implementation modes, and only the flow of compressed gas can be regulated, reciprocating operation can be realized, the size is small, the handheld requirement is met, and the implementation modes are not listed one by one.

In some embodiments, the adjusting valve 60 may be disposed at a mouth of the gas storage tank 40, and the adjusting valve 60 is fixed at the mouth of the gas storage tank 40, and may be used as a bottle mouth switch of the gas storage tank 40, and may also adjust the flow rate of the compressed gas, thereby saving a mouth switch device of the gas storage tank 40 and reducing the cost.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents or improvements made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. An aerodynamic rapping massage device, characterized in that it comprises:

2. The aerodynamic rapping massage device of claim 1, further comprising an air reservoir disposed within the receiving cavity of the housing, a mouth of the air reservoir being connected to an air inlet of the pneumatic vibrator via an air tube, the air reservoir being configured to hold compressed air.

3. The pneumatic tapping massage apparatus of claim 2 wherein an adjustment valve is disposed between said air reservoir and said air inlet for adjusting the flow of compressed air into said air inlet.

4. The pneumatic tapping massage apparatus of claim 3, wherein said regulating valve is disposed at an air inlet end of said pneumatic vibrator, and a mouth of said air tank is connected to an air inlet hole of said regulating valve through an air pipe.

5. The aerodynamic rapping massage device of claim 1, further comprising a noise reduction device disposed at an exhaust port of the pneumatic vibrator for reducing noise generated by the exhaust port of the pneumatic vibrator.

6. The aerodynamic rapping massage device of claim 5, wherein the noise reduction device is a noise reduction sponge.

7. The aerodynamic rapping massage device of claim 2, further comprising a bi-directional air valve, one end of which is fixed to a tank opening of the air tank and the other end of which is detachably connected to the air pipe;

8. The aerodynamic rapping massage device of claim 7, wherein the bi-directional air valve is a first pneumatic connector, the end of the air tube is provided with a second pneumatic connector that mates with the first pneumatic connector, when the first pneumatic connector is connected to the second pneumatic connector, the first pneumatic connector opens and compressed air in the air reservoir enters the air tube; and when the first pneumatic connector is separated from the second pneumatic connector, the first pneumatic connector is closed.

9. The aerodynamic rapping massage device of claim 1, wherein the vibration output end of the pneumatic vibrator is provided with an output connection, and wherein the massage head is detachably connected to the output connection.

10. The aerodynamic rapping massage apparatus of claim 1, wherein the pneumatic vibrator further comprises adjustment terminals for adjusting the amplitude of the pneumatic vibrator.