CN115569042A - Inflatable massage vest - Google Patents

Abstract

The invention provides an inflatable massage vest which comprises a vest body, wherein a plurality of accommodating bags are arranged on the inner side of the vest body; a massage assembly mounted in the receiving pocket for reciprocating operation to provide a massage effect; the switch component is connected with the massage module at one end and used for controlling the motion state of the massage component; and the inflation assembly is connected with the other end of the switch assembly and is used for providing high-pressure gas for the massage assembly. According to the embodiment of the invention, the massage component is used for simulating the action of finger massage, and is arranged in the vest, so that the vest can be worn conveniently and used for massaging when massage is needed, and the vest is convenient to carry, can be used for massaging anytime and anywhere, and can be used for relieving fatigue.

Description

Inflatable massage vest

Technical Field

The invention relates to the technical field of massage equipment, in particular to an inflatable massage vest.

Background

The massage is a method which takes the theory of viscera and meridians of the traditional Chinese medicine as a theoretical basis, combines the anatomical diagnosis and pathological diagnosis of western medicine, acts on specific parts of the body surface by a hand method to adjust the physiological and pathological conditions of the body so as to achieve the aim of physical therapy.

However, the conventional massage apparatus is inconvenient to carry, and often needs to be held by a user or fixed at a certain position to massage the user to a designated position; the conventional massage apparatus is not convenient for daily use.

Disclosure of Invention

In view of the above, the present invention has been developed to provide an inflatable massage vest that overcomes, or at least partially solves, the above-mentioned problems.

In order to solve the above problems, in a first aspect of the present invention, there is disclosed an inflatable massage vest comprising:

the vest comprises a vest body, wherein a plurality of accommodating bags are arranged on the inner side of the vest body;

a massage assembly mounted in the receiving pocket for reciprocating operation to provide a massage effect;

the switch component is connected with the massage module at one end and used for controlling the motion state of the massage component;

and the inflation component is connected with the other end of the switch component and is used for providing high-pressure gas for the massage component.

Optionally, the inflatable massage vest further comprises a high pressure pipe,

one end of the high-pressure pipeline is connected with the massage module, and the other end of the high-pressure pipeline is connected with the inflation assembly;

the switch assembly is mounted on the high-pressure pipeline.

Optionally, the inflatable massage vest further comprises a communication component,

the communication assembly is connected with the switch assembly and used for receiving a control instruction and controlling the state of the switch assembly.

Optionally, the massage assembly comprises:

the actuating component air chamber is connected with the inflation component, and an air chamber is arranged in the actuating component air chamber;

the elastic piece is arranged in the air cavity chamber;

the supporting block is connected with one end of the elastic piece;

the flexible part is connected with the other end of the elastic part;

when the inflation assembly inflates the high-pressure gas into the gas chamber, the high-pressure gas pushes the flexible piece to move in a direction away from the supporting block;

when the gas chamber releases the high-pressure gas, the elastic piece resets the flexible piece.

Optionally, the massage assembly further comprises:

the protective layer is connected with the actuating component air chamber and is used for protecting the actuating component air chamber;

a fabric layer covering the flexible member for protecting the flexible member.

Optionally, the flexible member is honeycomb shaped.

Optionally, the elastic member is a helical cylindrical spring.

Optionally, the switch assembly corresponds to the actuator assembly plenum;

the switch component is used for controlling the corresponding actuating component air chamber.

Optionally, the inflation assembly comprises: an air pump and a power supply,

the power supply is connected with the inflator pump and used for providing electric power for the inflator pump.

The output end of the inflator pump is connected with the switch assembly and used for pumping and compressing air to form high-pressure gas.

Optionally, the communication assembly comprises a communication element and a display element;

the display element is used for providing a user interface and generating a control instruction based on the operation aiming at the user interface;

the communication element is used for receiving the control instruction and controlling the state of the switch assembly.

The invention has the following advantages:

the vest comprises a vest body, wherein a plurality of accommodating bags are arranged on the inner side of the vest body; a massage assembly mounted in the receiving pocket for reciprocating operation to provide a massage effect; the switch component is connected with the massage module at one end and used for controlling the motion state of the massage component; and the inflation assembly is connected with the other end of the switch assembly and is used for providing high-pressure gas for the massage assembly. Through the action of massage subassembly simulation finger massage, with massage subassembly setting and back of the body in the heart, when needs massage, can conveniently wear and carry out the massage, and undershirt portable can massage anytime and anywhere, alleviates fatigue.

Drawings

FIG. 1 is a block diagram of an inflatable massage vest according to the present invention;

FIG. 2 is a schematic view of an inflatable massage vest of the invention;

FIG. 3 is a block diagram of another inflatable massage vest of the invention;

figure 4 is a block diagram of a massage assembly of the present invention;

FIG. 5 is an enlarged view of a portion of a massage assembly of the present invention at A;

FIG. 6 is a block diagram of the construction of yet another inflatable massage vest of the present invention;

FIG. 7 is a schematic diagram of a user interface of the present invention.

Description of reference numerals: 100-vest body, 110-containing bag, 200-massage component, 210-actuating component air chamber, 220-elastic component, 230-supporting block, 240-flexible component, 250-protective layer, 260-fabric layer, 300-switch component, 400-inflation component, 410-inflator pump, 420-power supply, 500-high pressure pipeline, 600-communication component.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description thereof.

Referring to fig. 1, there is shown a block diagram of an inflatable massage vest of the present invention, which may specifically include:

the vest comprises a vest body 100, wherein a plurality of accommodating bags 110 are arranged inside the vest body 100;

a massage assembly 200 installed in the receiving bag 110 for reciprocating operation to provide a massage effect;

a switch assembly 300 having one end connected to the massage module for controlling the motion state of the massage assembly 200;

and an air charging assembly 400 connected to the other end of the switch assembly 300 for supplying high-pressure air to the massage assembly 200.

In the embodiment of the invention, the inflatable massage vest comprises a vest body 100, a massage component 200, a switch component 300 and an inflation component 400.

The vest body 100 is a wearable part, is made of conventional fabrics, and can comprise multiple materials or be made of a single material. The material of the vest body 100 may be at least one of natural fiber or artificial fiber. Natural fibers include, but are not limited to, cotton, linen, silk, wool, leather.

Cotton cloth is a general name for various cotton textiles. Its advantages are easy warm keeping, soft and close-fitting, high hydroscopicity and air permeability, and no allergy. Its disadvantages are easy shrinkage and wrinkle, poor recovery, and poor glossiness, and it is necessary to iron the clothes often.

The linen is a cloth made of various hemp plant fibers such as hemp, flax, miscanthus, jute, sisal, abaca and the like. Its advantages are high strength, moisture absorption, heat conductivity and air permeability. Its disadvantages are not comfortable, rough appearance and hardness.

Silk is a general name of various silk fabrics woven by taking silk as a raw material. Like cotton cloth, it has many varieties and different individuality. Its advantages are light and thin, comfortable, soft, smooth, permeable, bright and lustrous, noble and elegant, and comfortable. Its disadvantages are easy generation of wrinkles, easy absorption, not firm enough and fast fading.

Woolen cloth, also called woolen material, is a generic name for fabrics woven from various kinds of wool and cashmere. Its advantages are high resistance to wrinkle and wear, soft hand feeling, elegance, stiffness, elasticity and high insulating power. Its disadvantage is that it is difficult to wash and is not suitable for making summer clothes.

Leather is an animal fur fabric which is tanned. Leather classification: leather includes genuine leather, regenerated leather and artificial leather.

Rayon includes, but is not limited to, viscose, polyester, nylon

Viscose is called rayon or rayon. Is cellulose fiber produced with cotton or other natural fiber as material. The viscose has the characteristics of cotton nature, silk quality, smooth and cool property, air permeability, static resistance, gorgeous dyeing and the like, and the moisture content of the viscose most meets the physiological requirements of human skin. The viscose fiber is resistant to sunlight, moth-eaten, heat, chemicals, melting agents and mould. Ventilating and absorbing sweat when it is hot; it can keep moisture in cold weather, and has no static electricity, and is soft and comfortable. The disadvantage is poor wrinkle resistance.

Terylene, a famous polyester fiber and a terylene fabric are a very large number of chemical fiber clothing fabrics used in daily life. The polyester fabric has the greatest advantages of good wrinkle resistance and shape retention, and high strength and elastic recovery capability. Therefore, it is firm and durable, and wrinkle-resistant and non-ironing. The polyester fabric has poor moisture absorption, stuffy feeling when being worn, and easy electrostatic charge and dust contamination, and affects the beauty and the comfort. However, the fabric is extremely easy to dry after washing, and the wet strength is hardly reduced, the fabric is not deformed, and the fabric has good wash-and-wear performance. The polyester has thermoplasticity. Meanwhile, the polyester fabric has poor melt resistance, and holes are easily formed when the polyester fabric meets cigarette ash, sparks and the like. The polyester fabric has good resistance to various chemicals. The damage degree of acid and alkali is not large, and the product is not afraid of mould and worm damage.

The spandex, a scientific name of polyurethane fiber, is also called elastic fiber because of its excellent elasticity, and the elasticity of spandex is very high, and the general product does not use 100% of polyurethane, and the proportion of 5-30% is mixed in the fabric, so that the obtained various spandex fabrics have comfortable elasticity of 15% -45%. The spandex fabric is usually made of composite yarns, namely spandex is used as a core, and other fibers are used as a sheath layer to make a core yarn elastic fabric, so that the spandex fabric has good adaptability to the body and is not pressed.

The vest body 100 can be made of a suitable material fabric based on the use requirements of the massage vest. The vest body 100 may be manufactured by a conventional cutting and knitting method, or by a 3D printing method. This is not a limitation on the embodiment of the present invention.

The inner side of the vest body 100 is provided with a plurality of receiving pockets 110. The receiving pockets 110 may be disposed at various locations inside the vest body 100. For example, the receiving pocket 110 may be provided only at the waist of the user after the vest body 100 is worn; can be provided only at the shoulder position of the user after the vest body 100 is worn. Can also be arranged at the shoulder position and the waist position of the user after the vest body 100 is worn.

In one example of the present invention, referring to fig. 2, the receiving pocket 110 is provided only at the waist of the user after the vest body 100 is worn.

The size of each receiving bag 110 may be determined according to the position of the receiving bag 110 in the vest body 100. Such as a containment pocket 110 disposed at a waist location may be larger than a shoulder location. Even if the receiving bags 110 are provided at the same position, the sizes thereof may be the same or different. If the receiving pockets 110 are all disposed at the waist position, the corresponding sizes of the receiving pockets 110 at the waist position may be the same or different. The embodiment of the present invention is not particularly limited thereto.

The receiving bag 110 may be an open receiving bag 110 or a closed receiving bag 110. When the open receiving bag 110 is used, the massage assembly 200 may be placed in the receiving bag 110 after the vest body 100 is manufactured. Removal of the massage assembly 200 may also be facilitated at a later time when the massage assembly 200 fails. When the closed accommodating bag 110 is adopted, the massage assembly 200 can be completely wrapped, so that foreign matters such as external dust are difficult to enter the massage assembly 200, the work of the massage assembly 200 is influenced, and the failure rate of the massage assembly 200 can be reduced. Those skilled in the art can determine the requirement, and the embodiment of the present invention is not limited to this.

In one example of the present invention, referring to fig. 2, the receiving bag 110 is an open receiving bag 110.

The massage assembly 200 is installed in the receiving bag 110. It should be noted that one receiving pocket 110 is provided with at least one massage assembly 200. That is, one massage unit 200 may be installed in one receiving pocket 110, or a plurality of massage units 200 may be installed.

The massage assembly 200 is a pneumatic element, which is an element that works by the pressure or force generated by expansion of gas, i.e., a mechanism that converts the elastic energy of compressed air into kinetic energy. The user may bring the massage assembly 200 to a first motion state by supplying air to the massage assembly 200; the massage assembly 200 is brought into the second motion state by exhausting the massage assembly 200.

The first motion state and the second motion state are two states of the massage assembly 200, and the massage assembly 200 can only be in the first motion state or the second motion state, and in the switching stage of the two motion states, the massage assembly is in the operation state before switching. The first motion state and the second motion state are determined by the pneumatic type of the massage assembly 200. If the pneumatic type of the massage assembly 200 is the normally closed type, i.e., the first motion state is the working state; the second state is a reset state.

The massage assembly 200 switches its motion state by the action of air, so that the massage assembly 200 can reciprocate back and forth along its established direction, simulate the motion of human fingers, simulate the action of massage, thereby providing massage effect.

One end of the switch assembly 300 is connected to the air passage of the massage module for controlling air to enter and exit the massage assembly 200, thereby controlling the motion state of the massage assembly 200. When the switch assembly 300 is in the on state, the air enters the massage assembly 200; when the switch assembly 300 is in the off state, the air is exhausted from the massage assembly 200.

The switch assembly 300 may be of the type of a solenoid valve, a manual valve, or the like. When the switch assembly 300 is an electromagnetic valve, the switch function is realized by controlling whether a circuit corresponding to the battery valve is electrified or not; when the switch assembly 300 is a manual valve, the switch function is realized through the corresponding valve position of the manual valve.

The other end of the switch assembly 300 is connected to the inflation assembly 400. That is, in the present embodiment, the gas passes through the inflation assembly 400, the switch assembly 300, and the massage assembly 200 in this order. The inflation assembly 400 is used to compress the gas to form a high pressure gas and supply the gas to the massage assembly 200, and the massage assembly 200 is moved by the high pressure gas from the inflation assembly 400.

In order to facilitate the understanding of the embodiments of the present invention by those skilled in the art, the following description is provided to illustrate the use of the embodiments of the present invention:

the massage assembly 200, the switch assembly 300 and the inflation assembly 400 are all mounted on the vest body 100. The user first wears the vest body 100. When the user turns on the switch assembly 300 to make the switch assembly 300 in the on state, the air inflation assembly 400 sucks air from the atmosphere and compresses the air to form high-pressure air, then the high-pressure air is sent to the massage assembly 200 through the switch assembly 300, the massage assembly 200 moves towards the user to realize the massage effects of pressing, pushing, kneading, taking and the like, then the high-pressure air flows out of the massage assembly 200 to enter the atmosphere, and the massage assembly 200 resets. The inflation assembly 400 continuously sends high-pressure air into the massage assembly 200, and the massage assembly 200 performs reciprocating operation to achieve continuous pressing, pushing, kneading, holding and other massage effects, so that the inflatable massage vest can be used for massaging independently without the help of other people.

The vest body 100 is provided with a plurality of accommodating bags 110 on the inner side of the vest body 100; a massage assembly 200 installed in the receiving bag 110 for reciprocating operation to provide a massage effect; a switch assembly 300 having one end connected to the massage module 200 for controlling a motion state of the massage assembly 200; and an air charging assembly 400 connected to the other end of the switch assembly 300 for supplying high-pressure air to the massage assembly 200. Through the action of massage subassembly 200 simulation finger massage, with massage subassembly 200 setting with the undershirt body 100 hold in the bag 110, when needs massage, can conveniently wear and carry out the massage, and the undershirt portable can massage anytime and anywhere, alleviates fatigue.

Referring to fig. 3, there is shown a block diagram of another inflatable massage vest of the present invention, which may specifically include:

the vest comprises a vest body 100, wherein a plurality of accommodating bags 110 are arranged inside the vest body 100;

a massage assembly 200 installed in the receiving bag 110 for providing a massage effect by reciprocating operation;

a switch assembly 300 having one end connected to the massage module for controlling the motion state of the massage assembly 200;

one end of the high pressure pipeline 500 is connected with the massage module, and the other end of the high pressure pipeline 500 is connected with the inflation assembly 400;

the switch assembly 300 is mounted on the high pressure pipe 500;

the output end of the inflator 410 is connected with the switch assembly 300, and is used for extracting and compressing air to form high-pressure gas;

the power source 420 is connected to the inflator 410 and is configured to provide power to the inflator 410.

In the embodiment of the invention, the vest can be composed of an inflator 410, a power supply 420, a high-pressure pipeline 500, a switch component 300, a massage component 200 and a vest body 100.

The power source 420 is the source of driving force for the inflator 410. May be a pure battery pack, and by charging the battery, the power source 420 may store electrical energy to power the inflator 410. The battery can be combined with a charging device. For example, a battery combined with a solar energy charging device forms the power source 420. When the solar energy charging device is used outdoors or indoors where light is sufficient, the battery can be charged by the solar energy charging device, so that the battery can be charged at any time, and longer energy supply time can be prolonged.

The inflator 410 is connected to a power source 420, obtains kinetic energy from the power source 420, extracts air from the atmosphere by converting electric energy into kinetic energy, and compresses the air therein to form high-pressure gas.

The inflator 410 may be a gear pump, a plunger pump, a centrifugal pump, a screw pump, or a roots vacuum pump. One skilled in the art may select other types of pump bodies as the inflator 410 according to requirements, which is not limited in the embodiment of the present invention.

The gear pump is separated from each other by the teeth of the two gears, creating a depression, sucking in the gas and sealing it between the teeth and the inner wall and sending it to the other side. The teeth of the two gears on the other side are closed to form high pressure to exhaust the gas.

A plunger pump, i.e., a piston pump, draws in air by piston movement and strokes high-pressure gas during a compression stroke and outputs high-pressure gas at the end of the compression stroke.

The centrifugal pump is characterized in that a pump shell is filled with sucked gas, an impeller rotates at a high speed, and the gas generates a high speed under the action of centrifugal force and outputs high-pressure gas.

The screw pump drives one screw to rotate, so that gas is intercepted in the meshing chamber, is propelled in the rod shaft direction and is squeezed to the center to discharge high-pressure gas.

The Roots vacuum pump sucks pumped gas into a space between the rotor and the pump shell from the gas inlet through the continuous rotation of the rotor, and then discharges the pumped gas through the gas outlet. Since the space is fully closed after the air is sucked, the air is compressed and expanded in the pump chamber. However, when the top of the rotor rotates past the edge of the exhaust port and the space is communicated with the exhaust side, a part of the gas rushes back into the space due to the higher pressure of the gas at the exhaust side, so that the pressure of the gas is suddenly increased. When the rotor continues to rotate, the gas is discharged out of the pump, and high-pressure gas is output.

The gas is compressed by the inflator 410 and enters the high pressure pipe 500 connected to the inflator 410. That is, one end of the high pressure pipe 500 is connected to the inflator 410, and the other end of the high pressure pipe 500 is connected to the massage assembly 200.

The high pressure pipeline 500 may be a pipe made of a flexible pipe material, or a pipe made of a hard pipe material. When the pipe fitting of adopting the hose material, can set up the buckle at high-pressure pipeline 500's both ends, prevent that high-pressure gas from leaking. That is, at least one buckle is arranged at the connection position of the high-pressure pipeline 500 and the outlet of the inflator 410, and at least one buckle is arranged at the connection position of the high-pressure pipeline 500 and the gas inlet of the massage assembly 200. For the pipe fitting of hose material, high pressure conduit 500 can be fiber reinforced polyurethane hose, fiber reinforced nylon hose, steel wire reinforced polyurethane hose, steel wire reinforced nylon hose, steel wire wound resin hose.

When the pipe fitting made of hard pipe material is adopted, pipe threads can be arranged at the two ends of the high-pressure pipeline 500, the gas inlet of the massage component 200 and the outlet of the inflator 410, and the gas can be sealed through the pipe threads. For the pipe fitting made of hard pipe material, the high pressure pipeline 500 may be a stainless steel pipeline or a copper pipeline.

On the high-pressure pipe 500, the switch assembly 300 is installed. One end of the switch assembly 300 is connected to the massage assembly 200, and the other end of the switch assembly 300 is connected to the inflator 410. The switch assembly 300 may be a master switch, i.e., one switch assembly 300 controls all of the massage assemblies 200 to operate, or a plurality of independent switches. When the switch assemblies 300 are independent switches, the number of the switch assemblies 300 is matched with the number of the massage assemblies 200, so that the switch assemblies 300 correspond to the massage assemblies 200, one switch assembly 300 can control the corresponding massage assembly 200, and different massage effects are realized by controlling different massage assemblies 200 through a plurality of independent switches.

Specifically, the switch assembly 300 may be a solenoid valve, and the switch assembly controls the opening and closing of the solenoid valve by changing the power-on state of the solenoid valve, thereby controlling the movement of the massage assembly 200.

The massage assembly 200 is connected with the outlet of the high pressure pipeline 500, the massage assembly 200 receives high pressure gas to drive the massage assembly to operate, the massage assembly 200 discharges the high pressure gas, the massage assembly is reset to an original state, and the massage assembly operates in a reciprocating manner to provide a massage effect.

Referring to fig. 4, a massage assembly 200 of the present invention is shown in block diagram form; referring to fig. 5, an enlarged partial view of the massage assembly 200A is shown. In an alternative embodiment of the present invention, the massage assembly 200 comprises:

an actuator plenum 210 connected to the inflation assembly 400, the actuator plenum 210 having an air chamber disposed therein;

an elastic member 220 disposed in the air chamber;

a supporting block 230 connected to one end of the elastic member 220;

a flexible member 240 connected to the other end of the elastic member 220;

when the inflation assembly 400 inflates the high pressure gas into the gas chamber, the high pressure gas pushes the flexible member 240 to move away from the supporting block 230;

when the gas chamber releases the high pressure gas, the elastic member 220 resets the flexible member 240.

In practice, a massage assembly 200 may include a plurality of actuator air chambers 210, a support block 230, the same number of flexible members 240 as actuator air chambers 210, and the same number of resilient members 220 as actuator air chambers 210.

The air intake end of the actuator plenum 210 is connected to the inflation assembly 400. Specifically, the inlet end of the actuation assembly plenum 210 is connected to the outlet end of the inflator 410. High pressure gas output by the inflator 410 enters a gas chamber within the actuator plenum 210 through the inlet end of the actuator plenum 210. The high pressure gas pushes the flexible member 240 to move away from the support block 230 in the gas chamber, i.e., pushes the flexible member 240 to move closer to the user.

The flexible member 240, made of an elastic flexible material, is pushed by the high pressure gas to move downward and extend toward the user, thereby simulating the massage effect of the fingers.

The material of the flexible member 240 may be TPU (Thermoplastic polyurethanes, thermoplastic polyurethane elastomers), TPE (Thermoplastic elastomers), or the like.

The TPU is a high molecular material formed by jointly reacting and polymerizing diisocyanate molecules such as diphenylmethane diisocyanate (MDI) or Toluene Diisocyanate (TDI), etc., and macromolecular polyol and low-molecular polyol (chain extender). The molecular structure is formed by alternately reacting a rigid block obtained by reacting diphenylmethane diisocyanate (MDI) or Toluene Diisocyanate (TDI) with a chain extender and a flexible chain segment obtained by reacting diisocyanate molecules such as diphenylmethane diisocyanate (MDI) or Toluene Diisocyanate (TDI) with macromolecular polyol. The TPU flexible piece 240 has the characteristics of high strength, good toughness, wear resistance, cold resistance, oil resistance, water resistance, aging resistance, weather resistance and the like, has a plurality of excellent functions of high waterproofness, moisture permeability, wind resistance, cold resistance, bacteria resistance, mildew resistance, heat preservation, ultraviolet resistance, energy release and the like, and can be formed by injection molding, extrusion, blow molding and the like when the TPU is adopted to manufacture the flexible piece 240.

TPE is a high molecular material which has the characteristics of plastics and rubber, shows high elasticity of rubber at normal temperature and can be plasticized and molded at high temperature. The thermoplastic elastomer has the structural characteristics that different resin segments and rubber segments are formed by chemical bonds, the resin segments form physical cross-linking points by means of inter-chain acting force, and the rubber segments are high-elasticity segments and contribute to elasticity. The physical cross-linking of the plastic segment changes reversibly with temperature, indicating the plastic processing characteristics of the thermoplastic elastomer. Thus, thermoplastic elastomers have the physical and mechanical properties of vulcanized rubber and the processing properties of thermoplastics.

Further, in order to place more flexible members 240 in one massage assembly 200, the flexible members 240 may have a honeycomb shape, such that a greater number of flexible members 240 are disposed in one plane, such that the massage fineness is higher, the massage position is more accurate, and a better massage effect is achieved.

In the air chamber of the actuator air chamber 210, an elastic member 220 is provided. It should be noted that the number of the elastic members 220 corresponds to the number of the actuator air cells 210, and one elastic member 220 is matched with one actuator air cell 210. The outer diameter of the elastic member 220 is smaller than the inner diameter of the air chamber so that high pressure air can flow in the air chamber. The elastic member 220 has one end connected to the supporting block 230 and the other end connected to the flexible member 240. The elastic member 220 may be a spiral cylinder spring, a disc spring, a plate spring, a coil spring, a truncated cone scroll spring, a torsion bar spring, or the like.

In one example of the present invention, the elastic member 220 is a helical cylindrical spring.

When the high-pressure gas pushes the flexible member 240 to move, the elastic member 220 is moved to follow the flexible member 240 due to the connection between the elastic member 220 and the flexible member 240, so that the elastic member 220 is in a stretched state. When the high-pressure gas is released out of the gas cavity, because the flexible member 240 has no thrust, that is, the pulling force on the flexible member 220 disappears, at this time, the flexible member 220 is reset to the other end in order to keep the kinetic energy balance, the flexible member 240 is pulled to reset, so that the flexible member 240 returns to the initial position, and the high-pressure gas of the inflator 410 is waited to enter the gas cavity to be pushed again next time.

The support block 230 connected to the other end of the spring is a rigid element of the massage assembly 200. The support block 230 is also connected to the other end of the actuator assembly plenum 210, remote from the flexible member 240. When the elastic member 220 and the high pressure gas push the flexible member 240, the supporting block 230 remains undeformed and receives a reaction force of the elastic member 220 and the high pressure gas, so that the elastic member 220 and the high pressure gas can apply a pulling force and a pushing force to the flexible member 240.

The supporting block 230 may be made of metal or engineering plastic. The number of the supporting blocks 230 is one, that is, one massage unit 200 has only one supporting block 230, and all the actuating unit air chambers 210 and the elastic units of the massage unit 200 are connected to different positions of one supporting block 230.

Of course, for convenience of processing, the supporting block 230 may be divided into a plurality of supporting sub-blocks, and the supporting sub-blocks are integrally connected by connectors.

In addition, in order to improve the durability of the massage assembly 200, the massage assembly 200 may further include:

a protection layer 250 connected to the actuator plenum 210 for protecting the actuator plenum 210;

a fabric layer 260 covering the flexible member 240 for protecting the flexible member 240.

In the embodiment of the present invention, a protection layer 250 may be disposed outside the actuator chamber 210, and the protection layer 250 is connected to the actuator chamber 210 to protect the actuator chamber 210 from being damaged by foreign objects, thereby reducing the failure of the actuator chamber 210.

The protective layer 250 may be made of a wear resistant material. Specifically, the wear-resistant material may also be a non-metal wear-resistant material, such as a polymer wear-resistant material, a ceramic wear-resistant material, or a composite ceramic wear-resistant material. The high-molecular wear-resistant material can comprise wear-resistant rubber, polyurethane and polyethylene. The ceramic wear-resistant material can comprise silicon carbide wear-resistant material and wear-resistant ceramic plates. The composite ceramic wear-resistant material can comprise XK-YHL-1.0-2.0 normal-temperature wear-resistant particle glue, XK-YHL-J-2.0 medium-temperature wear-resistant particle glue and XK-YHL-G-3.0 high-temperature wear-resistant particle glue.

The fabric layer 260 covers the flexible member 240 and is also stretchable. As the flexible member 240 is stretched, the fabric layer 260 moves along with it so that the flexible member 240 does not directly contact the skin or clothing of the user. Fabric layer 260 protects the skin of the user while protecting flexible member 240 from abrasion. The fabric layer 260 may be a wear resistant and skin friendly fabric. Such as cowdola nylon, acrylic fiber, twill cloth, etc.

The massage assembly 200 is installed in the receiving pocket 110 of the vest body 100, and the receiving pocket 110 is disposed inside the vest body 100.

In order to facilitate the understanding of the embodiments of the present invention by those skilled in the art, the following description is provided to illustrate the use of the embodiments of the present invention:

the massage assembly 200, the switch assembly 300, the inflator 410 and the power source 420 are all installed on the vest body 100. The massage assembly 200, the switch assembly 300 and the inflator 410 are connected through a high-pressure pipe 500. The inflator 410 draws power from the power source 420 and draws air from the atmosphere to form a high pressure gas that is delivered to the switch assembly 300. The vest body 100 is worn by the user. When the switch assembly 300 is turned on, the high pressure air at the switch assembly 300 flows into the actuating assembly air chamber 210 of the massage assembly 200, and the high pressure air pushes the flexible member 240 to extend outwards in the air chamber, so as to achieve the massage effects of pressing, pushing, kneading, holding, etc. The high pressure gas reaches the outlet of the gas chamber and is released to the atmosphere. At this time, the elastic member 220 is reset, and drives the flexible member 240 to reset. The steps are repeated and continued to realize the massage by using the inflatable massage vest.

In the embodiment of the present invention, the honeycomb-shaped flexible member 240 is used to simulate a finger, and the inflator 410 delivers high-pressure gas into the gas chamber of the actuation assembly gas chamber 210 to drive the flexible member 240 to move; when the high-pressure gas is released into the atmosphere, the flexible member 240 is reset through the elastic member 220, so that the simulation of a massage manipulation is realized, and as the massage assembly 200 comprises a plurality of flexible members 240, finer massage can be realized, so that the massage effect is better; and the massage assembly 200 is disposed in the receiving pocket 110 at the inner side of the vest body 100, so that it is convenient to wear, easy to carry, and convenient to use at any time.

Referring to fig. 6, there is shown a block diagram of another inflatable massage vest of the present invention, which may specifically include:

the vest comprises a vest body 100, wherein a plurality of accommodating bags 110 are arranged on the inner side of the vest body 100;

a massage assembly 200 installed in the receiving bag 110 for providing a massage effect by reciprocating operation;

a switch assembly 300 having one end connected to the massage module for controlling the motion state of the massage assembly 200;

an air charging assembly connected to the other end of the switch assembly 300 for supplying high pressure air to the massage assembly 200;

the communication component 600 is connected to the switch component 300, and is configured to receive a control command and control a state of the switch component 300.

In an embodiment of the present invention, the inflatable massage vest is composed of an inflation assembly, a switch assembly 300, a communication assembly 600, a massage assembly 200, and a vest body 100.

The inflation component is controlled by the switch component 300, when the inflation component is in an on state in the on state, high-pressure gas generated by the inflation component is sent to the massage component 200, and the massage component 200 reciprocates under the action of the high-pressure gas to realize the massage effect. The massage assembly 200 is mounted in the receiving pocket 110 inside the vest body 100.

The communication assembly 600 is connected to the switching assembly 300 for switching the state of the assembly 300. Specifically, the communication assembly 600 may control the state of the switch assembly 300 according to a command received from a user.

The communication unit 600 and the switch unit 300 may be electrically connected to each other by wire or wirelessly. When the cable is electrically connected, the physical wired connection can be performed through an information line such as a network cable and a transmission line. When wirelessly connected, a Mobile Communication network, such as a 5G (5 th Generation Mobile Communication technology, fifth Generation Mobile Communication technology) network or the like, may be employed; the internet of things can be adopted, such as WIFI (Wireless Fidelity), bluetooth, zigBee (ZigBee) and the like. Those skilled in the art can select the application according to the application environment and application requirement, and the embodiment of the present invention is not limited in this respect.

Further, the communication assembly 600 includes a communication element and a display element;

the display element is used for providing a user interface and generating a control instruction based on the operation aiming at the user interface;

the communication element is used for receiving the control command and controlling the state of the switch assembly 300.

In an embodiment of the present invention, the communication assembly 600 specifically includes two parts, a communication element and a display element.

The display element is used to provide a user interface that displays a variety of options, as well as the placement of the massage assemblies 200, on which the user can move by selecting different massage assemblies 200 to generate control commands. Reference may be made to FIG. 7, which shows a schematic diagram of one user interface of the present invention. The user interface has options for the position of the massage assembly 200, and also options for massage maneuvers, and also options for massage force. The user generates a control command by selecting a desired option on the user interface and the control command is transmitted to the communication module 600.

The communication module 600 controls the state of the switch module 300 according to the control command.

In addition, because the user has a habit of use, the user can inquire whether the current command is stored before generating the control command, so that the state of the switch component 300 can be automatically controlled without depending on the communication component 600 next time, and full-automatic massage is realized.

In the embodiment of the present invention, the communication module 600 can select the desired massage mode to massage, thereby providing more choices for the user. The state of the switch assembly 300 is controlled through an unknown control command, so that the operation of the massage assembly 200 is controlled, different massage effects are realized, the massage effects are customized, and the user can be effectively massaged.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or terminal that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or terminal. Without further limitation, an element defined by the phrases "comprising one of \ 8230; \8230;" does not exclude the presence of additional like elements in a process, method, article, or terminal device that comprises the element.

The inflatable massage vest provided by the invention is described in detail, and the principle and the implementation mode of the invention are explained by applying specific examples, and the description of the examples is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. An inflatable massage vest, comprising:

the vest comprises a vest body, wherein a plurality of accommodating bags are arranged on the inner side of the vest body;

a massage assembly mounted in the receiving pocket for reciprocating operation to provide a massage effect;

the switch component is connected with the massage module at one end and used for controlling the motion state of the massage component;

and the inflation assembly is connected with the other end of the switch assembly and is used for providing high-pressure gas for the massage assembly.

2. The inflatable massage vest of claim 1, further comprising a high pressure conduit,

one end of the high-pressure pipeline is connected with the massage module, and the other end of the high-pressure pipeline is connected with the inflation assembly;

the switch assembly is mounted on the high-pressure pipeline.

3. The inflatable massaging vest of claim 1, further comprising a communication component,

the communication assembly is connected with the switch assembly and used for receiving a control command and controlling the state of the switch assembly.

4. The inflatable massage vest of any one of claims 1 to 3, wherein the massage assembly comprises:

the actuating component air chamber is connected with the inflation component, and an air chamber is arranged in the actuating component air chamber;

the elastic piece is arranged in the air cavity chamber;

the supporting block is connected with one end of the elastic piece;

the flexible part is connected with the other end of the elastic part;

when the inflation assembly inflates the high-pressure gas into the gas chamber, the high-pressure gas pushes the flexible piece to move in a direction away from the supporting block;

when the gas chamber releases the high-pressure gas, the elastic piece resets the flexible piece.

5. The inflatable massage vest of claim 4, wherein the massage assembly further comprises:

the protective layer is connected with the actuating component air chamber and is used for protecting the actuating component air chamber;

a fabric layer covering the flexible member for protecting the flexible member.

6. The inflatable massaging vest of claim 4, wherein the flexible member is honeycomb shaped.

7. The inflatable massaging vest of claim 4, wherein the elastic member is a helical cylindrical spring.

8. The inflatable massaging vest of claim 4, wherein the switch assembly corresponds to the actuation assembly air chamber;

the switch component is used for controlling the corresponding actuating component air chamber.

9. The inflatable massage vest of any one of claims 1 to 3, wherein the inflation assembly comprises: an air pump and a power supply,

the power supply is connected with the inflator pump and used for providing electric power for the inflator pump.

The output end of the inflator pump is connected with the switch assembly and used for pumping and compressing air to form high-pressure gas.

10. The inflatable massaging vest of claim 3, wherein the communication assembly comprises a communication element and a display element;

the display element is used for providing a user interface and generating a control instruction based on the operation aiming at the user interface;

the communication element is used for receiving the control instruction and controlling the state of the switch assembly.

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