CN220608876U - Bendable lumbar EMS pneumatic massager - Google Patents

Abstract

The utility model discloses a bendable lumbar EMS pneumatic massager, which comprises a massager body, a left air bag, a right air bag, an EMS conducting strip, a pneumatic module and a PCB (printed circuit board); the EMS conducting strip is arranged on the upper surface of the massager body; the massager body comprises a left shell and a right shell, and the left shell and the right shell are mutually hinged, so that the left shell and the right shell can be overturned upwards around the hinge axis, and the massager body is in a bent shape; the left air bag is arranged on the lower surface of the left shell, the right air bag is arranged on the lower surface of the right shell, the air pressure component and the PCB board are arranged in the massager body, and the air pressure component is connected with the left air bag and the right air bag; the air pressure component is connected with the PCB, and the PCB is used for controlling the air pressure component to inflate and deflate the left air bag and the right air bag. The left shell or the right shell is pushed to turn upwards by inflating the left air bag or the right air bag, so that the massager is more attached to the waist, the massage rubbing area is increased, and meanwhile, the waist massage effect is improved through the EMS conducting strip.

Description

Bendable lumbar EMS pneumatic massager

Technical Field

The utility model relates to the technical field of lumbar massagers, in particular to a bendable lumbar EMS pneumatic massager.

Background

The waist massager is designed by combining human engineering mechanics and the traditional Chinese medicine meridian theory principle, and achieves the effect of effectively relieving fatigue and relaxing the body by kneading the waist. Especially for the old and the office workers who sit for a long time, the waist massager can relax muscle tension, improve the condition of limited waist movement and the state of muscle spasm, and is beneficial to promoting local blood circulation so as to relieve waist pain. The existing waist massager is mostly in a single fixed shape and cannot be adjusted; the bending degree of the waist massager can not be adjusted according to the human body difference to realize the fitting and wrapping of the waist, and the massaging effect can not reach the best.

EMS (electric muscle stimulation Electrical Muscle Stimulation abbreviation), commonly called low frequency, is a recently and gradually rising massage technology for stimulating muscles through micro-current, and mainly uses weak current to stimulate muscles and lymph to shrink the muscles so as to achieve the massage effect. The application of EMS in the lumbar massager can improve the stimulation to the lumbar so as to improve the lumbar massage effect.

The inventor inherits years of industry design experience, improves the existing waist massager to achieve a more practical effect.

Disclosure of Invention

The utility model aims to provide the bendable lumbar EMS pneumatic massager, which overcomes the defects, realizes the fitting of the massager and the lumbar and achieves better massage effect.

To achieve the above object, the solution of the present utility model is: a bendable lumbar EMS pneumatic massager comprises a massager body, a left air bag, a right air bag, EMS conducting strips, a pneumatic module and a PCB board;

the EMS conducting strip is arranged on the upper surface of the massager body and is connected with the PCB;

the massager body comprises a left shell and a right shell, wherein the right side part of the left shell is hinged with the left side part of the right shell, so that the left shell and the right shell can be overturned upwards around the hinge shaft, and the massager body is in a bent shape;

the left air bag is arranged on the lower surface of the left shell, the right air bag is arranged on the lower surface of the right shell, the air pressure component and the PCB board are arranged in the massager body, and the air pressure component is connected with the left air bag and the right air bag; the air pressure component is connected with the PCB, and the PCB is used for controlling the air pressure component to inflate and deflate the left air bag and the right air bag.

Further, the number of EMS conducting strips is at least two, and is left EMS conducting strip and right EMS conducting strip respectively, and left EMS conducting strip sets up in the top of left casing, and right EMS conducting strip sets up in the top of right casing.

Further, the upper surface of the massager body is sleeved with a soft package assembly, the soft package assembly comprises a left soft buckle cover, a right soft buckle cover and a soft package jacket, the left soft buckle cover is arranged on the upper surface of the left shell, and the right soft buckle cover is arranged on the upper surface of the right shell; the soft package outer sleeve is coated on the upper surfaces of the left soft buckle cover and the right soft buckle cover; the upper surface of the soft package overcoat is equipped with the left mounting groove and the right mounting groove of right EMS conducting strip shape matching with left EMS conducting strip shape matching, and left EMS conducting strip installs in left mounting groove, and right EMS conducting strip installs in right mounting groove.

Still further, still include two EMS fixed plates, be left EMS fixed plate and right EMS fixed plate respectively, left EMS conducting strip imbeds left EMS fixed plate in, right EMS conducting strip imbeds right EMS fixed plate in, left EMS fixed plate imbeds left mounting groove in, right EMS fixed plate imbeds right mounting groove.

Further, the left soft buckle cover and the right soft buckle cover are made of sponge materials.

Further, the left casing includes left upper cover and left lower cover, and the right casing includes right upper cover and right lower cover, and left upper cover and left lower cover mutually cover and close and form left accommodation chamber, and right upper cover and right lower cover mutually cover and close and form right accommodation chamber, and pneumatic assembly and PCB board set up in left accommodation chamber and/or right accommodation chamber.

Further, the air pressure component comprises a left air valve, a right air valve and an air pump, the left air valve, the right air valve and the air pump are connected with the PCB, the left air valve is arranged in the left accommodating cavity, the right air valve is arranged in the right accommodating cavity, the left air valve is connected with the left air bag, and the right air valve is connected with the right air bag; the air pump is provided with an air pump connector, and the left air valve and the right air valve are respectively communicated with the air pump through the air pump connector.

Further, the intelligent control device also comprises a hand controller, wherein the hand controller is connected with the PCB through an electric wire, and is pressed to send communication signals to the PCB.

Further, the massager body is also internally provided with a vibration motor which is connected with the PCB.

Further, the left elastic fabric sheath and the right elastic fabric sheath are also included, the left elastic fabric sheath is sleeved on the left air bag, and the right elastic fabric sheath is sleeved on the right air bag.

After the scheme is adopted, the beneficial effects of the utility model are as follows:

the waist massager is bent through the hinging of the left shell and the right shell, and when the left air bag is inflated, the left shell is pushed to turn upwards so as to increase the contact area with the left waist, thereby realizing the great massage and rubbing of the left waist; when the right air bag is inflated and inflated, the right shell is pushed to turn upwards so as to increase the contact area with the right waist, and the right waist is massaged and rubbed greatly; meanwhile, the EMS conducting strip is arranged on the surface of the massager in contact with the waist of the human body, and carries out electric stimulation massage on the waist, so that the waist massage effect is improved.

Further, when left casing and right casing upwards buckle simultaneously, realize the volume reduction of this massager, be convenient for accomodate, conveniently carry and transport.

Drawings

Figure 1 is an exploded view of the present massager.

Fig. 2 is a partial enlarged view of fig. 1.

Figure 3 is a perspective view of the combination of the present massager.

Figure 4 is a combined perspective view of another angle of the present massager.

Fig. 5 is a schematic diagram of the left air bag being inflated.

Fig. 6 is a schematic diagram of the right air bag being inflated.

Fig. 7 is a schematic view of the left and right air bags inflated.

Fig. 8 is a schematic diagram of bending of the massager.

Fig. 9 is a schematic diagram of the electrical connection of the massager.

Description of the reference numerals:

the massage device comprises a 1-massager body, a 2-left air bag, a 3-right air bag, a 4-EMS conducting strip, a 5-air pressure component, a 6-PCB board, a 7-soft package component, an 8-EMS fixing board, a 9-hand controller, a 10-vibration motor, a 11-left shell, a 12-right shell, a 13-shaft rod, a 21-left air tap, a 22-left elastic fabric wrap, a 31-right air tap, a 32-right elastic fabric wrap, a 41-left EMS conducting strip, a 42-right EMS conducting strip, a 51-left air valve, a 52-right air valve, a 53-air pump, a 71-left soft buckle cover, a 72-right soft buckle cover, a 73-soft package cover, a 81-left EMS fixing board, a 82-right EMS fixing board, a 111-left upper cover, a 112-left lower cover, a 113-first hinge part, a 114-first hinge hole, a 121-right upper cover, a 122-right lower cover, a 123-second hinge part, a 124-second hinge hole 122531-air pump connector, a left mounting groove, a right air tap, a left air tap mounting groove 732, a left air tap mounting groove, and a left air tap mounting groove 1121.

Detailed Description

The utility model will be described in detail with reference to the accompanying drawings and specific embodiments.

In the claims, specification and drawings hereof, unless explicitly defined otherwise, references to orientation terms such as "center", "lateral", "longitudinal", "horizontal", "vertical", "top", "bottom", "inner", "outer", "upper", "lower", "front", "rear", "left", "right", "clockwise", "counterclockwise", etc., are used merely for convenience of description and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation or be constructed and operated in a particular orientation, nor should they be construed as limiting the scope of the utility model in particular.

As shown in fig. 1 to 9, the present utility model provides a bendable lumbar EMS pneumatic massager, which comprises a massager body 1, a left air bag 2, a right air bag 3, an EMS conductive sheet 4, a pneumatic module 5 and a PCB board 6.

The massager body 1 comprises a left shell 11 and a right shell 12, wherein the right part of the left shell 11 is hinged with the left part of the right shell 12, so that the left shell 11 and the right shell 12 can be overturned upwards around the hinge axis, and the massager body 1 is in a bent shape; specifically, as shown in fig. 2, the left casing 11 further includes a shaft 13, a first hinge portion 113 is disposed on a right portion of the left casing 11, a first hinge hole 114 is disposed on the first hinge portion 113, a second hinge portion 123 is disposed on a left portion of the right casing 12, a second hinge hole 124 is disposed on the second hinge portion 123, and the shaft 13 sequentially passes through the first hinge hole 114 and the second hinge hole 124, so that the left casing 11 and the right casing 12 can be turned upwards around the shaft 13.

In the specific embodiment, the left air bag 2 is arranged on the lower surface of the left shell 11, the right air bag 3 is arranged on the lower surface of the right shell 12, the air pressure component 5 and the PCB 6 are arranged in the massager body 1, and the air pressure component 5 is connected with the left air bag 2 and the right air bag 3; the air pressure component 5 is connected with the PCB 6, and the PCB 6 is used for controlling the air pressure component 5 to inflate and deflate the left air bag 2 and the right air bag 3. As shown in fig. 5, when the air pressure module 5 is controlled to inflate the left air bag 2, the left air bag 2 bulges to push the left shell 11 to turn upwards around the shaft rod 13, so as to increase the contact area between the left side of the massager and the left waist, and further realize the massage and rubbing of the left side of the massager to the left waist. As shown in fig. 6, when the air pressure module 5 is controlled to inflate the right air bag 3, the right air bag 3 is inflated to push the right casing 12 to turn upwards around the shaft rod 13, so as to increase the contact area between the right side of the massager and the right waist, and further realize the massage and rubbing of the right side of the massager to the right waist.

Further, as shown in fig. 5, when the left air bag 2 is in an inflated state and the right air bag 3 is in an initially uninflated state, the left air bag 2 inflated by the left housing 11 is pushed to turn upwards around the hinge shaft, the bottom of the left air bag 2 forms a horizontal plane with the lower surface of the right housing 12, the included angle between the left housing 12 and the horizontal plane after turning is 60 ° at the maximum, that is, the adjusting angle ranges from 0 ° to 60 °, and in particular, the air inflation amount or the air exhaust of the left air bag 2 can be controlled by controlling the air pressure component 5 to perform angle adjustment.

Similarly, as shown in fig. 6, when the right air bag 3 is in an inflated state and the left air bag 2 is in an initially uninflated state, the right air bag 3 of the right housing 12 is pushed by the inflated right air bag 3 to turn upwards around the shaft rod 13, the bottom of the right air bag 3 forms a horizontal plane with the lower surface of the left housing 12, the included angle between the turned right housing 12 and the horizontal plane is 60 ° at the maximum, that is, the adjusting angle ranges from 0 ° to 60 °, and in particular, the air charge amount or the air discharge of the right air bag 2 can be controlled by controlling the air pressure module 5 to perform angle adjustment.

As shown in fig. 7, the left air bag 2 and the right air bag 3 are in an inflated state at the same time, and the left shell 11 and the right shell 12 are pushed to turn upwards around the hinge axis at the same time, so that the left side and the right side of the massager are attached to the left waist and the right waist at the same time, thereby realizing great massage and rubbing of the left waist and the right waist at the same time and improving the massage effect.

Further, as shown in fig. 8, the left casing 11 and the right casing 12 are turned upwards around the shaft rod 13 at the same time, and the minimum included angle between the left casing 11 and the right casing 12 can reach 90 degrees, so that the total volume of the massager is reduced, and the massager is convenient to store, carry and transport.

In the embodiment, an EMS conducting strip 4 is arranged above the massager body 1, and the EMS conducting strip 4 is connected with a PCB 6; when the PCB 6 discharges to the EMS conducting strip 4, the EMS conducting strip 4 can perform electric stimulation massage on the waist of the human body, and the waist massage effect is improved.

The number of EMS conductive sheets 4 is at least two, in this embodiment, as shown in fig. 3, the number of EMS conductive sheets 4 is two, which is a left EMS conductive sheet 41 and a right EMS conductive sheet 42, respectively, the left EMS conductive sheet 4 is disposed above the left housing 11, and the right EMS conductive sheet 41 is disposed above the right housing 12. The electric stimulation massage can be respectively carried out on the left waist or the right waist, and the massage effect is improved. The number of EMS conductive sheets 4 may be 3, 4, or others, and those skilled in the art may design the EMS conductive sheets according to circumstances, not limited thereto.

In this embodiment, as shown in fig. 1, a soft package assembly 7 is sleeved on the upper surface of the massager body 1, the soft package assembly 7 includes a left soft buckle cover 71, a right soft buckle cover 72 and a soft package outer sleeve 73, the left soft buckle cover 71 is disposed on the upper surface of the left housing 11, and the right soft buckle cover 72 is disposed on the upper surface of the right housing 12; the soft package outer sleeve 73 is coated on the upper surfaces of the left soft buckle cover 71 and the right soft buckle cover 72; the upper surface of the soft package cover 73 is provided with a left mounting groove 731 having a shape matching with the left EMS conductive sheet 41 and a right mounting groove 732 having a shape matching with the right EMS conductive sheet 42, the left EMS conductive sheet 41 is mounted in the left mounting groove 731, and the right EMS conductive sheet 42 is mounted in the right mounting groove 732. Specifically, the left mounting groove 731 and the right mounting groove 732 are respectively formed at the left and right sides of the soft pack outer cover 73, the left mounting groove 731 corresponds to the left waist of the human waist, the right mounting groove 732 corresponds to the right waist of the human waist, and further the left EMS conductive sheet 41 mounted in the left mounting groove 731 can perform an electro-stimulation massage on the left waist of the human body, and the right EMS conductive sheet 42 mounted in the right mounting groove 732 can perform an electro-stimulation massage on the left waist of the human body.

Further, two EMS fixing plates 8, namely a left EMS fixing plate 81 and a right EMS fixing plate 82, are included, the left EMS conductive sheet 41 is embedded in the left EMS fixing plate 81, the right EMS conductive sheet 42 is embedded in the right EMS fixing plate 82, the left EMS fixing plate 81 is embedded in the left mounting groove 731, and the right EMS fixing plate 82 is embedded in the right mounting groove 732. Mounting stability of the left EMS conductive sheet 41 and the right EMS conductive sheet 42 is achieved.

In this embodiment, the soft package cover 73 is made of a sponge material and a cloth material, has high strength and elastic recovery capability, is easy to mold and process, has a comfortable contact surface, is coated on the upper surfaces of the left soft buckle cover 71 and the left soft buckle cover 72, and has good integration, attractive appearance and good skin comfort.

Further, the left soft buckle cover 71 and the right soft buckle cover 72 are made of sponge materials, and have good elasticity. The comfort of the massager is improved. The left soft clasp cover 71 and the right soft clasp cover 72 may also be made of other foaming materials.

In this particular embodiment, as shown in fig. 1, the left housing 11 includes a left upper cover 111 and a left lower cover 112, the right housing 12 includes a right upper cover 121 and a right lower cover 122, the left upper cover 111 and the left lower cover 112 are mutually covered to form a left accommodating cavity, the right upper cover 121 and the right lower cover 122 are mutually covered to form a right accommodating cavity, the air pressure assembly 5 and the PCB board 6 are disposed in the left accommodating cavity and the right accommodating cavity, and the air pressure assembly 5 and the PCB board 6 can also be disposed in the left accommodating cavity or the right accommodating cavity, respectively.

Specifically, the air pressure component 5 includes a left air valve 51, a right air valve 52 and an air pump 53, the left air valve 51, the right air valve 52 and the air pump 53 are connected with the PCB board 6 (as shown in fig. 9), the left air valve 51 is disposed in the left accommodating cavity, the right air valve 52 is disposed in the right accommodating cavity, the left air valve 51 is connected with the left air bag 2, and the right air valve 52 is connected with the right air bag 3; the air pump 53 is provided with an air pump connector 531, and the left air valve 51 and the right air valve 52 are respectively communicated with the air pump 53 through the air pump connector 531.

As shown in fig. 1, the left air bag 2 is provided with a left air tap 21, the left lower cover 112 is provided with a left air tap exposing hole 1121 (as shown in fig. 5), the left air valve 51 is communicated with the left air tap 21 of the left air bag 2 through the left air tap exposing hole 1121, the right air bag 3 is provided with a right air tap 31, the right lower cover 122 is provided with a right air tap exposing hole 1221, and the right air valve 52 is communicated with the right air tap 31 of the right air bag 3 through the right air tap exposing hole 1221.

In this embodiment, the mobile phone further comprises a hand controller 9, wherein keys are arranged on the hand controller 9, the hand controller 9 is connected with the PCB 6 through wires, and the keys on the hand controller 9 are pressed to send communication signals to the PCB 6.

When in use, the air pump 53 is started to inflate the left air bag 2 through the left air valve 51 until the left air bag 2 pushes the left shell 11 to bend to a proper position, and of course, the left air bag 2 can be exhausted through the left air valve 51, so that the left air bag 2 is reset to an initial non-inflated state or the bending angle of the left shell 11 is adjusted through exhaust. In addition, the right air valve 52 may be activated to inflate or deflate the right air bag 3 to adjust the bending angle of the right housing 12. The air bag is inflated and exhausted through the air valve, which is the prior art and is not described herein. Specifically, the hand controller 9 sends a communication signal to the PCB 6.

In this embodiment, a vibration motor 10 is further disposed in the massager body 1, and the vibration motor 10 is connected with the PCB board 6. The massage device is realized by the vibration motor 10, which is the prior art and will not be described herein.

In this embodiment, as shown in fig. 1, the left elastic fabric sheath 22 and the right elastic fabric sheath 32 are further included, the left elastic fabric sheath 22 is sleeved on the left air bag 2, and the right elastic fabric sheath 32 is sleeved on the right air bag 3 (as shown in fig. 4). Specifically, the left elastic fabric sheath 22 and the right elastic fabric sheath 32 are made of elastic fabric materials, have high elasticity and wear resistance, and can protect the left air bag 2 and the right air bag 3 from being damaged due to friction and collision.

The above embodiments are only preferred embodiments of the present utility model, and are not limited to the present utility model, and all equivalent changes made according to the design key of the present utility model fall within the protection scope of the present utility model.

Claims (10)

1. The utility model provides a waist EMS pneumatic massager that can buckle which characterized in that: the massager comprises a massager body (1), a left air bag (2), a right air bag (3), an EMS conducting strip (4), an air pressure component (5) and a PCB (6);

the EMS conducting strip (4) is arranged above the massager body (1), and the EMS conducting strip (4) is connected with the PCB (6);

the massager body (1) comprises a left shell (11) and a right shell (12), wherein the right part of the left shell (11) is hinged with the left part of the right shell (12), so that the left shell (11) and the right shell (12) can be overturned upwards around the hinge axis, and the massager body (1) is in a bent shape;

the left air bag (2) is arranged on the lower surface of the left shell (11), the right air bag (3) is arranged on the lower surface of the right shell (12), the air pressure component (5) and the PCB (6) are arranged in the massager body (1), and the air pressure component (5) is connected with the left air bag (2) and the right air bag (3); the air pressure component (5) is connected with the PCB (6), and the PCB (6) is used for controlling the air pressure component (5) to inflate and deflate the left air bag (2) and the right air bag (3).

2. The flexible lumbar EMS pneumatic massager of claim 1 wherein: the number of the EMS conducting strips (4) is at least two, namely a left EMS conducting strip (41) and a right EMS conducting strip (42), the left EMS conducting strip (41) is arranged above the left shell (11), and the right EMS conducting strip (42) is arranged above the right shell (12).

3. The flexible lumbar EMS pneumatic massager of claim 2 wherein: the upper surface of the massager body (1) is sleeved with a soft package assembly (7), the soft package assembly (7) comprises a left soft buckle cover (71), a right soft buckle cover (72) and a soft package outer sleeve (73), the left soft buckle cover (71) is arranged on the upper surface of the left shell (11), and the right soft buckle cover (72) is arranged on the upper surface of the right shell (12); the soft package outer sleeve (73) is coated on the upper surfaces of the left soft buckle cover (71) and the right soft buckle cover (72); the upper surface of the soft package overcoat (73) is provided with a left mounting groove (731) matched with the shape of the left EMS conducting strip (41) and a right mounting groove (732) matched with the shape of the right EMS conducting strip (42), the left EMS conducting strip (41) is mounted in the left mounting groove (731), and the right EMS conducting strip (42) is mounted in the right mounting groove (732).

4. A flexible lumbar EMS pneumatic massager as defined in claim 3, wherein: still include two EMS fixed plates (8), be left EMS fixed plate (81) and right EMS fixed plate (82) respectively, left EMS conducting strip (41) imbeds in left EMS fixed plate (81), right EMS conducting strip (42) imbeds in right EMS fixed plate (82), left EMS fixed plate (81) imbeds in left mounting groove (731), right EMS fixed plate (82) imbeds in right mounting groove (732).

5. A flexible lumbar EMS pneumatic massager as defined in claim 3, wherein: the left soft buckle cover (71) and the right soft buckle cover (72) are made of sponge materials.

6. The flexible lumbar EMS pneumatic massager of claim 1 wherein: the left shell (11) comprises a left upper cover (111) and a left lower cover (112), the right shell (12) comprises a right upper cover (121) and a right lower cover (122), the left upper cover (111) and the left lower cover (112) are mutually covered to form a left accommodating cavity, the right upper cover (121) and the right lower cover (122) are mutually covered to form a right accommodating cavity, and the air pressure assembly (5) and the PCB (6) are arranged in the left accommodating cavity and/or the right accommodating cavity.

7. The flexible lumbar EMS pneumatic massager of claim 6 wherein: the air pressure component (5) comprises a left air valve (51), a right air valve (52) and an air pump (53), wherein the left air valve (51), the right air valve (52) and the air pump (53) are connected with the PCB (6), the left air valve (51) is arranged in a left accommodating cavity, the right air valve (52) is arranged in a right accommodating cavity, the left air valve (51) is connected with the left air bag (2), and the right air valve (52) is connected with the right air bag (3); the air pump (53) is provided with an air pump connector (531), and the left air valve (51) and the right air valve (52) are respectively communicated with the air pump (53) through the air pump connector (531).

8. The flexible lumbar EMS pneumatic massager of claim 1 wherein: the intelligent control device further comprises a hand controller (9), wherein the hand controller (9) is connected with the PCB (6) through an electric wire, and the hand controller (9) is pressed to send communication signals to the PCB (6).

9. The flexible lumbar EMS pneumatic massager of claim 1 wherein: a vibration motor (10) is further arranged in the massager body (1), and the vibration motor (10) is connected with the PCB (6).

10. The flexible lumbar EMS pneumatic massager of claim 1 wherein: the novel air bag is characterized by further comprising a left elastic fabric wrap (22) and a right elastic fabric wrap (32), wherein the left elastic fabric wrap (22) is sleeved on the left air bag (2), and the right elastic fabric wrap (32) is sleeved on the right air bag (3).