CN210124351U - Massage vibrator and massage waistband - Google Patents

Abstract

The utility model provides a massage oscillator and massage waistband, wherein the massage oscillator includes a magnetic assembly and a massage subassembly, wherein the massage subassembly along axial movably set up in the magnetic assembly, the massage subassembly include a massage spare with set up in a coil pack of massage spare, work as coil pack has the electric current to pass through and when the electric current changes, coil pack produces a variable electromagnetic field, changes the electromagnetic field with magnetic assembly's magnetic field interact, thereby make the massage spare with relative motion takes place for the magnetic assembly, the massage waistband includes at least one massage oscillator and a controlling means, wherein the controlling means electricity is connected in the massage oscillator is set up to be suitable for receiving a control signal ground control massage oscillator work.

Description

Massage vibrator and massage waistband

Technical Field

The utility model relates to a massage field especially relates to a massage oscillator and massage waistband, wherein the massage oscillator can be adjusted to arbitrary vibration frequency to can realize good massage effect.

Background

With the modern pace of life accelerating, people's pressure is increasing day by day, people are tired both in mind and body under the stressful environment, so more and more people are beginning to seek a way of relaxing body and mind to relax and eliminate fatigue, but most people do not have time to go out for exercise and exercise at present, so more and more massage devices are appeared on the market to meet people's needs at present.

The existing massage equipment mainly takes a massage motor as a power source for massage. In the massage apparatus using the massage motor as a power source, a structure or means for converting power is required to be provided to convert a rotational motion generated by the massage motor into a linear motion for realizing a massage effect, and thus the structure of the massage apparatus using the massage motor as a power source needs to be provided with a relatively complicated structure, and thus the manufacturing cost and the manufacturing difficulty thereof are increased along with the complexity of the structure.

In addition, it is worth mentioning that the massage motor has only a single vibration stroke, so the force acting on the human body is relatively single, and the vibration frequency of the massage motor can only be adjusted by adjusting the magnitude of the input current, in other words, the driving manner of the massage device is single, so that the user cannot effectively control and adjust the massage frequency of the massage device during the massage process.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a massage oscillator and massage waistband, wherein the massage oscillator includes a magnetic component and a massage subassembly, wherein the massage subassembly with the magnetic component is set up by coaxial movably, the massage subassembly includes a coil pack, then the coil pack has the current through the time, the massage subassembly produces an electromagnetic field, the electromagnetic field with the magnetic field interact of magnetic component and make the massage subassembly with the magnetic component takes place relative motion.

Another objective of the present invention is to provide a massage vibrator and a massage belt, wherein when the current of the coil assembly is changed, the electromagnetic field is correspondingly changed, so as to interact with the magnetic field of the magnetic assembly, so that the massage assembly and the magnetic assembly move relatively in the magnetic field direction, thereby achieving the massage effect.

Another object of the present invention is to provide a massage vibrator and a massage belt, wherein the massage vibrator includes a permanent magnet and a magnetic conduction basin, wherein the permanent magnet is disposed in the magnetic conduction basin and in the magnetic conduction basin with a magnetic groove is formed between the permanent magnets, wherein the coil assembly is movably disposed in the magnetic groove, when the coil assembly has a current passing through and changes at the current, the coil assembly generates a change in the electromagnetic field, and forms the massage assembly with a change in the relative motion between the magnetic assemblies.

Another object of the present invention is to provide a massage vibrator and a massage belt, wherein the massage vibrator further comprises a first elastic supporting member, the first elastic supporting member is connected to the massage component and between the magnetic components, so as to maintain the massage component and the relative motion between the magnetic components within a certain range of travel.

Another object of the present invention is to provide a massage vibrator and a massage belt, wherein the first elastic supporting member is extended with a plurality of extending ridges, the extending ridges are disposed in a bending manner, so that the length of the extending ridges is increased in a manner of increasing the length of the extending ridges while maintaining the first elastic supporting member in a certain volume, thereby increasing the stroke range of the relative movement between the massage assembly and the magnetic assembly.

Another object of the present invention is to provide a massage vibrator and a massage belt, wherein the massage vibrator further comprises a second elastic supporting member and a supporting frame, wherein the two ends of the second elastic supporting member are respectively fixed on the massage component and between the supporting frames, so that the massage component and the magnetic component are elastically maintained on the supporting frames, thereby when the massage component and the magnetic component generate relative motion, the massage component and the relative motion between the magnetic components are buffered by the second elastic supporting member.

Another object of the present invention is to provide a massage vibrator and a massage belt, wherein the support frame is provided with a vibration chamber, so that when the support frame is fixed, the massage component and the magnetic component are suspended by the second elastic supporting member in the vibration chamber, thereby making the massage component and the relative movement between the magnetic components is buffered by the second elastic supporting member.

Another objective of the present invention is to provide a massage vibrator and a massage belt, wherein the massage vibrator further comprises a control device, wherein the control device is configured to receive a control signal and output a corresponding control current to the coil assembly according to the control signal.

Another object of the present invention is to provide a massage vibrator and a massage belt, wherein the control device comprises a signal receiving module and a signal output module, wherein the signal receiving module is configured to be suitable for receiving the control signal and communicably connected to the signal output module, the signal output module is configured to be capable of outputting a corresponding current to the coil assembly according to the corresponding control signal.

Another object of the present invention is to provide a massage vibrator and a massage belt, wherein the massage vibrator does not require precise components and complex structures, and is small in size, simple in structure, low in cost, and therefore, easy to be popularized and used, and has a wide economic prospect.

An object of the utility model is to provide a massage oscillator and massage waistband, wherein the massage subassembly with relative motion's change is along with the input between the magnetic component the change of coil pack's electric current changes, and the massage dynamics and the frequency of massage oscillator are along with the massage subassembly with relative motion's between the magnetic component change, can adjust through changing the input with this coil pack's electric current the massage subassembly with relative motion between the magnetic component is in the size and the frequency of certain stroke within range, thereby adjusts the massage dynamics and the frequency of massage oscillator to be adapted to the demand of user to different massage frequencies and dynamics.

Another object of the present invention is to provide a massage vibrator and a massage belt, wherein the massage vibrator can be driven by changing the magnitude and direction of the current or inputting the intermittent current, so as to provide a driving manner that is flexible and versatile.

Another object of the present invention is to provide a massage vibrator and a massage belt, wherein the massage belt includes at least one massage vibrator and a supporting pad, wherein the massage vibrator is set up in the supporting pad by the supporting pad, so that the massage vibrator is driven when vibrating the massage belt as a whole.

In order to realize at least one purpose, the utility model provides a massage vibrator, include:

a magnetic assembly, wherein the magnetic assembly is configured to provide a magnetic field; and

a massage assembly, wherein the massage assembly and the magnetic assembly are coaxially and movably disposed, the massage assembly comprises a massage member and a coil assembly disposed on the massage member, when a current flows through the coil assembly and the current changes, the coil assembly generates a changing electromagnetic field, and the changing electromagnetic field interacts with the magnetic field of the magnetic assembly, so that the massage member and the magnetic assembly move relatively.

In an embodiment of the present invention, the massage vibrator further includes a first elastic supporting element, the first elastic supporting element is connected between the massage component and the magnetic component to maintain a relative motion between the massage component and the magnetic component within a certain range of travel.

In an embodiment of the present invention, the first resilient support member has an inner edge and an outer edge extending from the inner edge, wherein the inner edge is connected to the massage assembly, wherein the outer edge is connected to the magnetic assembly, thereby forming a state in which the first resilient support member is connected between the massage assembly and the magnetic assembly.

In an embodiment of the invention, wherein the inner edge and the outer edge of the first resilient support are bonded to the massage component and the magnet component, respectively.

In an embodiment of the present invention, the first elastic supporting member is extended with a plurality of extending ridges, the extending ridges extend between the inner edge and the outer edge, and each of the extending ridges is disposed in a curved manner, so as to increase the length of the extending ridge while maintaining the first elastic supporting member in a certain volume, thereby increasing the stroke range of the relative movement between the massage component and the magnetic component.

In an embodiment of the invention, each of the extending ridges is shaped as an S-shape.

In an embodiment of the present invention, the massage vibrator further includes a second elastic supporting member, wherein one end of the second elastic supporting member is fixed to the massage assembly, so that when the other end of the second elastic supporting member is fixed, a state in which the massage assembly and the magnetic assembly are elastically maintained is formed, and further, the relative movement between the massage assembly and the magnetic assembly is buffered by the second elastic supporting member.

In an embodiment of the present invention, the massage vibrator further includes a support frame, wherein the second elastic support member is fixed between the massage component and the support frame, so that the massage component and the magnetic component are elastically maintained on the support frame, and thus when the massage component and the magnetic component generate relative motion, the relative motion between the massage component and the magnetic component is buffered by the second elastic support member.

In an embodiment of the present invention, the supporting frame is provided with a vibration chamber, so that when the supporting frame is fixed, the massage component and the magnetic component are suspended in the vibration chamber by the second elastic supporting member, thereby enabling the relative movement between the massage component and the magnetic component to be buffered by the second elastic supporting member.

In an embodiment of the present invention, the second elastic supporting member has a first edge and a second edge extending from the first edge, wherein the first edge of the second elastic supporting member is fixed to the massage assembly, and the second edge of the second elastic supporting member is fixed to the supporting frame, so as to form a state that the second elastic supporting member is fixed between the massage assembly and the supporting frame.

In an embodiment of the present invention, the first edge of the second elastic supporting member is bonded to the massage assembly on the first elastic supporting member, and the second edge of the second elastic supporting member is fixed to the supporting frame via a plurality of fixing members.

In an embodiment of the invention, the second elastic supporting member comprises a plurality of extending members extending between the first edge and the second edge, wherein each of the extending members is arranged to be bent.

In an embodiment of the present invention, each of the extending members is provided with an S-shape.

In an embodiment of the present invention, the coil assembly comprises a coil frame and a coil, wherein the coil frame is fixed to the massage member, and wherein the coil is surrounded and disposed on the coil frame.

In an embodiment of the present invention, the massage member has an extension portion, wherein the extension portion extends radially from the massage member to form the annular extension portion, wherein the first edge of the second elastic supporting member is fixed to the massage member at an upper end of the extension portion, and wherein the bobbin of the coil assembly is fixedly connected to the massage member at a lower end of the extension portion.

In an embodiment of the present invention, the massage member further extends with a massage head, wherein the massage head extends radially and obliquely from an end of the massage member opposite to an end where the coil assembly is disposed, to form the umbrella-shaped massage head.

In an embodiment of the present invention, the massage element further comprises a buffer member, wherein the buffer member is disposed on the massage head and is made of an elastic material.

In an embodiment of the present invention, the magnetic assembly includes a permanent magnet and a magnetic conduction basin, wherein the permanent magnet is disposed in the magnetic conduction basin and a magnetic groove is formed between the permanent magnets, wherein the coil assembly is movably disposed in the magnetic groove to form the massage assembly and the coaxial movable structural relationship between the magnetic assemblies.

In an embodiment of the present invention, the massage vibrator further includes an elastic member, wherein the elastic member is disposed at a bottom end of the magnetic assembly to maintain the massage vibrator in an elastically vibrating state.

In an embodiment of the present invention, the massage vibrator further includes a control device, wherein the control device is configured to receive a control signal and output a corresponding control current to the coil assembly according to the control signal.

In an embodiment of the present invention, the control device includes a signal receiving module and a signal output module, wherein the signal receiving module is configured to be suitable for receiving the control signal and communicably connected to the signal output module, and the signal output module is configured to output a corresponding control current to the coil assembly according to the corresponding control signal.

In an embodiment of the present invention, the control device further includes a signal amplifying module, the signal amplifying module is respectively communicably connected to the signal receiving module and the signal output module, when the control signal received by the signal receiving module is an audio signal, the signal amplifying module amplifies the audio signal to generate an amplified audio signal, and the signal output module outputs the amplified audio signal and the corresponding control current to the coil assembly.

In an embodiment of the present invention, the control device is provided with a power input port for the control device to access the power supply.

The utility model discloses on the other hand provides a massage waistband, include:

at least one massage vibrator; and

a sleeve body, wherein the massage vibrator is arranged on the sleeve body.

In an embodiment of the present invention, the cover body includes a supporting pad and a bag body, wherein the massage vibrator is supported on the supporting pad, wherein the bag body wraps the supporting pad and the massage vibrator, thereby forming the massage waistband.

In an embodiment of the present invention, the supporting pad is provided with at least one mounting groove, wherein the mounting groove is adapted to support the massage vibrator in a suspension manner on the supporting pad, so that the massage vibrator can freely vibrate in the mounting groove.

In an embodiment of the present invention, the bag body is made of a soft material and the length of the bag body is adjustable.

The utility model also provides a control method of the massage vibrator on the other hand, which comprises the following steps:

(S1) a signal receiving module receiving a control signal; and

(S2) a signal output module outputs a corresponding current to a coil according to the corresponding control signal.

In an embodiment of the present invention, when the control signal in the step (S1) is an audio signal, the step (S2) further includes the steps of:

(S21) generating an amplified audio signal after the audio signal is amplified by a signal amplification module; and (S22) the signal output module outputting the amplified audio signal and the corresponding control current to the coil.

Further objects and advantages of the invention will be fully apparent from the ensuing description and drawings.

Drawings

Fig. 1 is a perspective view of the massage vibrator according to a preferred embodiment of the present invention.

Fig. 2 is an exploded view of the massage vibrator according to the above preferred embodiment of the present invention.

Fig. 3 is a schematic view of the principle of the vibration generated by the massage vibrator according to the above preferred embodiment of the present invention.

Fig. 4 is a schematic view of the principle of the vibration generated by the massage vibrator according to the above preferred embodiment of the present invention.

Fig. 5 is a block diagram schematically illustrating a control device of the massage vibrator according to the above preferred embodiment of the present invention.

Fig. 6 is a flowchart of the operation of the control device of the massage vibrator according to the above preferred embodiment of the present invention.

Fig. 7 is a flowchart of the operation of the control device of the massage vibrator according to the above preferred embodiment of the present invention.

Fig. 8 is a partial exploded view of the massage vibrator according to another preferred embodiment of the present invention.

Fig. 9 is a schematic structural view of the massage waistband according to a preferred embodiment of the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that in the present disclosure, the terms "vertical," "horizontal," "up," "down," "front," "back," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for ease of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered limiting.

It is understood that the terms "a" and "an" should be interpreted as meaning that a number of one element or element is one in one embodiment, while a number of other elements is one in another embodiment, and the terms "a" and "an" should not be interpreted as limiting the number.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1 to 4, a massage vibrator 200 according to a preferred embodiment of the present invention, wherein the massage vibrator 200 includes a magnet assembly 210 and a massage assembly 230, wherein the massage assembly 230 and the magnet assembly 210 are coaxially and movably disposed, the massage assembly 230 includes a coil assembly 231, when the coil assembly 231 has a current flowing therethrough, the massage assembly 230 generates an electromagnetic field, and the electromagnetic field interacts with the magnetic field of the magnet assembly 210, so that the massage assembly 230 and the magnet assembly 210 move relatively. It can be understood that, when the current input to the coil assembly 231 is changed, the electromagnetic field is correspondingly changed, and the changed electromagnetic field interacts with the magnetic field of the magnetic assembly 210, so that the relative movement between the massage assembly 230 and the magnetic assembly 210 is changed, thereby achieving the massage effect.

Further, the magnetic assembly 210 of the massage vibrator 200 includes a permanent magnet 211 and a magnetic basin 212, wherein the permanent magnet 211 is disposed on the magnetic basin 212 and a magnetic slot 213 is formed between the magnetic basin 212 and the permanent magnet 211, wherein the coil assembly 231 is movably disposed in the magnetic slot 213 to form a coaxial movable structural relationship between the massage assembly 230 and the magnetic assembly 210, when a current passes through the coil assembly 231 and the current changes, the coil assembly 231 generates the changing electromagnetic field, and the changing electromagnetic field interacts with the magnetic field of the permanent magnet 211, so that the coil assembly 231 moves relative to the magnetic assembly 210 in the magnetic slot 213 and changes the relative movement between the massage assembly 230 and the magnetic assembly 210.

It is to be understood that in this preferred embodiment of the present invention, wherein the permanent magnet 211 and the magnetic conducting basin 212 are disposed in a ring structure, in some embodiments of the present invention, wherein the permanent magnet 211 and the magnetic conducting basin 212 may be disposed in a polygonal structure, that is, the shape of the permanent magnet 211 and the magnetic conducting basin 212 cannot be understood as limiting the present invention.

In particular, the massage vibrator 200 further comprises an elastic supporting member 220, wherein the elastic supporting member 220 comprises a first elastic supporting member 221, and the first elastic supporting member 221 is connected between the massage member 230 and the magnetic member 210 to maintain the relative movement between the massage member 230 and the magnetic member 210 within a certain range of travel.

It should be noted that, the relative position between the coil element 231 and the magnetic slot 213 is maintained by the first elastic supporting element 221, in other words, when the coil element 231 moves relative to the magnetic slot 213 and the magnetic element 210, the first elastic supporting element 221 maintains the stability of the position of the coil element 231 in the magnetic slot 213, so as to ensure the stability of the massage vibrator 200 during vibration.

Further, the first elastic supporting member 221 has an inner edge 2211 and the outer edge 2212 extending from the inner edge 2211, wherein the inner edge 2211 is connected to the massage assembly 230, wherein the outer edge 2212 is connected to the magnetic assembly 210, so as to form a state that the first elastic supporting member 221 is connected between the massage assembly 230 and the magnetic assembly 210, so that the relative movement between the massage assembly 230 and the magnetic assembly 210 can be maintained within a certain range of travel by the first elastic supporting member 221.

Further, the first elastic supporting member 221 has a plurality of extending ridges 2213 extending between the inner edge 2211 and the outer edge 2212, wherein the extending ridges 2213 are curved to increase the length of the extending ridges 2213 while maintaining a certain volume of the first elastic supporting member 221, thereby increasing the stroke range of the relative motion between the massage assembly 230 and the magnetic assembly 210.

In particular, in the preferred embodiment of the present invention, each of the extending ridges 2213 is shaped as an S-shape to extend the length of each of the extending ridges 2213, thereby increasing the stroke range of the relative movement between the massage assembly 230 and the magnet assembly 210. It should be understood that, in some embodiments of the present invention, the shape of the extending ridge 2213 can also be set to be L-shaped, I-shaped, V-shaped, wavy or spiral, etc., that is, the shape of the extending ridge 2213 should not be construed as limiting the present invention.

It is worth mentioning that, while the first elastic supporting member 221 can maintain the relative movement between the massage assembly 230 and the magnetic assembly 210 within a certain range of travel, the stability of the relative position between the massage assembly 230 and the magnetic assembly 210 can be maintained, and more specifically, in the preferred embodiment of the present invention, the inner edge 2211 of the first elastic supporting member 221 is adhered to the massage assembly 230 to form a state that the inner edge 2211 is connected to the massage assembly 230, wherein the outer edge 2212 of the first elastic supporting member 221 is adhered to the magnetic conduction basin 212 of the magnetic assembly 210 to form a state that the outer edge 2212 is connected to the magnetic assembly 210, so that when the coil assembly 231 passes through and the current changes, the mutual movement position between the massage assembly 230 and the magnetic assembly 210 is respectively controlled by the inner edge 2212 of the first elastic supporting member 221 The rim 2211 and the outer rim 2212 remain relatively stable. It is understood that, in some embodiments of the present invention, the inner edge 2211 and the outer edge 2212 of the first elastic supporting member 221 may also be fixed to the massage assembly 230 and the magnetic assembly 210 by welding, respectively, which is not limited by the present invention.

It should be understood that when the coil assembly 231 is supplied with current and the current varies, the first elastic support 221 allows the relative movement between the massage assembly 230 and the magnet assembly 210 only within a certain stroke range, but the relative movement between the massage assembly 230 and the magnet assembly 210 within the certain stroke range may have various strokes, in other words, the relative movement between the massage assembly 230 and the magnet assembly 210 within the certain stroke range may have various magnitudes and frequencies. The frequency of the relative movement of the massage assembly 230 and the magnet assembly 210 within a certain stroke range is related to the change of the current input to the coil assembly 231, such as the change of the direction of the current or the change of the intermittent current, so that the frequency of the relative movement between the massage assembly 230 and the magnet assembly 210 can be adjusted by changing the direction of the current or inputting the intermittent current. Correspondingly, the massage strength output by the massage vibrator 200 is related to the magnitude of the current input to the coil assembly 231, and when the magnitude of the current input to the coil assembly 231 is changed, the massage strength output by the massage vibrator 200 is also changed, so that the massage strength of the massage vibrator 200 can be changed by changing the magnitude of the current input to the coil assembly 231.

It should be noted that, when the magnitude and direction of the current are changed simultaneously, the massage strength and frequency of the massage vibrator 200 can be changed simultaneously, that is, by changing the magnitude and/or direction of the current inputted to the coil assembly 231, the massage vibrator 200 can generate different massage strengths and/or frequencies correspondingly, so as to meet the requirements of different massage strengths and frequencies of the user.

From another perspective, the massage vibrator 200 can be driven in various ways, such as by changing the magnitude and/or direction of the current input to the coil assembly 231, or by inputting an intermittent current to the coil assembly 231, so that the massage assembly 230 and the magnet assembly 210 can move relative to each other, or by inputting an intermittent current to the coil assembly 231, so that the massage vibrator 200 can be driven in various ways.

It should be noted that the elastic supporting member 220 further includes a second elastic supporting member 222, wherein one end of the second elastic supporting member 222 is fixed to the massage member 230, when the other end of the second elastic supporting member 222 is fixed, a state is formed in which the massage member 230 and the magnetic member 210 are elastically maintained, and further, the relative movement between the massage member 230 and the magnetic member 210 is buffered by the second elastic supporting member 222.

It is also worth mentioning that in the preferred embodiment of the present invention, the elastic supporting member 220 further comprises a supporting frame 223, wherein the second elastic supporting member 222 is fixed between the massage member 230 and the supporting frame 223, so that the massage member 230 and the magnetic member 210 are elastically maintained on the supporting frame 223, and thus the relative movement between the massage member 230 and the magnetic member 210 is buffered by the second elastic supporting member 222 when the massage member 230 and the magnetic member 210 generate the relative movement.

Specifically, the second elastic supporting member 222 has a first edge 2221 and a second edge 2222 extending from the first edge 2221, wherein the first edge 2221 of the second elastic supporting member 222 is fixed to the massage member 232 of the massage assembly 230, and the second edge 2222 of the second elastic supporting member 222 is fixed to the supporting frame 223, so as to form a state that the second elastic supporting member 222 is fixed between the massage assembly 230 and the supporting frame 223.

In the preferred embodiment of the present invention, wherein the first edge 2221 of the second elastic supporting member 222 is adhered to the massage member 232 above the first elastic supporting member 221, the elastic supporting member 220 further comprises a plurality of fixing members 224, wherein the second edge 2222 of the second elastic supporting member 222 is fixed to the supporting frame 223 via the plurality of fixing members 224.

Correspondingly, in the preferred embodiment of the present invention, the second edge 2222 of the elastic supporting member 222 and the supporting frame 223 are each provided with a plurality of corresponding mounting holes 225, so that the fixing members 224 can be respectively passed through the mounting holes 225 to form a state that the second edge 2222 of the second elastic supporting member 222 is fixed to the supporting frame 223.

It is understood that, in some embodiments of the present invention, the second edge 2222 of the second elastic supporting member 222 may also be adhered to the supporting frame 223 so as to form a state that the second edge 2222 of the second elastic supporting member 222 is fixed to the supporting frame 223, that is, the second edge 2222 of the second elastic supporting member 222 may be fixed to the supporting frame 223 in various ways, which is not limited by the present invention.

It is worth mentioning that the supporting frame 223 is provided with a vibration cavity 2231, so that when the supporting frame 223 is fixed, the massage assembly 230 and the magnetic assembly 210 are suspended in the vibration cavity 2231 by the second elastic supporting member 222, so that the relative movement between the massage assembly 230 and the magnetic assembly 210 is buffered by the second elastic supporting member 222. In other words, when the coil assembly 231 is inputted with current and the current changes, the massage assembly 230 and the magnet assembly 210 can move relative to the vibration cavity 2231.

Furthermore, it is worth mentioning that in this preferred embodiment of the present invention, the supporting frame 223 is set to be a ring structure, in some embodiments of the present invention, the shape of the supporting frame 223 may also be set to be a polygonal shape such as a quadrangle, a pentagon or a hexagon, which is not limited by the present invention.

Specifically, in this embodiment of the present invention, the diameter of the supporting frame 223 is larger than the diameter of the first elastic supporting member 221 and the second elastic supporting member 222, and the diameter of the second elastic supporting member 222 is larger than the diameter of the first elastic supporting member 221, so that the vibration cavity 2231 penetrates through the magnetic assembly 210 and the coil assembly 231, and therefore the magnetic assembly 210 and the coil assembly 231 can freely move in the vibration cavity 2231, in other words, the vibration cavity 2231 provides a space for relative movement between the magnetic assembly 210 and the coil assembly 231. Moreover, since the diameter of the support frame 223 is larger than the diameter of the magnetic assembly 210 and the diameter of the massage assembly 230, respectively, the support frame 223 is disposed between the magnetic assembly 210 and the massage assembly 230, so that the center of gravity of the massage vibrator 200 can be maintained to be stable while the magnetic assembly 210 and the massage assembly 230 are supported, that is, the relative position between the massage assembly 230 and the magnetic assembly 210 can be maintained to be stable.

Preferably, the support 223 is made of plastic.

In particular, the second elastic support 222 includes a plurality of extension pieces 2223 extending between the first edge 2221 and the second edge 2222 at intervals, so as to form a state that the first edge 2221 integrally extends from the second edge 2222.

It is worth mentioning that, in the preferred embodiment of the present invention, the first edge 2221 and the second edge 2222 are both configured as a ring structure, so that the first edge 2221 is adhered to the massage member 232 and the second edge 2222 is fixed to the supporting frame 223.

Further, wherein each of the extension pieces 2223 is curvedly arranged, in this preferred embodiment of the present invention, each of the extension pieces 2223 is shaped to be S-shaped. It should be understood that in some embodiments of the present invention, the shape of the extension 2223 can be set to be L-shaped, I-shaped, V-shaped, wave-shaped or spiral-shaped, etc., that is, the shape of the extension 2223 should not be construed as limiting the present invention. It should be understood that, in some embodiments of the present invention, the second elastic supporting member 222 may also be configured as a net, which is not limited by the present invention.

It should be noted that the massage assembly 230 includes a massage member 232 for acting on the human body to massage the human body, wherein the coil assembly 231 is fixed at one end of the massage member 232, when an electric current flows through the coil assembly 231, the coil assembly 231 generates the electromagnetic field to interact with the magnetic field of the magnetic assembly 210, so as to form a state that the coil assembly 231 and the magnetic assembly 210 move relatively, and further form a state that the massage member 232 and the magnetic assembly 210 move relatively.

Specifically, in the preferred embodiment of the present invention, the coil assembly 231 is adhered to one end of the massage member 232 close to the magnet assembly 210 to form a state in which the coil assembly 231 is fixed to the massage member 232, so that when the coil assembly 231 moves relative to the magnet assembly 210, the massage member 232 and the magnet assembly 210 also move relatively.

Further, it is worth mentioning that the coil assembly 231 comprises a coil bobbin 2311 and a coil 2312, wherein the coil bobbin 2311 is fixed to the massage member 232, and the coil 2312 is circumferentially disposed on the coil bobbin 2311 to form the coil assembly 231, and when the coil 2312 passes through a current, the electromagnetic field is generated. It is understood that the lighter the weight of the bobbin 2311, the lighter the total weight of the whole vibration system of the massage vibrator 200, and the higher the vibration efficiency of the massage vibrator 200, relatively, and therefore, in this preferred embodiment of the present invention, wherein the bobbin 2311 is made of aluminum, while in some embodiments of the present invention, wherein the bobbin 2311 may also be made of kraft paper, rock cotton paper, glass fiber, polyimide, etc.

In particular, the massage member 232 has an expansion 2321, wherein the expansion 2321 is radially extended from the massage member 232 to form the annular expansion 2321, wherein the first edge 2221 of the second elastic supporting member 222 is fixed to the massage member 232 at the upper end of the expansion 2321, and wherein the coil element 231 is fixedly connected to the massage member 232 at the lower end of the expansion 2321.

It is worth mentioning that, the massage member 232 further extends to form a massage head 2322, wherein the massage head 2322 extends radially and obliquely from an end of the massage member 232 opposite to the end where the coil assembly 210 is disposed to form the umbrella-shaped massage head 2322, so as to increase a contact area of the massage vibrator 200 with the user when being used for massage, thereby achieving a good massage effect.

It is also worth mentioning that the massage member 232 further includes a buffer member 2323, wherein the buffer member 2323 is disposed on the massage head 2322 and is made of an elastic material, so as to provide a good buffering function when the massage vibrator 200 is used for massage.

As shown in fig. 5, the massage vibrator 200 further comprises a control device 240, wherein the control device 240 is configured to receive a control signal and output a corresponding control current to the coil assembly 231 according to the control signal.

Further, the control device 240 includes a signal receiving module 241 and a signal output module 242, wherein the signal receiving module 241 is configured to receive the control signal and is communicatively connected to the signal output module 242, and the signal output module 242 is configured to output a corresponding current to the coil assembly 231 according to the corresponding control signal to control the operation of the massage vibrator 200.

Specifically, when the signal receiving module 241 receives different control signals, the signal output module 242 can correspondingly output different control currents to the coils 2312 of the coil assembly 231 to control the magnitude and frequency of the relative movement between the massage assembly 230 and the magnet assembly 210.

It should be understood that the control signal may be, but is not limited to, an audio signal or a video signal.

Preferably, in this preferred embodiment of the present invention, wherein said control signal is implemented as an audio signal, wherein the control device 240 further comprises a signal amplifying module 243, when the signal receiving module 241 of the control device 240 receives an audio signal of an audio source device, the signal amplifying module 243 amplifies the audio signal, thereby generating an amplified audio signal, the signal output module 242 outputs the amplified audio signal to the coil assembly 231, and inputs a corresponding control current to the coil 2312 of the coil assembly 231 to control the relative movement between the massage assembly 230 and the magnet assembly 210, and emits a sound when the massage assembly 230 and the magnet assembly 210 move relatively, that is, the massage vibrator 200 can emit a sound while being used for massage. The sound source equipment can be electronic equipment such as a mobile phone, a computer, an MP player or a television.

It should be mentioned that, wherein the connection mode of the control device 240 of the massage vibrator 200 and the sound source device can be wired connection or wireless connection, wherein the wireless connection mode can be WiFi connection, bluetooth connection, etc., preferably, in this preferred embodiment of the present invention, the control device 240 and the sound source device are connected through bluetooth connection, specifically, when the user opens the sound source device and is connected through bluetooth connection with the control device 240 of the massage vibrator 200, the sound source device can send corresponding audio signal to the massage vibrator 200 to control the work of the massage vibrator 200.

In addition, it is worth mentioning that the massage vibrator 200 further includes a power input port 250, wherein the power input port 250 is disposed on the control device 240, so that the control device 240 is powered on to provide the massage vibrator 200 with an electric power output.

Massage oscillator 200, because its is small, simple structure is suitable for and is installed in various massage equipment, as shown in fig. 9, massage oscillator 200 can be installed in a massage waistband, in addition, massage oscillator 200 can also be installed in massage equipment such as massage armchair, massage bed or massage pillow, the utility model discloses a massage waistband only makes the illustration, can not understand as right the utility model discloses a restriction.

As shown in fig. 6 and 7, the present invention further provides a control method of the massage vibrator 200, which includes the following steps:

(S1) the signal receiving module 241 receiving the control signal; and

(S2) the signal output module 242 outputs a corresponding current to the coil 2312 according to the corresponding control signal.

It should be noted that the control signal may be an audio signal or a video signal. When the control signal in the step (S1) is implemented as an audio signal, the signal receiving module 241 receives the audio signal, wherein the step (S2) further comprises the steps of:

(S21) the audio signal is amplified by the signal amplifying module 243 to generate an amplified audio signal; and

(S22) the signal output module 242 outputs the amplified audio signal and the corresponding control current to the coil 2312.

It should be understood that the above steps may be in any order, and the present invention is not limited thereto.

As shown in fig. 8, a massage vibrator 200A according to another preferred embodiment of the present invention, wherein the massage vibrator 200A includes a magnet assembly 210A and a massage assembly 230A, wherein the massage assembly 230A and the magnet assembly 210A are coaxially and movably disposed, wherein the massage assembly 230A includes a coil assembly 231A, when the coil assembly 231A has a current flowing therethrough, the massage assembly 230A generates an electromagnetic field, and the electromagnetic field interacts with the magnetic field of the magnet assembly 210A, so that the massage assembly 230A and the magnet assembly 210A perform a relative motion. It can be understood that when the current input to the coil assembly 231A changes, the electromagnetic field changes accordingly, and the changed electromagnetic field interacts with the magnetic field of the magnet assembly 210A to cause the relative movement between the massage assembly 230A and the magnet assembly 210A to change, thereby achieving a massage effect.

It should be noted that the massage vibrator 200A further includes an elastic supporting component 220A, wherein the elastic supporting component 220A includes a first elastic supporting component 221A, and the first elastic supporting component 221A is connected between the massage component 230A and the magnetic component 210A to maintain the relative motion between the massage component 230A and the magnetic component 210A within a certain stroke range.

It is worth mentioning that the elastic supporting component 220A further includes a second elastic supporting component 222A, wherein one end of the second elastic supporting component 222A is fixed to the massage component 230A, and when the other end of the second elastic supporting component 222A is fixed, the relative movement between the massage component 230A and the magnetic component 210A is buffered by the second elastic supporting component 222A.

Further, the elastic supporting component 220A further comprises a supporting frame 223A, wherein the second elastic supporting component 222A is fixed between the massage component 230A and the supporting frame 223A, so that the massage component 230A and the magnetic component 210A are elastically maintained on the supporting frame 223A, and thus when the massage component 230A and the magnetic component 210A generate relative movement, the relative movement between the massage component 230A and the magnetic component 210A is buffered by the second elastic supporting component 222A.

It should be noted that the massage vibrator 200A further includes an elastic member 260A, wherein the elastic member 260A is disposed at the bottom end of the magnetic assembly 210A, so that when the coil assembly 231A passes current and changes the current to make the massage assembly 230A and the magnetic assembly 210A move relatively, the elastic member 260A can play a role of buffering, so that the massage vibrator 200A has a buffering action force on the human body during the massage process. In other words, the elastic member 260A can maintain the massage vibrator 200A in an elastic vibration state during the reciprocating motion of the massage assembly 230A, so as to maintain the flexibility of the vibration of the massage vibrator 200A.

It is understood that the elastic member 260A may be, but is not limited to, a spring or a leaf spring, and preferably, in the preferred embodiment of the present invention, the elastic member 260A is implemented as a torsion spring.

It should be understood that, in the preferred embodiment of the present invention, wherein the massage vibrator 200A is a modified example of the massage vibrator 200 of the first preferred embodiment of the present invention, other structures of the massage vibrator 200A are the same as those of the massage vibrator 200 except that the structure of the elastic member 260A is different.

As shown in fig. 9, another aspect of the present invention provides a massage belt 400, the massage belt 400 includes at least one massage vibrator 200 and a sleeve 300, wherein the massage vibrator 200 is disposed on the sleeve 300, and when the control device 240 of the massage vibrator 200 receives the control signal, the massage vibrator 200 is driven to vibrate to drive the sleeve 300 to vibrate integrally.

It should be understood that the number of the massage vibrators 200 in the massage waistband 400 may be set to one or more, which is not limited by the present invention.

Further, the cover body 300 includes a supporting pad 310 and a bag body 320, wherein the massage vibrator 200 is supported on the supporting pad 310, wherein the bag body 320 wraps the supporting pad 310 and the massage vibrator 200, so as to form the massage waistband, and when the massage vibrator 200 is driven to vibrate, the massage vibrator 200 drives the supporting pad 310 to vibrate, so as to vibrate the massage waistband 400 as a whole.

It should be noted that the massage vibrator 200 is disposed on the supporting pad 310 via the supporting frame 223, so that the massage vibrator 200 vibrates and simultaneously drives the whole massage belt 400 to vibrate, thereby increasing the massage area of the massage belt when being used.

Correspondingly, the supporting pad 310 is provided with at least one mounting slot 311, wherein the mounting slot 311 is adapted to support the massage vibrator 200 on the supporting pad 310 in a suspended manner, so that the massage vibrator 200 can freely vibrate in the mounting slot 311.

It should be understood that the mounting groove 311 may be formed through the supporting pad 310, or may be disposed in a half-depth manner in the supporting pad 310, which is not limited by the present invention.

It is worth mentioning that the supporting pad 310 may be, but is not limited to be, made of polyethylene plate or sponge, so as to reduce the weight of the massage belt and facilitate a better massage experience for the user when using the massage belt.

It is also worth mentioning that the length of the bag body 320 is adjustable, and the bag body 320 can be provided with a hook-and-loop fastener, a button, an elastic band, a magnetic attraction structure or an elastic device such as an elastic fastener, so that the length of the bag body 320 can be adjusted, and the massage waistband 400 can meet the requirements of users with different waist sizes.

It is more worth mentioning that the bag 320 is made of a soft material, such as leather, so as to make the user more comfortable when wearing the massage belt.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (31)

1. A massage vibrator, comprising:

a magnetic assembly, wherein the magnetic assembly is configured to provide a magnetic field; and

a massage assembly, wherein the massage assembly and the magnetic assembly are coaxially and movably disposed, the massage assembly comprises a massage member and a coil assembly disposed on the massage member, when a current flows through the coil assembly and the current changes, the coil assembly generates a changing electromagnetic field, and the changing electromagnetic field interacts with the magnetic field of the magnetic assembly, so that the massage member and the magnetic assembly move relatively.

2. The massage transducer of claim 1, wherein the massage transducer further comprises a first resilient support coupled between the massage assembly and the magnet assembly to maintain relative movement between the massage assembly and the magnet assembly over a range of travel.

3. The massage transducer of claim 2, wherein the first resilient support has an inner edge and an outer edge extending from the inner edge, wherein the inner edge is coupled to the massage element, wherein the outer edge is coupled to the magnet element, thereby creating a condition in which the first resilient support is coupled between the massage element and the magnet element.

4. The massage transducer of claim 3, wherein the inner and outer edges of the first resilient support are bonded to the massage component and the magnetic component, respectively.

5. The massage transducer of claim 3, wherein the first resilient support extends with a plurality of extending ridges extending between the inner edge and the outer edge, each of the extending ridges being configured to be curved to increase a length of the extending ridge while maintaining a volume of the first resilient support, thereby increasing a stroke range of the relative motion between the massage assembly and the magnet assembly.

6. The massage transducer of claim 5, wherein each of the extending ridges is shaped as an S-shape.

7. The massage vibrator according to claim 5, wherein the massage vibrator further comprises a second elastic support member, wherein one end of the second elastic support member is fixed to the massage assembly, and when the other end of the second elastic support member is fixed, a state in which the massage assembly and the magnet assembly are elastically maintained is formed, and thus a relative movement between the massage assembly and the magnet assembly is buffered by the second elastic support member.

8. The massage vibrator of claim 7, wherein the massage vibrator further comprises a support frame, wherein the second elastic support is fixed between the massage assembly and the support frame such that the massage assembly and the magnet assembly are elastically maintained at the support frame, such that when the massage assembly and the magnet assembly generate relative motion, the relative motion between the massage assembly and the magnet assembly is cushioned by the second elastic support.

9. The massage transducer of claim 8, wherein the support frame is configured with a vibration cavity such that the massage assembly and the magnetic assembly are suspended by the second resilient support from the vibration cavity when the support frame is secured, such that relative movement between the massage assembly and the magnetic assembly is dampened by the second resilient support.

10. The massage transducer of claim 9, wherein the second resilient support has a first edge and a second edge extending from the first edge, wherein the first edge of the second resilient support is secured to the massage assembly and the second edge of the second resilient support is secured to the support frame, thereby providing a condition in which the second resilient support is secured between the massage assembly and the support frame.

11. The massage transducer of claim 10, wherein the first edge of the second resilient support is bonded to the massage assembly over the first resilient support, wherein the second edge of the second resilient support is secured to the support frame via a plurality of fasteners.

12. The massage transducer of claim 10, wherein the second resilient support comprises a plurality of extensions extending between the first edge and the second edge, wherein each of the extensions is configured to be bent.

13. The massage transducer of claim 12, wherein each of the extensions is shaped as an S-shape.

14. The massage transducer of claim 12, wherein the coil assembly comprises a bobbin and a coil, wherein the bobbin is secured to the massage member, and wherein the coil is circumferentially disposed on the bobbin.

15. The massage transducer of claim 14, wherein the massage member has an extension, wherein the extension is formed to extend radially from the massage member, thereby forming the extension in a ring shape, wherein the first edge of the second resilient support is secured to the massage member at an upper end of the extension, and wherein the bobbin of the coil assembly is fixedly attached to the massage member at a lower end of the extension.

16. The massage transducer of claim 15, wherein the massage member further extends with a massage head, wherein the massage head extends radially and obliquely from an end of the massage member opposite to an end where the coil assembly is disposed to form the umbrella-shaped massage head.

17. The massage transducer of claim 16, wherein the massage element further comprises a buffer, wherein the buffer is disposed on the massage head and is made of an elastic material.

18. The massage transducer of any of claims 1-17, wherein the magnet assembly comprises a permanent magnet and a magnetically conductive basin, wherein the permanent magnet is disposed in the magnetically conductive basin and forms a magnetic slot therebetween, and wherein the coil assembly is movably disposed in the magnetic slot to form a coaxially movable structural relationship between the massage assembly and the magnet assembly.

19. The massage transducer according to claim 18, further comprising an elastic member, wherein the elastic member is disposed at a bottom end of the magnetic member to maintain the massage transducer in an elastically vibrating state.

20. The massage transducer according to any one of claims 1-17, further comprising a control device, wherein the control device is configured and adapted to receive a control signal and to output a corresponding control current to the coil assembly in response to the control signal.

21. The massage transducer of claim 19, further comprising a control device, wherein the control device is configured and adapted to receive a control signal and to output a corresponding control current to the coil assembly based on the control signal.

22. The massage transducer of claim 20, wherein the control device comprises a signal receiving module and a signal output module, wherein the signal receiving module is configured to receive the control signal and is communicatively coupled to the signal output module, and the signal output module is configured to output a corresponding control current to the coil assembly according to the corresponding control signal.

23. The massage transducer of claim 21, wherein the control device comprises a signal receiving module and a signal output module, wherein the signal receiving module is configured to receive the control signal and is communicatively coupled to the signal output module, and the signal output module is configured to output a corresponding control current to the coil assembly according to the corresponding control signal.

24. The massage vibrator of claim 22, wherein the control device further comprises a signal amplification module communicably connected to the signal receiving module and the signal output module, respectively, wherein when the control signal received by the signal receiving module is an audio signal, the signal amplification module amplifies the audio signal to generate an amplified audio signal, and the signal output module outputs the amplified audio signal and the corresponding control current to the coil assembly.

25. The massage vibrator of claim 23, wherein the control device further comprises a signal amplification module communicably connected to the signal receiving module and the signal output module, respectively, wherein when the control signal received by the signal receiving module is an audio signal, the signal amplification module amplifies the audio signal to generate an amplified audio signal, and the signal output module outputs the amplified audio signal and the corresponding control current to the coil assembly.

26. The massage transducer of claim 24, wherein the control device is configured with a power input port for the control device to access a power source.

27. The massage transducer of claim 25, wherein the control device is configured with a power input port for the control device to access a power source.

28. A massage waistband, which is characterized by comprising:

at least one massage transducer of any one of claims 1 to 27; and

a sleeve body, wherein the massage vibrator is arranged on the sleeve body.

29. The massage waistband of claim 28, wherein the cover comprises a support pad and a bag, wherein the massage vibrator is supported on the support pad, wherein the bag encloses the support pad and the massage vibrator to form the massage waistband.

30. The massage waistband of claim 29, wherein the support pad is provided with at least one mounting slot, wherein the mounting slot is adapted to support the massage vibrator to the support pad in a suspended manner, so that the massage vibrator can freely vibrate in the mounting slot.

31. The massage waistband of claim 30, wherein the pocket is configured to be made of a soft material and is configured to be adjustable in length.

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