CN211188785U - Miniature music vibration current physiotherapy device - Google Patents

Abstract

The utility model provides a micro music vibration current physical therapy device, which comprises an outer shell, wherein the inner part of the outer shell is divided into a first space for accommodating mechanical parts and a second space for accommodating electric control parts; the mechanical part includes at least: a group of springs arranged on one inner side wall of the space, wherein permanent magnets are clamped in the middles of the group of springs; coils fixed on the inner wall of the outer shell are symmetrically arranged on two sides of the permanent magnet; an electric needle is detachably arranged at the bottom of the permanent magnet; the electric control part at least comprises: the music source frequency generation module is used for identifying the frequency of a music source and sending out a frequency signal; and the driving module drives the coil based on the frequency signal of the music source frequency generation module to generate an alternating magnetic field. An alternating magnetic field is generated according to the frequency of the music source, the permanent magnet is driven to move up and down, and the spring connected with the permanent magnet is driven to vibrate. The vibration and the electric acupuncture are combined, and the two therapies are integrated, so that the treatment effect is improved.

Description

Miniature music vibration current physiotherapy device

Technical Field

The utility model relates to a physiotherapy device technical field, especially a miniature music vibrating current physiotherapy device.

Background

With the continuous aggravation of high-efficiency and fast-paced work and life styles of modern society, the psychological load and the physical burden of people are continuously aggravated, the sub-health state of the public body is continuously aggravated, more and more people start to suffer from diseases such as depression and insomnia, and the serious people influence the normal work and life. Most of the existing physiotherapy devices have single function, for example, the utility model patent with application number CN201620639001.5 can only realize the function of music electric acupuncture, and the invention patent with application number CN201710870096.0 can only realize the function of acupuncture physiotherapy.

SUMMERY OF THE UTILITY MODEL

A primary object of the present invention is to provide a miniature music vibrating current physiotherapy device, which generates an alternating magnetic field according to the frequency of a music source to drive the permanent magnet to move up and down, and the up and down movement drives the spring connected with the spring to vibrate. Based on this, this device combines together vibration and acusector, changes the music acusector in the traditional meaning and just carries out the physiotherapy through the acusector stimulation, and the impression of very big improvement treatment increases the effect of treatment.

The miniature music vibration current physiotherapy device comprises an outer shell, wherein the inner part of the outer shell is divided into a first space for accommodating mechanical parts and a second space for accommodating electric control parts;

the mechanical part includes at least: a group of springs arranged on one inner side wall of the space, wherein permanent magnets are clamped in the middles of the group of springs;

a coil fixed on the inner wall of the outer shell is also arranged outside the permanent magnet boss;

an electric needle is detachably arranged at the bottom of the permanent magnet;

the electric control part at least comprises: the music source frequency generation module is used for identifying the frequency of a music source and sending out a frequency signal with the frequency of 15Hz-200 Hz;

and the driving module is respectively electrically connected with the coil and the music source frequency generation module and drives the coil based on the frequency signal of the music source frequency generation module so as to generate an alternating magnetic field.

From above, music source frequency generation module

The first space also comprises a partition plate which is arranged at the top in the outer shell and extends downwards;

the spring and the coil are arranged in a space between the partition plate and the inner wall of the outer shell.

By last, the baffle divides the space into one big one little two spaces, and spring and coil are held to the little space, and permanent magnet is held to big space to accomplish whole overall arrangement.

The electronic control unit further comprises a main control module and a Bluetooth module connected with the main control module.

Therefore, communication with the external intelligent device can be achieved through the Bluetooth module.

And the packaging structure of the electric control component fills the second space, and a physiological signal detection sensor is arranged at the bottom of the packaging structure of the electric control component.

In addition, the electric control component also comprises a physiological signal processing module which is respectively connected with the main control module and the physiological signal detection sensor.

In addition, still include with the bearing device of the device shell body matching, the bearing device includes at least one of the following: suction cups, wrist bands and watch chains.

Drawings

FIG. 1 is a schematic view of the internal structure of a micro-music vibration current physiotherapy device;

FIGS. 2(A) to 2(D) show four embodiments of the electrical needle;

FIG. 3 is a schematic circuit diagram of a micro music vibration current physiotherapy device;

fig. 4(a) to 4(B) are schematic views of the fixing device, respectively.

Detailed Description

The micro music vibration current physiotherapy device of the present invention will be described in detail with reference to fig. 1 to 4.

The application provides a miniature music vibration electric current physiotherapy device combines together vibration and acusector signal, changes the music acusector in the traditional meaning and only stimulates through the acusector and carries out the physiotherapy, and this device still stimulates the human body through the acusector when using the vibration to carry out the physiotherapy, the effect of very big improvement treatment.

Fig. 1 is a schematic cross-sectional view of the internal structure of a micro music vibration current physiotherapy device, which includes an outer casing 101, the inner part of the outer casing 101 is divided into two spaces, the first space accommodates mechanical components, and the second space accommodates electrical control components.

In the first space, a circular partition 1011 is further included, and the partition 1011 is disposed at the top inside the outer casing 101 and extends downward. Which is shorter than the height of the outer casing 101. The circular partition 1011 divides the space into a large space and a small space. As shown in FIG. 1, the permanent magnet 104 is a "soil" structure, and the narrow upper projection thereof corresponds to the main body of the permanent magnet 104 and is disposed in the large space. The two sides of the lower wide part of the spring are respectively contacted with the spring 102 to realize the fixation, and the structure of the spring is described in detail later.

An electric needle 108 is nested or clamped at the bottom of the permanent magnet 104, and micro current waves for inducing bioelectricity of a human body are conducted on the electric needle 108 to carry out physiotherapy. The electric needle 108 is made of conductive silicone, and fig. 2(a) -2 (D) show four different embodiments of the electric needle 108, which are different in the shape of the electric needle.

A certain gap is reserved between the permanent magnet 104 and the inner top of the outer shell 101, so that a space is provided for the vertical displacement of the permanent magnet 104. The principle of the vertical displacement of the permanent magnet 104 will be described in detail later.

The two small spaces have the same structure, and the inside of the space can accommodate the circular spring 102 and the circular coil 103 which are in contact with each other. Wherein, the spring 102 is installed on the inner side wall of the outer shell 101, and the coil 103 is installed on the side wall of the partition 1011 facing the spring 102. Specific mounting manners include adhesive mounting, embedded mounting and the like, and are not limited herein. The diaphragm 1011, the spring 102, and the coil 103 in the present embodiment are all circular in configuration, but are not limited thereto, and for example, other annular configurations may be adopted, and the configuration is not limited thereto.

The electric control unit 106 accommodated in the second space is mainly used for power supply and signal control, and as shown in fig. 3, the electric control unit 106 includes, but is not limited to, a main control module, a bluetooth module, a physiological signal processing module, a music source frequency generation module, and a battery module for supplying power to all the electric modules, which are respectively connected to the main control module. In addition, the music player further comprises a driving module connected between the music source frequency generating module and the coil 103. All the above-mentioned electric units can be packaged in a circuit board, or in a sealed module, etc., in short, the packaged electric units fill the space two.

A physiological signal detection sensor 105 is installed at the bottom of the package structure of the electronic control component 106 and is used for detecting physiological signals of human body, such as channels and collaterals, blood pressure, blood oxygen, heart rate and the like.

The Bluetooth module is used for communicating with the outside, including communicating with a mobile phone or PAD and other conventional intelligent devices, so as to acquire a music source or a control instruction.

After the music source or the control instruction is identified by the main control module, the music source is sent to the music source frequency generation module, so that frequency identification is carried out, and a frequency signal with the frequency of 15Hz-200Hz is sent out for treatment requirements of specific frequency. The above-mentioned techniques belong to the prior art and are disclosed in the patents mentioned in the background.

The control command is recognized by the main control module, and then forwarded to the physiological signal detection sensor 105 for detection, and the detected signal is fed back to the physiological signal processing module, modulated and then sent to the main control module, and the signal is transmitted to the bluetooth module by the main control module and finally fed back to the intelligent device such as a mobile phone or a PAD.

The driving module is connected between the music source frequency generation module and the coil 103, and the coil 103 is driven to generate an alternating magnetic field based on the frequency signal of the music source frequency generation module. The alternating magnetic field generates a magnetic force, and acts on the permanent magnet 104 to move up and down. The movement of the permanent magnet 104 drives the spring 102 connected with the permanent magnet 104, the spring 102 damps the up-and-down movement of the permanent magnet 104, and the spring 102 vibrates under the influence of the up-and-down movement of the permanent magnet 104.

In addition, the device also comprises a fixing device 107, and the fixing device 107 is used for fixing the miniature music vibration current physiotherapy device on a bearing device needing physiotherapy. For example, as shown in fig. 4(a) or fig. 4(B), the carrying device may be a suction cup or a watch chain, which is combined with the suction cup to cover the acupuncture points of the human body, or is combined with the watch chain or the wrist band, and is worn on the wrist or the arm, etc.

The above is only the preferred embodiment of the present invention, not intended to limit the present invention, for example, the acquisition of the music source can be realized by using a memory storing different music, and the memory can interact with the outside to update the music. Correspondingly, the music source frequency generation module is also connected with the memory so as to carry out frequency identification. In conclusion, any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The miniature music vibration current physiotherapy device is characterized by comprising an outer shell (101), wherein the inner part of the outer shell (101) is divided into a first space for accommodating mechanical parts and a second space for accommodating electric control parts;

the mechanical part includes at least: a group of springs (102) arranged on one inner side wall of the space, wherein permanent magnets (104) are clamped in the middles of the group of springs (102);

a coil (103) fixed on the inner wall of the outer shell (101) is arranged outside the boss of the permanent magnet (104);

an electric needle (108) is detachably arranged at the bottom of the permanent magnet (104);

the electric control part at least comprises: the music source frequency generation module is used for identifying the frequency of a music source and sending out a frequency signal with the frequency of 15Hz-200 Hz;

and the driving module is respectively electrically connected with the coil (103) and the music source frequency generation module, and the coil (103) is driven based on a single frequency signal of the music source frequency generation module so as to generate an alternating magnetic field.

2. The device according to claim 1, characterized in that in the first space, a partition plate (1011) extending downwards is symmetrically arranged at the inner top of the outer shell (101);

the spring (102) and the coil (103) are disposed in a space between the diaphragm (1011) and an inner wall of the outer case (101).

3. The device of claim 1, wherein the electronic control unit further comprises a main control module and a bluetooth module connected to the main control module.

4. The device according to claim 1 or 3, wherein the space II is filled with a packaging structure of the electronic control component, and a physiological signal detection sensor (105) is arranged at the bottom of the packaging structure of the electronic control component.

5. The device according to claim 3, wherein the electronic control unit further comprises a physiological signal processing module electrically connected to the main control module and the physiological signal detection sensor (105), respectively.

6. The device of claim 1, further comprising a carrier device mated with the device outer housing (101), the carrier device comprising at least one of: suction cups, wrist bands and watch chains.

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