CN218652728U - Portable massager - Google Patents

Abstract

The utility model discloses a portable massager, which comprises a massager, an electrode plate and an electricity storage base, wherein the massager is provided with a first storage battery and four conductive terminals A, the first storage battery is electrically connected with the conductive terminals A, and the electricity storage base is provided with a plurality of conductive terminals B and a second storage battery electrically connected with the conductive terminals B; in a charging state, a first terminal and a second terminal in the conductive terminal A are in contact with two terminals in the conductive terminal B; in a use state, the first terminal and the fourth terminal of the conductive terminal A are connected with the electrode plate. Utilize the accumulate base of area certainly, need not external charging wire, when massager self electric quantity exhausts, can realize the continuation of the journey of charging to the massager fast, prolong the live time of massager fast.

Description

Portable massager

Technical Field

The utility model belongs to the technical field of little household electrical appliances, concretely relates to portable massager.

Background

The massage instrument is a new generation health care equipment developed and developed by physics, bionics, bioelectricity, traditional Chinese medicine, years of clinical practice and the like, and is suitable for health preservation of people. The massage instrument has multiple simulation functions, so that a user really experiences multiple functions of acupuncture, massage, hammering, cupping, scraping, slimming, immune regulation, toxin expelling, pressure relief, blood circulation promotion, arthralgia treatment and the like. The common massage instruments on the market mainly utilize micro-current to relieve pain to massage human bodies. TENS (transcutaneous electrical nerve stimulation), a technique for relieving pain using an electric current, refers to a technique of transmitting a small-scale, low-voltage electric pulse to a specific nerve through an electrode placed on the skin in order to change the way in which neurons transmit signals, preventing pain signals from reaching the brain, for relieving nerve, muscle or joint pain, which is generally chronic and various in form, and pain including inflammatory arthritis, back pain, foot pain, contraction at the time of childbirth or post-operative pain, migraine, etc. can be relieved by a special TENS machine.

The charging wire that current tens massage instrument used USB or low pressure round hole mostly charges, and this kind of charge mode can charge for massage instrument through the charging wire when having the fixed socket power in the room, but when outdoor especially going out outing and relaxing, when the electric quantity of massage instrument self-bring exhausts, just can not use, therefore, the time of endurance of massage instrument receives the limit of self electric quantity, in case can not in time continue to go up the electric quantity, just influences the use.

Disclosure of Invention

The utility model aims at prior art's defect, provide a portable massager, utilize the accumulate base of taking certainly, need not external charging wire, when massager self electric quantity exhausts, can realize the continuation of the journey of charging to the massager fast, prolong the live time of massager fast.

In order to realize the aim, the technical scheme of the utility model is that the portable massager comprises a massager, an electrode plate and an electricity storage base, wherein the massager is provided with a first storage battery and four conductive terminals A, the first storage battery is electrically connected with the conductive terminals A, and the electricity storage base is provided with a plurality of conductive terminals B and a second storage battery which is electrically connected with the conductive terminals B; in a charging state, a first terminal and a second terminal in the conductive terminal A are in contact with two terminals in the conductive terminal B; in a use state, the first terminal and the fourth terminal in the conductive terminal A are electrically connected with the electrode plate. Utilize the stand-by power consumption in massager self electric quantity and the accumulate base, it is long when effectively having prolonged the use of massager, and because the accumulate base is independent, compare the mode that traditional charging wire inserted the socket, the accumulate base charges for the massager and is not restricted by the environment, but outdoor removal charges, need not to fix in a place.

Further, the massager further comprises a PCB circuit board, and the first storage battery is electrically connected with the conductive terminals A through the PCB circuit board.

Furthermore, the massager further comprises a charging interface which is electrically connected with the PCB.

Furthermore, a power management chip U1 is arranged on the PCB, and a pin 1 and a pin 4 in the power management chip U1 are connected with a negative electrode and a positive electrode of the charger through a charging interface.

Furthermore, the pin 2 of the power management chip U1 is grounded to a resistor R1, the pin 4 is grounded to a capacitor C1, and the pin 5 is connected to the first battery.

Furthermore, two heating ends of the graphene heating film are electrically connected with the second terminal and the third terminal in the conductive terminal A.

Furthermore, an N-channel MOS tube is arranged between the PCB and the graphene heating film.

Furthermore, the four conductive terminals a are symmetrically arranged and integrally distributed on the rectangles with different lengths and widths.

Furthermore, in the conductive terminal a, the first terminal and the fourth terminal are distributed diagonally, and the second terminal and the third terminal are distributed diagonally.

Adopt the technical scheme of the utility model, the beneficial effects of the utility model are that: the user can independently select a USB charging mode or a contact type charging mode, particularly, the massager can be quickly charged by using the electricity storage base outdoors, the service time of the massager is quickly prolonged, the massager can be quickly charged only by contacting the conductive terminals, and the charging is simple and easy to realize; the power management chip is used for charging control, the MOS tube is used for heating control, and the circuit control design is simple and easy to realize, low in cost and high in stability; adopt this massager can be through the electro photoluminescence of electrode slice to human specific frequency of effect and intensity, also can carry out operations such as hot compress, detumescence to the human body through the heating film, and is multiple functional, uses safe and reliable.

Drawings

FIG. 1 is a logic block diagram of a portable massager;

FIG. 2 is a schematic view of the bottom structure of the massage device;

FIG. 3 is a current diagram of the massager charging state;

FIG. 4 is a schematic view of the massager in a hot compress state;

fig. 5 is a schematic view of the electrical stimulation state of the massager.

In the figure: the multifunctional massager comprises a massager body 1, a charging interface 2, a first terminal 3, a second terminal 4, a third terminal 5, a fourth terminal 6, a charger 7, a first storage battery 8, an electrode plate 9, a graphene heating film 10 and a PCB 11.

Detailed Description

The technical solutions of the present invention are further described and illustrated below by specific embodiments, so that the present invention is more clear and understood. Other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein. The present invention can also be implemented or applied in other different specific embodiments, and various details in the present specification can be modified or changed based on different viewpoints and applications without departing from the spirit of the present invention. It is to be noted that the features in the following embodiments and examples may be combined with each other without conflict.

As shown in fig. 1-5, the present embodiment relates to a portable massager, which comprises a massager 1, an electrode plate 9 and an electricity storage base, wherein the massager 1, the electrode plate 9 and the electricity storage base are independent from each other, and the electric connection between the massager 1 and the electrode plate 9 or the electricity storage base is detachable.

In the massager 1, a first storage battery 8, four conductive terminals a, a charging interface, a PCB circuit board, etc. are provided. The four conductive terminals a include a terminal one 3, a terminal two 4, a terminal three 5, and a terminal four 6.

And a second storage battery, four conductive terminals B, a charging port and the like are arranged on the electricity storage base.

The electricity storage base is fully charged into the second storage battery through the charging port, and the electricity storage base does not influence the massager to massage by using the electric quantity of the massager in the using process. When the massager is carried out for use, after the electric quantity of the massager is used up, the charging base can be used for charging and endurance rapidly, and the outdoor use time is prolonged. Compare traditional massager and directly charge through power cord connection wall socket power, the charging process user can not remove and use the massager, and this product is convenient more nimble, does not receive the place environmental restriction, can use in various outdoor places.

Specifically, the massager 1 is provided with a first storage battery 8 and four conductive terminals a, the first storage battery 8 is electrically connected with the conductive terminals a, and the power storage base is correspondingly provided with four conductive terminals B corresponding to the four conductive terminals a.

As shown in fig. 3, in the charging state, the first terminal 3 and the second terminal 4 of the conductive terminal a are in contact with the two terminals of the conductive terminal B, and the power storage base charges the first storage battery in the massager through the two conductive terminals B via the conductive terminal a.

In one use state as shown in fig. 5, the first terminal 3 and the fourth terminal 6 of the conductive terminal a are connected to the electrode sheet 9, and the electric stimulation massage is performed by outputting micro-current.

When the user need carry out the hot compress, the realization process of electro photoluminescence massage does: two ends of the electrode plate are respectively and electrically connected with a first terminal 3 and a fourth terminal 6 in a conductive terminal A of the massager, a singlechip on a PCB circuit board outputs control current through boosting, constant current and the like, the current is output to the electrode plate through the conductive terminal A, the electrode plate outputs weak electric pulse, and the skin of a human body and the like are electrically stimulated through the percutaneous nerve, as shown in figure 5. Electrical stimulation of a specific frequency and intensity is applied to a human body through the electrode pads, and TENS (applied to a percutaneous nerve, generally used for pain relief, dredging, etc.) and EMS (applied to a muscle, generally used for body shaping, etc.) are generally used. The singlechip, the boosting, the constant current and the like can be realized by functional chips directly purchased in the market.

The first storage battery in the massager is electrically connected with the conductive terminal A through the PCB. The switch condition and the charging condition of the massager are controlled by the PCB.

Based on some user demands, the massager and the electricity storage base are required to be fully charged, so that the massager can be directly provided with a charging interface 2 connected with the PCB 11. The charging interface 2 is used for directly charging the second storage battery fully, and the power storage base is also used for charging the second storage battery fully by using the self-contained charging interface.

In a specific embodiment, a power management chip U1 is disposed on the PCB 11, as shown in fig. 3, pins 1 and 4 in the power management chip U1 are connected to a negative electrode and a positive electrode of a charger 7 through a charging interface 2. The charger 7 adopts various charging wires or USB interface charging wires. The interface that charges on the massager can adopt the interface of modes such as various conventional magnetism, type _ c, mirco _ USB, with charger 7 adaptation.

A pin 2 of the power management chip U1 is grounded with a resistor R1, a pin 4 is grounded with a capacitor C1, and a pin 5 is connected with a first storage battery.

The charging mode of the charging port on the charging base is the same as that of the massager 1, the interface in the Mirco _ USB mode and the like is also utilized, and the charging management mode can also adopt the power management chip U1.

In this embodiment, when charging is performed through a single USB interface, the adaptor (i.e., a power cord plug) is plugged into a USB port on the massager or the charging base to perform charging, and the charging is controlled through a power management chip U1 (for example, a chip-on-chip micro AP5056H type) where the resistor R1 is a control resistor of the charging current and the actual charging current =1/1.5=0.66a. When the battery is charged to 4.2V, the power management chip U1 will be automatically cut off to stop charging.

Another charging mode is that after the power management chip U1 is connected to the first terminal 3 and the second terminal 4, the first terminal 3 and the second terminal 4 are respectively in contact with two charging terminals B representing the positive and negative electrodes on the surface of the electricity storage base, and the charging is performed by direct contact of the metal terminals, and the electric quantity of the second storage battery in the electricity storage base charges the first storage battery through the charging terminals B and a charging terminal a.

In one embodiment, the electrode sheet 10 may further have a graphene heating film 9 attached thereon, and the electrode sheet 10 or the graphene heating film 9 is electrically connected to the conductive terminals a of the massager according to a use requirement.

When the user need carry out the hot compress, the realization process of hot compress massage does: and connecting a second terminal 4 and a third terminal 5 of the massager with two terminals of the graphene heating film 10 on the electrode slice. The PCB is connected to the graphene heating film through an N-channel MOS transistor Q1, as shown in fig. 4. The hot compress is to Heat through a graphene heating film attached to an electrode plate, heat control is performed through an MOS (metal oxide semiconductor) tube with an N channel, a Heat port is connected to a control port of a singlechip on a PCB (printed circuit board), the MOS tube is conducted when the singlechip outputs a high level through the Heat port, and the heating film generates Heat to perform hot compress on contacted skin; when the Heat port outputs low level, the MOS tube is cut off, and the heating film stops heating. Thereby achieving heating control.

Because the four conductive terminals A in the massager can be combined in different ways to realize different wiring functions, the four conductive terminals A are symmetrically arranged and integrally distributed on rectangles with different lengths and widths, which is shown in figure 2, so that the massager and the power storage base can be accurately placed and misplacement is avoided. So that

Among the conductive terminal A, terminal one 3, four 6 diagonal distributions of terminal, two 4, three 5 diagonal distributions of terminal realize two diagonal designs of physiotherapy and hot compress function respectively for the massager only adopts two terminals of specific angle just can correctly be connected to electrode slice, the graphite alkene heating film that corresponds. Diagonal setting for when the massager was placed on the electrode piece, direct forward placed or place after rotatory 180, the electrode piece both ends can both be connected with two terminals and can normally work. The hot compress and the electric physical therapy are realized through separate interfaces and cannot interfere with each other.

As a preferred embodiment, the four conductive terminals a are symmetrically arranged and integrally distributed on the rectangles with different lengths and widths, so that the massager can be placed only in a specific direction with the power storage base, and the phenomenon that the angle is misplaced to influence charging and the like is prevented. An indication mark can be arranged on the bottom surface of the massager and the surface of the electricity storage base, which is provided with the conductive terminal B, for example, an upward arrow is arranged between the first terminal and the second terminal.

Elements or functional modules and the like which are not specifically described in the embodiment are directly purchased from the existing equipment and installed in the product.

It should be noted that the drawings provided in the above embodiments are only for illustrating the basic idea of the present invention, and the components related to the present invention are only shown in the drawings rather than drawn according to the number, shape and size of the components in actual implementation, and the form, amount and ratio of the components in actual implementation may be changed at will, and the layout of the components may be more complicated.

The foregoing is only a preferred embodiment of the present invention and the technical principles applied thereto. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in more detail through the above embodiments. The present invention can also include other equivalent embodiments, and any modification, equivalent replacement, and improvement made within the spirit and principle of the present disclosure should be included in the protection scope of the present disclosure.

Claims (9)

1. A portable massager is characterized by comprising a massager, electrode plates and an electricity storage base, wherein a first storage battery and four conductive terminals A are arranged on the massager, the first storage battery is electrically connected with the conductive terminals A, and a plurality of conductive terminals B and a second storage battery electrically connected with the conductive terminals B are arranged on the electricity storage base;

in a charging state, a first terminal and a second terminal in the conductive terminals A are in contact with two terminals in the conductive terminals B;

in a use state, the first terminal and the fourth terminal in the conductive terminal A are electrically connected with the electrode plate.

2. The portable massager of claim 1, further comprising a PCB circuit board, wherein the first battery is electrically connected to the conductive terminals a through the PCB circuit board.

3. The portable massager of claim 2, further comprising a charging interface electrically connected to the PCB circuit board.

4. The portable massager of claim 3, wherein the PCB circuit board is provided with a power management chip U1, and pins 1 and 4 of the power management chip U1 are connected with the negative electrode and the positive electrode of the charger through a charging interface.

5. The portable massager of claim 4, wherein pin 2 of the power management chip U1 is grounded to a resistor R1, pin 4 is grounded to a capacitor C1, and pin 5 is connected to the first battery.

6. The portable massager according to any one of claims 2 to 5, wherein the electrode sheet is provided with a graphene heating film, and two heating ends of the graphene heating film are electrically connected with the second terminal and the third terminal of the conductive terminal A.

7. The portable massager of claim 6, wherein an N-channel MOS transistor Q1 is disposed between the PCB and the graphene heating film.

8. The portable massager of claim 1, wherein the four conductive terminals a are symmetrically arranged and integrally distributed on rectangles with different lengths and widths.

9. The portable massager of claim 8, wherein the conductive terminals a are arranged in a manner that four diagonals are arranged between the first terminal and the second terminal, and three diagonals are arranged between the second terminal and the third terminal.

Images