CN219963429U

CN219963429U - Meridian brush structure

Info

Publication number: CN219963429U
Application number: CN202321209940.2U
Authority: CN
Inventors: 卢斌
Original assignee: Guangzhou Jiumei Electronic Technology Co ltd
Current assignee: Guangzhou Jiumei Electronic Technology Co ltd
Priority date: 2023-05-18
Filing date: 2023-05-18
Publication date: 2023-11-07
Anticipated expiration: 2033-05-18

Abstract

The utility model provides a meridian brush structure, which comprises a shell body, a brush head device arranged on the end surface of the shell body, a vibration device arranged in the shell body and used for driving the brush head device to vibrate, and a pulse device for providing electric pulses for the brush head device; the brush head device comprises a non-conductive mounting plate, a plurality of metal columns penetrating through the mounting plate, a base plate which is arranged on the inner side of the mounting plate and used for fixing the metal columns and driven to vibrate by the vibration device, and a conductive silica gel sleeve sleeved at the outer end of the metal columns, wherein the conductive silica gel sleeve is divided into at least two areas according to the electric polarity of the metal columns. The metal columns are respectively sleeved with the conductive silica gel sleeves according to the electric polarity, so that the function of releasing electric pulses by the metal columns is guaranteed, the metal columns are prevented from directly contacting friction skin, and the comfort in use is improved.

Description

Meridian brush structure

Technical Field

The utility model relates to the technical field of meridian brushes, in particular to a meridian brush with vibration and pulse current functions.

Background

The meridian brush can massage the human meridians and collaterals to achieve the health care effects of dredging the meridians, promoting blood circulation and the like. In order to improve the massage effect, some meridian brushes are provided with an electric pulse function and a vibration function, and can quickly and effectively dredge meridians and lymph, enable blood circulation and the like through multiple stimulation of current and vibration, and realize the effects of deeper massage and the like. In the conventional meridian brush with vibration and electric pulse functions, the metal columns are used as the massage heads and the electrodes for releasing the electric pulses, so that the conventional brush heads adopt a plurality of metal columns with ball heads at the end parts, however, in the use process, the brush heads of the metal columns are hard and ice-cold, and when the brush heads are contacted with the skin to vibrate and move at high frequency and simultaneously release pulse currents, the touch feeling experience of the skin is poor, so that the improvement is needed.

Disclosure of Invention

The utility model aims to provide a meridian brush structure with vibration and electric pulse functions and good skin touch.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

a meridian brush structure comprises a shell body, a brush head device arranged on the end face of the shell body, a vibration device arranged in the shell body and used for driving the brush head device to vibrate, and a pulse device for providing electric pulses for the brush head device; the brush head device comprises a non-conductive mounting plate, a plurality of metal columns penetrating through the mounting plate, a base plate which is arranged on the inner side of the mounting plate and used for fixing the metal columns and driven to vibrate by the vibration device, and a conductive silica gel sleeve sleeved at the outer end of the metal columns, wherein the conductive silica gel sleeve is divided into at least two areas according to the electric polarity of the metal columns.

The utility model has the beneficial effects that: the metal columns are respectively sleeved with the conductive silica gel sleeves according to the electric polarity, so that the function of releasing electric pulses by the metal columns is guaranteed, the metal columns are prevented from directly contacting friction skin, and the comfort in use is improved.

Preferably, the conductive silica gel sleeve comprises a fitting part which is fitted and fixed on the outer surface of the mounting plate, and a sheath part which is sheathed on the metal column in a coating way; the attaching portion connects the plurality of sheath portions of the same electric polarity into a whole. The sheath portion of electrically conductive silica gel cover laminating is fixed at the surface of mounting panel, and with a plurality of sheath portions with electric polarity link into an integrated entity, has improved the reliability of structure, avoids electrically conductive silica gel cover to drop in the use.

Preferably, the substrate is also divided into at least two regions according to the electric polarity of the metal posts, and the substrate is a metal plate integrally formed with the corresponding metal posts. The base plate and the metal column are integrally formed, and besides the metal column can be reliably fixed, the base plate and the metal column can be used for conducting the metal column, so that the electric connection structure is simple.

In a preferred scheme, the conductive silica gel sleeve and the substrate are respectively divided into a left region and a right region with different electric polarities. The base plate and the conductive silica gel sleeve are arranged into two areas, so that the electric connection is further simplified, and the reliability of the structure is enhanced.

Preferably, the shell body comprises a round box-shaped mounting part with an opening at the bottom surface and a handle part vertically fixed at the center of the top surface of the mounting part; a connecting ring made of elastic materials is fixed around the periphery in the mounting part, and the periphery of the mounting plate is fixed with the connecting ring, so that the brush head device is movably mounted at the opening of the mounting part. The brush head device is arranged at the opening of the mounting part through the elastic connecting ring, so that not only can the structural reliability of the brush head device be ensured when in vibration, but also the tightness of the inside of the shell body can be ensured, and the noise generated when in vibration can be reduced.

In a preferred scheme, the top surface of the substrate is provided with a plurality of convex columns, the top ends of the convex columns are sleeved with rubber sleeves, the vibration device is arranged above the substrate, and the output end of the vibration device is in propping contact with the rubber sleeves; and the output ends of the pulse devices are respectively and electrically connected with the two substrates. Because the brush head device is connected on the installation department through the go-between, therefore vibrating device's output only need with brush head device supporting the contact and can drive its vibration for the installation is simpler, sets up the gum cover on the projection, contact wear and noise when can reducing the vibration.

Preferably, the base plate, the mounting plate and the conductive silica gel sleeve are fixedly connected with each other. The three are fixedly connected, so that the reliability of the structure is further improved.

Preferably, a control circuit board for controlling the vibration device and the pulse device to work is further arranged in the shell body, and the control circuit board corresponds to the inner top surface of the installation part, so that the top surface of the installation part forms a control panel corresponding to the control circuit board. The control circuit board is arranged on the inner top surface of the installation part, the vibration device and the pulse device can be controlled through the control panel on the top surface of the installation part, and the structure layout is reasonable and the operation is simple and convenient.

Drawings

The utility model will now be described in further detail with reference to the drawings and to specific examples.

FIG. 1 is a perspective view showing the overall structure of a meridian brush according to an embodiment;

FIG. 2 is a schematic view of a longitudinal cross-sectional structure of a meridian brush according to an embodiment;

FIG. 3 is a schematic view of the internal mounting structure of the brush head assembly of the embodiment;

fig. 4 is a schematic end-face structure of a meridian brush according to an embodiment.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

referring to fig. 1 to 4, a meridian brush structure in this embodiment includes a housing body 1, a brush head device 2 mounted on an end surface of the housing body 1, a vibration device 3 disposed in the housing body 1 for driving the brush head device 2 to vibrate, and a pulse device for providing an electric pulse to the brush head device 2; the brush head device 2 comprises a non-conductive mounting plate 21, a plurality of metal columns 22 penetrating through the mounting plate 21, a base plate 23 arranged on the inner side of the mounting plate 21 and used for fixing the metal columns 22 and driven to vibrate by the vibration device 3, and a conductive silica gel sleeve 24 sleeved at the outer end of the metal columns 22, wherein the conductive silica gel sleeve 24 is divided into at least two areas according to the electric polarity of the metal columns 22.

When the electric pulse device works, the meridian brush, the vibration device 3 and the pulse device are started, the output end of the vibration device 3 drives each metal column 22 to vibrate through the substrate 23, the vibration of the metal columns 22 is conducted to the skin through the flexible conductive silica gel sleeve 24, and the electric pulse of the pulse device is conducted to the skin through the conductive silica gel sleeve 24, so that the conductive silica gel sleeves 24 are respectively sleeved on the metal columns 22 according to electric polarity, the function of releasing the electric pulse by the metal columns 22 is guaranteed, the metal columns 22 are prevented from directly contacting the friction skin, and the comfort in use is improved.

In this embodiment, the conductive silica gel sleeve 24 includes a fitting portion 241 that is fixed on the outer surface of the mounting plate 21, and a sheath portion 242 that is wrapped around the metal post 22; the attaching portion 241 integrally connects the plurality of sheath portions 242 having the same electric polarity. The sheath portion 242 of the conductive silica gel sleeve 24 is adhered and fixed on the outer surface of the mounting plate 21, and the plurality of sheath portions 242 with the same electric polarity are connected into a whole, so that the reliability of the structure is improved, and the conductive silica gel sleeve 24 is prevented from falling off in the use process. In other embodiments, the silicone sleeve 231 may be configured to cover only the metal posts 22, and a separate conductive silicone sleeve 24 is required to cover each metal post 22.

In this embodiment, the substrate 23 is also divided into at least two regions according to the electric polarity of the metal posts 22, and the substrate 23 is a metal plate integrally formed with the corresponding metal posts 22. The substrate 23 and the metal posts 22 are integrally formed, so that the metal posts 22 can be reliably fixed, and the metal posts 22 can be conducted, so that the electric connection structure is simple.

In this embodiment, the conductive silica gel cover 24 and the substrate 23 are respectively divided into two regions with different electric polarities. The substrate 23 and the conductive silicone sheath 24 are provided in two areas, further simplifying the electrical connection and enhancing the reliability of the structure.

In this embodiment, the housing body 1 includes a circular box-shaped mounting portion 11 with an opening at a bottom surface, and a grip portion 12 vertically fixed to a center of a top surface of the mounting portion 11; a connecting ring 13 made of elastic material is fixed around the circumference in the mounting portion 11, and the circumference of the mounting plate 21 is fixed to the connecting ring 13, so that the brush head device 2 is movably mounted at the opening of the mounting portion 11. The brush head device 2 is mounted at the opening of the mounting part 11 through the elastic connecting ring 13, so that not only the structural reliability of the brush head device 2 during vibration can be ensured, but also the tightness of the inside of the shell body 1 can be ensured, and the noise during vibration can be reduced.

In this embodiment, the top surface of the substrate 23 has a plurality of protruding columns, the top ends of the protruding columns are sleeved with rubber sleeves 231, the vibration device 3 is installed above the substrate 23, and the output end of the vibration device 3 is in abutting contact with the rubber sleeves 231; and the output ends of the pulse devices are electrically connected with the two substrates 23 respectively. Because the brush head device 2 is connected to the mounting portion 11 through the connecting ring 13, the output end of the vibration device 3 can drive the brush head device 2 to vibrate only by abutting contact with the brush head device, so that the mounting is simpler, and the rubber sleeve 231 is arranged on the convex column, so that contact wear and noise during vibration can be reduced.

In this embodiment, the base plate 23, the mounting plate 21, and the conductive silica gel sleeve 24 are fixedly connected to each other. The three are fixedly connected, so that the reliability of the structure is further improved.

In this embodiment, a control circuit board 4 for controlling the vibration device 3 and the pulse device to work is further disposed in the housing body 1, and the control circuit board 4 corresponds to the inner top surface of the mounting portion 11, so that the top surface of the mounting portion 11 forms a control panel 14 corresponding to the control circuit board 4. The control circuit board 4 is arranged on the top surface inside the installation part 11, the vibration device 3 and the pulse device can be controlled through the control panel 14 on the top surface of the installation part 11, and the structure layout is reasonable and the operation is simple and convenient.

The above description should not be taken as limiting the scope of the utility model, and any modifications, equivalent variations and modifications made to the above embodiments according to the technical principles of the present utility model still fall within the scope of the technical solutions of the present utility model.

Claims

1. A meridian brush structure, characterized in that: the brush head device is arranged on the end face of the shell body, and is arranged in the shell body and used for driving the brush head device to vibrate; the brush head device comprises a non-conductive mounting plate, a plurality of metal columns penetrating through the mounting plate, a base plate which is arranged on the inner side of the mounting plate and used for fixing the metal columns and driven to vibrate by the vibration device, and a conductive silica gel sleeve sleeved at the outer end of the metal columns, wherein the conductive silica gel sleeve is divided into at least two areas according to the electric polarity of the metal columns.

2. The meridian brush structure according to claim 1, wherein: the conductive silica gel sleeve comprises a fitting part which is fixed on the outer surface of the mounting plate in a fitting way and a sheath part which is sleeved on the metal column in a cladding way; the attaching portion connects the plurality of sheath portions of the same electric polarity into a whole.

3. A meridian brush structure according to claim 2, characterized in that: the substrate is also divided into at least two areas according to the electric polarity of the metal posts, and the substrate is a metal plate integrally formed with the corresponding metal posts.

4. A meridian brush structure according to claim 3, characterized in that: the conductive silica gel sleeve and the substrate are respectively divided into a left region and a right region with different electric polarities.

5. The meridian brush structure according to claim 4, wherein: the shell body comprises a round box-shaped installation part with an opening bottom surface and a handle part vertically fixed at the center of the top surface of the installation part; a connecting ring made of elastic materials is fixed around the periphery in the mounting part, and the periphery of the mounting plate is fixed with the connecting ring, so that the brush head device is movably mounted at the opening of the mounting part.

6. The meridian brush structure according to claim 5, wherein: the top surface of the base plate is provided with a plurality of convex columns, the top ends of the convex columns are sleeved with rubber sleeves, the vibration device is arranged above the base plate, and the output end of the vibration device is in propping contact with the rubber sleeves; and the output ends of the pulse devices are respectively and electrically connected with the two substrates.

7. The meridian brush structure according to claim 6, wherein: the base plate, the mounting plate and the conductive silica gel sleeve are fixedly connected with each other.

8. The meridian brush structure according to claim 5, wherein: the shell is internally provided with a control circuit board for controlling the vibration device and the pulse device to work, and the control circuit board corresponds to the inner top surface of the installation part, so that the top surface of the installation part forms a control panel corresponding to the control circuit board.