Detailed Description
Embodiments of the present invention will be described in detail below, the embodiments described with reference to the drawings being illustrative, and the embodiments of the present invention will be described in detail below.
A neck massager S according to an embodiment of the present invention, which may be a low frequency neck massager, i.e., which may emit low frequency micro current pulses, below 1000HZ, will be described with reference to fig. 1-9. Of course, the neck massager S may be a high frequency neck massager.
As shown in fig. 1, the neck massager S includes: the flexible electrode 400 may be used to massage the skin of the neck of the user, thereby relieving the fatigue of the neck of the user. The two handles 300 are respectively and fixedly connected to two sides of the main body 700 and symmetrically arranged. Wherein, at the junction of handle 300 and main part 700, neck massage appearance S still is provided with decoration 500, and decoration 500 can play the effect of sheltering from the junction to can improve neck massage appearance S' S structural integrity.
The main body 700 includes a first inner case 100 and a first outer case 200, the first inner case 100 is mounted inside the first outer case 200, and the flexible electrode 400 is mounted on the first inner case 100. The flexible electrode 400 generates current when energized, thereby generating electrical stimulation to the skin of the user to achieve a massage effect.
As shown in fig. 3, the flexible electrode 400 is divided into a first flexible electrode 410 and a second flexible electrode 420, and the first flexible electrode 410 and the second flexible electrode 420 are spaced apart on the inner surface of the first inner case 100. The handle 300 is divided into a first handle 310 and a second handle 320, and the first handle 310 and the second handle 320 are respectively attached to both sides of the first inner case 100. That is, the flexible electrodes 400 may be two, and the two flexible electrodes 400 may be directly disposed on the inner surface of the first inner case 100. The first inner shell 100 may be made of a flexible material, such that when the neck massager S is worn by the user, the first inner shell 100 and the flexible electrode 400 are more or less deformed to fit the neck of the user, thereby achieving a desired shape to better match and massage the skin of the neck of the user.
Therefore, the two flexible electrodes 400 are reasonably arranged on the inner surface of the first inner shell 100, so that the flexible electrodes 400 can effectively massage the neck skin of a user, and the effect of relieving fatigue can be achieved. Compared with the related art, the first inner shell 100 is made of a flexible material, and the flexible electrode 400 is directly arranged along the length direction of the inner surface of the first inner shell 100, so that the neck massager S can be better adapted to the neck of a user, a better massage effect can be achieved, and the wearing comfort is better.
According to an alternative embodiment of the present invention, as shown in fig. 1 and 2, the first inner case 100 is a flexible insulating case, and the inside of the first inner case 100 is provided with an insulating spacer 110, both sides of the insulating spacer 110 are provided as mounting regions, the first flexible electrode 410 and the second flexible electrode 420 are respectively provided at the two mounting regions, and the insulating spacer 110 may space the first flexible electrode 410 and the second flexible electrode 420 apart.
Therefore, the first flexible electrode 410 and the second flexible electrode 420 can be spaced by arranging the insulating spacer 110 and the insulating first inner shell 100, short circuit caused by indirect triggering of the first flexible electrode 410 and the second flexible electrode 420 is avoided, and the use safety of the neck massager S can be improved. Wherein, the insulation spacer 110 may be disposed at a middle portion of the first inner case 100 in a length direction, and the user 'S vertebra is also located at an opposite middle portion of the neck, that is, the insulation spacer 110 corresponds to the user' S vertebra, such that the first flexible electrode 410 and the second flexible electrode 420 do not contact with the user 'S vertebra, and the first flexible electrode 410 and the second flexible electrode 420 are prevented from stimulating the user' S vertebra, thereby improving the safety of the neck massager S.
Specifically, the first inner shell 100 may be a flexible insulating silicone shell, and the flexible insulating silicone shell may not only be matched with the insulating spacer 110 to space the first flexible electrode 410 and the second flexible electrode 420, but also make the inner surface of the first inner shell 100 more skin-friendly when in contact with the skin of the user, thereby improving the user experience.
As shown in fig. 1, the bent arc of the first inner shell 100 is regarded as the length direction of the first inner shell 100, the first flexible electrode 410 and the second flexible electrode 420 are bonded to the first inner shell 100 in the length extending direction of the first inner shell 100, and the first flexible electrode 410, the insulating partition 110 and the second flexible electrode 420 are sequentially arranged at intervals, so that the first flexible electrode 410 and the second flexible electrode 420 can be separated by arranging the insulating partition 110, and the first flexible electrode 410 and the second flexible electrode 420 can be prevented from being indirectly triggered to generate a short circuit, thereby improving the safety of the neck massager S.
Alternatively, as shown in fig. 2, the first inner case 100 is provided with a first groove 120 and a second groove 130 at two sides of the insulating partition 110, the first groove 120 and the second groove 130 respectively constitute mounting areas, the first flexible electrode 410 and the second flexible electrode 420 are respectively disposed on the two mounting areas, by disposing the first groove 120 and the second groove 130, the first flexible electrode 410 and the second flexible electrode 420 can be mounted on the first inner case 100, and the height of the first flexible electrode 410 and the second flexible electrode 420 protruding out of the first inner case 100 can be reduced, the mounting stability of the first flexible electrode 410 and the second flexible electrode 420 is improved, the first flexible electrode 410 and the second flexible electrode 420 are prevented from falling off the first inner case 100 during use, and the use by a user can be more comfortable.
In addition, as shown in fig. 7, the first inner shell 100 is further provided with a first accommodating cavity 140, the flexible filler 150 on the main body 700 can be filled in the first accommodating cavity 140, and the flexible filler 150 supports the flexible electrode 400 and the first inner shell 100 at the same time, so that the flexible filler 150 supports the flexible electrode 400 and the first inner shell 100, the flexible electrode 400 and the first inner shell 100 are prevented from being folded and sunken, the pricking feeling is avoided, and the comfort of massage is improved. Moreover, the flexibility of the first inner shell 100 is increased by the flexible filler 150, and the elasticity of the flexible filler 150 can push the flexible electrode 400 to the neck, for example, when the first inner shell 100 is opened, the flexible filler 150 will arch toward the neck of the human body to push the flexible electrode 400, so as to improve the fitting property of the neck massager S to the skin of the human body. In addition, the flexible filler 150 also has the effect of heat preservation, and the temperature is not easy to lose when the neck massager S heats; when the neck massager S is not heated, the flexible filler 150 can keep the cervical vertebra warm, so that the comfort is improved.
That is, inside the first outer case 200, not only the flexible electrode 400 and the first inner case 100 but also the flexible filler 150 are provided, so that the softness of the neck massager S can be improved, and the comfort of the user wearing the neck massager S can be improved.
The flexible filler 150 may be a sponge, a foamed silicone, or a gel that is cured twice.
For example, the secondary solidification may be liquefied after solidification, and may be solidified again after liquefaction. The jelly formed by secondary curing can be natural latex or epoxy resin and other materials. Thus, the flexible filler 150 may have good flexibility, elasticity, and extensibility, and is not easily broken.
Further, as shown in fig. 7, the outer surface of the first inner case 100 is provided with a first slot 160, the first slot 160 extends along the length extension direction of the first inner case 100, and the first slot 160 is communicated with the first receiving cavity 140. Because the main body 700 of the neck massager S is similar to a C shape as a whole, and the first accommodating cavity 140 is further disposed on the first inner case 100, it is difficult to perform mold stripping, and the provision of the first slot 160 can reduce the difficulty in mold stripping of the main body 700 of the neck massager S, and improve the production efficiency of the first inner case 100. Moreover, when the flexible filler 150 is installed, the installation difficulty of the flexible filler 150 can be reduced by arranging the first slot 160, and the production efficiency of the neck massager S is improved.
The first outer shell 200 is disposed on the outer surface of the first inner shell 100, and the first outer shell 200 is a metal arc bracket or a plastic arc bracket. That is, the first housing 200 can be made of two materials, one is made of metal, such as stainless steel, and the other is made of plastic. Both the two materials can provide certain elasticity for the neck massager S, so that the neck massager S can be well clamped on the neck in the using process and cannot fall off, and the flexible electrode 400 can be favorably attached to the neck skin of a user.
The fitting manner between the first inner case 100 and the first outer case 200 and the fitting manner between the two and the handle 300 will be described in detail.
According to some alternative embodiments of the present invention, as shown in fig. 3 and 4, the outer surface of the first inner case 100 is provided with the mounting groove 190, the first outer case 200 is disposed in the mounting groove 190, and the first outer case 200 is disposed in the mounting groove 190, so that the first outer case 200 can be more stably mounted on the first inner case 100, and the first outer case 200 is prevented from being separated from the first inner case 100 during use. Also, since the first inner case 100 is provided with the mounting groove 190, the first outer case 200 can be embedded in the first inner case 100, so that the thickness of the main body 700 can be reduced at least to some extent, which can be advantageous to further achieve the miniaturization design goal of the neck massager S. In addition, the first housing 200 may form a face-to-face rigid support for the flexible filler 150 and the flexible electrode, which provides a deformation condition for the flexible electrode 400.
In addition, because the first outer shell 200 can be embedded in the first inner shell 100, the edge of the mounting groove 190 can also play a role of wrapping the edge of the first outer shell 200, thereby preventing the edge of the first outer shell 200 from being exposed, avoiding the problem that the edge of the first outer shell 200 cuts the skin of a user, and further improving the use safety of the neck massager S.
Wherein, the depth of the mounting groove 190 is equal to the thickness of the first outer shell 200, when the first outer shell 200 is mounted in the mounting groove 190, because the depth of the mounting groove 190 is equal to the thickness of the first outer shell 200, a tight fit is formed between the first outer shell 200 and the mounting groove 190, thereby the first outer shell 200 can be limited in the mounting groove 190, the first outer shell 200 can not move in the length extending direction of the first inner shell 100 during the use process, and the mounting stability of the first outer shell 200 is improved. In addition, the first housing 200 and the bottom of the mounting groove 190 may be adhesively fitted by an adhesive.
Specifically, when the degree of curvature of the cross section of the first housing 200 is greater, the overall rigidity of the first housing 200 is stronger, and the deformation capability is weaker, and the cross section of the first housing 200 is configured to be a straight line or an arch, it can be ensured that the first housing 200 meets the deformation requirement of the main body 700, and it is also beneficial to reduce the overall thickness of the main body 700.
Alternatively, the cross section of the first housing 200 is rectangular, and the cross section of the first housing 200 is arranged to be a straight line, so that the first housing 200 can meet the deformation requirement of the main body 700, and the processing difficulty of the first housing 200 can be reduced.
Alternatively, the first housing 200 has an arched cross section, the arched height is less than or equal to 2mm, and the arched height is less than or equal to 2mm, so that the first housing 200 can be deformed uniformly, and the rigidity of the first housing 200 is suitable, so that the user can exert more uniform force when wearing the neck massager S.
In addition, in the cross section of the first housing 200, the thickness of the cross section of the first housing 200 is kept constant, and the thickness of the cross section of the first housing 200 is kept constant, so that the deformation of the main body of the first housing 200 is uniform, and the first housing 200 is prevented from being broken due to sudden stress change in the use process of the first housing 200. In addition, the thickness of the cross section of the first housing 200 is maintained constant, the processing difficulty of the first housing 200 can be reduced, and thus the production cost of the neck massager S can be reduced.
Specifically, as shown in fig. 3 and 4, the two ends of the first housing 200 are provided with bending portions 210, the bending portions 210 are similar to a step shape as a whole, and the bending portions 210 include bending portions 212 and protruding sections 213. Wherein, the bending part 210 extends out of the mounting groove 190, and the bending part 212 of the bending part 210 abuts against the end of the first inner shell 100. Through setting up the portion of bending 210, can locate first inner shell 100 clamp between two portions of bending 210, make the connection of first inner shell 100 and first shell 200 more stable, can avoid first shell 200 drunkenness on the length extending direction of first inner shell 100 moreover, promote the connection stability of first shell 200. In addition, since the first inner case 100 is filled with the flexible filler 150, the bent portion 210 may also function as a stopper for the flexible filler 150 at least to some extent, so that the structural reliability of the main body 700 may be further improved.
Further, as shown in fig. 3 and 4, the neck massager S further includes: the middle connecting piece 600, the handle 300 is connected with the bending part 210 through the middle connecting piece 600, and the handle 300 can be connected with the bending part 210 through the middle connecting piece 600, so that the first shell 200 can be connected with the handle 300, and the whole consistency of the neck massager S can be improved. It can be appreciated that the intermediate connector 600 may serve as an intermediate connector, so that it is not necessary to additionally provide connectors on the first inner case 100 and the first outer case 200, the difficulty of manufacturing the main body 700 may be further reduced, and the connection between the main body 700 and the handle 300 may be facilitated.
As shown in fig. 6, the middle connecting member 600 is provided with a slot 610, the extension section 213 of the bending portion 210 is inserted into the slot 610, and the bending portion 210 is inserted into the slot 610, so that the connection stability between the middle connecting member 600 and the first housing 200 can be improved, the first housing 200 is prevented from being separated from the middle connecting member 600, the normal use of a user is prevented from being affected, and the connection difficulty between the middle connecting member 600 and the first housing 200 can be reduced by adopting the mode.
As shown in fig. 6, a portion of the bending part 210 extends into the insertion groove 610 and another portion is located outside the insertion groove 610 to be spaced apart from the middle connection member 600 by a predetermined gap 214. The predetermined gap 214 may be provided to allow the two ends of the main body 700 to move away from each other, so as to have a clearance for avoiding the breakage of the bending portion 210 when the two ends of the main body 700 move away from each other, thereby improving the connection stability between the middle connection member 600 and the handle 300 and the first housing 200. The predetermined gap is small, and only a slight amount of movement of both ends of the main body 700 needs to be allowed.
Optionally, as shown in fig. 3 and 4, two ends of the main body 700 are provided with first limiting portions 180, that is, two ends of the first inner shell 100 are provided with the first limiting portions 180, an end of the intermediate connector 600 is provided with a second limiting portion 620, the first limiting portions 180 and the second limiting portions 620 are matched, the intermediate connector 600 can be fixed on the main body 700 through the limiting matching of the first limiting portions 180 and the second limiting portions 620, and therefore the connection stability of the first outer shell 200 and the intermediate connector 600 can be improved.
Specifically, first spacing portion 180 is the draw-in groove, and spacing portion 620 of second is the buckle, and the buckle is connected conveniently with the draw-in groove to connect and cooperate the back and can dismantle. This straightens the strip 100 in the length direction and avoids wrinkles. In addition, the clamping groove and the buckle are simple to produce, and the production cost of the neck massager S can be reduced.
As shown in fig. 4, the bending portion 210 and the intermediate connecting member 600 are both provided with through holes 211, optionally, two through holes 211 are respectively formed on the bending portion 210 and the intermediate connecting member 600, the two through holes 211 on the bending portion 210 are uniformly formed on the bending portion 210, and the two through holes 211 on the intermediate connecting member 600 are uniformly formed on the intermediate connecting member 600. And, two through holes 211 on the middle connecting piece 600 correspond to two through holes 211 on the bending part 210.
Be provided with erection column 340 in the handle 300, erection column 340 passes the perforation 211 of the portion of bending 210 and intermediate junction spare 600 and cooperates with the fastener, through the cooperation with erection column 340 and fastener, can restrict the perforation 211 position of the portion of bending 210 and intermediate junction spare 600 to can fix intermediate junction spare 600 and first shell 200 on handle 300, can accomplish the installation between main part 700 and the handle 300, and then promote the overall stability of neck massager S.
As shown in fig. 3, the through hole 211 of the bending portion 210 and/or the through hole 211 of the intermediate connecting member 600 is a kidney-shaped hole. Through setting the through hole 211 of the bending part 210 and/or the through hole 211 of the intermediate connecting member 600 to be a runway-shaped waist-shaped hole, the mounting post 340 can conveniently pass through the corresponding through hole 211, and the matching difficulty can be reduced.
According to some embodiments of the present invention, as shown in fig. 1, the inner surface of the first flexible electrode 410 is flush with the inner surface of the second flexible electrode 420, and the inner surface of the first flexible electrode 410 extends inward beyond the inner surface of the first inner casing 100. By aligning the inner surface of the first flexible electrode 410 with the inner surface of the second flexible electrode 420, and the inner surfaces of the first flexible electrode 410 and the second flexible electrode 420 are inward beyond the inner surface of the first inner shell 100, the conductive silicone electrode can be ensured to be tightly attached to the neck skin, and the problem that the user is pricked by the single-point contact of the flexible electrode 400 and the skin is avoided.
In addition, make flexible electrode 400 can regard as the part of contact skin at first, and convex flexible electrode 400 can adapt to different users' neck shape through the deformation of self for flexible electrode 400 is more abundant with neck skin contact, promotes user experience and feels.
Further, as shown in fig. 1, the inner surfaces of the first flexible electrode 410 and the second flexible electrode 420 are flush with the inner surface of the insulating spacer 110, so that the first flexible electrode 410, the second flexible electrode 420 and the insulating spacer 110 can be on a curved surface, a foreign body sensation is not generated when a user wears the device, and the use experience of the user is improved.
According to an alternative embodiment of the present invention, the first flexible electrode 410 and the second flexible electrode 420 are attached to the inner surface of the body 700 and spaced apart in the longitudinal direction. Because the main working area of the neck massager S is located at the main body 700 of the neck massager S, the first flexible electrode 410 and the second flexible electrode 420 are disposed at the portion of the first flexible electrode 410 corresponding to the main body 700 and the portion of the second flexible electrode 420 corresponding to the main body 700, so that a sufficient installation space for installing electronic components can be ensured in the handle 300, and the handle 300 can not press the artery, thereby providing a more comfortable feeling for the user.
According to another alternative embodiment of the present invention, as shown in fig. 2, a first flexible electrode 410 extends on the inner surface of the body 700 and the inner surface of the first handle 310, and a second flexible electrode 420 extends on the inner surface of the body 700 and the inner surface of the second handle 320. That is, the two flexible electrodes 400 not only extend on the inner surface of the first inner shell 100, but also extend to the corresponding inner surface of the handle 300, so that the area of the flexible electrodes 400 can be effectively increased, the flexible electrodes 400 can have a larger fitting massage area with the neck skin of the user, and the massage effect of the neck massager S can be further improved.
As shown in fig. 2 and fig. 3, the first handle 310 is provided with a third groove 311, the second handle 320 is provided with a fourth groove 321, the first groove 120 on the first inner casing 100 is communicated with the third groove 311, the second groove 130 on the first inner casing 100 is communicated with the fourth groove 321, a part of the first flexible electrode 410 is further disposed in the third groove 311, and a part of the second flexible electrode 420 is further disposed in the fourth groove 321. That is, the first flexible electrode 410 is disposed on the first groove 120 and the third groove 311, and the second flexible electrode 420 is disposed on the second groove 130 and the fourth groove 321, so that the working range of the flexible electrode 400 can be enlarged, and the user experience can be further improved.
The bottom of the first groove 120 and the bottom of the third groove 311 are located in the same arc-shaped plane, and the bottom of the second groove 130 and the bottom of the fourth groove 321 are located in the same arc-shaped plane, that is, the bottom of the first groove 120 and the bottom of the third groove 311 can smoothly transition, and the bottom of the second groove 130 and the bottom of the fourth groove 321 can smoothly transition. The bottom of the first groove 120 and the bottom of the third groove 311 are arranged in the same arc-shaped surface, so that the first flexible electrode 410 can be better attached to the first groove 120 and the third groove 311, the first flexible electrode 410 is prevented from falling off in the using process, and the length of the first flexible electrode 410 can be effectively prolonged; the bottom of the second groove 130 and the bottom of the fourth groove 321 are arranged in the same arc-shaped surface, so that the second flexible electrode 420 can be better attached to the second groove 130 and the fourth groove 321, the second flexible electrode 420 is prevented from falling off in the using process, and the length of the second flexible electrode 420 can be effectively prolonged.
Specifically, the inner surface of the first handle 310 is further provided with a first silicone sleeve, the first silicone sleeve is disposed around the third groove 311 to leak out of the third groove 311, and the inner surface of the second handle 320 is further provided with a second silicone sleeve, the second silicone sleeve is disposed around the fourth groove 321 to leak out of the third groove 321. By arranging the first silicone sleeve on the first handle 310 and the second silicone sleeve on the inner surface of the second handle 320, the inner surface of the handle 300 can be more skin-friendly when in contact with the skin of a user, and the use experience of the user is improved.
In addition, as shown in fig. 2 and 3, the end of the third groove 311 away from the first groove 120 is set to be arc-shaped, the end of the fourth groove 321 away from the second groove 130 is set to be arc-shaped, and the end of the third groove 311 away from the first groove 120 and the end of the fourth groove 321 away from the second groove 130 are set to be arc-shaped, so that the handle 300 can guide the raw materials conveniently in the forming process, the resistance of the handle 300 in the forming process is reduced, the abrasion of the mold is reduced, and the service life of the mold is prolonged. Moreover, the contact between the flexible electrode 400 with the arc-shaped structure and the skin is line contact instead of point contact, so that the flexible electrode 400 is prevented from being separated due to local abrasion.
According to a specific embodiment of the present invention, the first flexible electrode 410 and the second flexible electrode 420 include heating films, and the heating films are respectively disposed on the outer surfaces of the first flexible electrode 410 and the second flexible electrode 420, that is, the heating films are respectively disposed on the surfaces of the first flexible electrode 410 and the second flexible electrode 420 away from the neck of the user. Through setting up the heating film, can make neck massage appearance S not only can carry out the electro photoluminescence to user 'S neck skin, can also heat user' S neck skin to can further promote the travelling comfort that the user wore neck massage appearance S.
Alternatively, the heating film extends to the inner surfaces of the first handle 310 and the second handle 320, that is, a part of the heating film extends from the inner surface of the first groove 120 on the main body 700 to the inner surface of the third groove 311 on the first handle 310, and another part of the heating film extends from the inner surface of the second groove 130 on the main body 700 to the inner surface of the fourth groove 321 on the second handle 320, by extending the heating film to the inner surfaces of the first handle 310 and the second handle 320, the working range of the heating film can be increased, the heated area of the skin on the neck of the user can be increased, and the use comfort of the neck massager S can be improved.
Wherein, at least one of the first handle 310 and the second handle 320 is provided with an electronic component 330 and a heat insulation piece 360, the heat insulation piece 360 is isolated between the heating film and the electronic component 330, because at least one of the first handle 310 and the second handle 320 is provided with the electronic component 330, when the heating film extends to the first handle 310 and the second handle 320, the heat insulation piece 360 is needed to be arranged for protecting the safety of the electronic component 330, the heat generated by the heating film can be isolated from the electronic component 330 through the heat insulation piece 360, so that the electronic component 330 can normally work, and the safety of the neck massager S is improved.
Specifically, the heat insulating member 360 may be a heat insulating sponge that can block heat generated by the heating film, so that the electronic component 330 may be protected, and the heat insulating sponge is low in cost and easy to obtain, and may reduce the production cost of the neck massager S.
As shown in fig. 1, the first handle 310 and the second handle 320 are respectively connected to two sides of the first inner shell 100, at least one of the first handle 310 and the second handle 320 is provided with an electronic component 330, a force application point can be provided for the neck massager S to be clamped on the neck by the first handle 310 and the second handle 320, and the first handle 310 and the second handle 320 can be used for installing the electronic component 330, protecting the electronic component 330 from being affected by the external environment, and avoiding the damage of the electronic component 330 in the using process.
As shown in fig. 3, one of the first handle 310 and the second handle 320 is provided with a battery and the other is provided with an electric pulse generating device, and the battery and the electric pulse generating device are separately arranged, so that the neck massager S can be prevented from being worn on the body of a user and being stressed unevenly when being mounted on one handle 300, and the user experience is prevented from being influenced.
In addition, the battery is electrically connected with the electric pulse generating device, the electric pulse generating device is powered by the battery, the electric pulse generating device generates pulse current and transmits the pulse current to the flexible electrode 400, and then the neck skin can be stimulated by weak current when the neck massager S is worn by a user, so that the local blood circulation is promoted, the muscle state is improved, and acute and chronic pain is relieved.
Alternatively, the heating film is disposed only on a portion of the first flexible electrode 410 corresponding to the main body 700, and the second flexible electrode 420 corresponds to a portion of the main body 700, in which case the handle is not provided with the groove. Because the main working area of the neck massager S is located at the main body 700 of the neck massager S, the heating film is disposed at the portion of the first flexible electrode 410 corresponding to the main body 700 and the portion of the second flexible electrode 420 corresponding to the main body 700, so as to ensure that the handle 300 has a sufficient installation space for installing electronic components, and the handle 300 does not press the artery, thereby providing a more comfortable feeling to the user.
Specifically, flexible electrode 400 is electrically conductive silica gel electrode slice, and electrically conductive silica gel electrode slice contact is reliable and stable, shock resistance can be good, and electrically conductive silica gel electrode slice not only can transmit the pulse current that electric pulse generating device produced moreover, and electrically conductive silica gel electrode slice can make the internal surface of flexible electrode 400 more skin-friendly when with user skin contact moreover, promotes user's use and experiences.
As shown in fig. 3, each of the first and second handles 310 and 320 includes: the second outer shell 370 and the second inner shell 380, the second outer shell 370 is provided with a first positioning portion 371 and a first clamping portion 372, the second inner shell 380 is provided with a second clamping portion 381 and a second positioning portion 382, the first positioning portion 371 and the second positioning portion 382 are in positioning fit, and the second clamping portion 381 is in clamping fit with the first clamping portion 372. The first positioning portion 371 and the second positioning portion 382 are engaged in a positioning manner, and then the first clamping portion 372 is engaged with the second clamping portion 381, so that the second outer shell 370 and the second inner shell 380 can be effectively fixed together, and the first handle 310 and the second handle 320 can be fixed on the main body 700. The installation of the handle 300 can be facilitated by the positioning fit of the first positioning portion 371 and the second positioning portion 382, and the first clamping portion 372 on the second outer shell 370 and the second clamping portion 381 on the second inner shell 380 can be accurately positioned, so that the assembly efficiency of the neck massager S is improved.
Specifically, the first clamping portion 372 is a clamping groove, the first positioning portion 371 is a limiting post, the second clamping portion 381 is a buckle, and the second positioning portion 382 is a limiting hole. Spacing post can location fit with spacing hole, and earlier through the location fit in spacing post and spacing hole, is passing through the buckle with second shell 370 and second inner shell 380 and is being in the same place with the draw-in groove is fixed to can realize the equipment of handle 300.
As shown in fig. 3 and 5, the second housing 370 is configured as a plate-shaped structure, and the second housing 370 of the plate-shaped structure may be located on the same arc surface as the outer surface of the main body 700 and the outer plate 520 of the decoration 500, so as to optimize the appearance of the neck massage apparatus S and reduce the foreign body sensation in use of the user. And, the second inner case 380 is provided with an accommodation space 383 opened toward the outside, and the second outer case 370 covers the outside of the accommodation space 383. The accommodation space 383 defined by the second inner case 380 and the second outer case 370 can accommodate the electronic component 330 on the handle 300, thereby improving the safety of the electronic component 330.
Wherein the inner surface of the main body 700, the inner surface of the first handle 310 and the inner surface of the second handle 320 are located in the same arc-shaped plane, that is, on the arc-shaped plane formed by the inner surface of the main body 700, the inner surface of the first handle 310 and the inner surface of the second handle 320, so that the inner surfaces of the main body 700, the first handle 310 and the second handle 320 can smoothly transit. The inner surfaces of the main body 700, the first handle 310 and the second handle 320 are arranged in the same arc-shaped surface, so that the inner surface of the neck massage apparatus S can be smoothly transited, and the arc-shaped surface is matched with the shape of the neck of a human body, so that the neck massage apparatus S is more comfortable to use.
Specifically, the curved surface is the C face, and the C face can make the curved surface suit with human nape, can make the internal surface of neck massage appearance S more skin-friendly, promotes user' S use and experiences.
As shown in fig. 1, the decoration 500 is disposed at a connection position of the body 700 and the handle 300, and the decoration 500 may cover the connection position of the body 700 and the handle 300 to shield the connection position. The decoration 500 is a ring shape, and the ring-shaped decoration 500 may be fitted around the junction of the body 700 and the handle 300. In addition, the decoration 500 can avoid the first groove 120 and the second groove 130 on the main body 700 and can also avoid the third groove 311 and the fourth groove 321 on the handle 300, the first groove 120 and the second groove 130 on the main body 700 and the third groove 311 and the fourth groove 321 on the handle 300 are avoided through the decoration 500, the flexible electrode 400 can be smoothly installed on the main body 700 and the handle 300, the continuity of the neck massager S is ensured, the sharp feeling during wearing is reduced for a user, and comfortable wearing experience is provided.
The manner in which the decoration 500 escapes from the inner surface of the flexible electrode 400 is not limited to one, and two different manners will be described in detail below.
According to an embodiment of the present invention, as shown in fig. 8, the decoration 500 is provided with a relief groove 510, and the outer surface of the flexible electrode 400 passes through and is attached to the surface of the relief groove 510. The decoration 500 thus arranged ensures the continuity of the flexible electrode 400 and reduces the obtrusive feeling when the user wears the electrode, thereby providing comfortable wearing experience.
Specifically, the decorating parts 500 have two, which are a first decorating part and a second decorating part respectively, wherein the first decorating part is provided with a first yielding groove, and the second decorating part is provided with a second yielding groove.
According to an embodiment of the present invention, the first recess 120 and the third recess 311 are connected to each other by a first recess, the first flexible electrode 410 is disposed on the first recess 120, the first recess and the third recess 311, and the bottom of the first recess, the bottom of the first recess 120 and the bottom of the third recess 311 are located on the same arc surface, that is, on the arc surface formed by the bottom of the first recess, the bottom of the first recess 120 and the bottom of the third recess 311, the bottom of the first recess 120 and the bottom of the third recess 311 can smoothly transition. When the first flexible electrode 410 is arranged on the first groove 120, the third groove 311 and the first abdicating groove, the continuity of the first flexible electrode 410 can be improved, the foreign body sensation when a user wears the flexible electrode is reduced, the user can wear the flexible electrode more comfortably and more comfortably, and the use experience of the user is improved;
and, the second abdicating groove is arranged at the connection of the second groove 130 and the fourth groove 321, the second flexible electrode 420 is arranged on the second groove 130, the fourth groove 321 and the second abdicating groove, and the bottom of the second abdicating groove, the bottom of the second groove 130 and the bottom of the fourth groove 321 are located on the same arc surface, that is, on the arc surface formed by the bottom of the second abdicating groove, the bottom of the second groove 130 and the bottom of the fourth groove 321, the bottom of the second abdicating groove, the bottom of the second groove 130 and the bottom of the fourth groove 321 can be in smooth transition. When the second flexible electrode 420 is arranged in the second groove 130, the fourth groove 321 and the second abdicating groove, the continuity of the second flexible electrode 420 can be improved, the foreign body sensation when the user wears the flexible electrode is reduced, the user can wear the flexible electrode more comfortably and comfortably, and the use experience of the user is improved.
Specifically, as shown in fig. 8, the decoration 500 includes: the ring garnish 500 includes an outer panel 520, two side panels 530, and an inner panel 540, the two side panels 530 being connected between the outer panel 520 and the inner panel 540, respectively, and the ring garnish 500 is constructed by the two side panels 530, the outer panel 520, and the inner panel 540. Moreover, the inner plate 540 is formed with the abdicating groove 510, and when the flexible electrode 400 is mounted on the first inner shell 100 and the handle 300 through the abdicating groove 510, the continuity of the flexible electrode 400 is improved, the foreign body sensation when the user wears the flexible electrode is reduced, the user wears the flexible electrode more comfortably, and the use experience of the user is improved.
Specifically, as shown in fig. 2, a first chamfer 550 is provided at the joint of the side plate 530 and the inner plate 540, a second chamfer 170 matched with the first chamfer 550 is provided on the main body 700, and a third chamfer 350 matched with the first chamfer 550 is provided on the handle 300, so that the user can feel more comfortable and comfortable in the using process by providing the first chamfer 550, the second chamfer 170 and the third chamfer 350, the foreign body feeling in use of the main body 700, the decoration 500 and the handle 300 is reduced, and the use experience of the user is improved. Moreover, the first chamfer 550, the second chamfer 170 and the third chamfer 350 are positioned on the same arc-shaped surface, so that the appearance consistency of the decorating part 500, the handle 300 and the main body 700 can be ensured, the appearance of the neck massager S is smoother, and the use experience of a user is further improved.
In addition, the outer surfaces of the outer plate 520, the main body 700 and the handle 300 are located on the same arc surface, so that the connection stability of the decoration 500 can be ensured, the outer surfaces of the decoration 500, the handle 300 and the main body 700 are in smooth transition, the appearance of the product is optimized, and the use foreign body sensation of a user is reduced.
According to another embodiment of the present invention, the decoration 500 is a non-annular structure, the end of the decoration 500 is fastened to the inner surface of the main body 700 and is spaced from the flexible electrode 400, the decoration 500 can be directly fastened to the inner surface of the main body 700 and is spaced from the flexible electrode 400 during the assembling process by configuring the decoration 500 to be the non-annular structure, and the non-annular decoration 500 is simple to process and can reduce the processing cost.
In addition, the decoration 500 may be a metal piece, the metal decoration 500 has a metal texture, and the metal decoration 500 has good thermal conductivity, so as to prevent the neck massager S from being damaged due to the expansion of the decoration 500 connected to the flexible electrode 400 when the flexible electrode 400 generates heat.
Specifically, the width of the decoration 500 is 8mm-20mm, and when the decoration 500 has a proper width, the decoration 500 has a partition limiting effect, and the deformation of the main body 700 can be directly transmitted to the handle due to the partition limiting effect of the decoration 500, so that the electronic component can be protected.
In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the invention.
In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.
While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.