Disclosure of Invention
The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention aims to provide a low-frequency neck massager, and aims to solve the problems of low comfort level, large product volume and inconvenience in carrying and use of the existing massager.
The embodiment of the invention provides a low-frequency neck massager, which comprises a massager body and two clamping arms. The massager body comprises an installation shell and a massage assembly, the massage assembly is provided with massage pieces, the massage pieces can transmit massage current, the inner side wall of the installation shell is provided with installation holes, the massage pieces are connected with the installation shell in the installation holes, the inner surface of the installation shell is parallel and level or the top end of the massage pieces protrudes out of the inner side surface of the installation shell and is smaller than 10mm, and the two clamping arms are respectively connected with the two ends of the installation shell and can be folded towards the inner side of the massager body.
Thus, the mounting hole of the mounting shell is connected with the clamping arm, so that the clamping arm can be folded inwards, and when the clamping arm is folded, the clamping arm cannot interfere with the massage instrument body, so that the massage instrument saves space after being folded and is convenient to carry; meanwhile, the massage sheet is connected with the electrode slice, so that the massage sheet is directly contacted with the neck of a user, the gap between the massager and the neck is reduced, and the massager can be designed to be smaller and more portable.
In some embodiments, the length L1 of the line connecting the two ends of the clip arm is less than or equal to the length L2 of the line connecting the two ends of the mounting housing.
In some embodiments, the massage assembly includes a flexible circuit board located within the mounting housing and outside the massage flap, the massage flap being electrically connected to the flexible circuit board, the flexible circuit board being electrically connected to a main control circuit board of the low frequency neck massager.
In some embodiments, the massage sheet includes an electrically conductive electrode sheet and a heat generating sheet connected to a flexible circuit board, the flexible circuit board is connected to the heat generating sheet at an outer side of the heat generating sheet, and the heat generating sheet is connected to the electrode sheet at an outer side of the electrode sheet.
In some embodiments, the massage sheet includes an electrode sheet that is electrically conductive and a heat generating sheet connected to the flexible circuit board, at least one of the heat generating sheet and the circuit board being inserted into the electrode sheet.
In some embodiments, the edge of the electrode tab is partially open and forms a socket into which at least one of the heat generating tab and the circuit board is inserted.
In some embodiments, the electrode pad is a flexible material, and the electrode pad has an inner layer and an outer layer, and the inner layer and the outer layer form the socket therebetween.
In some embodiments, the length of the inner layer is less than the length of the outer layer, and the inner side of the electrode sheet is formed with a guide surface opposite to the insertion opening.
In some embodiments, the electrode tab has a lip, the peripheral edge of the mounting hole of the mounting housing has a spigot corresponding to the lip, and the electrode tab is adhered to the mounting housing.
In some embodiments, the mounting housing includes an inner housing and an outer housing, the mounting hole is formed on the inner housing, and the inner housing and the electrode sheet are made of flexible materials.
Detailed Description
The embodiments of the present invention will be described in detail below, the embodiments described with reference to the drawings being exemplary, and a low frequency neck massage apparatus according to the embodiments of the present invention will be described in detail below.
A low frequency neck massager proposed according to an embodiment of the present invention will be described with reference to fig. 1 to 3.
As shown in fig. 1, the low frequency neck massager 10 includes: a massage apparatus body 11 and two clamping arms 12. The massage apparatus body 11 comprises an installation shell 111 and a massage assembly 112, the massage assembly 112 is provided with a massage sheet 1111, the massage sheet 1111 can transmit massage current, the inner side wall of the installation shell 111 is provided with an installation hole q, the massage sheet 1111 is connected with the installation shell 111 in the installation hole q, the inner surface of the installation shell 111 is flush with the inner side wall of the installation shell 111 or the top end of the massage sheet 1111 protrudes out of the inner side wall of the installation shell 111 and is less than 10mm, and the two clamping arms are respectively connected with the two ends of the installation shell 111 and can be folded towards the inner side of the massage apparatus body 11.
Specifically, massage appearance body 11 is the structure that is used for bearing the weight of the massage subassembly, and massage appearance body 11 has certain elasticity to make the user when unfolding clamp arm 12 with folding, massage appearance body 11 can cooperate the motion of clamp arm and take place corresponding elastic deformation in order to ensure that the massage appearance can be very fast get into the user state, also so when accomodating, can be very fast make the massage appearance get back to and accomodate the state, make the massage appearance convenient to use.
The low-frequency neck massager 10 refers to a massager that emits low-frequency micro-current pulses with a frequency of 1000MHZ or less. The arms 12 themselves are not foldable, and the arms 12 are rotated toward the massager body 11 to fold the low frequency neck massager 10. The two clamping arms 12 are respectively disposed at the left end and the right end of the massage device body 11, and therefore can be respectively referred to as a left clamping arm 12 and a right clamping arm 12, the left clamping arm 12 is rotatably connected to the mounting housing 111 and can be folded toward the inner side of the mounting housing 111, and the right clamping arm 12 is rotatably connected to the mounting housing 111 and can be folded toward the inner side of the mounting housing 111.
Thus, the clamping arms 12 can rotate inwards to enable the neck massager to achieve the effect of folding and containing, and when the clamping arms 12 are folded, the clamping arms 12 cannot interfere with the massager body 11, so that the space is saved after the massager is folded, and the carrying and the containing are convenient; the massage sheet 1111 has a greater cushioning thickness, such that the greater cushioning thickness will significantly enhance the user's feel when in contact with the neck; meanwhile, compared with the massage head with the traditional design, the massage sheet 1111 protrudes out of the shell 111 and is smaller in width, so that the massage sheet 1111 directly contacts with the neck of a user, the gap between the massage instrument and the neck is reduced, and the massage instrument can be designed to be smaller and more portable.
As shown in FIG. 2, the length L1 of the connecting line between the two ends of the clip arm 12 is less than or equal to the length L2 of the connecting line between the two ends of the mounting housing 111.
It should be noted that L1 indicates the straight distance between the two farthest apart end points of the outer surface of the clip arm 12, and L2 indicates the straight distance between the two farthest apart end points of the outer surface of the mounting housing 111. L1 also refers to the line length between the two furthest apart points of the inner surface of the clip arm 12, and correspondingly, L2 refers to the line length between the two furthest apart points of the inner surface of the mounting housing 111.
Therefore, enough space is left on the inner side of the inner surface of the mounting shell 111 to enable the clamping arms 12 to rotate inwards, and meanwhile, the distance between the two end points on the mounting shell 111 is greater than the length of the two end points of each clamping arm, so that a single clamping arm cannot interfere with the mounting shell or the other clamping arm when being folded, and the two clamping arms 12 are prevented from interfering with each other when being folded.
In some embodiments, the massage assembly 112 includes a flexible circuit board 1121, the flexible circuit board 1121 is located inside the mounting housing 111 and outside the massage sheet 1111, the massage sheet 1111 is electrically connected to the flexible circuit board 1121, and the flexible circuit board 1121 is electrically connected to the main control flexible circuit board 1121 of the low frequency neck massage apparatus 10.
Thus, the flexible circuit board 1121 is used for connecting the massage sheet 1111 with the main control flexible circuit board 1121, so that the main control flexible circuit board 1121 is simple and convenient when controlling the massage sheet 1111, and the flexible circuit board 1121 can be connected with two electrode sheet 1112 circuits together, thereby improving the production efficiency of the massage apparatus.
In some embodiments, the massage sheet 1111 includes an electrically conductive electrode sheet 1112 and a heat generating sheet 1113 connected to the flexible circuit board 1121, the flexible circuit board 1121 is connected to the heat generating sheet 1113 at an outer side of the heat generating sheet 1113, and the heat generating sheet 1113 is connected to the electrode sheet 1112 at an outer side of the electrode sheet 1112.
Therefore, the flexible circuit board 1121, the heat generating sheet 1113, and the electrode sheets 1112 are placed in a stacked manner in the massage apparatus body 11 with the electrode sheets 1112 located on the innermost side and the flexible circuit board 1121 located on the outermost side, so that the flexible circuit board 1121 can control the heat generating sheet 1113 and the electrode sheets 1112 at the same time. After the heating sheet 1113 is connected with the electrode sheet 1112 and the flexible circuit plate 1121, the installation steps are simplified when the massager is assembled, and the production efficiency of the massager is improved.
In some embodiments, the massage sheet 1111 includes an electrically conductive electrode sheet 1112 and a heat generating sheet 1113 connected to the flexible circuit board 1121, and at least one of the heat generating sheet 1113 and the flexible circuit board 1121 is inserted into the electrode sheet 1112.
That is, the heating sheet 1113 may be assembled into the electrode pads 1112 by plugging, the flexible circuit board 1121 may be assembled into the electrode pads 1112 by plugging, and the heating sheet 1113 and the flexible circuit board 1121 may be assembled into the electrode pads 1112 by plugging at the same time.
Like this, connect massage piece 1111 and electrode slice 1112 through the mode that uses the grafting, the grafting makes massage piece 1111 and electrode slice 1112 electricity be connected together, make heating element 1113 can realize the electricity with flexible circuit board 1121 and be connected, make electrode slice 1112 realize massage and hot compress function simultaneously, do so simultaneously and can simplify the installation procedure, let massage piece 1111 comparatively simple and convenient with being connected of electrode slice 1112, and then make the equipment of massage appearance more convenient, improved massage appearance production efficiency.
As shown in fig. 3, the edge of the electrode tab 1112 is partially opened and forms a socket 1114 into which at least one of the heat generating tab 1113 and the flexible circuit board 1121 is inserted.
Therefore, the socket 1114 is arranged on the electrode plate 1112, so that the electrode plate 1112 is convenient and fast to connect with the heating plate 1113 or/and the flexible circuit board 1121, and the production efficiency of the massager is increased.
In some embodiments, the electrode tab 1112 is a flexible material, and the electrode tab 1112 has an inner layer and an outer layer with the receptacle 1114 defined therebetween.
It should be noted that, the flexible material used for the electrode plate 1112 includes but is not limited to conductive silica gel, and the massage and hot compress effect of the massage apparatus is better by using the conductive silica gel, and meanwhile, the neck experience of the user is better when the massage apparatus is in contact with the neck by using the flexible material.
In this way, by using the electrode sheet 1112 divided into the inner layer and the outer layer, it is relatively simple to add the socket 1114 on the electrode sheet 1112 arranged in layers, a section of guide surface 1115 is reserved at the front end of the socket 1114, and the guide surface 1115 can provide positioning for assembling the flexible circuit board 1121. Meanwhile, the flexible material used for the electrode plate 1112 can make the electrode plate 1112 feel better on the neck when contacting with the neck.
In some embodiments, the inner layer has a length less than the outer layer, and the inner side of the electrode sheet 1112 is formed with a guide surface 1115 opposite the socket 1114.
Therefore, the guide surface 1115 is arranged to be matched with the socket 1114, so that the electrode plate 1112 and the massage sheet 1111 can be conveniently assembled and connected, the production steps of the massage instrument are simplified, and the production efficiency of the massage instrument is improved.
In some embodiments, the electrode tab 1112 has a lip 1116, the peripheral edge of the mounting hole q of the mounting housing 111 has a notch 1117 corresponding to the lip 1116, and the electrode tab 1112 is adhered to the mounting housing 111.
It is understood that the electrode plate 1112 and the mounting housing 111 can be connected by a method including but not limited to bonding, and can be connected by a bolt, etc. in this embodiment, the electrode plate 1112 and the mounting housing 111 are fixed by adhesive bonding, and the cost of the massager is reduced by connecting the electrode plate 1112 and the mounting housing 111 by adhesive bonding.
Therefore, the electrode plate 1112 is fixed by matching the lip 1116 structure with the seam allowance 1117, so that the electrode plate 1112 is convenient and fast to assemble on the installation shell 111, and the assembly efficiency of the massager is improved; moreover, the mounting shell 111 and the electrode plates 1112 are consistent, so that the massager can well complete massage and hot compress.
In some embodiments, the mounting housing 111 includes an inner housing 111a and an outer housing 111b, the mounting hole q is formed on the inner housing 111a, and the inner housing 111a and the electrode sheet 1112 are made of flexible materials.
Therefore, the inner shell 111a and the electrode sheet 1112 are directly contacted with the neck, and the neck can have better touch feeling by using flexible materials, so that the user experience is improved. The low frequency neck massager 10 simplifies the assembly of the low frequency neck massager 10 and improves the production efficiency of the low frequency neck massager 10 by using the way that the inner shell 111a and the outer shell 111b are mutually matched.
Other configurations of the low frequency neck massager according to embodiments of the present invention, such as a battery and an electrical pulse generating device, etc., and operations thereof, are known to those of ordinary skill in the art and will not be described in detail herein.
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.