CN220175872U - Light-transmitting lattice substrate, light-transmitting nursing head and nursing equipment - Google Patents

Abstract

The utility model provides a light-transmitting dot matrix substrate. The positive electrode and the negative electrode are correspondingly arranged on the light-transmitting lattice substrate, the positive electrode or the negative electrode is electrically connected with the back conductive structure which is electrically connected with the main board through the lead forming area on the front side of the light-transmitting lattice substrate, and the positive electrode and the negative electrode are respectively electrically connected with the back conductive structure through the holes on the light-transmitting lattice substrate. The present utility model also provides a light permeable care head comprising: a phototherapy substrate, a light-transmitting bracket and a light-transmitting lattice substrate as described above; the light-transmitting support is arranged at the front end of the light-emitting surface of the phototherapy substrate and is used for supporting the light-transmitting lattice substrate; light emitted by the phototherapy substrate passes through the light-transmitting support and the light-transmitting lattice substrate and then is emitted outwards. The utility model also provides a care apparatus comprising a care apparatus body and a care head as described above.

Description

Light-transmitting lattice substrate, light-transmitting nursing head and nursing equipment

Technical Field

The utility model relates to a nursing article, in particular to a skin nursing article.

Background

With the development of society, people pay more attention to beauty, and beauty products on the market have been developed, including various forms of beauty instruments. The beauty instrument is a device which uses physical therapeutics as a reference to enable skin to be relaxed, clean better, absorb skin care products, improve facial blood circulation and activate facial cells so as to achieve the purpose of beauty. The beauty instrument is mainly divided into a beauty instrument for a large hospital line and a handheld household beauty instrument. The existing hand-held beauty instrument can only simply perform massage and skin care, has single function and low practicality, and cannot meet the use requirements of people.

For this reason, CN202122875292.1 discloses multi-functional domestic beauty instrument, including shell, massage head, display module, phototherapy nursing source, positive negative ion module, heating module, vibration module, EMS micro-current module, freezing module, mainboard and battery, the massage head slope is installed on the top of shell, the phototherapy nursing source is installed on the massage head, the mainboard with the battery is installed in the shell, display module installs in the shell and follow the place ahead of shell stretches out, display module with mainboard signal connection and with the battery electricity is connected, display module, positive negative ion module, heating module, vibration module, EMS micro-current module and freezing module all install on the mainboard and with the battery electricity is connected, the louvre has been seted up on the rear top of shell. The utility model can realize skin care and beauty with multiple functions, effectively improve the practicability of the beauty instrument and meet the use demands of people.

However, this solution has a relatively complex structure, and cannot perform phototherapy in a care mode such as micro-current or electroporation, which has a relatively large limitation.

Disclosure of Invention

The main technical problem to be solved by the utility model is to provide the light-transmitting dot matrix substrate, so that a plurality of nursing modes can be realized, and light rays emitted by the phototherapy substrate can not be blocked.

In order to solve the technical problems, the utility model provides a light-transmitting lattice substrate, wherein a positive electrode and a negative electrode are correspondingly arranged on the light-transmitting lattice substrate, the positive electrode or the negative electrode is electrically connected with a lead forming area on the front side of the light-transmitting lattice substrate, a back conductive structure for electrically connecting with a main board is arranged on the back side of the light-transmitting lattice substrate, and the positive electrode and the negative electrode are respectively electrically connected with the back conductive structure through holes on the light-transmitting lattice substrate.

In a preferred embodiment: the area electrical connection means: the positive electrode and the negative electrode corresponding to the same nursing function are divided into a plurality of positive electrode groups and negative electrode groups, the positive electrodes in the same positive electrode groups are electrically connected through leads, and the negative electrodes in the same negative electrode groups are electrically connected through leads; the positive electrode groups corresponding to the same nursing function are arranged at intervals, and the negative electrode groups are also arranged at intervals.

In a preferred embodiment: the positive electrode group and the negative electrode group are arranged along the circumferential direction of the light-transmitting lattice substrate.

In a preferred embodiment: the back conductive structure is a conductive ring arranged in a concentric circle, the positive electrode group and the negative electrode group corresponding to the same nursing function are respectively provided with the open holes, and the open holes of the positive electrode group and the negative electrode group are different in position, so that the positive electrode group and the negative electrode group are respectively electrically connected with different conductive rings through the open holes; the conducting ring is electrically connected with the positive electrode bonding pad or the negative electrode bonding pad on the back of the light-transmitting lattice substrate.

In a preferred embodiment: the positive electrode group and the negative electrode group corresponding to different nursing functions are different in positions of openings.

In a preferred embodiment: the area electrical connection means: the positive electrode and the negative electrode corresponding to the same nursing function are divided into a plurality of positive electrode groups and negative electrode groups, the positive electrodes in the same positive electrode groups are electrically connected through leads, and the negative electrodes in the same negative electrode groups are electrically connected through leads; the positive electrode groups corresponding to the same nursing function are arranged adjacently, and the negative electrode groups are arranged adjacently.

In a preferred embodiment: the front side of the light-transmitting dot matrix substrate is electrically connected with a plurality of positive electrode groups corresponding to the same nursing function through leads, and is electrically connected with a plurality of negative electrode groups corresponding to the same nursing function through leads.

In a preferred embodiment: the back conductive structure is a positive conductive spring needle and a negative conductive spring needle which are arranged corresponding to the nursing function, and the same nursing function is respectively provided with a positive electrode and a negative electrode which are electrically connected with the corresponding positive conductive spring needle and negative conductive spring needle through the holes on the light-transmitting dot matrix substrate.

In a preferred embodiment: the back conductive structure is an anode bonding pad and a cathode bonding pad which are arranged corresponding to the nursing function, and one anode electrode and one cathode electrode are respectively arranged in the same nursing function and are electrically connected with the corresponding anode bonding pad and the corresponding cathode bonding pad through the open holes.

In a preferred embodiment: the positive electrode and the negative electrode are divided into a micro-current positive electrode, a micro-current negative electrode, an electroporation positive electrode and an electroporation negative electrode according to different nursing functions.

The present utility model also provides a light permeable care head comprising: a phototherapy substrate, a light-transmitting bracket and a light-transmitting lattice substrate as described above;

the light-transmitting support is arranged at the front end of the light-emitting surface of the phototherapy substrate and is used for supporting the light-transmitting lattice substrate; light rays emitted by the phototherapy substrate penetrate through the light-transmitting support and the light-transmitting lattice substrate and then are emitted outwards;

in a preferred embodiment: and a yielding opening is formed in the circle center of the light-transmitting dot matrix substrate, and an ultrasonic contact and an ultrasonic transducer are installed in the yielding opening.

In a preferred embodiment: the phototherapy base plate is annular, and the phototherapy LED chip is arranged along the circumference of the phototherapy base plate.

In a preferred embodiment: the upper surface of printing opacity dot matrix base plate still is provided with a printing opacity and decorates the apron, printing opacity is decorated and is covered and is corresponded anodal electrode and negative electrode are provided with the mounting hole respectively, be provided with the conductive bead that is used for increasing electrode and human area of contact in the mounting hole.

The utility model also provides a care apparatus characterized by comprising a care apparatus body and a care head as described above.

The utility model also provides a care apparatus comprising a care apparatus body and a care head as described above.

Compared with the prior art, the technical scheme of the utility model has the following beneficial effects:

1. the utility model provides a light-permeable nursing head, which can realize the avoidance of light rays emitted by a phototherapy substrate through a light-permeable bracket and a lattice substrate, so that the phototherapy function of the phototherapy substrate can be normally used. Meanwhile, the electrode is arranged on the dot matrix substrate, so that the nursing head can realize a nursing mode through the electrode besides the phototherapy mode. The functions of the nursing head are increased, and different functions can not be affected mutually, so that phototherapy can be realized while nursing.

2. The utility model provides a light-permeable nursing head, wherein an anode electrode and a cathode electrode with the same nursing function are respectively divided into a plurality of groups of electrode groups, are connected in series through a lead wire on the front surface, and are connected with a back surface conductive structure through an opening on a lattice substrate. Thus realizing the effect of hiding the wiring. And the electrode heads in the lattice form are arranged more densely, so that more dense current paths can be formed to achieve better physiotherapy effects.

3. The utility model provides a light-transmitting lattice substrate, which is formed by regional connection of leads on the front surface of the substrate on electrodes with the same nursing function, and then the electrodes are electrically connected with a back conductive structure through openings on the substrate. The purpose of hiding the wiring is achieved, so that the substrate can emit light in the area without the electrode, and the light of phototherapy can not be shielded.

Drawings

Fig. 1 is a front view of a nursing device in a preferred embodiment 1 of the present utility model;

fig. 2 is a sectional view of the nursing apparatus in the preferred embodiment 1 of the present utility model;

FIG. 3 is an enlarged view of a portion of FIG. 2;

FIG. 4 is a schematic view showing the phototherapy function in the preferred embodiment 1 of the present utility model;

FIG. 5 is an enlarged view of a portion of FIG. 4;

FIG. 6 is a schematic view of a phototherapy substrate according to a preferred embodiment 1 of the present utility model;

FIG. 7 is an exploded view of a preferred embodiment 1 of the present utility model;

FIG. 8 is a schematic front view of a light-transmitting dot matrix substrate according to a preferred embodiment 1 of the present utility model;

FIG. 9 is a schematic diagram of the back surface of a light-transmitting dot matrix substrate according to a preferred embodiment 1 of the present utility model;

FIG. 10 is a schematic front view of a light-transmitting dot matrix substrate according to a preferred embodiment 2 of the present utility model;

FIG. 11 is a schematic view of the back surface of a light-transmitting dot matrix substrate according to a preferred embodiment 2 of the present utility model;

FIG. 12 is a schematic front view of a light-transmitting dot matrix substrate according to a preferred embodiment 3 of the present utility model;

FIG. 13 is a schematic view showing the back surface of a light-transmitting dot matrix substrate according to a preferred embodiment 3 of the present utility model;

fig. 14 is a sectional view of the nursing apparatus of the preferred embodiment 4 of the utility model;

fig. 15 is a partial enlarged view of fig. 14.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model; it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments, and that all other embodiments obtained by persons of ordinary skill in the art without making creative efforts based on the embodiments in the present utility model are within the protection scope of the present utility model.

In the description of the present utility model, it should be noted that the positional or positional relationship indicated by the terms such as "upper", "lower", "inner", "outer", "top/bottom", etc. are based on the positional or positional relationship shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," configured to, "" engaged with, "" connected to, "and the like are to be construed broadly, and may be, for example," connected to, "wall-mounted," connected to, removably connected to, or integrally connected to, mechanically connected to, electrically connected to, directly connected to, or indirectly connected to, through an intermediary, and may be in communication with each other between two elements, as will be apparent to those of ordinary skill in the art, in view of the detailed description of the terms herein.

Example 1

Referring to fig. 1 to 9, the present embodiment provides a nursing apparatus including a nursing apparatus body 1 and a nursing head 2. The nursing head 2 comprises a base 21, a sealing ring 22, a phototherapy substrate 23, a light-transmitting bracket 24 and a light-transmitting lattice substrate 25;

the periphery of the phototherapy substrate 23 is provided with a plurality of lugs 231 extending outwards along the radial direction, the lugs 231 are provided with jacks 232, and the light-transmitting support 24 is provided with inserting posts 241 corresponding to the jacks 232 so as to fix the light-transmitting support 24 in front of the phototherapy substrate 23; in this embodiment, the phototherapy substrate 23 is annular, and the phototherapy LED chips 231 are disposed along the circumferential direction of the phototherapy substrate 23.

The side surface of the light-transmitting support 24 is provided with a clamping piece 242, and the clamping piece 242 is fixedly connected with the inner wall of the base 21 through a sealing ring 22 so as to fix the light-transmitting support 24 and the phototherapy substrate 23 in the base 21; the light-transmitting lattice substrate 25 is glued on the upper surface of the light-transmitting support 24, so that the light-transmitting support 24 supports the light-transmitting lattice substrate 25. Because the light-transmitting support 24 and the light-transmitting lattice substrate 25 are both made of transparent materials, light emitted by the phototherapy substrate 23 passes through the light-transmitting support 24 and the light-transmitting lattice substrate 25 and then is emitted outwards, and the light emitted by the phototherapy substrate 23 is not blocked by the light-transmitting support 24 and the light-transmitting lattice substrate 25, so that the normal use of the phototherapy function is ensured. And because the phototherapy function and the nursing function are not mutually influenced, phototherapy can be added at the same time of nursing.

The light-transmitting dot matrix substrate 25 is used for performing care means such as micro-current massage or electroporation on the skin through the electrodes on the light-transmitting dot matrix substrate 25 by contacting with the skin of a human body. For this purpose, the transparent lattice substrate 25 is correspondingly provided with a positive electrode and a negative electrode, the positive electrode is electrically connected to the region formed by the lead 2503 on the front surface of the transparent lattice substrate 25, the back surface of the transparent lattice substrate 25 is provided with a back conductive structure for electrically connecting to the motherboard, and the positive electrode and the negative electrode are electrically connected to the back conductive structure through the opening 250 on the transparent lattice substrate 25. Because the positive electrode and the negative electrode with the same nursing function are respectively divided into a plurality of electrode groups, and are connected in series through the lead 2503 on the front surface, and then are connected with the back surface conductive structure through the opening 250 on the lattice substrate. Thus realizing the effect of hiding the wiring.

In this embodiment, the care modes to be implemented by the light-transmitting dot matrix substrate 25 are a micro-current mode and an electroporation mode, so that the positive electrode is divided into a micro-current positive electrode and an electroporation positive electrode, and the negative electrode is divided into a micro-current negative electrode and an electroporation negative electrode.

The four electrodes are arranged in the following manner: the micro-current positive electrode and the micro-current negative electrode are divided into a plurality of groups of micro-current positive electrode groups 251 and micro-current negative electrode groups 252, wherein micro-current positive electrodes in the same group of micro-current positive electrode groups 251 are electrically connected through leads 2503, and micro-current negative electrodes in the same group of micro-current negative electrode groups 252 are electrically connected through leads 2503; the micro-current positive electrode groups 251 are arranged at intervals, and the micro-current negative electrode groups 252 are also arranged at intervals. The electroporation positive electrode and the electroporation negative electrode are divided into a plurality of groups of electroporation positive electrode groups 253 and electroporation negative electrode groups 254, the electroporation positive electrodes in the same group of electroporation positive electrode groups 253 are electrically connected through a lead 2503, and the electroporation negative electrodes in the same group of electroporation negative electrode groups 254 are electrically connected through a lead 2503; and the electroporation positive electrode 253 and the electroporation negative electrode 254 are arranged at intervals.

Specifically, in the present embodiment, the electrode groups are arranged along the circumferential direction of the light-transmitting dot matrix substrate 25, and the arrangement order of the electrode groups along the counterclockwise direction is: electroporation positive electrode assembly 253, microcurrent positive electrode assembly 251, electroporation negative electrode assembly 254, microcurrent negative electrode assembly 252.

In this embodiment, the front sides of the transparent lattice substrate 25 are not electrically connected together, and the back conductive structures are conductive rings 255 arranged in concentric circles in order to realize the electrical connection between the positive electrode groups or the negative electrode groups with the nursing function, so that the positive electrode groups or the negative electrode groups with the nursing function are electrically connected with each other. The number of the conductive rings 255 corresponds to the types of the electrode groups, for example, in this embodiment, there are four electrode groups, and the number of the corresponding conductive rings 255 is four. The micro-current positive electrode group 251 and the micro-current negative electrode group 252 corresponding to the micro-current nursing function are respectively provided with the open holes 250, and the positions of the open holes 250 of the micro-current positive electrode group 251 and the micro-current negative electrode group 252 are different, so that the micro-current positive electrode group 251 and the micro-current negative electrode group 252 are respectively electrically connected with different conductive rings 255 through the open holes 250; the conductive ring 255 is electrically connected to the positive electrode pad 2501 or the negative electrode pad 2502 on the back of the light-transmitting dot matrix substrate 25. It is obvious that, for the electroporation positive electrode 253 and the electroporation negative electrode 254, the positions of the openings 250 are different from the positions of the openings 250 of the micro-current positive electrode 251 and the micro-current negative electrode 252, so that the electrical connection between the different types of electrode groups and the different conductive rings 255 can be ensured, and the mutual interference between the different nursing functions can be avoided.

In addition, in order to increase the contact area between the electrode and the skin of the human body and further increase the nursing effect, a transparent decorative cover plate 26 is further disposed on the upper surface of the transparent dot matrix substrate 25, mounting holes are respectively disposed on the transparent decorative cover plate 26 corresponding to the positive electrode and the negative electrode, and conductive beads 261 for increasing the contact area between the electrode and the human body are disposed in the mounting holes.

In order to further increase the nursing function, a relief opening 260 is provided at the center of the transparent lattice substrate 25, and the ultrasonic contact 27 and the ultrasonic transducer 28 are installed in the relief opening 260. Wherein the ultrasonic 27 contact has a ring of skirt, the lower surface of which is attached to the light-transmitting bracket 24 by gluing.

Example 2

Referring to fig. 10 to 11, this embodiment differs from embodiment 1 in that: the micro-current positive electrode groups 251, the micro-current negative electrode groups 252, the electroporation positive electrode groups 253 and the electroporation negative electrode groups 254 are arranged adjacently, so that the positive electrode groups with one nursing function are all arranged in the same area, and the negative electrode groups are also arranged in the same area. The front side of the light-transmitting dot matrix substrate 25 is electrically connected to a plurality of groups of positive electrode groups corresponding to the micro-current through the lead 2503, and is electrically connected to a plurality of groups of negative electrode groups corresponding to the micro-current through the lead 2503. The front side of the transparent lattice substrate 25 is also electrically connected to a plurality of positive electrode groups corresponding to the electroporation through the lead 2503, and is also electrically connected to a plurality of negative electrode groups corresponding to the electroporation through the lead 2503.

The back conductive structures in this embodiment are micro-current positive conductive pins 256 and micro-current negative conductive pins 257, and electroporation positive conductive pins 258 and electroporation negative conductive pins 259, which are disposed corresponding to the micro-current. One positive electrode and one negative electrode are respectively arranged in the microcurrent and electroporation electrodes, and are electrically connected with the corresponding positive conductive spring needle and the corresponding negative conductive spring needle through the holes 250 on the light-transmitting lattice substrate 25.

Example 3

Referring to fig. 12 to 13, this embodiment differs from embodiment 2 in that: the electroporation care function is canceled, so that only the micro-current positive electrode group 251 and the micro-current negative electrode group 252 are provided. And the back conductive structures are a positive electrode pad 2501 and a negative electrode pad 2502, wherein one positive electrode and one negative electrode are respectively arranged in the micro-current electrodes, and are electrically connected with the corresponding positive electrode pad 2501 and negative electrode pad 2502 through the holes 250.

Example 4

Referring to fig. 14 to 15, this embodiment is different from embodiment 1 in that the conductive beads 261 in the embodiment are eliminated.

The foregoing is only a preferred embodiment of the present utility model, but the design concept of the present utility model is not limited thereto, and any person skilled in the art will be able to make insubstantial modifications of the present utility model within the scope of the present utility model disclosed herein by this concept, which falls within the actions of invading the protection scope of the present utility model.

Claims (15)

1. The light-transmitting dot matrix substrate is characterized in that: the positive electrode and the negative electrode are correspondingly arranged on the light-transmitting lattice substrate, the positive electrode or the negative electrode is electrically connected with the back conductive structure which is electrically connected with the main board through the lead forming area on the front side of the light-transmitting lattice substrate, and the positive electrode and the negative electrode are respectively electrically connected with the back conductive structure through the holes on the light-transmitting lattice substrate.

2. The light-transmitting dot matrix substrate according to claim 1, wherein: the area electrical connection means: the positive electrode and the negative electrode corresponding to the same nursing function are divided into a plurality of positive electrode groups and negative electrode groups, the positive electrodes in the same positive electrode groups are electrically connected through leads, and the negative electrodes in the same negative electrode groups are electrically connected through leads; the positive electrode groups corresponding to the same nursing function are arranged at intervals, and the negative electrode groups are also arranged at intervals.

3. The light-transmitting dot matrix substrate according to claim 2, wherein: the positive electrode group and the negative electrode group are arranged along the circumferential direction of the light-transmitting lattice substrate.

4. The light-transmitting dot matrix substrate according to claim 2, wherein: the back conductive structure is a conductive ring arranged in a concentric circle, the positive electrode group and the negative electrode group corresponding to the same nursing function are respectively provided with the open holes, and the open holes of the positive electrode group and the negative electrode group are different in position, so that the positive electrode group and the negative electrode group are respectively electrically connected with different conductive rings through the open holes; the conducting ring is electrically connected with the positive electrode bonding pad or the negative electrode bonding pad on the back of the light-transmitting lattice substrate.

5. The light-transmitting dot matrix substrate according to claim 4, wherein: the positive electrode group and the negative electrode group corresponding to different nursing functions are different in positions of openings.

6. The light-transmitting dot matrix substrate according to claim 1, wherein: the area electrical connection means: the positive electrode and the negative electrode corresponding to the same nursing function are divided into a plurality of positive electrode groups and negative electrode groups, the positive electrodes in the same positive electrode groups are electrically connected through leads, and the negative electrodes in the same negative electrode groups are electrically connected through leads; the positive electrode groups corresponding to the same nursing function are arranged adjacently, and the negative electrode groups are arranged adjacently.

7. The light-transmitting dot matrix substrate according to claim 6, wherein: the front side of the light-transmitting dot matrix substrate is electrically connected with a plurality of positive electrode groups corresponding to the same nursing function through leads, and is electrically connected with a plurality of negative electrode groups corresponding to the same nursing function through leads.

8. The light-transmitting dot matrix substrate according to claim 6, wherein: the back conductive structure is a positive conductive spring needle and a negative conductive spring needle which are arranged corresponding to the nursing function, and the same nursing function is respectively provided with a positive electrode and a negative electrode which are electrically connected with the corresponding positive conductive spring needle and negative conductive spring needle through the holes on the light-transmitting dot matrix substrate.

9. The light-transmitting dot matrix substrate according to claim 6, wherein: the back conductive structure is an anode bonding pad and a cathode bonding pad which are arranged corresponding to the nursing function, and one anode electrode and one cathode electrode are respectively arranged in the same nursing function and are electrically connected with the corresponding anode bonding pad and the corresponding cathode bonding pad through the open holes.

10. The light-transmitting dot matrix substrate according to claim 1, wherein: the positive electrode and the negative electrode are divided into a micro-current positive electrode, a micro-current negative electrode, an electroporation positive electrode and an electroporation negative electrode according to different nursing functions.

11. A light permeable nursing head characterized by comprising: a phototherapy substrate, a light-transmissive support, a light-transmissive lattice substrate according to any one of claims 1-10;

the light-transmitting support is arranged at the front end of the light-emitting surface of the phototherapy substrate and is used for supporting the light-transmitting lattice substrate; light emitted by the phototherapy substrate passes through the light-transmitting support and the light-transmitting lattice substrate and then is emitted outwards.

12. The light permeable nursing head of claim 11 wherein: and a yielding opening is formed in the circle center of the light-transmitting dot matrix substrate, and an ultrasonic contact and an ultrasonic transducer are installed in the yielding opening.

13. The light permeable nursing head of claim 11 wherein: the phototherapy base plate is annular, and the phototherapy LED chip is arranged along the circumference of the phototherapy base plate.

14. The light permeable care head according to any one of claims 11 to 13, wherein: the upper surface of printing opacity dot matrix base plate still is provided with a printing opacity and decorates the apron, printing opacity is decorated and is covered and is corresponded anodal electrode and negative electrode are provided with the mounting hole respectively, be provided with the conductive bead that is used for increasing electrode and human area of contact in the mounting hole.

15. A care apparatus characterized by comprising a care apparatus body and a care head as claimed in any one of claims 11 to 14.