SUMMERY OF THE UTILITY MODEL
The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide an eye-type eye massager aims at solving the problem that locate the touch operation panel's on the eye-shade maneuverability and user experience are poor.
The utility model discloses glasses formula eye massage appearance of first aspect embodiment, include: the eye massage device comprises a massager body, two clamping legs and an electric control assembly, wherein the massager body comprises an eye massage mechanism, the two clamping legs are respectively and rotatably connected to two ends of the massager body, at least one clamping leg is provided with a containing cavity, the electric control assembly comprises an induction screen, and the induction screen is arranged in the containing cavity.
Like this, the higher reaction sensitivity of response screen makes the user only need slide on the response screen when the operation, the operation precision is high, the operation mode is comparatively simple, and set up the different functions that can control the massage appearance at the response screen of massage appearance main part both sides separately, thereby further operation flow when having optimized user control glasses formula eye massage appearance, make the operation of massage appearance become convenient, establish the response screen simultaneously and hold the chamber and can protect the response screen in holding the intracavity, thereby the life of response screen has been increased.
In some embodiments, the inductive screen is disposed proximate an outer side of the clamping leg.
In some embodiments, the inner wall of the accommodating cavity is provided with a plurality of connecting columns, the induction screen is provided with a mounting hole, and the connecting columns penetrate through the mounting hole and are connected with the induction screen in a cold-heading or hot-heading mode.
In some embodiments, the clamping leg comprises: installation shell and elasticity clamping part, the one end and the massager main part of installation shell rotate to be connected, and the inboard of installation shell is opened and is held the chamber in order to form, and the elasticity clamping part is connected with the installation shell and is used for the centre gripping head.
In some embodiments, the mounting case includes an outer sidewall and top and bottom walls connected to the outer sidewall, and the inductive screen is disposed against the outer sidewall of the mounting case.
In some embodiments, the thickness of the mounting shell is less than or equal to 3 mm.
In some embodiments, the outer surface of the side wall of the mounting housing is provided with an indication groove and/or an indication lamp.
In some embodiments, the clamping leg further has a cover plate detachably connected to the mounting shell, the cover plate for closing the accommodation chamber, the cover plate being flush with an inner side of the resilient clamping portion, and the mounting shell protruding the resilient clamping portion to an outer side.
In some embodiments, the inductive screen is a capacitive screen.
In some embodiments, the two clamping legs are provided with accommodating cavities, the electronic control assembly further comprises a battery and a circuit board connected with the battery, the induction screens are electrically connected with the circuit board, the number of the induction screens and the number of the battery are two, one battery, one induction screen and the circuit board are located in the accommodating cavity of one of the clamping legs, the other battery and the other induction screen are located in the accommodating cavity of the other clamping leg, and the man-machine interaction functions of the two induction screens are different.
In some embodiments, the sensing screen is configured to sense a gesture motion and to control at least one of: the switching of the heating function, the switching of the gear of the heating function, the switching of the massage function and the switching of the gear of the massage function.
In some embodiments, the sensing panel is configured to control the switching of the heating function and the shifting of the gears when the first gesture is sensed, and the sensing panel is configured to control the switching of the massage function and the shifting of the gears when the second gesture is sensed.
In some embodiments, the number of the induction screens is one, and the induction screens are arranged in the accommodating cavities of the clamping legs on the right side.
In some embodiments, the number of the sensing screens is two, the two sensing screens are respectively and correspondingly arranged in the two clamping legs, one of the sensing screens is configured to independently control the eye massaging function and the eye heating function corresponding to the left eye, and the other sensing screen is configured to independently control the eye massaging function and the eye heating function corresponding to the right eye.
In some embodiments, the two sensing screens are configured to control a heating function and an eye massaging function, respectively, wherein the eye heating function of the left eye and the eye heating function of the right eye are controlled synchronously, and the eye massaging function of the left eye and the eye massaging function of the right eye are controlled synchronously.
Detailed Description
Embodiments of the present invention are described in detail below, and the embodiments described with reference to the drawings are exemplary.
A glasses-type eye massager according to an embodiment of the present invention will be described in detail with reference to fig. 1 to 4.
As shown in fig. 1, the glasses-type eye massager according to the embodiment of the present invention comprises: the massager comprises a massager body 11, two clamping legs 12 and an electric control assembly 13.
The massager body 11 comprises an eye massaging mechanism (not shown in the figure), two clamping legs 12 are respectively and rotatably connected to two ends of the massager body 11, at least one clamping leg 12 is provided with an accommodating cavity 121, the electric control component 13 comprises a sensing screen 131, and the sensing screen 131 is arranged in the accommodating cavity 121.
Specifically, the massager body 11 may be shaped similarly to the shape of the eyecup or the eyeglass frame, and the massage mechanism may have a massage function. The two clamping legs 12 are pivotally connected with the massage instrument main body 11, so that when the massage instrument is not worn, the clamping legs 12 can be rotated to a position close to the inner side of the massage instrument main body, and the massage instrument main body is convenient to store; when the massager is worn, the clamping legs 12 can be rotated to the unfolding position, the massager body 11 is placed above the bridge of the nose and corresponds to the eyes, and the two clamping legs 12 can extend to the back side of the head or the positions of the head above the ears to clamp the head, so that the eye massager is positioned.
Compare in the existing design of setting up operating panel in the outside of massager main part 11, the utility model discloses a with the design of response screen 131 setting in centre gripping leg 12, outside the centre gripping leg 12 can be stretched out to response screen 131 partly, also can be located centre gripping leg 12 completely. Specifically, the sensing screen 131 can sense an operation gesture of an operator in a non-touch manner, thereby realizing human-computer interaction without direct contact. The holding leg 12 has a receiving cavity 121 capable of receiving at least the sensing screen 131 so as to integrate the sensing screen 131 inside the temple, and a user can be sensed by the sensing screen 131 when the user performs corresponding actions on the area of the holding leg 12 corresponding to the sensing screen 131.
The area capable of being sensed can be called a sensing area, so that an operator can conveniently find the sensing area. Marks can be arranged in the sensing area on the clamping leg 12, such as a mark protrusion or a mark depression formed on an attaching mark or a bracket, and the marking mode of the sensing area will be described in detail later, which is not described herein.
Thus, the higher response sensitivity of the induction screen 131 enables a user to perform corresponding gestures (including but not limited to sliding operations) on the induction screen 131 corresponding to the induction groove 1216 of the temple only by using a finger to perform the corresponding gestures when operating, so that the user can be induced by the induction screen 131 and further interact with the induction screen 131, and the operation precision is high and the operation mode is simpler; in addition, the induction screen 131 is arranged in the accommodating cavity 121, so that the accommodating cavity 121 can protect the induction screen 131, and the service life of the induction screen 131 is prolonged.
In some embodiments, the sensing screen 131 is configured to sense gesture motions and is used to control at least one of: switching of heating function, switching of massage function (such as beating and vibration), and switching of massage function.
Therefore, in actual use, when the heating function has only one heating temperature and the massage function has only one force, a gesture can be designed to sequentially control the heating function to be started, the massage function to be started, the heating function to be closed and the massage function to be closed. When the heating function has multiple heating gears and the massage function has multiple massage force for selection, the induction screen 131 can also control the switching between the gears.
Specifically, when the heating range and the massage range are plural, the sensing panel 131 is configured to control the switching of the heating function and the range switching when the first gesture is sensed, and the sensing panel 131 is configured to control the switching of the massage function and the range switching when the second gesture is sensed.
For example, when the user moves with a first gesture (e.g., slides from front to back) through the sensing area on the clamping leg 12 opposite to the sensing screen 131, the heating function is turned on and is in a default gear (e.g., low gear or low gear), when the first gesture is performed again, the gear is switched to a gear of a higher level or a lower level, and a specific gear switching sequence may be preset before the product leaves the factory. Similarly, when the user moves with a second gesture (e.g. sliding from back to front, or from top to bottom, etc.) through the sensing region, the switching of the massage function can be controlled, the principle is similar to the switching of the heating function, and the description thereof is omitted.
In addition, the power on and off can be realized through the induction screen 131 without additionally setting a switch key, specifically, the action of controlling the power on and off can be independent of the control action of the heating and massaging functions, for example, when the staying time of a finger in the position of the induction zone exceeds a preset time (such as 5-10 seconds), the power on or off action is executed, when a user uses the massager, the indicator 12217 is flashed at different times or intervals when using different functions, for example, the indicator 1217 is normally lit for 5 seconds when the massager is turned off, the first heating gear is lit weakly, the second heating gear is lit moderately, the third heating gear is lit highly, the third heating gear can use the indicator 1217 which is different from the color when the massager is used, and the grading of various brightnesses of the indicator 1217 can be performed according to the gears.
The eye massager can also have a memory function, namely the massager can store the gear used by the user before the user turns off the machine last time or the user can input and set the corresponding gear as the default gear according to the memory function, so that the massager is directly switched to the default gear after the machine is turned on, thereby providing customized service for the user, being closer to the preference of the user,
In some embodiments, the number of the sensing screens 131 is at least 1, and when the number of the sensing screens 131 is 1, the sensing screens 131 are disposed in the accommodating cavities 121 of the right-side clamping legs 12, that is, the sensing screens 131 are disposed in the right-side clamping legs 12 of the head after being worn, so as to conform to the common right-hand operation habit.
When the number of the induction screens 131 is two, the two induction screens 131 can be respectively and correspondingly arranged in the two clamping legs 12, and the induction screens 131 on the two sides can control different massage functions, for example, the left induction screen 131 can control the heating function, and the right induction screen 131 can control the massage function. Of course, in other embodiments, the left sensing screen 131 and the right sensing screen 131 may also be used to control the eye massaging mechanism corresponding to the left eye and the eye massaging mechanism corresponding to the right eye, so that the two eye massaging mechanisms may be controlled to perform different massaging operations according to the requirement.
The above embodiment can further optimize the operation flow when the user controls the glasses-type eye massager 10, so that the operation of the massager becomes convenient and fast, and at the same time, the operation flow is optimized
In the particular embodiment shown in fig. 1, the inductive screen 131 is disposed adjacent the outer side of the clamping legs. Therefore, on the one hand, the sensing screen 131 facing the inner wall of the accommodating cavity 121 can prevent the user from mistakenly touching the corresponding sensing area on the temple when the user takes off or wears the glasses-type eye massager 10, which causes misoperation (if the sensing screen is arranged on the upper end surface of the temple, the user can easily mistakenly touch the finger when taking off or wearing the massager). On the other hand, the outer side wall 1213 of the clamping leg 12 has a relatively large area, so that the touch operation is more convenient and less prone to accidental touch during use.
As shown in fig. 2, the inner wall of the accommodating chamber 121 is provided with a plurality of connecting columns 122, the induction screen 131 has a mounting hole 1311, and the plurality of connecting columns 122 pass through the mounting hole 1311 and are connected to the induction screen 131 in a cold or hot heading manner.
Like this, through letting spliced pole 122 be connected with response screen 131 with cold mound or hot mound mode through the adoption for the inner wall distance of response screen 131 and centre gripping leg 12 is shorter, and uses the connection mode that the mound was pressed when assembling glasses formula eye massage appearance 10, and the assembly rate is very fast, and production efficiency is high, and further, the distance between the inner wall of the opposite side of response screen 131 and mirror leg is longer, has vacated the space for the installation of battery 132, circuit board 133.
As shown in fig. 2, the grip leg 12 includes: a mounting case 1211 rotatably connected at one end thereof to the massager body 11, the mounting case 1211 being open at an inner side thereof to form the receiving chamber 121, and an elastic clamping portion 1212 connected to the mounting case 1211 for clamping the head. Specifically, the mounting case 1211 and the elastic grip portion 1212 of the grip leg 12 may be integrally formed, and the grip position may be located at the rear side of the head.
From this, elasticity clamping part 1212 can be strutted in order to wear the eye massage appearance, it sets up to be close to the massage appearance body to hold chamber 121, not only can improve the intensity of centre gripping leg 12 and eye massage appearance junction, and installation shell 1211 can disperse partly massage appearance body and apply the power on the bridge of the nose, transmit elasticity clamping part 1212 and apply in the head rear side with the gravity of massage appearance main part 11, just so can disperse the load of massage appearance main part 11, avoid using the massage appearance to cause the too big problem of local load to bridge of the nose and head for a long time, user experience has been improved.
In one embodiment, the mounting casing 1211 includes an outer side wall 1213 and top and bottom walls 1214, 1215 connected to the outer side wall 1213, with the inductive screen 131 disposed against the outer side wall 1213 of the mounting casing 1211. Like this, can let the distance of response screen 131 and the outer wall of centre gripping leg 12 be closer to make the user when using finger operation, the interval between finger and the response screen 131 is less, thereby makes the response of response screen 131 comparatively sensitive.
In one particular embodiment, the thickness of the mounting shell 1211 is less than or equal to 3 mm. In particular, the thickness of the outer side wall 1213 of the mounting casing 1211 for mounting the inductive screen 131 is less than or equal to 3 mm. Therefore, by adopting the light and thin installation shell 1211, the induction screen 131 can feel the control of the user quickly, the problems of poor operation contact and insensitive induction of the user when the thickness is too large are avoided, and the situations that the protection capability of the installation shell 1211 on the induction screen 131 is insufficient and the induction screen 131 is easy to fall off and break when the thickness is too small are avoided.
In the particular embodiment shown in fig. 1, the clamping leg 12 further has a cover plate 123 detachably connected to the mounting shell 1211, the cover plate 123 being intended to close the receiving chamber 121, the cover plate 123 being flush with the inner side of the resilient clamping portion 1212, and the mounting shell 1211 projecting beyond the resilient clamping portion 1212.
Therefore, the detachable cover plate 123 not only can simplify the dismounting and mounting process of the clamping leg 12, but also can make the clamping leg 12 more convenient to maintain or replace parts by adopting the detachable structure. Meanwhile, the cover plate 123 can seal the accommodating cavity 121, so that the accommodating cavity 121 can form an independent space, and a main circuit structure of the glasses-type eye massager 10 can be protected, thereby avoiding that the main circuit structure is short-circuited when encountering water under the condition that water enters the glasses-type eye massager 10, and further influencing the function of the glasses-type eye massager 10 when encountering water.
In one embodiment, the inductive screen 131 is a capacitive screen. Like this, through using the electric capacity screen, thereby the electric capacity screen can change the electric capacity of electric capacity screen when the user is pressed close to and make the human-computer interaction of response screen 131 more sensitive and then when using electric capacity screen control glasses formula eye massage appearance 10, avoided using the button operation, let the control of glasses formula eye massage appearance 10 more simple, the complicated operation that needs look for when having avoided using the button, and be equipped with the glass protective layer outside the electric capacity screen, can let the better protection of electric capacity screen. Meanwhile, the better touch feeling of the capacitive screen can lead the user to feel better when controlling the glasses-type eye massager 10, and the operation experience of the user is improved.
As shown in fig. 2, each of the two clamping legs 12 has an accommodating cavity 121, the electronic control assembly 13 includes a battery 132 and a circuit board 133 connected to the battery 132, the inductive screens 131 are electrically connected to the circuit board 133, the number of the inductive screens 131 and the number of the batteries 132 are two, one battery 132, one inductive screen 131 and the circuit board 133 are located in the accommodating cavity 121 of one of the clamping legs 12, the other battery 132 and the other inductive screen 131 are located in the accommodating cavity 121 of the other clamping leg 12, and the man-machine interaction functions of the two inductive screens 131 are configured to be different.
Wherein, can set to the control motor between a battery 132 and an induction screen 131 and can set to control motor etc. between another battery 132 and another induction screen 131, through making the induction screen 131 of both sides have different functions respectively, avoided glasses formula eye massager 10 maloperation to make user's experience obtain promoting.
Therefore, the clamping legs 12 having different man-machine interaction functions are provided to both sides, so that both sides of the glasses-type eye massager 10 can control different functions, a user can control different functions simultaneously using the left and right hands when controlling the glasses-type eye massager 10, and the operation of the glasses-type eye massager 10 is more convenient.
Of course, the utility model discloses not only be limited to this, can also use both sides all to have the same function, use certain one side just can control different functions to let the user can be through the various functions of one-hand control glasses formula eye massage appearance when using glasses formula eye massage appearance, and then make the control of glasses formula eye massage appearance simpler and easier.
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 present 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 present 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.